CN104548266A - Spherical gravitational venous transfusion monitor - Google Patents

Abstract

The invention provides a spherical gravitational venous transfusion monitor 1. The spherical gravitational venous transfusion monitor 1 is mainly formed by characteristic structure components such as a string bearing rod 2, a spherical synthetic bearing shell 3, a synthetic center assembling pipe 4, a flow control module 5, a fastening cap 6, a synthetic console surface 9, a loudspeaker 47, a flow control motor 61 and a photosensitive detection pipe 71. The spherical gravitational venous transfusion monitor provided by the invention can be matched with a common disposable gravitational venous transfusion device for use, and the integration design is suitable for a hospital application environment; the modernization requirement on venous transfusion management in the big data time can be fully met by a cut-off function, a warning function, a constant-speed transfusion function and the like; through the promotion and the application of the spherical gravitational venous transfusion monitor, a large amount of labor resources can be saved, unnecessary work of medical staff can be reduced, the operation load of the hospital can be reduced, the nursing service quality can be increased, and huge economic benefit and huge social benefit are obtained.

Description

A kind of ball-shape gravity vein transfusion monitor

Technical field

The invention provides a kind of ball-shape gravity vein transfusion monitor, be particularly a kind ofly applied to medical field, with drawing lines carrier bar, a kind of ball-shape gravity vein transfusion monitor that the defeated device of disposable gravity vein can be coordinated to use.

Background technology

Venous transfusion is the important medical treatment and nursing means of medical field disease therapy, is the requisite fluid infusion administrated method of inpatient; Venous transfusion occupies patient and entourage's a large amount of time, also inevitably occupies a large amount of human resources, is the intensive main cause of hospital patient entourage; In scientific and today that is technology, venous transfusion progress can adopt electronic monitoring to replace manual observations completely, the entourage of minimizing In-patient that like this can be a large amount of, while bringing great convenience to hidden danger both sides, also can reduce non-patient and take hospital's public resource, reduce Hospital operation cost, reduce medical worker and to work burden, improve nursing service quality, its promotion and application will produce huge economic benefit and social benefit.

In view of with above-mentioned reason, the follower in some these fields develops some venous transfusion electronic monitoring equipment, for replacing the manual observations of venous transfusion, photosensitive method mainly used by these electronic equipments, gravimetric method, pressure application, dynamic method etc., be directly used in the control of venous transfusion, cut-off, alarm and remote information transmission, nursing staff can be made to obtain the transfusion condition of patient the very first time, accomplish timely process; It is more thorough that these equipment are functionally considered, aspect of performance also can reach some one-side requirements substantially; It seems from integrated application situation, these products also commercially do not obtain universal and extensive use, its reason is: 1, first these products only take into account monitoring function, does not consider the conservative management of equipment, is not organically combined with the environment of hospital by equipment; Just adopt the ways such as extension, card because custodial care facility is less, the used time takes out, and is suspended on drip stand, or is stuck on transfusion pole, and the used time does not regain; Be not easy to management like this, also easily lose, also add administrative burden; 2, secondly, monitor simplicity of design, outward appearance does not meet armarium style and corresponding standard-required, can not combine together, differ greatly with the requirement of modern medical service infrastructure device with existing medical treatment electronic equipment; Because the existence of demand, designer introduces to the market with the soonest, sees for the purpose of benefit as early as possible, makes product lack Maturity; 3, monitoring method is numerous, because the demand of this respect just highlighted in recent years, so market there is multiple monitoring method and custodial care facility quickly, there is " blind area " in the choice in user, also do not know the monitor best performance selecting any method, any brand, welcoming by patient, also all not through the inspection in market, not there is " famous brand " in various monitor; 4, the glamour of monitor also does not fully play out, and inpatient and the medical personnel of the overwhelming majority also do not know there is such armarium, do not have the requirement of this respect; Also not because monitor affects inpatient's quantity; Therefore, can drag in this expenditure hospital one day is one day, and as other armarium, time patient and medical personnel recognize its importance by the time, hospital will competitively equip; 5, based on monitor, the condition of armarium is also immature, in free situation, the enthusiasm of this instrument of installations and facilities in hospital is not high, its economic benefit brought hospital and social benefit also do not highlight, therefore health care management layer does not also have corresponding management policy regulations regulation, such as allow charge, or be located as basic medical treatment equipment etc.; What many reasons was all direct or indirect in addition has had influence on its promotion and application, as follower and the inventor of this respect, offer the best custodial care facility, meets the market demand widely, solving the thing that problem existing in this field is responsibility, is very necessary.

Summary of the invention

Technical scheme

The invention provides a kind of ball-shape gravity vein transfusion monitor, be particularly a kind ofly applied to medical field, with drawing lines carrier bar, a kind of ball-shape gravity vein transfusion monitor that the defeated device of disposable gravity vein can be coordinated to use, in order to achieve the above object, technical scheme of the present invention is achieved in that described ball-shape gravity vein transfusion monitor 1, it is primarily of drawing lines carrier bar 2, spherical synthesis carrying housing 3, synthesis center assembling pipe 4, flow control module 5, fastening cap 6, synthesis module outer bayonet 7, synthesis flow control module inner card cage 8, synthesis manipulation table top 9, synthesis on and off switch 10, synthesis indicator lamp hole 11, synthesis battery compartment 12, signal antenna hole 13, speaker fitting recess 14, loudspeaker switch 15, synthesis manipulation keyhole 16, power cord jack 17, the principal character structural members such as synthetic thread road junction 18 are formed, load assembly and the line channel of its primary structure closes that to be drawing lines carrier bar 2 be monitor 1, it runs through to be assemblied in and carries the housing 3 synthesis center that is connected as a single entity and assemble in pipe 4 with synthesizing, drawing lines carrier bar 2 is assemblied on one section of carrier bar in synthesis center assembling pipe 4, has carrier bar line outlet 21, and carrier bar line outlet 21 is corresponding with the synthetic thread road junction 18 that synthesis center is assembled in pipe 4, hanging bottle stand can be assemblied on drawing lines carrier bar upper end 22, drawing lines carrier bar lower end 23 can be assemblied in the drip stand bar jack being positioned on sick bed, on stretcher or on the medical facilities such as transfusion chair, carrier bar incoming line 24 is had between carrier bar line outlet 21 and drawing lines carrier bar lower end 23, the upper center assembling pipe 25 of hemispherical upper shell 19, the lower center assembling pipe 26 of hemispherical lower house 20 are when upper-lower casing assembling one, and it is corresponding through up and down, forms synthesis center assembling pipe 4, the internal diameter of synthesis center assembling pipe 4 is greater than the external diameter of tubulose carrier bar 2, the joint face of pipe 25 is assembled at hemispherical upper shell 19 and upper center, is excessively upper round table surface 27, extend the Duan Shang center assembling pipe on upper round table surface 27, its termination is upper petal locking head 28, excessive pipe between upper petal-shaped locking head 28 and upper round table surface 27 there is the outer silk 29 of upper locking, with the fastening cap 6 that upper petal-shaped locking head 28 is supporting, can be sleeved on petal-shaped locking head 28, fastening cap internal thread 31 is meshed with the outer silk 29 of upper locking, the joint face of pipe 26 is assembled at hemispherical lower house 20 and lower center, is excessively lower round table surface 32, extend a Duan Xia center assembling pipe of lower round table surface 32, its termination is lower petal locking head 33, lower petal-shaped locking head 33 and the excessive pipe of hemispherical lower house 20 have the outer silk 34 of lower locking, with the fastening cap 6 that lower petal-shaped locking head 33 is supporting, can be sleeved on lower petal-shaped locking head 33, fastening internal thread 31 is meshed with the outer silk 34 of lower locking, the housing lower bayonet slot 36 of draw-in groove 35 and hemispherical lower house 20 side corresponding with it on the housing of hemispherical upper shell 19 side, its peripheral housing outwards extends to half protruding round platform respectively, and on housing, draw-in groove 35 and housing lower bayonet slot 36 lay respectively on half round platform table top of upper and lower projection, when upper and lower casing assembling one, corresponding formation synthesis module outer bayonet 7 up and down, the corresponding position assembling of flow control module 5 is wherein, , there is protruding upper manipulation table top 37 side adjacent with draw-in groove on housing 35 on hemispherical upper shell 19, , there is protruding lower manipulation table top 38 side adjacent with housing lower bayonet slot 36 on hemispherical lower house 20, and upper manipulation table top 37 and lower manipulation table top 38 assembling one form synthesis manipulation table top 9, synthesis roller switch mouth 60 on synthesis manipulation table top 9 is by notch 40 correspondence synthesis under notch on roller switch 39, roller switch, the part wheel face of the switch roller 41 of synthesis on and off switch 10 can expose from notch, manipulate in rear side housing corresponding to table top 9 with synthesis, have the upper battery compartment 42 synthesis battery compartment 12 that form corresponding to lower battery compartment 43, on the lower shell surface corresponding with battery compartment, have lower house to protrude platform 44, lower house protrudes the larger leading flank of platform and downside is respectively identified surface 45 and trade mark face 46, lower house, facing in housing immediately below manipulation table top, is equipped with speaker 47, loudspeaker switch 15 and the speaker fitting recess 14 corresponding with it, loudspeaker switch fitting recess 48, on the rear side lower house that operation bench face is corresponding, be provided with outlet 49, the upper shell spherical of operation bench left side of face has longitudinal signal antenna mount pipe 50, telescopic antenna 51 assembles wherein..

Described full-automatic gravity vein transfusion monitor 1, the basic structure of its spherical synthesis carrying housing 3 is the hemispherical shell that two diameter of sections are equal; In the housing of hemispherical upper shell 19, in upper battery compartment 42 side plate and flow control module, loading plate 52 is connected as a single entity, and upper loading plate has stopper slot 53 in upper flow control module; Upper center is assembled on the port of one end in its housing of pipe 25, has semicircle upper crossed beam trunking mouth 54; In the housing of hemispherical lower house 20, under the side of lower battery compartment 43 and flow control module, loading plate connects 55 and is integrated, and lower loading plate has stopper slot 56 in lower flow control module; Lower center is assembled on the port of one end in its housing of pipe 26, has semicircle lower crossed beam trunking mouth 57; In the assembly synthesis carrying housing 3 be made up of hemispherical upper shell 19 and hemispherical lower house 20, upper center assembling Guan25Yu Xia center assembling pipe 26 correspondence forms synthesis center assembling pipe 4; In upper flow control module, stopper slot 53 coordinates with stopper slot 56 in lower flow control module, forms synthesis flow control module inner card cage 8; In semicircle, crossed beam trunking mouth 54 forms synthetic thread road junction 18 with crossed beam trunking mouth 57 corresponding matching under semicircle.

Described ball-shape gravity vein transfusion monitor 1, its flow control module 5, carry housing 61 by flow control module, flow control motor 62, driving gear set 63, flow control tongue block drive the main elements such as screw mandrel 64, slip flow control tongue block 65, tongue block inner core 66, flow control module upper shell 67, flow control module lower house 68, backhaul limit switch 69, thrust switch 70, photosensitive monitoring pipe 71, tube for transfusion draw-in groove 72, the spacing slip cap 73 of tube for transfusion, slip cap litter 74, slip cap sliding button 75, back-moving spring 76, light-sensitive element protecting cover 77 to form; Flow control module carrying housing 61 is up-down structure, is coordinated form by flow control module upper shell 67, flow control module lower house 68; Upper and lower casing is upper and lower symmetrical structure, have upper flow control motor fitting recess 78, upper transfer gear box 79, upper flow control tongue block chute 80, upper litter sliding tray 81, termination upper latch notch 82, tube for transfusion upper limit position groove 83 in its upper shell, there is mutually corresponding light-sensitive element fitting recess 84 tube for transfusion upper limit position groove 83 both sides; In its lower house, there is bayonet socket 89, tube for transfusion lower limit groove 90 under the lower flow control motor fitting recess 85 corresponding with upper shell, lower transmissioning gear box 86, lower flow control tongue block chute 87, lower litter sliding tray 88, termination; When flow control module upper shell 67 and flow control module lower house 68 assembling one, upper flow control motor fitting recess 78 and lower flow control motor fitting recess 85 corresponding matching form synthesize flow control motor draw-in groove 91, flow control motor 62 assembles wherein; Upper transfer gear box 79 and lower transmissioning gear box 86 corresponding matching are formed synthesizes travelling gear box 92, and driving gear set 63 is assembled wherein; Upper flow control tongue block chute 80 and lower flow control tongue block chute 87 assemble form synthesize flow control chute 93, slip flow control tongue block 65 assembles wherein; Termination upper latch notch 82 forms with bayonet socket 89 corresponding matching under termination and synthesizes tube for transfusion bayonet socket 94; Upper litter sliding tray 81 and lower litter sliding tray 88 corresponding matching form synthesize litter groove 95, slip cap litter 74 assembles wherein; Photosensitive monitoring pipe 71 correspondence is assemblied in light-sensitive element fitting recess 84; Light-sensitive element protecting cover 77 is housed on light-sensitive element fitting recess 84.

Described ball-shape gravity vein transfusion monitor 1, its synthesis on and off switch 10 by switch roller 41, electrode separation plate 96, roller reach epimere 97, roller reach hypomere 98, lower switch stopper slot 99, electrode butt hole 100, electrode coil tension spring 101, upper bolster stake 102, upper bearing holes 103, top electrode bolster stake 104, top electrode bearing holes 105, upper spherical flexible electrode 106, upper conductor 107, lower wire 108, lower bolster stake 109, lower bearing holes 110, bottom electrode bolster stake 111, bottom electrode pilot hole 112, lower fixed electrode 113; In assembly, roller reach epimere 97 is assemblied in bearing holes 103; Roller reach hypomere 98 is assemblied in lower bearing holes 110; The lower switch stopper slot 99 of roller side is corresponding with the lower fixed electrode 113 be assemblied in below it in bottom electrode pilot hole 112, and lower fixed electrode 113 stretches in lower switch stopper slot 99; Upper spherical flexible electrode 106 above roller, electrode coil tension spring 101 are assemblied in top electrode bearing holes 105, on it, spherical flexible electrode 106 is corresponding with the lower fixed electrode 113 below switch roller 41; The wheel face of switch roller 41 is corresponding with synthesis roller switch mouth 60, and partial switch roller stretches out roller switch mouth, and switch roller 41 can Double-directional rotary, connects, power supply connection when it turns to electrode butt hole 100 with upper/lower electrode to upper/lower electrode time corresponding; Upper/lower electrode time corresponding is separated with upper/lower electrode when it turns to electrode separation plate 96, power-off.

Described ball-shape gravity vein transfusion monitor 1, its assembling fastening cap 6 is by fastening cap internal thread 31, and deflation annular mouth 58, anchor ring tread plate 59 are formed; The outer silk 29 of upper, upper locking of pipe is assembled at its fastening cap internal thread 31 and synthesis center, the outer silk 34 of lower locking engages; Tighten annular mouth 58, be fastening cap equal diameter ballhead, be less than the cross section mouth of its diameter.

Accompanying drawing explanation

Fig. 1 ball-shape gravity vein transfusion monitor assembly work state front view

Fig. 2 ball-shape gravity vein transfusion monitor front view

Fig. 3 ball-shape gravity vein transfusion monitor rearview

Fig. 4 ball-shape gravity vein transfusion monitor left view

Fig. 5 ball-shape gravity vein transfusion monitor right view

Fig. 6 ball-shape gravity vein transfusion monitor top view

View under Fig. 7 ball-shape gravity vein transfusion monitor

Fig. 8 ball-shape gravity vein transfusion monitor three-dimensional view

Left front-upper three-dimensional view of Fig. 9 spherical synthesis carrying housing inner structural member

Left front-lower three-dimensional view of Figure 10 spherical synthesis carrying housing inner structural member

Figure 11 spherical synthesis carrying housing inner structural member stereo rearview

Figure 12 spherical synthesis carrying housing front view

Figure 13 spherical synthesis carrying housing rearview

Figure 14 spherical synthesis carrying housing left view

Figure 15 spherical synthesis carrying housing right view

Figure 16 spherical synthesis carrying housing top view

View under Figure 17 spherical synthesis carrying housing

Figure 18 spherical synthesis carrying housing three-dimensional view

Figure 19 spherical synthesis carrying housing X-Y axial plane centre section view

Figure 20 spherical synthesis carrying housing Y-Z axial plane centre section view

Figure 21 hemispherical upper shell front view

Figure 22 hemispherical upper shell rearview

Figure 23 hemispherical upper shell left view

Figure 24 hemispherical upper shell right view

Figure 25 hemispherical upper shell top view

View under Figure 26 hemispherical upper shell

Figure 27 hemispherical upper shell three-dimensional view

Figure 28 hemispherical upper shell isometry three-dimensional view

Figure 29 hemispherical lower house front view

Figure 30 hemispherical lower house rearview

Figure 31 hemispherical lower house left view

Figure 32 hemispherical lower house right view

Figure 33 hemispherical lower house top view

View under Figure 34 hemispherical lower house

Figure 35 hemispherical lower house three-dimensional view

Figure 36 hemispherical lower house isometry three-dimensional view

Figure 37 flow control functions of modules parts front three-dimensional view

Right front-upper three-dimensional view of Figure 38 flow control functions of modules parts

Figure 39 flow control module carrying housing front view

Figure 40 flow control module carrying housing top view

Figure 41 flow control module carrying housing three-dimensional view

Figure 42 flow control module carrying housing right view

Figure 43 flow control module carrying housing A-A cross section view

Figure 44 flow control module carrying housing B-B cross section view

Figure 45 flow control module carrying housing C-C cross section view

Figure 46 flow control module carrying housing D-D cross section view

Figure 47 flow control module carrying housing E-E cross section view

Figure 48 flow control module carrying housing X-Y axial plane central cross-sectional view

Figure 49 flow control module upper shell top view

View under Figure 50 flow control module upper shell

Figure 51 flow control module upper shell right side view

Left front-upper three-dimensional view of Figure 52 flow control module upper shell

Right front-lower three-dimensional view of Figure 53 flow control module upper shell

Figure 54 flow control module lower house top view

View under Figure 55 flow control module lower house

Figure 56 flow control module lower house right side view

Left front-upper three-dimensional view of Figure 57 flow control module lower house

Right back-upper three-dimensional view of Figure 58 flow control module lower house

View under Figure 59 switch roller solid

Figure 60 switch roller perspective top view

Figure 61 roller switch left view

Figure 62 roller switch hemispherical upper casing installation position three-dimensional view

Figure 63 roller switch hemispherical lower casing installation position three-dimensional view

Figure 64 slip cap litter

Figure 65 fastening cap

1 ball-shape gravity vein transfusion monitor

2 drawing lines carrier bars

3 spherical synthesis carrying housings

4 synthesis center assembling pipes

5 flow control modules

6 fastening caps

7 synthesis module outer bayonets

8 synthesis flow control module inner card cages

9 synthesis manipulation table tops

10 synthesis on and off switch

11 synthesis indicator lamp holes

12 synthesis battery compartments

13 signal antenna holes

14 speaker fitting recess

15 loudspeaker switch

16 synthesis manipulation keyholes

17 power cord jack

18 synthetic thread road junctions

19 hemispherical upper shells

20 hemispherical lower houses

21 carrier bar line outlets

22 drawing lines carrier bar upper ends

23 drawing lines carrier bar lower ends

24 carrier bar incoming lines

Assembling pipe in center on 25

26 times center assembling pipes

Round table surface on 27

Petal locking head on 28

Outer silk is locked on 29

30 display lamps

31 fastening cap internal threads

32 times round table surfaces

33 times petal locking heads

34 times outer silks of locking,

Draw-in groove on 35 housings

36 housing lower bayonet slots

Table top is manipulated on 37

38 times manipulation table tops

Notch on 39 roller switches

Notch under 40 roller switches

41 switch rollers

Battery compartment on 42

43 times battery compartments

44 lower houses protrude platform

45 identified surfaces

46 trade mark faces

47 speakers

48 loudspeaker switch fitting recess

49 outlets

50 longitudinal signal antenna mount pipes

51 telescopic antennas

Loading plate in 52 flow control modules

Stopper slot in flow control module on 53

54 semicircle upper crossed beam trunking mouths

Loading plate under 55 flow control modules

Stopper slot in 56 times flow control modules

57 semicircle lower crossed beam trunking mouths

58 tighten annular mouth

59 anchor ring tread plates

60 synthesis roller switch mouths

61 flow control module carrying housings

62 flow control motors

63 driving gear set

64 flow control tongue blocks drive screw mandrel

65 slip flow control tongue blocks

66 tongue block inner cores

67 flow control module upper shells

68 flow control module lower houses

69 backhaul limit switches

70 thrust switches

71 photosensitive monitoring pipe

72 tube for transfusion draw-in grooves

The spacing slip cap of 73 tube for transfusion

74 slip cap litter

75 slip cap sliding buttons

76 back-moving springs

77 light-sensitive element protecting covers

Flow control motor fitting recess on 78

79 upper transfer gear boxes

Flow control tongue block chute on 80

Litter sliding tray on 81

82 termination upper latch notches

83 tube for transfusion upper limit position grooves

84 light-sensitive element fitting recess

85 times flow control motor fitting recess

86 lower transmissioning gear boxes

87 times flow control tongue block chutes

88 times litter sliding trays

Bayonet socket under 89 terminations

90 tube for transfusion lower limit grooves

91 synthesis flow control motor draw-in grooves

92 synthesis travelling gear boxes

93 synthesis flow control chutes

94 synthesis tube for transfusion bayonet sockets

95 synthesis litter grooves

96 electrode separation plates

97 roller reach epimeres

98 roller reach hypomeres

99 times switch stopper slots

100 electrode butt holes

101 electrode coil tension springs

Bolster stake on 102

Bearing holes on 103

104 top electrode bolster stakes

105 top electrode bearing holes

Spherical flexible electrode on 106

107 upper conductors

108 lower wires

109 times bolster stakes

110 times bearing holes

111 bottom electrode bolster stakes

112 bottom electrode pilot holes

113 times fixed electrodes.

Beneficial effect

Full-automatic gravity vein monitor provided by the present invention, volume is little, lightweight, and dependable performance is easy to use; Its promotion and application, will produce huge economic benefit and social benefit; Structure is simple, is convenient to manufacture, and also can use with existing coordinative composition of equipments, can save a large amount of raw material and manufacturing cost; The work that medical personnel are unnecessary in a large number can be reduced, improve nursing service quality, reduce patient painful, improve hospital environment etc.

Detailed description of the invention

Spherical full-automatic gravity vein transfusion monitor 1(is hereinafter referred to as monitor 1), it is by drawing lines carrier bar, carrying housing, and flow control module controls the primary structures such as table top and forms; Drawing lines carrier bar is supporting body and the cable tubing of monitor, can assemble one with monitor housing; The center assembling pipe of monitor housing, can be sleeved on drawing lines carrier bar, be fixed as one by upper and lower fastening cap; In assembly, monitor housing inside conductor hole is corresponding with the wire hole on drawing lines carrier bar, and data wire can directly be communicated with the power unit in monitor housing with power line; Monitor housing is carrier module, is the carrier of the original paper modules such as manipulation table top, battery compartment, electron plate; Hack lever on the diameter of drawing lines carrier bar and length and existing drip stand is suitable, and have the function of transfusion hack lever, transfusion hack lever can be replaced to use, and its lower end can insert sick bed, and transfusion arm-chair, in the drip stand bar jack on the armarium such as stretcher; Because wire is not drawn from the termination mouth of pipe, so the transposition of transfusion hack lever is unaffected; The extension bottle stand of common transfusion frame upper end can be assemblied in the upper end of wire carrier bar, and the lower end of wire carrier bar can also be assembled in the thicker carrier bar in common transfusion frame bottom, and hospital's existing equipment can make full use of.

Full-automatic gravity vein transfusion monitor 1, its structural design has taken into full account the environment for use of hospital, the design of its integration, be convenient to management and, avoid monitor because of small volume, take out during use, use the tedious work of rear withdrawal, it also avoid because small volume is easily lost, and volume is excessive comparatively takies local more shortcoming.

Full-automatic gravity vein transfusion monitor 1, the circular design of placed in the middle and its housing of its drawing lines carrier bar, meet carrying balance structural principle and visual angle balance aesthetic selection, can not lose stable because of centre-of gravity shift, also can not because of protrusion one side be in the way, affect attractive in appearance; The draw-in and draw-off function design of its flow control mechanical arm and monitoring machine mechanical arm, just in order to stable center of gravity, reduce volume, it is made to be unlikely to when not using, mechanical arm protrudes in the way to a side, it is attractive in appearance to affect, what be also unlikely to manufacture takies very greatly place, inconvenience management, more can not have influence on function because of small volume.

In use, because it is applicable to disposable gravity intravenous transfusion device, the market demand potential is huge; Because its design does not affect disposable gravity intravenous transfusion device performance, and make use of its potential function and its distinctive structure, its function is obtained further play and utilize: 1, be first power advantage, monitor utilize gravity infusion and non-powered transfusion, completely differently to infuse and pressure injection with power such as infusion pump, its safety is unquestionable, can not produce air Injection human body situation, and gravity infusion meets energy-saving principle; 2, be secondly disposable gravity intravenous transfusion device because function singleness, can not meet the demand that patient is growing, existing is eliminated progressively ejects the possibility in market; Because common disposable gravity intravenous transfusion device market use amount is huge, domestic production ability is huge, once lose the market demand, its huge production capacity, equipment will be huge wastes; The selection that huge labour force troop is also faced with unemployment or reemploys; Monitor 1 uses to be promoted, and by the potential that makes common disposable gravity intravenous transfusion device have and feature---transparent and gravity, obtain further exploitation, its science is embodied further, and vitality strengthens further, shines the life made new advances; 3, be again the demand of market to New function, the transfusion process of common disposable gravity intravenous transfusion device is that manpower takes care of the transfusion situation and transfusion process of observing patient for a long time always, because watching over the sick, transfusion occupies a large amount of human resources for a long time, applying of monitor can replace a large amount of human resourcess, the labour force freed can create huge value, also can alleviate hospital's pressure, save operation cost.

In the use of monitor, the operation sequence of medical personnel's conveniently disposable gravity venous transfusion, by the tube for transfusion of disposable gravity intravenous transfusion device entered under normal infusion state, put in the flow control draw-in groove of the monitor flow control mechanical arm after electric power starting, monitor will moment infusion monitoring situation, and the situation of infusing in real time is sent on the monitor of nurse station, nursing staff just can accurately grasp transfusion situation in nurse station, time accurate assurance, situation processes in time, reduce work unnecessary in a large number, service more puts in place, takees good care of more intimate.

Full-automatic gravity vein transfusion monitor, its drawing lines carrier bar uses metal material to make, such as stainless steel tube, not only non-corrosive, and bearing capacity is strong, and existing drip stand mostly adopts this material; Carrying housing, carrier, part such as functions of modules such as the manipulation of radio and tape player mechanical arm table top, fastening cap etc. can adopt injection moulding process to be processed into working of plastics respectively, are then assembled into assembly; Moulding manufacture of the present invention is simple, and nearly all moulding can adopt splits mould one-shot forming, and die manufacturing cost is low; Other matched metal part, electronic component etc. all adopt general part, ample supply and prompt delivery, purchase convenient and swift, are supplied with guarantee.

Claims (5)

1. a ball-shape gravity vein transfusion monitor (1), it is characterized by by drawing lines carrier bar (2), spherical synthesis carrying housing (3), synthesis center assembling pipe (4), flow control module (5), fastening cap (6), synthesis module outer bayonet (7), synthesis flow control module inner card cage (8), synthesis manipulation table top (9), synthesis on and off switch (10), synthesis indicator lamp hole (11), synthesis battery compartment (12), signal antenna hole (13), speaker fitting recess (14), loudspeaker switch (15), synthesis manipulation keyhole (16), power cord jack (17), the principal character structural members such as synthetic thread road junction (18) are formed, the load assembly that it be drawing lines carrier bar (2) is ball-shape gravity vein transfusion monitor (1) that its primary structure closes and line channel, it runs through to be assemblied in and carries housing (3) the synthesis center that is connected as a single entity and assemble and manage in (4) with synthesizing, drawing lines carrier bar (2) is assemblied on one section of carrier bar in synthesis center assembling pipe (4), has carrier bar line outlet (21), and it is corresponding that the synthetic thread road junction (18) of managing in (4) is assembled at carrier bar line outlet (21) and synthesis center, hanging bottle stand can be assemblied on drawing lines carrier bar upper end (22), drawing lines carrier bar lower end (23) can be assemblied in the drip stand bar jack being positioned on sick bed, on stretcher or on the medical facilities such as transfusion chair, carrier bar incoming line (24) is had between carrier bar line outlet (21) and drawing lines carrier bar lower end (23), upper center assembling pipe (25) of hemispherical upper shell (19), lower center assembling pipe (26) of hemispherical lower house (20) are when upper-lower casing assembling one, and it is corresponding through up and down, forms synthesis center assembling pipe (4), the internal diameter at synthesis center assembling pipe (4) is greater than the external diameter of drawing lines carrier bar (2), the joint face of managing (25) is assembled at hemispherical upper shell (19) and upper center, is excessively upper round table surface (27), extend the Duan Shang center assembling pipe on upper round table surface (27), its termination is upper petal locking head (28), excessive pipe between upper petal-shaped locking head (28) and upper round table surface (27) there is the outer silk (29) of upper locking, with the fastening cap (6) that upper petal-shaped locking head (28) is supporting, can be sleeved on petal-shaped locking head (28), fastening cap internal thread (31) is meshed with the outer silk (29) of upper locking, the joint face of managing (26) is assembled at hemispherical lower house (20) and lower center, is excessively lower round table surface (32), extend a Duan Xia center assembling pipe of lower round table surface (32), its termination is lower petal locking head (33), lower petal-shaped locking head (33) and the excessive pipe of hemispherical lower house (20) there is the outer silk (34) of lower locking, with the fastening cap (6) that lower petal-shaped locking head (33) is supporting, can be sleeved on lower petal-shaped locking head (33), fastening internal thread (31) is meshed with the outer silk (34) of lower locking, the housing lower bayonet slot (36) of draw-in groove (35) and hemispherical lower house (20) side corresponding with it on the housing of hemispherical upper shell (19) side, its peripheral housing outwards extends to half protruding round platform respectively, and on housing, draw-in groove (35) and housing lower bayonet slot (36) lay respectively on half round platform table top of upper and lower projection, when upper and lower casing assembling one, corresponding formation synthesis module outer bayonet (7) up and down, the corresponding position assembling of flow control module (5) is wherein, , there is protruding upper manipulation table top (37) side adjacent with draw-in groove on housing (35) on hemispherical upper shell (19), , there is protruding lower manipulation table top (38) side adjacent with housing lower bayonet slot (36) on hemispherical lower house (20), and upper manipulation table top (37) and lower manipulation table top (38) assembling one form synthesis manipulation table top (9), synthesis roller switch mouth (60) on synthesis manipulation table top (9) is by notch (40) correspondence synthesis under notch on roller switch (39), roller switch, the part wheel face of the switch roller (41) of synthesis on and off switch (10) can expose from notch, manipulate in rear side housing corresponding to table top (9) with synthesis, have upper battery compartment (42) the synthesis battery compartment (12) that form corresponding to lower battery compartment (43), on the lower shell surface corresponding with battery compartment, have lower house to protrude platform (44), lower house protrudes the larger leading flank of platform and downside is respectively identified surface (45) and trade mark face (46), lower house, facing in housing immediately below manipulation table top, is equipped with speaker (47), loudspeaker switch (15) and the speaker fitting recess (14) corresponding with it, loudspeaker switch fitting recess (48), on the rear side lower house that operation bench face is corresponding, be provided with outlet (49), the upper shell spherical of operation bench left side of face has longitudinal signal antenna mount pipe (50), telescopic antenna (51) assembling wherein.

2. full-automatic gravity vein transfusion monitor (1) according to claim 1, the basic structure that it is characterized by spherical synthesis carrying housing (3) is the hemispherical shell that two diameter of sections are equal; In the housing of hemispherical upper shell (19), in upper battery compartment (42) side plate and flow control module, loading plate (52) is connected as a single entity, and upper loading plate has stopper slot (53) in upper flow control module; The assembling of upper center is managed on the port of one end in (25) its housing, has semicircle upper crossed beam trunking mouth (54); In the housing of hemispherical lower house (20), under the side of lower battery compartment (43) and flow control module, loading plate connects (55) and is integrated, and lower loading plate has stopper slot (56) in lower flow control module; The assembling of lower center is managed on the port of one end in (26) its housing, has semicircle lower crossed beam trunking mouth (57); In the assembly be made up of hemispherical upper shell (19) and hemispherical lower house (20) spherical synthesis carrying housing (3), upper center assembling pipe (25) and lower center are assembled and are managed that (26) are corresponding to be formed synthesis center and assemble and manage (4); In upper flow control module, stopper slot (53) coordinates with stopper slot (56) in lower flow control module, forms synthesis flow control module inner card cage (8); In semicircle, crossed beam trunking mouth (54) forms synthetic thread road junction (18) with crossed beam trunking mouth (57) corresponding matching under semicircle.

3. full-automatic gravity vein transfusion monitor (1) according to claim 1, it is characterized by flow control module (5), housing (61) is carried by flow control module, flow control motor (62), driving gear set (63), flow control tongue block drives screw mandrel (64), slip flow control tongue block (65), tongue block inner core (66), flow control module upper shell (67), flow control module lower house (68), backhaul limit switch (69), thrust switch (70), photosensitive monitoring pipe (71), tube for transfusion draw-in groove (72), the spacing slip cap of tube for transfusion (73), slip cap litter (74), slip cap sliding button (75), back-moving spring (76), the main elements such as light-sensitive element protecting cover (77) are formed, flow control module carrying housing (61) is up-down structure, is coordinated form by flow control module upper shell (67), flow control module lower house (68), upper and lower casing is upper and lower symmetrical structure, have upper flow control motor fitting recess (78), upper transfer gear box (79), upper flow control tongue block chute (80), upper litter sliding tray (81), termination upper latch notch (82), tube for transfusion upper limit position groove (83) in its upper shell, there is mutually corresponding light-sensitive element fitting recess (84) tube for transfusion upper limit position groove (83) both sides, in its lower house, there is bayonet socket (89), tube for transfusion lower limit groove (90) under the lower flow control motor fitting recess (85) corresponding with upper shell, lower transmissioning gear box (86), lower flow control tongue block chute (87), lower litter sliding tray (88), termination, when flow control module upper shell (67) and flow control module lower house (68) assembling one, upper flow control motor fitting recess (78) and lower flow control motor fitting recess (85) corresponding matching form synthesize flow control motor draw-in groove (91), flow control motor (62) assembles wherein, upper transfer gear box (79) and lower transmissioning gear box (86) corresponding matching are formed synthesizes travelling gear box (92), and driving gear set (63) assembling wherein, upper flow control tongue block chute (80) and lower flow control tongue block chute (87) assemble form synthesize flow control chute (93), slip flow control tongue block (65) assembles wherein, under termination upper latch notch (82) and termination, bayonet socket (89) corresponding matching forms and synthesizes tube for transfusion bayonet socket (94), upper litter sliding tray (81) and lower litter sliding tray (88) corresponding matching form synthesize litter groove (95), slip cap litter (74) assembles wherein, photosensitive monitoring pipe (71) correspondence is assemblied in light-sensitive element fitting recess (84), light-sensitive element protecting cover (77) is housed on light-sensitive element fitting recess (84).

4. full-automatic gravity vein transfusion monitor (1) according to claim 1, it is characterized by synthesis on and off switch (10) by switch roller (41), electrode separation plate (96), roller reach epimere (97), roller reach hypomere (98), lower switch stopper slot (99), electrode butt hole (100), electrode coil tension spring (101), upper bolster stake (102), upper bearing holes (103), top electrode bolster stake (104), top electrode bearing holes (105), upper spherical flexible electrode (106), upper conductor (107), lower wire (108), lower bolster stake (109), lower bearing holes (110), bottom electrode bolster stake (111), bottom electrode pilot hole (112), lower fixed electrode (113), , in assembly, roller reach epimere (97) is assemblied in bearing holes (103), roller reach hypomere (98) is assemblied in lower bearing holes (110), the lower switch stopper slot (99) of roller side is corresponding with the lower fixed electrode (113) be assemblied in below it in bottom electrode pilot hole (112), and lower fixed electrode (113) is stretched in lower switch stopper slot (99), upper spherical flexible electrode (106) above roller, electrode coil tension spring (101) are assemblied in top electrode bearing holes (105), on it, spherical flexible electrode (106) is corresponding with the lower fixed electrode (113) below switch roller (41), the wheel face of switch roller (41) is corresponding with synthesis roller switch mouth (60), partial switch roller stretches out roller switch mouth, switch roller (41) can Double-directional rotary, connects with upper/lower electrode when it turns to electrode butt hole (100) to upper/lower electrode time corresponding, and power supply is connected, upper/lower electrode time corresponding is separated with upper/lower electrode when it turns to electrode separation plate (96), power-off.

5. full-automatic gravity vein transfusion monitor (1) according to claim 1, is characterized by fastening cap (6) by fastening cap internal thread (31), tightens annular mouth (58), anchor ring tread plate (59) is formed; The outer silk (29) of upper, upper locking of pipe is assembled at its fastening cap internal thread (31) and synthesis center, the outer silk (34) of lower locking engages; Tighten annular mouth (58), be fastening cap equal diameter ballhead, be less than the cross section mouth of its diameter.