CN114146247A

CN114146247A - Medical infusion support capable of controlling flow speed

Info

Publication number: CN114146247A
Application number: CN202111389688.3A
Authority: CN
Inventors: 邱新华
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-03-08

Abstract

The invention relates to a transfusion stand, in particular to a medical transfusion stand capable of controlling flow speed. The invention provides a medical infusion support with controllable flow rate, which is provided with a component capable of controlling the flow rate of a liquid medicine in an infusion tube and can fix the component. The invention provides a medical infusion support capable of controlling flow rate, which comprises a bottom plate, wherein the bottom of the bottom plate is uniformly and rotatably connected with four moving wheels at intervals along the circumferential direction; the installation pipe, bottom plate top intermediate junction has the installation pipe, and wherein one side of installation pipe is evenly spaced along the axial has the first draw-in groove of multichannel. When the infusion support is used, an infusion bottle can be hung according to the telescopic mechanism, the height of the infusion bottle can be adjusted through the telescopic mechanism when the infusion bottle is hung, and the flow rate of liquid medicine in an infusion tube can be adjusted through the control mechanism, so that the effect of adjusting the flow rate of the liquid medicine in the infusion tube is achieved.

Description

Medical infusion support capable of controlling flow speed

Technical Field

The invention relates to a transfusion stand, in particular to a medical transfusion stand capable of controlling flow speed.

Background

Infusion therapy is a common treatment mode in modern society, and an infusion bottle is usually hung on an infusion support and then is infused in the infusion treatment process, so the infusion support is often used in the infusion treatment process.

Through retrieval, the patent of granted patent publication No. CN210873367U discloses an infusion support, and this infusion support includes the bracing piece, sets up the couple in bracing piece upper end, the below of bracing piece sets up supporting component, an infusion support still includes the tray that the bracing piece passed perpendicularly, the height-adjustable of tray on the bracing piece. The invention has the advantages that: the invention disperses the pressure of some hooks by arranging the tray, thus preventing the bag containing the flushing liquid from being broken due to hanging. The above patents suffer from the following disadvantages: the part that is used for controlling the inside liquid medicine velocity of flow of transfer line is not provided with, directly adjusts through the velocity of flow regulator of taking certainly in the transfer line, and the velocity of flow regulator slides on the transfer line easily after using for a long time, and the velocity of flow regulator can influence the velocity of flow of the inside liquid medicine of transfer line after sliding, and infusion speed is too fast, easily aggravates heart pressure, cause side effects such as heart failure or pulmonary edema, infusion speed is too slow, influence the blood concentration of medicine again easily.

Therefore, it is necessary to develop a medical flow rate controllable infusion stand provided with a member capable of controlling the flow rate of a medical fluid in an infusion tube and capable of fixing the member.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the flow rate regulator is directly regulated by the flow rate regulator in the infusion tube, and the flow rate regulator is easy to slide on the infusion tube after long use and can influence the flow rate of the liquid medicine in the infusion tube.

(2) Technical scheme

In order to solve the technical problem, the invention provides a medical infusion support capable of controlling the flow rate, which comprises a bottom plate, wherein four moving wheels are rotationally connected to the bottom of the bottom plate at equal intervals along the circumferential direction; the middle of the top of the bottom plate is connected with a mounting pipe, a plurality of first clamping grooves are uniformly formed in one side of the mounting pipe at intervals along the axial direction, a plurality of second clamping grooves are uniformly formed in the upper parts of the other two sides of the mounting pipe at intervals along the axial line, and a sliding groove is formed in one side of the mounting pipe, which is far away from the first clamping grooves; the telescopic mechanism is arranged in the mounting pipe; the control mechanism is arranged on the telescopic mechanism; and the control mechanism is provided with a limiting mechanism.

Preferably, the telescopic mechanism comprises a telescopic rod, and the telescopic rod is connected in the installation pipe in a sliding manner; the top of the telescopic rod is connected with a hook; the lower part of one side of the telescopic rod is connected with a first clamping block which can be clamped into the first clamping groove in a sliding manner; and a first reset spring is connected between the first clamping block and the telescopic rod.

Preferably, the control mechanism comprises a first mounting block, and the telescopic rod is connected with the first mounting block in a sliding manner; one side of the first mounting block is connected with a screw capable of fixing the first mounting block on the telescopic rod through threads; the first mounting block is connected with the box body; one side of the box body is connected with a positioning block; the other side of the box body is rotatably connected with a rotating rod, and the rotating rod is connected with an extrusion wheel and a tooth-missing ratchet wheel; the inner side wall of the box body is connected with the mounting plate; the mounting plate is connected with the movable rod in a sliding manner; one side of the movable rod is connected with a ratchet block which can clamp the tooth-missing ratchet; the common spring is sleeved on the movable rod, and two ends of the common spring are respectively connected to the ratchet block and the mounting plate.

Preferably, the limiting mechanism comprises a pulling plate, and the middle part of one side of the box body is connected with the pulling plate in a sliding manner; the pull plate is connected with a first connecting frame capable of sliding on the box body; the pull plate is sleeved with a second return spring, and two ends of the second return spring are respectively connected to the first connecting frame and the box body; the upper part and the lower part outside the box body are both connected with the guide blocks; the upper part and the lower part outside the box body are both connected with fixed blocks; the fixed block is hinged with a hinge block; the first torsion spring is connected between the hinge block and the fixed block; the hinge block is slidably connected with a second clamping block which can be clamped in the fixing block; a third reset spring is connected between the second clamping block and the hinging block; first stay cord all is connected with first stay cord on two articulated pieces, and two first stay cords are walked around two guide blocks respectively and are connected with first link both sides.

Preferably, the device also comprises a placing mechanism, the placing mechanism comprises a mounting disc, and the mounting tube is connected with the mounting disc capable of sliding on the sliding chute in a sliding manner; the middle part in the mounting disc is connected with a placing plate which can slide on the sliding chute, and the placing plate is sleeved outside the mounting pipe; the handle is connected with one side of the top of the placing plate; the lower part of the mounting disc is connected with a pull rod in a sliding way; the upper part of the pull rod is hinged with two clamping plates which can be clamped in the second clamping grooves, and the clamping plates are propped against the mounting pipe; the first connecting spring is connected between the two clamping plates.

Preferably, the heating device also comprises a heating mechanism, the heating mechanism comprises a support frame, and one side of the top of the placing plate is connected with the support frame; the top of the supporting frame is connected with the heat preservation box; one side of the heat preservation box is rotatably connected with two baffles; two second torsion springs are connected between the two baffle plates and the heat preservation box; hinged plates are symmetrically hinged to two sides of the heat preservation box; the extrusion block is connected in the heat insulation box in a sliding manner; the pressing rod capable of pushing the extrusion block to move is connected to the extrusion block in a sliding mode and can slide on the heat preservation box; the bottom of the pressure rod is connected with a connecting rod; and the lower parts of two sides of the pressing rod are sleeved with fourth reset springs, and two ends of each of the two fourth reset springs are respectively connected to two sides of the top of the connecting rod and two sides of the bottom of the heat preservation box.

Preferably, the insulation box further comprises an isolation mechanism, the isolation mechanism comprises a second mounting block, and the two sides of the bottom of the insulation box are both connected with the second mounting block; one side surface of each of the two sides of the second mounting blocks, which is close to each other, is connected with a second connecting spring; one ends, close to each other, of the two second connecting springs are connected with second connecting frames capable of sliding at the bottom of the heat preservation box; the second pull rope is connected between the second connecting frames on the two sides; the two sides of the bottom of the heat preservation box are both connected with guide rings, the guide rings are positioned on the inner side of the second connecting frame, and the second pull rope penetrates through the two guide rings; the middle part of the second pull rope is connected with a third pull rope, and the third pull rope is connected with the middle part of the connecting rod; the top of the second connecting frame is connected with an isolation arc plate which is positioned in the heat insulation box.

Preferably, the clamping device also comprises a clamping mechanism, the clamping mechanism comprises a mounting ring, and the outer arc surface of the mounting disc is connected with the mounting ring; the rotating block is connected in the mounting ring in a sliding manner; and the rotating block is connected with a third clamping block.

(3) The invention has the beneficial effects that:

1. when the infusion support is used, an infusion bottle can be hung according to the telescopic mechanism, the height of the infusion bottle can be adjusted through the telescopic mechanism when the infusion bottle is hung, the flow rate of liquid medicine in an infusion tube can be adjusted through the control mechanism, the effect of adjusting the flow rate of the liquid medicine in the infusion tube is achieved, and the control mechanism can be fixed on the telescopic mechanism through the screw rod when in use, so that the effect of fixing the control mechanism is achieved.

2. When the infusion tube is placed, the infusion tube can be sleeved by the limiting mechanism, so that the effect of limiting the infusion tube is realized, and the infusion tube is prevented from being influenced by the displacement of the infusion tube.

3. The user can place some medical article or the fruit that the patient need eat on putting the mechanism to the realization is placed the effect of article, and puts the mechanism and can height-adjusting, makes patient or doctor more convenient when article need be taken.

4. The liquid medicine in the infusion tube is slightly heated through the operation of the heating mechanism and the isolation mechanism, so that the effect of heating the liquid medicine in the infusion tube is realized, and the phenomenon that the blood vessel of a patient is stimulated by the supercooling of the liquid medicine is avoided.

5. When a patient wants to move, the patient can assist the infusion support to move through the moving wheels, so that the patient can move more conveniently when the patient wants to move.

6. When the patient needs to have a rest, the infusion support can be fixed by the clamping mechanism, so that the effect of fixing the infusion support when the patient needs to have a rest is realized, and infusion support displacement influencing infusion is avoided when the patient needs to have a rest.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a partial perspective sectional view of the telescopic mechanism of the present invention.

Fig. 5 is an enlarged partial sectional view at a of the present invention.

Fig. 6 is a schematic view of a first partially assembled structure of the control mechanism and the limiting mechanism of the present invention.

Fig. 7 is a schematic view of a second partially-separated body structure of the control mechanism and the limiting mechanism of the invention.

Fig. 8 is a partial perspective sectional view of the control mechanism and the limiting mechanism of the present invention.

Fig. 9 is an enlarged partial sectional view at B of the present invention.

Fig. 10 is a partial perspective sectional view of the control mechanism of the present invention.

Fig. 11 is a cross-sectional view of a first partial body construction of the placement mechanism of the present invention.

Fig. 12 is a cross-sectional view of a second partial body construction of the placement mechanism of the present invention.

Fig. 13 is a schematic view of a first partial body structure of the heating mechanism and the isolation mechanism of the present invention.

Fig. 14 is a schematic view of a second partial body structure of the heating mechanism and the isolation mechanism of the present invention.

Fig. 15 is a partial perspective sectional view of the heating mechanism and the isolation mechanism of the present invention.

Fig. 16 is a perspective view of a third portion of the heating mechanism and isolation mechanism of the present invention.

Fig. 17 is a schematic partial perspective view of the jamming mechanism of the present invention.

The labels in the figures are: 1-moving wheel, 2-bottom plate, 3-mounting tube, 31-first clamping groove, 32-second clamping groove, 33-sliding groove, 4-telescopic mechanism, 41-telescopic rod, 42-hook, 43-first return spring, 44-first clamping block, 5-control mechanism, 51-first mounting block, 52-screw rod, 53-box body, 54-positioning block, 55-rotating rod, 56-extrusion wheel, 57-toothless ratchet wheel, 58-mounting plate, 59-movable rod, 510-common spring, 511-ratchet block, 6-limiting mechanism, 61-pulling plate, 62-second return spring, 63-first connecting frame, 64-guide block, 65-fixing block, 66-first torsion spring, 67-hinged block, 68-a first pull rope, 69-a third return spring, 610-a second clamping block, 7-a placement mechanism, 71-a mounting plate, 72-a placement plate, 73-a handle, 74-a pull rod, 75-a clamping plate, 76-a first connecting spring, 8-a heating mechanism, 81-a support frame, 82-a heat preservation box, 83-a baffle, 84-a second torsion spring, 85-a hinged plate, 86-a squeezing block, 87-a pressure rod, 88-a connecting rod, 89-a fourth return spring, 9-an isolation mechanism, 91-a second mounting block, 92-a second connecting spring, 93-a second connecting frame, 94-a guide ring, 95-a second pull rope, 96-a third pull rope, 97-an isolation arc plate, 10-a clamping mechanism and 101-a mounting ring, 102-turning block, 103-third fixture block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A medical infusion support capable of controlling flow rate is disclosed, as shown in figures 1-10, and comprises a moving wheel 1, a bottom plate 2, a mounting tube 3, a telescopic mechanism 4, a control mechanism 5 and a limiting mechanism 6, wherein the bottom of the bottom plate 2 is rotatably connected with four moving wheels 1 at even intervals along the circumferential direction, the moving wheels 1 are used for assisting in moving, the mounting tube 3 is connected in the middle of the top of the bottom plate 2, a plurality of first clamping grooves 31 are uniformly arranged at intervals along the axial direction on the front side of the mounting tube 3, a plurality of second clamping grooves 32 are uniformly arranged at intervals along the axial line on the upper parts of the left side and the right side of the mounting tube 3, a chute 33 is arranged on the rear side of the mounting tube 3, the telescopic mechanism 4 is arranged in the mounting tube 3, the telescopic mechanism 4 is used for placing an infusion tube, the control mechanism 5 is arranged on the telescopic mechanism 4, the control mechanism 5 is used for controlling the flow rate of the infusion tube, the limiting mechanism 6 is arranged on the control mechanism 5, the limiting mechanism 6 is used for limiting the infusion tube.

The telescopic mechanism 4 comprises a telescopic rod 41, a hook 42, a first return spring 43 and a first fixture block 44, the telescopic rod 41 is connected with the mounting pipe 3 in a sliding manner, the top of the telescopic rod 41 is connected with the hook 42, an infusion bottle is placed on the hook 42, the lower part of the front side of the telescopic rod 41 is connected with the first fixture block 44 in a sliding manner, the first fixture block 44 can be clamped into the first clamping groove 31, and the first return spring 43 is connected between the first fixture block 44 and the telescopic rod 41.

The control mechanism 5 comprises a first mounting block 51, a screw rod 52, a box body 53, a positioning block 54, a rotating rod 55, an extrusion wheel 56, a tooth-lacking ratchet wheel 57, a mounting plate 58, a movable rod 59, a common spring 510 and a ratchet block 511, the telescopic rod 41 is connected with the first mounting block 51 in a sliding way, the right side of the first mounting block 51 is connected with the screw rod 52 through threads, the first mounting block 51 can be fixed on the telescopic rod 41 by the screw rod 52, the box body 53 is connected with the front side of the first mounting block 51, the positioning block 54 is connected with the right side of the box body 53, the rotating rod 55 is connected with the left side of the box body 53 in a rotating way, the extrusion wheel 56 and the tooth-lacking ratchet wheel 57 are connected with the rear side of the rotating rod 55, the tooth-lacking ratchet wheel 57 is positioned at the rear side of the extrusion wheel 56, the lower part of the extrusion wheel 56 is arranged in a protruding way, the extrusion wheel 56 can control the flow rate of the infusion tube, the protruding part of the tooth-lacking ratchet wheel 57 is aligned with the tooth-having part of the tooth, the mounting plate 58 is connected with the mounting plate 58 on the inner rear side wall of the box body 53, the front side of the mounting plate 58 is connected with a movable rod 59 in a sliding mode, the left side of the movable rod 59 is connected with a ratchet block 511, the ratchet block 511 can clamp the tooth-missing ratchet wheel 57, the movable rod 59 is sleeved with a common spring 510, and two ends of the common spring 510 are connected to the right side of the ratchet block 511 and the left side of the mounting plate 58 respectively.

The limiting mechanism 6 comprises a pulling plate 61, a second return spring 62, a first connecting frame 63, a guide block 64, a fixed block 65, a first torsion spring 66, a hinge block 67, a first pull rope 68, a third return spring 69 and a second clamping block 610, the pulling plate 61 is connected with the middle part of the right side of the box 53 in a sliding manner, the first connecting frame 63 is connected with the left side of the pulling plate 61, the first connecting frame 63 can slide on the box 53, the second return spring 62 is sleeved on the pulling plate 61, two ends of the second return spring 62 are respectively connected with the right side of the first connecting frame 63 and the inner right side wall of the box 53, the guide block 64 and the fixed block 65 are connected with the outer upper part and the lower part of the box 53, the fixed block 65 is positioned on the left side of the guide block 64, the hinge block 67 is connected with the hinge block 65 in a hinged manner, the hinge block 67 and the fixed block 65 can limit the transfusion tube, the first torsion spring 66 is connected between the hinge block 67 and the fixed block 65, the second clamping block 610 is connected with the slide manner on the block 67, the second fixture block 610 can be clamped into the fixing block 65, a third return spring 69 is connected between the second fixture block 610 and the hinge blocks 67, the two hinge blocks 67 are connected with first pull ropes 68, and the two first pull ropes 68 are connected with the upper side and the lower side of the first connecting frame 63 by bypassing the two guide blocks 64 respectively.

Firstly, a user can hang an infusion bottle on the hook 42, after the infusion bottle is hung, the pull plate 61 is pulled to move rightwards, the pull plate 61 moves rightwards to drive the first connecting frame 63 to move rightwards, the second return spring 62 is compressed, the first connecting frame 63 moves rightwards to drive the first pull rope 68 to move rightwards, the first pull rope 68 pulls the hinge block 67 to swing when moving rightwards, the first torsion spring 66 is compressed, the hinge block 67 drives the second fixture block 610 and the third return spring 69 to move together when swinging, the second fixture block 610 is pressed by the fixed block 65 to move inwards the hinge block 67 when moving, the third return spring 69 is compressed, when the second fixture block 610 moves to be out of contact with the fixed block 65, the second fixture block 610 resets under the action of the third return spring 69, when the hinge block 67 swings to a certain degree, the infusion tube can be placed between the two fixed blocks 65 and the hinge block 67, and the infusion tube is positioned on the positioning block 54, after the infusion tube is placed, the first connecting frame 63 is loosened, at this time, the pull plate 61 and the first connecting frame 63 are reset under the action of the second reset spring 62, the first pull rope 68 is not pulled any more after the first connecting frame 63 is reset, at this time, the hinge block 67 is reversely swung and reset under the action of the first torsion spring 66, the hinge block 67 drives the second fixture block 610 and the third reset spring 69 to move together when swinging reversely, after the second fixture block 610 moves to be in contact with the fixed block 65, the second fixture block 610 continues to move and is extruded by the fixed block 65 to move towards the hinge block 67, the third reset spring 69 is compressed, when the second fixture block 610 moves to the original position, the second fixture block 610 is reset and clamped on the fixed block 65 under the action of the third reset spring 69, so that the infusion tube is sleeved, the infusion tube is limited, and then a doctor inserts a needle into a blood vessel of a patient to perform infusion, in the process of infusion, the rotating rod 55 can be twisted to drive the extrusion wheel 56 and the toothless ratchet wheel 57 to rotate, the upper convex part of the extrusion wheel 56 can be contacted with an infusion tube when the extrusion wheel 56 rotates, after the convex part of the extrusion wheel 56 rotates to be contacted with the infusion tube, the extrusion wheel 56 continues to rotate and can extrude the infusion tube through the convex part on the extrusion wheel, so as to adjust the flow rate of liquid medicine in the infusion tube, the toothless ratchet wheel 57 can be contacted with the ratchet block 511 when the toothless ratchet wheel 57 rotates, after the toothless ratchet wheel 57 moves to be contacted with the ratchet block 511, the toothless ratchet wheel 57 continues to rotate to extrude the ratchet block 511 to move rightwards, the common spring 510 is compressed, after the toothless ratchet wheel 57 is adjusted to a proper position, the toothless ratchet wheel 511 resets under the action of the common spring 510 to clamp the toothless ratchet wheel 57, if a patient wants to move during infusion, the patient can be pulled to move through the moving wheel 1, the infusion support can be used, the flow rate of liquid medicine in an infusion tube can be adjusted in the using process, the patient can move conveniently, when the extrusion wheel 56 does not extrude the infusion tube any more, the twisting rotating rod 55 continues to rotate to drive the extrusion wheel 56 and the tooth-lacking ratchet wheel 57 to continue to rotate until the part, which is not provided with the latch, on the tooth-lacking ratchet wheel 57 rotates to be aligned with the ratchet block 511, the protruding part on the extrusion wheel 56 is not contacted with the infusion tube any more, so that the infusion tube is not extruded any more, when the infusion tube needs to be taken out, the infusion tube can be taken out by pulling the pull plate 61 to move rightwards again, after the infusion tube is taken out, the pull plate 61 is loosened, when the height needs to be adjusted, the telescopic rod 41 can be pulled to move upwards along the installation tube 3 for adjustment, the telescopic rod 41 drives the first latch 44 to move upwards when moving upwards, when the first latch 44 moves upward to contact with the mounting tube 3, the first latch 44 continues to move upward and is pressed by the mounting tube 3 to move toward the inside of the telescopic rod 41, the first return spring 43 is compressed, and when the first latch 44 moves upward to align with the other first locking slot 31, the first latch 44 is reset and is again latched into the first latch groove 31 under the action of the first return spring 43, and this is repeated, when the height of the telescopic rod 41 is adjusted to a proper position and the first block 44 is clamped into the first clamping groove 31, the telescopic rod 41 is loosened, when needs make telescopic link 41 reset, press telescopic link 41 move down can, when the height of first installation piece 51 is adjusted to needs, twist screw rod 52 earlier and loosen first installation piece 51 on telescopic link 41, pull first installation piece 51 again and reciprocate along telescopic link 41 and adjust, after the regulation finishes, twist screw rod 52 again and with first installation piece 51 fixed can at telescopic link 41.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 3, 11 and 12, the device further includes a placement mechanism 7, the placement mechanism 7 is used for placing an object, the placement mechanism 7 includes a mounting disc 71, a placement plate 72, a handle 73, a pull rod 74, a clamping plate 75 and a first connecting spring 76, the mounting tube 3 is slidably connected with the mounting disc 71, the mounting disc 71 can slide on the sliding slot 33, the placement plate 72 is connected to the middle portion of the mounting disc 71 and used for placing the object, the placement plate 72 is sleeved on the outer side of the mounting tube 3, the placement plate 72 can slide on the sliding slot 33, the handle 73 is connected to the rear side of the top of the placement plate 72, the pull rod 74 is slidably connected to the lower portion of the mounting disc 71, the upper portion of the pull rod 74 is hinged with two clamping plates 75, the clamping plates 75 are located in a gap between the mounting disc 71 and the placement plate 72, the clamping plates 75 abut against the mounting tube 3, the clamping plates 75 can be clamped into the second clamping slots 32, a first connecting spring 76 is connected between the rear sides of the two catch plates 75.

When the clamping plates 75 abut against the mounting tube 3, the first connecting spring 76 is in a compressed state, when the infusion support is used, articles such as medical supplies or fruits eaten by patients can be placed on the placing plate 72, when the heights of the mounting plate 71 and the placing plate 72 need to be adjusted, the handle 73 can be pulled to drive the mounting plate 71 and the placing plate 72 to move up and down along the sliding groove 33 for adjustment, when the mounting plate 71 and the placing plate 72 move to a proper height and the clamping plates 75 on the left side and the right side and the second clamping grooves 32 on the left side and the right side are at the same height, the pull rod 74 can be pushed to move towards the mounting tube 3, the pull rod 74 drives the two clamping plates 75 to move together when moving, when the clamping plates 75 move to be aligned with the second clamping grooves 32, the two clamping plates 75 are clamped into the two second clamping grooves 32 under the action of the first connecting spring 76, so that the mounting plate 71 and the placing plate 72 are fixed, and when the infusion support needs to be adjusted again, pulling pull rod 74 removes towards keeping away from installation pipe 3 direction, pull rod 74 drives two cardboard 75 when removing and removes together, cardboard 75 can break away from with second draw-in groove 32 moving, at this moment cardboard 75 can receive installation pipe 3 extrusion swing, first connecting spring 76 is compressed once more, when cardboard 75 removes to breaking away from with second draw-in groove 32, can stimulate mounting disc 71 once more and put the removal of board 72, so relapse, just can realize the effect of placing object article, and can adjust the height of placing, be convenient for the patient to take.

Example 3

Based on the embodiment 2, as shown in fig. 1, 3, 13, 14, 15, 16 and 17, the infusion tube heating device further includes a heating mechanism 8, the heating mechanism 8 is used for heating the liquid medicine in the infusion tube, the heating mechanism 8 includes a support frame 81, an insulation can 82, a baffle 83, a second torsion spring 84, a hinged plate 85, an extruding block 86, a pressure bar 87, a connecting rod 88 and a fourth return spring 89, the support frame 81 is connected to the front side of the top of the placement plate 72, the insulation can 82 is connected to the top of the support frame 81, the two baffle 83 are rotatably connected to the front side of the insulation can 82, the two baffle 83 are arranged in bilateral symmetry, the two second torsion springs 84 are connected between the two baffle 83 and the insulation can 82, the hinged plate 85 is symmetrically hinged to the left and right sides of the placement plate 82, the extruding block 86 is connected in the insulation can 82 in a sliding manner, the extruding block 86 is used for extruding the heated object, the extrusion block 86 is connected with a pressure lever 87 in a sliding mode, the pressure lever 87 can push the extrusion block 86 to move, the pressure lever 87 can slide on the heat preservation box 82, the bottom of the pressure lever 87 is connected with a connecting rod 88, the lower portions of the left side and the right side of the pressure lever 87 are sleeved with fourth reset springs 89, and two ends of each of the four reset springs 89 are connected to the left side and the right side of the top of the connecting rod 88 and the left side and the right side of the bottom of the heat preservation box 82 respectively.

When the infusion tube is placed, the infusion tube can be operated to move towards the incubator 82 through the two baffles 83, the infusion tube extrudes the baffles 83 to swing inwards when moving, the second torsion spring 84 is compressed, when the infusion tube moves to be not in contact with the baffles 83, the infusion tube is already positioned in the incubator 82, the two baffles 83 reset under the action of the second torsion spring 84, then a user can pull the hinged plate 85 on any side to swing, then a warmer can be plugged into the incubator 82, the warmer is positioned between the extrusion blocks 86 and the infusion tube, after the infusion tube is added, the hinged plate 85 is pulled to reset, then the compression rod 87 can be extruded to move downwards, the compression rod 87 moves downwards to drive the connecting rod 88 to move downwards, the fourth reset spring 89 is stretched, the compression rod 87 can extrude the extrusion blocks 86 to move forwards when moving downwards, the extrusion blocks 86 can extrude the warmer to surround the outside of the infusion tube when moving forwards, at the moment, the warmer can slightly heat the liquid medicine in the infusion tube, so that the liquid medicine in the infusion tube can be slightly heated, the phenomenon that the liquid medicine is too cold to stimulate blood vessels is avoided, when heating is carried out, different heating articles can be placed according to different temperatures needing to be heated, when heating is not needed, the pressing rod 87 is loosened, the connecting rod 88 and the pressure lever 87 reset under the action of the fourth reset spring 89, the pressure lever 87 drives the extrusion block 86 to reset when resetting, the extrusion block 86 resets and does not extrude the warmer any more, at the moment, the hinged plate 85 is opened again to take out the warmer, when the infusion tube needs to be taken out, the infusion tube is directly pulled out, when the infusion tube is pulled out, the two baffle plates 83 are pushed to swing outwards, the second torsion spring 84 is compressed again, when the infusion tube is completely moved out, the two baffles 83 are reset under the action of the second torsion spring 84.

The heat insulation box also comprises an isolation mechanism 9, the isolation mechanism 9 is used for assisting the operation of the heating mechanism 8, the isolation mechanism 9 comprises a second installation block 91, a second connecting spring 92, a second connecting frame 93, a guide ring 94, a second pull rope 95, a third pull rope 96 and an isolation arc plate 97, the second installation block 91 is connected to the left side and the right side of the bottom of the heat insulation box 82, one side surface of the second installation block 91 at the two sides, which is close to each other, is connected with the second connecting spring 92, one end, which is close to each other, of the two second connecting springs 92 is connected with the second connecting frame 93, the second connecting frame 93 can slide at the bottom of the heat insulation box 82, the second pull rope 95 is connected between the second connecting frames 93 at the two sides, the guide ring 94 is connected to the left side and the right side of the bottom of the heat insulation box 82, the guide ring 94 is positioned at the inner side of the second connecting frame 93, the second pull rope 95 penetrates through the two guide rings 94, the third pull rope 96 is connected to the middle part of the second pull rope 95, the third pull rope 96 is connected with the middle part of the connecting rod 88, the top of the second connecting frame 93 is connected with an isolation arc plate 97, the isolation arc plate 97 is positioned in the heat preservation box 82, and the two isolation arc plates 97 can form a cylinder when being completely contacted.

The connecting rod 88 drives the third pull rope 96 to move downwards when moving downwards, the third pull rope 96 pulls the two side second connecting frames 93 to approach each other through the second pull rope 95 when moving downwards, the guide ring 94 can guide the second pull rope 95, the second connecting spring 92 is stretched, the two side second connecting frames 93 can drive the two side isolation arc plates 97 to approach each other when approaching each other, the two side isolation arc plates 97 can be sleeved outside the infusion tube after approaching each other, at the moment, the two side isolation arc plates 97 form a cylinder, then, the infusion tube 97 can be wrapped outside the two side isolation arc plates 97 to be heated when the warm baby wraps up, thereby avoiding the warm baby from being directly wrapped outside the infusion tube, because the wrapped part of the warm baby has certain viscosity, the infusion tube is easy to be stained on the outside of the infusion tube when the warm baby wraps up, the infusion tube is easy to be pulled to move together when taking out, and the warm baby is troublesome when taking out, when other heating objects with certain viscosity are placed, the connecting rod 88 can also play a role, the third pull rope 96 is not pulled any more when the connecting rod 88 is reset, at the moment, the second connecting frames 93 at the two sides drive the isolating arc plates 97 at the two sides to reset under the action of the second connecting springs 92 at the two sides, and then the infusion tube can be taken out.

The clamping mechanism 10 comprises an installation ring 101, a rotating block 102 and a third clamping block 103, the installation ring 101 is connected to the outer arc surface of the installation disc 71, the rotating block 102 is connected to the installation ring 101 in a sliding mode in the installation ring 101, the third clamping block 103 is connected to the rotating block 102, and the third clamping block 103 can be clamped to a chair or a sickbed.

When a patient needs to sit or lie for a rest, the third clamping block 103 can be clamped on a chair or a sickbed, if the third clamping block 103 cannot face the chair or the sickbed, the third clamping block 103 can be pulled to slide along the mounting ring 101 through the rotating block 102 for adjustment, so that the infusion support can be fixed when the patient needs to have a rest, and infusion is prevented from being influenced by the displacement of the infusion support.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A medical infusion support capable of controlling flow rate is characterized by comprising: the bottom of the bottom plate (2) is uniformly and rotatably connected with four moving wheels (1) at intervals along the circumferential direction; the mounting pipe (3) is connected in the middle of the top of the bottom plate (2), a plurality of first clamping grooves (31) are uniformly formed in one side of the mounting pipe (3) at intervals along the axial direction, a plurality of second clamping grooves (32) are uniformly formed in the upper portions of the other two sides of the mounting pipe (3) at intervals along the axial line, and a sliding groove (33) is formed in one side, far away from the first clamping grooves (31), of the mounting pipe (3); the telescopic mechanism (4) is arranged in the mounting pipe (3); the control mechanism (5) is arranged on the telescopic mechanism (4); the limiting mechanism (6) is arranged on the control mechanism (5).

2. The medical infusion support with controllable flow rate according to claim 1, wherein the telescopic mechanism (4) comprises: the telescopic rod (41) is connected with the mounting pipe (3) in an inward sliding manner; the top of the telescopic rod (41) is connected with the hook (42); the lower part of one side of the telescopic rod (41) is connected with a first clamping block (44) in a sliding manner, and the first clamping block (44) can be clamped into the first clamping groove (31); and a first return spring (43) is connected between the first clamping block (44) and the telescopic rod (41).

3. The medical infusion support with controllable flow rate according to claim 2, wherein the control mechanism (5) comprises: the first mounting block (51) is connected to the telescopic rod (41) in a sliding mode; a screw (52) which is connected with one side of the first mounting block (51) through a thread and can fix the first mounting block (51) on the telescopic rod (41); the box body (53) is connected to the first mounting block (51); one side of the box body (53) is connected with the positioning block (54); the other side of the box body (53) is rotatably connected with a rotating rod (55), and the rotating rod (55) is connected with an extrusion wheel (56) and a tooth-missing ratchet wheel (57); the inner side wall of the box body (53) is connected with the mounting plate (58); the movable rod (59) is connected with the mounting plate (58) in a sliding way; one side of the movable rod (59) is connected with a ratchet block (511) which can clamp the tooth-missing ratchet wheel (57); the common spring (510) is sleeved on the movable rod (59), and two ends of the common spring (510) are respectively connected to the ratchet block (511) and the mounting plate (58).

4. The medical infusion support with controllable flow rate according to claim 3, wherein the limiting mechanism (6) comprises: the middle part of one side of the box body (53) is connected with the pulling plate (61) in a sliding way; a first connecting frame (63), wherein the first connecting frame (63) capable of sliding on the box body (53) is connected to the pulling plate (61); the pull plate (61) is sleeved with a second return spring (62), and two ends of the second return spring (62) are respectively connected to the first connecting frame (63) and the box body (53); the upper part and the lower part of the outer part of the box body (53) are both connected with the guide block (64); the upper part and the lower part of the outer part of the box body (53) are connected with the fixing blocks (65); the fixed block (65) is hinged with a hinge block (67); the first torsion spring (66) is connected between the hinge block (67) and the fixed block (65); the hinge block (67) is connected with a second clamping block (610) in a sliding mode, and the second clamping block (610) can be clamped into the fixing block (65); a third return spring (69), wherein the third return spring (69) is connected between the second clamping block (610) and the hinge block (67); the first pull ropes (68) are connected to the two hinged blocks (67), the two first pull ropes (68) are connected with the two sides of the first connecting frame (63) by respectively bypassing the two guide blocks (64).

5. The medical infusion support with controllable flow rate according to claim 4, further comprising a placement mechanism (7), wherein the placement mechanism (7) comprises: the mounting plate (71) is connected with the mounting pipe (3) in a sliding manner, and the mounting plate (71) can slide on the sliding chute (33); the middle part in the mounting disc (71) is connected with a placing plate (72) capable of sliding on the sliding groove (33), and the placing plate (72) is sleeved on the outer side of the mounting pipe (3); a handle (73), one side of the top of the placing plate (72) is connected with the handle (73); the lower part of the mounting disc (71) is connected with the pull rod (74) in a sliding way; the upper part of the pull rod (74) is hinged with two clamping plates (75) which can be clamped in the second clamping groove (32), and the clamping plates (75) are propped against the mounting pipe (3); the first connecting spring (76) is connected between the two clamping plates (75).

6. The medical infusion support with controllable flow rate according to claim 5, further comprising a heating mechanism (8), wherein the heating mechanism (8) comprises: the supporting frame (81) is connected with one side of the top of the placing plate (72); the top of the supporting frame (81) is connected with the heat preservation box (82); one side of the heat preservation box (82) is rotatably connected with two baffle plates (83); two second torsion springs (84) are connected between the two baffle plates (83) and the heat preservation box (82); the two sides of the heat preservation box (82) are symmetrically hinged with the hinged plates (85); the extrusion block (86) is connected with the heat preservation box (82) in a sliding way; the pressing rod (87) is connected to the extrusion block (86) in a sliding mode and can push the extrusion block (86) to move, and the pressing rod (87) can slide on the heat preservation box (82); the bottom of the pressure lever (87) is connected with a connecting rod (88); fourth reset spring (89), depression bar (87) both sides lower part all overlaps fourth reset spring (89), and two fourth reset spring (89) both ends are connected respectively in connecting rod (88) top both sides and insulation can (82) bottom both sides.

7. The medical infusion support with controllable flow rate according to claim 6, further comprising an isolation mechanism (9), wherein the isolation mechanism (9) comprises: the two sides of the bottom of the heat preservation box (82) are connected with the second mounting blocks (91); one side surface of each second mounting block (91) on two sides, which is close to each other, is connected with a second connecting spring (92); one ends, close to each other, of the two second connecting springs (92) are connected with second connecting frames (93) capable of sliding at the bottom of the heat preservation box (82); the second pull rope (95) is connected between the second connecting frames (93) at the two sides of the second pull rope (95); the two sides of the bottom of the heat preservation box (82) are connected with guide rings (94), the guide rings (94) are positioned on the inner side of a second connecting frame (93), and a second pull rope (95) penetrates through the two guide rings (94); the middle part of the second pull rope (95) is connected with a third pull rope (96), and the third pull rope (96) is connected with the middle part of the connecting rod (88); the top of the second connecting frame (93) is connected with an isolation arc plate (97), and the isolation arc plate (97) is positioned in the heat preservation box (82).

8. The medical infusion support with controllable flow rate according to claim 7, further comprising a clamping mechanism (10), wherein the clamping mechanism (10) comprises: the outer arc surface of the mounting disc (71) is connected with the mounting ring (101); the rotating block (102) is connected with the mounting ring (101) in an inner sliding manner; and a third fixture block (103) is connected to the rotating block (102).