CN210581668U - Novel infusion bottle storing compartment - Google Patents

Abstract

The utility model discloses a novel infusion bottle storage cabinet, which structurally comprises a cabinet body, wherein a plurality of transverse and longitudinal clapboards are arranged in the cabinet body, the clapboards divide the cabinet body into a plurality of independent cells, chains are arranged in the cells, a second claw and a first pneumatic cylinder are respectively arranged at two sides of each chain, a plurality of groups of chain wheels and chain wheel motors are arranged in the chains, and the chain wheel motors are connected with any group of chain wheels; the chain of the two groups of chain wheels of the chain is provided with a plurality of first claws, the first claws and the second claws both comprise a clamping ring and a base arranged at the lower end of the clamping ring, the wall of the clamping ring is uniformly provided with a plurality of clamping cylinders, and the base is provided with a gravity sensor; the infusion bottle is placed in the first claw, and is conveyed and extracted by being driven by the chain wheel motor and the screening motor; the utility model discloses beneficial effect does: the infusion bottles can be sorted and placed according to the types of the infusion bottles, the cells can be accessed in sequence, and the number and the quality guarantee period of the currently stored infusion bottles can be obtained in time.

Description

Novel infusion bottle storing compartment

Technical Field

The utility model relates to the field of medical equipment, in particular to a novel infusion bottle storage cabinet and an access method thereof.

Background

In hospitals and various drugstores, drug storage devices are often used to hold drugs, particularly bottled liquid drugs; at present, the flat-open type infusion bottle storage cabinets are mostly adopted in the market, the cabinet bodies comprise a plurality of layers, liquid in each layer is stored in parallel and side by side, because of the distance between each layer, medical care personnel generally place the infusion bottles from inside to outside in a row, when taking the use, then can take the nearest outside infusion bottle of oneself usually, and the worker is when replenishing the infusion bottle, most also only be the replenishment to empty position, can not be to the position of the date of production of liquid discharging the infusion bottle in order again, long this in the past, the confusion can be put to the infusion bottle in the storing compartment, lead to the most for far term validity liquid in the storing compartment outside, storing the inboard nearly term validity liquid that is of cabinet so that can appear overdue liquid, bring very big inconvenience for later maintenance use, if medical personnel take overdue liquid and use for patient, can produce harm to patient even.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide one kind and put and take convenient orderly, the novel liquid storing compartment of automatic monitoring liquid drug effect and access method thereof.

The purpose of the utility model is realized through the following technical scheme: a novel infusion bottle storage cabinet comprises a cabinet body, wherein a plurality of transverse and longitudinal partition plates are arranged in the cabinet body, the partition plates divide the cabinet body into a plurality of independent cells, chains are arranged in the cells, a second claw and a first pneumatic cylinder are respectively arranged on two sides of each chain, at least two groups of chain wheels and at least one group of chain wheel motors are arranged in the chains, and the at least one group of chain wheel motors are connected with any one group of chain wheels; two sets of sprockets of chain be provided with a plurality of first cleft hands on the chain, first cleft hand and second cleft hand all include the grip ring and set up the base at the grip ring lower extreme, evenly are provided with a plurality of calories of sections on the grip ring rampart, are provided with gravity sensor on the base.

The clamping cylinder is of a cylindrical structure with two closed ends, a piston hole is formed in one end face of the clamping cylinder, a spring is arranged in the clamping cylinder, a piston rod is sleeved in the spring, a guide piston is arranged on the piston rod, one end of the piston rod is located in the clamping cylinder, the other end of the piston rod penetrates through the clamping cylinder and extends to the outside of the clamping cylinder, and a clamping head is arranged on the end face of the piston rod.

And a screening motor and a second pneumatic cylinder are arranged on the second claw, and the first pneumatic cylinder and the second pneumatic cylinder are arranged oppositely.

The unit check surface still is provided with sprocket motor switch, still be provided with controller, storage unit and timing unit in the unit check, the controller includes first control unit and second control unit, first control unit is connected with sprocket motor switch, gravity sensor, second control unit, storage unit and timing unit electricity respectively.

The clamping ring is of a semi-circular arc structure, a circular ring opening is formed in the clamping ring, a connecting block A is arranged on the outer wall of one end, deviating from the circular ring opening, of the clamping ring, a connecting block B is arranged on an outer chain plate of the chain, and the connecting block A and the connecting block B are connected through bolts.

Still articulated on the cell have a cabinet door, be provided with label, alarm and display on the cabinet door, alarm and display are connected with first control unit respectively, separate into number plate district and expiry date display area in the display, and the number plate district number, the display position and the first cleft hand quantity of expiry date display area unanimously and the one-to-one.

Still be provided with entry and export on the cabinet body, the entry with the chain is located same horizontal straight line, all be provided with position sensor A on a plurality of first clews, be provided with position sensor B on the entry, be provided with position sensor C on the second clew, position sensor A, position sensor B and position sensor C all link to each other with first control unit.

The cabinet is internally provided with a recovery area, and the recovery area and the outlet are symmetrically arranged with a screening motor.

The recovery area is provided with limit switch C and limit switch A towards screening motor one side, the export is provided with limit switch B and limit switch D towards screening motor one side, and limit switch C, limit switch A, limit switch B and limit switch D are travel limit switch and are located same horizontal straight line.

The surface of the cell is also provided with a screening motor switch, and the screening motor switch is electrically connected with the second control unit.

A novel access method of an infusion bottle storage cabinet comprises the following steps: it comprises the following steps:

s1, storing into an infusion bottle: the infusion bottle is placed on the inner base of any group of first claws, the gravity sensor senses the weight of the infusion bottle and transmits the weight to the first control unit, the first control unit judges whether the weight of the infusion bottle is in a preset weight interval,

if the current time interval is not within the preset interval, the first control unit starts an alarm device to prompt the operator of loading errors;

if in the interval of predetermineeing, the license plate district of display corresponds the license plate and lights, and timing unit control expiry date display area corresponds the display position and begins to count down according to the time of predetermineeing, and operating personnel observes the license plate and lights, starts sprocket motor switch, and the chain drives first cleft hand and rotates, and position sensor A on the next first cleft hand senses position sensor B, and first control unit control sprocket motor stall and reach next and deposit the station.

S2, expiration action judgment: when the placing date of the stored infusion bottle on the corresponding first claw does not exceed the preset storing time of the system, the system display is unchanged, and when the placing date exceeds the preset storing time of the system, the first control unit changes the lighting color of the corresponding number plate in the number plate area to remind an operator of overdue information and touches the alarm to give an alarm;

s3, extracting an infusion bottle: when the operator receives the alarm signal, the switch of the screening motor is turned on, the screening motor rotates reversely, and after the second claw reaches the recovery area, the piston rod in the second pneumatic cylinder pushes out the infusion bottle;

when the storage time of the infusion bottle does not exceed the preset time, the second control unit controls the screening motor to rotate forwards, and when the second claw reaches the outlet, the piston rod on the second pneumatic cylinder pushes the infusion bottle out.

The utility model has the advantages of it is following: the storage cabinet is integrally designed by stacking a plurality of cells, so that the requirement of placing different infusion bottles according to types is met; the chain wheel type access and placement mode in a single unit cell ensures the access ordering of the infusion bottles; meanwhile, the storage cabinet is provided with a timing device, a display device and an alarm device, so that a user can timely acquire the storage state of the infusion bottle in the current storage cabinet and can warn an operator of storage errors and overdue information during storage and taking.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the unit cell of the present invention;

FIG. 3 is a schematic diagram of the internal structure of a cell;

FIG. 4(a) is a front view of the chain, and FIG. 4(b) is a top view of the chain and the first gripper connection;

FIG. 5 is a cross-sectional view taken along the plane A-A in FIG. 4;

FIG. 6 is a cross-sectional view taken along the plane B-B in FIG. 4;

FIG. 7 is a partially enlarged view of the internal structure of the cell;

FIG. 8 is a control schematic diagram when storing into an infusion bottle;

FIG. 9 is a schematic diagram of an overdue action determination control;

FIG. 10 is a control schematic diagram of the time of extracting an infusion bottle;

in the figure: 1-cabinet body, 2-unit cell, 3-screening motor, 4-second claw, 5-recovery area, 6-chain wheel, 7-first claw, 8-chain, 9-first pneumatic cylinder, 10-chain wheel motor, 11-clamping cylinder, 12-inlet, 13-outlet, 14-controller, 15-guide vertical plate, 201-label, 202-alarm, 203-cabinet door, 204-display, 205-number plate area, 206-expiry date display area, 207-chain wheel motor switch, 402-second pneumatic cylinder, 701-connecting block A, 702-clamping ring, 703-ring opening, 704-base, 705-gravity sensor, 801-connecting block B, 802-bolt, 1101-spring, 1102-guide piston, 1103-chuck, 1104-piston hole, 1105-piston rod, 1401-position sensor A, 1402-position sensor B, 1403-position sensor C, 1404-limit switch C, 1405-limit switch A, 1406-limit switch B, 1407-limit switch D.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

The first embodiment is as follows:

as shown in fig. 1, a novel infusion bottle storage cabinet comprises a cabinet body 1, wherein a plurality of transverse and longitudinal partition plates are arranged in the cabinet body 1, and the cabinet body 1 is divided into 9 independent cells 2 by the partition plates.

As shown in fig. 3, a chain 8 is horizontally arranged on the ground inside the cell 2, a second claw 4 and a first pneumatic cylinder 9 are respectively arranged on two sides of the chain 8, two sets of chain wheels 6 and a set of chain wheel motor 10 are arranged in the chain 8, the chain wheel motor 10 is linked with the chain wheel 6 positioned at the lower end of the chain 8 to form a driving wheel structure, the other set of chain wheels 6 is a driven wheel structure, the whole chain 8 is in a tensioned state due to the two sets of chain wheels 6, and 18 first claws 7 are arranged on the chain 8.

As shown in fig. 4, the chain 8 is formed by connecting two outer chain plates in a group and two inner chain plates in a group in series through bolts, the upper and lower outer chain plates of the single chain in the chain 8 are both provided with a connecting block B801, the first claw 7 is provided with a connecting block a701, and the connecting block a701 and the connecting block B801 are fixedly connected at the superposed position thereof through two groups of bolts 802; the first gripper 7 and the second gripper 4 both include a clamping ring 702 and a base 704 fixedly mounted at the lower end of the clamping ring 702, as shown in fig. 5, the clamping ring 702 is a semi-circular structure, a circular opening 703 is formed thereon, the size of the circular opening 703 is set according to the diameter of the infusion bottle, in this embodiment, the size of the circular opening 703 is 10-15 mm larger than the diameter of the infusion bottle, 3 sets of clamping cylinders 11 are uniformly arranged on the annular wall of the clamping ring 702, the clamping cylinders 11 are elastic members and are uniformly distributed around the inner wall of the clamping ring 702, in this example, the clamping cylinders 11 are sponge pads, and the purpose is to protect the infusion bottle from shaking when the infusion bottle is placed, a gravity sensor 705 is arranged on the base 704, the gravity sensor 705 is arranged in the middle of the base 704, and the upper end of the infusion.

As shown in fig. 7, a screening motor 3 and a second pneumatic cylinder 402 are disposed on the second gripper 4, the screening motor 3 is horizontally disposed on the bottom of the cell 2, a multi-stage speed change gear mechanism is connected to the output shaft of the motor, the output end of the speed change gear mechanism is connected to the second gripper through a connecting rod, so that the second gripper 4 can rotate at a low speed on the horizontal plane, the second pneumatic cylinder 402 is mounted and fixed on the connecting rod of the second gripper 4 and can rotate along with the second gripper 4, the pneumatic rod is horizontally disposed, and the end of the pneumatic rod is aligned with the upper side of the clamping ring 702 in the direction of the circular opening 703, in this embodiment, the end of the pneumatic rod is further disposed with a circular ring structure, the circular ring is 1/3 full circle and has an inner diameter larger than an infusion bottle, the circular ring can facilitate pushing out the infusion bottle, the first pneumatic cylinder 9 and the second pneumatic cylinder 402 are disposed opposite to each other, and two sets of parallel unit cells 2 between the first pneumatic cylinder 9 and the second pneumatic cylinder The vertical plates are used for allowing the infusion bottle to pass between the two vertical plates so that the first pneumatic cylinder 9 can push the infusion bottle into the second claw 4.

As shown in fig. 2, a cabinet door 203 is hinged to the cell 2, a sprocket motor switch 207 is further disposed on the cabinet door 203, a label 201, an alarm 202 and a display 204 are disposed on the cabinet door 203, and the alarm 202 is a buzzer in this embodiment; the inside controller 14, the storage unit and the timing unit that still are provided with of cell 2, controller 14 includes first control unit and second control unit, first control unit is connected with sprocket motor switch 207, gravity sensor 705, second control unit, storage unit and timing unit electricity respectively. The alarm 202 and the display 204 are respectively connected with the first control unit, the display 204 is divided into a number plate area 205 and an expiration date display area 206, the number plate area 205 is provided with numbers with the same number as the first claws 7 from top to bottom, namely the number is 1-18 from top to bottom, each number position is provided with an indicator light capable of displaying red and green two colors, the right side of each indicator light is provided with an electronic timing panel, and countdown information is arranged in the timing unit and displayed on the electronic timing panel.

As shown in fig. 3, the cabinet body 1 is further provided with an inlet 12 and an outlet 13, the inlet 12 and the chain 8 are located on the same horizontal straight line, the cabinet body 1 is further provided with a recovery area 5, and the recovery area 5 and the outlet 13 are symmetrically arranged with the screening motor 3.

As shown in fig. 7, each first gripper 7 is provided with a position sensor a1401, the inlet 12 is provided with a position sensor B1402, the position sensors a1401 and B1402 are used for aligning the first gripper 7 with the inlet 12, the second gripper 4 is provided with a position sensor C1403 for positioning the initial position of the second gripper 4, the position sensors a1401, B1402 and C1403 are all connected with the first control unit, the side of the recovery area 5 facing the screening motor 3 is provided with a limit switch C1404 and a limit switch a1405, the side of the outlet 13 facing the screening motor 3 is provided with a limit switch B1406 and a limit switch D1407, the limit switches C1404, a1405, B1406 and D1407 are all stroke limit switches, and are all connected with the second control unit and located on the same water straight line, the limit switches 1404C and D1407 are used for limiting the stroke of the pneumatic cylinder 402 in the second control unit, the front end of the pneumatic rod of the second pneumatic cylinder 402 is provided with a travel limit switch contact to correspond to the limit switch C1404 and the limit switch D1407; the limit switch A1405 and the limit switch B1406 are used for limiting the forward and reverse rotation stroke of the second claw 4, and a stroke limit switch contact is also arranged on the second claw 4 to correspond to the limit switch A1405 and the limit switch B1406.

Preferably, the cabinet door 203 is further provided with a screening motor switch and an input panel, the screening motor switch is electrically connected with the second control unit, the input panel is connected with the first control unit, and when the infusion bottle is stored in, an operator can input the drug effect date information of the infusion bottle into the storage unit through the input panel so as to independently and accurately display the drug effect period of the single infusion bottle.

All be provided with label 201 on every cell in this novel liquid storing compartment, can put into different cell 2 respectively as required with the infusion bottle that is equipped with different specification liquid, for example, in this embodiment, nine put the cell that sets up according to 3x3 specification, place in proper order in turning right the cell from a left side in the superiors: 50mL of 0.9% NS, 100mL of 0.9% N and 150mL of 0.9% NS, and other infusion bottle liquids with different concentrations and different volumes are placed in the lower layer according to the requirements.

Example two:

as shown in fig. 6, the difference between the second embodiment and the first embodiment is: in the second embodiment, the clamping cylinder 11 is a cylindrical structure with two closed ends, three groups of clamping cylinders 702 are welded and fixed on the clamping ring 702, a piston hole 1104 is arranged on the end face of one end of the clamping cylinder 11, a spring 1101 is arranged in the clamping cylinder 11, a piston rod 1105 is sleeved in the spring 1101, a guide piston 1102 is arranged on the piston rod 1105, the guide piston 1102 is in sliding fit with the inner wall of the clamping cylinder 11, the spring 1104 is arranged on the surface of the piston rod 1105 between the end face of one end of the clamping cylinder 11 far away from the piston hole 1104 and the guide piston 1102, when the right end of the pilot piston 1102 abuts the piston bore 1104, the spring 1101 is in a slightly compressed state, the plunger rod 1105 has one end located inside the cartridge 11 and the other end extending outside the cartridge 11 through 1104, and the end face of the chain is provided with a clamping head 1103, the tail end of the clamping head 1103 is in an 1/4 full-circle arc structure, the transfusion bottle can be clamped by utilizing the scalability of the spring 1101, and the bottle body is placed to shake to cause damage in the running process of the chain 8.

A novel storage and taking method for an infusion bottle storage cabinet comprises the following steps:

s1, storing into an infusion bottle: the cabinet door 203 is opened, an infusion bottle is placed on the base 704 in any one group of the first claws 7, the gravity sensor 705 senses the weight of the infusion bottle and transmits the weight to the first control unit, the first control unit judges whether the weight of the infusion bottle is in a preset weight interval or not,

if the weight of the gravity sensor is not within the preset interval, the first control unit controls the buzzer to give an alarm to prompt an operator of a loading error, the operator takes out the infusion bottle, and the weight of the gravity sensor returns to zero;

if the number plate area 205 of the display 204 is green corresponding to the indicator light in the preset interval, the timing unit internal expiration date information is displayed on the corresponding electronic timing panel in the expiration date display area 206 and begins to count down according to the preset time, the sprocket motor switch 207 is started after the operator observes the number plate green light, the chain 8 drives the first claw 7 to rotate, the position sensor A1401 on the next first claw 7 senses the position sensor B1402, and the first control unit controls the sprocket motor 10 to stop rotating and reach the next storage station;

s2, expiration action judgment: when the placing date of the stored infusion bottle on the corresponding first claw 7 does not exceed the preset storing time of the system, the system display is unchanged; when the placing date exceeds the preset storing time of the system, the first control unit changes the lighting color of the corresponding number plate in the number plate area 205 into red to remind an operator of overdue information and trigger the alarm 202 to give an alarm;

s3, extracting an infusion bottle: when an operator receives an alarm signal, a screening motor switch is turned on, the second control unit controls the screening motor 3 to rotate clockwise, after the second claw 4 reaches the recovery area 5, a contact of a travel limit switch triggers a limit switch A1405, the screening motor stops rotating, meanwhile, the second control unit controls a piston rod in the second pneumatic cylinder 402 to push out an infusion bottle, a contact of the travel limit switch on the piston rod triggers a limit switch C1404 to retract, and the motor rotates anticlockwise to reset;

when the storage time of the infusion bottle does not exceed the preset time, the second control unit controls the screening motor 3 to rotate forwards, when the second claw 4 reaches the outlet 13, the travel limit switch contact on the second claw 4 triggers the limit switch B1406, the second control unit controls the motor to stop running, meanwhile, the second control unit controls the piston rod in the second pneumatic cylinder 402 to push out the infusion bottle, the travel limit switch contact on the piston rod triggers the limit switch D1404 to retract, and the motor rotates clockwise to reset.

Claims (8)

1. The utility model provides a novel infusion bottle storing compartment, includes the cabinet body (1), be provided with a plurality of horizontal and fore-and-aft baffles in the cabinet body (1), the baffle separates into a plurality of independent cell (2), its characterized in that with the cabinet body (1): a chain (8), a second claw (4) and a first pneumatic cylinder (9) are arranged in the cell (2), the second claw (4) and the first pneumatic cylinder (9) are arranged on two sides of the chain (8), at least two groups of chain wheels (6) are linked on the chain (8), and a chain wheel motor (10) is arranged on any one of the at least two groups of chain wheels (6); the chain (8) is provided with a plurality of first claws (7), the first claws (7) and the second claws (4) are respectively provided with a clamping ring (702) and a base (704) positioned at the lower end of the clamping ring (702), the annular wall of the clamping ring (702) is uniformly provided with a plurality of clamping cylinders (11), the base (704) is provided with a gravity sensor (705), the cell (2) is also provided with an inlet (12) and an outlet (13), and the inlet (12) and the chain (8) are positioned on the same horizontal straight line;

the clamping cylinder (11) is of a cylindrical structure with two closed ends, a piston hole (1104) is formed in one end face of the clamping cylinder, a spring (1101) is arranged in the clamping cylinder (11), a piston rod (1105) is sleeved in the spring (1101), a guide piston (1102) is arranged on the piston rod (1105), one end of the piston rod (1105) is located in the clamping cylinder (11), the other end of the piston rod (1105) penetrates through the piston hole (1104) to extend to the outside of the clamping cylinder (11), and a clamping head (1103) is arranged on the outer end face of the piston rod;

the second claw (4) is provided with a screening motor (3) and a second pneumatic cylinder (402), the first pneumatic cylinder (9) and the second pneumatic cylinder (402) are arranged oppositely, the first pneumatic cylinder (9) is used for pushing an infusion bottle in the first claw (7) into the second claw (4), the screening motor (3) is used for driving the second claw (4) to rotate, and the second pneumatic cylinder (402) is used for pushing the infusion bottle into the outlet (13).

2. A novel infusion bottle storage cabinet according to claim 1, characterized in that: the clamping ring (702) is of a semicircular structure, a circular ring opening (703) is formed in the clamping ring, a connecting block A (701) is arranged on the outer wall of one end, deviating from the circular ring opening (703), of the clamping ring (702), a connecting block B (B801) is arranged on the outer chain plate of the chain (8), and the connecting block A (701) and the connecting block B (801) are connected through bolts (802).

3. A novel infusion bottle storage cabinet according to claim 1, characterized in that: cell (2) still articulated have cabinet door (203), are provided with label (201), alarm (202) and display (204) on cabinet door (203), and alarm (202) and display (204) are connected with first control unit respectively, separate into number plate district (205) and expiry date display area (206) in display (204).

4. A new type infusion bottle storage cabinet according to claim 3, characterized in that: the cabinet door (203) is also provided with a chain wheel motor switch (207); still be provided with controller (14), storage unit and timing unit in cell (2), controller (14) include first control unit and second control unit, first control unit is connected with sprocket motor switch (207), gravity sensor (705), second control unit, storage unit and timing unit electricity respectively.

5. A novel infusion bottle storage cabinet according to claim 1, characterized in that: the first claws (7) are provided with position sensors A (1401), the inlets (12) are provided with position sensors B (1402), the second claws (4) are provided with position sensors C (1403), and the position sensors A (1401), B (1402) and C (1403) are connected with a first control unit.

6. A novel infusion bottle storage cabinet according to claim 1, characterized in that: still be provided with recovery area (5) in the cabinet body (1), recovery area (5) and export (13) set up with screening motor (3) symmetry, and recovery area (5) are used for retrieving the infusion bottle that second claw hand (4) pushed out.

7. The new infusion bottle storage cabinet of claim 6, characterized in that: recovery area (5) are provided with limit switch C (1404) and limit switch A (1405) towards screening motor (3) one side, export (13) are provided with limit switch B (1406) and limit switch D (1407) towards screening motor (3) one side, and limit switch C (1404), limit switch A (1405), limit switch B (1406) and limit switch D (1407) are located same water straight line and all link to each other with the second control unit.

8. A new type infusion bottle storage cabinet according to claim 3, characterized in that: the cabinet door (203) is also provided with a screening motor switch which is electrically connected with the second control unit.

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