CN219090563U - Micropump commodity shelf - Google Patents

Abstract

The utility model discloses a micropump commodity shelf, which is characterized by comprising the following components: the movable frame is arranged in an extending manner along the up-down direction; the placing plate is connected with the side wall surface of the movable frame; the fixed frame, fixed frame cavity forms the fixed chamber towards below open-ended, and is located place the top of board, fixed frame with remove the lateral wall face swing joint of frame, fixed frame can be followed remove the extending direction of frame. The micropump storage rack can protect the micropump, avoid the micropump from sliding from the front side, the rear side, the left side and the right side of the placing plate, damage the micropump, and is convenient to place or take out without affecting the use of the micropump.

Description

Micropump commodity shelf

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a micropump storage rack.

Background

The micropump is a medical device for long-time micro-drug delivery, and when in use, the micropump needs to be placed by using the storage rack so as to be placed at a position beside a patient for drug delivery. But the supporter that is used for placing micropump now only can realize placing micropump and remove the function, can't protect the micropump of placing on the supporter, and at the in-process that removes, the micropump is easy because vibrations take place the accident that drops, damages the micropump.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides a micropump commodity shelf.

The utility model solves the technical problems as follows:

a micropump shelf comprising:

the movable frame is arranged in an extending manner along the up-down direction;

the placing plate is connected with the side wall surface of the movable frame;

the fixed frame, fixed frame cavity forms the fixed chamber towards below open-ended, and is located place the top of board, fixed frame with remove the lateral wall face swing joint of frame, fixed frame can be followed remove the extending direction of frame.

The utility model has at least the following beneficial effects: the micro pump can be placed on the placement plate, the fixing frame is positioned above the micro pump, the upper part of the micro pump is surrounded by the inner wall surface of the fixing cavity, so that the micro pump can be protected, and the micro pump is prevented from sliding down from the front side, the rear side or the left side and the right side of the placement plate, so that the micro pump is prevented from being damaged; moreover, because the fixed frame can be along the upper and lower direction removal regulation of moving the frame, can change the distance between the upper wall surface of fixed chamber and the upper surface of placing the board promptly, be favorable to fixed high different micropumps, when upwards moving the fixed frame, the upper portion of micropump leaves fixed chamber, also conveniently takes out the micropump from placing the board.

As a further improvement of the above technical solution, the fixing frame is provided with a fixing component, and the fixing component is movably connected with the moving frame to fix the fixing frame. Through setting up fixed part, can fix the fixed frame on the removal frame, in the in-process of carrying the micropump on placing the board, be connected fixed part and removal frame, can avoid the fixed frame to move downwards under the action of gravity, medical staff need not a hand and holds the fixed frame, carries the micropump by one hand.

As a further improvement of the technical scheme, the front end of the fixing cavity is of an opening structure, the front side surface of the fixing frame is provided with a transparent plate, and the transparent plate covers the opening structure. Most micropump's upper portion all is provided with the display screen for show medicine state, speed etc. of dosing, set up the transparent plate, can avoid the fixed frame to shelter from the display screen of micropump, medical personnel can observe the state of micropump through the transparent plate, so that the monitoring of taking medicine to the patient.

As a further improvement of the technical scheme, the fixing frame is further provided with a locking screw, the left side wall surface and/or the right side wall surface of the fixing frame are/is provided with screw hole structures, the screw hole structures are communicated with the fixing cavity, and the locking screw is connected with the screw hole structures in a matched mode. Through setting up locking screw, can fix the position of micropump, avoid at the in-process that removes, the micropump removes on placing the board and bump with the inner wall surface in fixed chamber, further protect the micropump.

As a further improvement of the technical scheme, an anti-slip pad is arranged at the end part of the locking screw rod, and the anti-slip pad is positioned in the fixing cavity. The anti-slip pad is arranged to protect the micropump, so that the locking screw rod is prevented from damaging the micropump, the friction force between the locking screw rod and the wall surface of the micropump can be increased, and the micropump is further prevented from moving on the placing plate.

As a further improvement of the technical scheme, the micropump storage rack further comprises a socket, and the socket is connected with the side wall surface of the movable rack. When the micropump is used, the extension micropump is always required to be used for extending the length of the self-powered wire of the micropump, but the extension micropump is always hung in the mid-air or directly placed on the ground, poor contact or electric shock accidents are easy to occur, the extension micropump is arranged to be capable of placing the extension micropump, the extension micropump is prevented from being directly hung in the mid-air or directly placed on the ground, and the electric safety is guaranteed.

As a further improvement of the technical scheme, the socket comprises an upper shell and a lower shell, wherein an upper cavity which is open towards the lower side is formed in the upper shell, a lower cavity which is open towards the upper side is formed in the lower shell, the outer wall surface of the lower shell is connected with the side wall surface of the movable frame, and the lower end of the upper shell is movably connected with the upper end of the lower shell. The upper cavity and the lower cavity jointly form a placing cavity for placing the power strip, and the power strip positioned in the placing cavity is not easy to be wetted by liquid to cause electric leakage accidents due to the protection of the upper shell and the lower shell.

As a further improvement of the technical scheme, an upper half groove which is opened downwards is formed in the lower end of the upper shell, the upper half groove is communicated with the upper cavity, a lower half groove which is opened upwards is formed in the upper end of the lower shell, the lower half groove is communicated with the lower cavity, and the upper half groove and the lower half groove jointly form a wire groove structure. So set up, the electric wire can be followed the wire casing structure business turn over and placed the chamber, when avoiding the lower extreme of going up the casing and the upper end looks mutual lock of lower casing, go up casing and lower casing and take place the extrusion and make the electric wire damage to the electric wire to can improve the life of electric wire.

As a further improvement of the technical scheme, the micropump storage rack further comprises a hook, and the hook is connected with the side wall surface of the movable rack. The hook is used for hanging the electric wire of micropump from taking, bundles the electric wire on the hook, conveniently arranges the electric wire, also can avoid overlength electric wire to drag ground and make the people stumble.

As a further improvement of the technical scheme, the micropump storage rack further comprises an infusion support, and the infusion support is movably connected with the movable support. So set up for micropump supporter has the function of hanging the injection, and micropump supporter can regard as ordinary infusion support to use, has improved micropump supporter's utilization ratio.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

FIG. 1 is a schematic view of the overall structure of a micropump shelf according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a micropump shelf according to an embodiment of the present utility model after placing a micropump;

FIG. 3 is a schematic view of a micropump shelf according to another embodiment of the present utility model at another angle after the micropump is placed;

FIG. 4 is a front view of a micropump shelf according to an embodiment of the present utility model after placement of a micropump;

FIG. 5 is a left side view of a micropump shelf according to an embodiment of the present utility model after placement of a micropump;

fig. 6 is a schematic structural diagram of a power strip according to an embodiment of the present utility model.

Reference numerals: 100. a moving rack; 200. placing a plate; 300. a fixed frame; 310. a transparent plate; 320. the connecting slide block; 330. locking the screw; 331. an anti-slip pad; 332. rotating the handle; 340. a fixed cavity; 400. a socket; 410. an upper housing; 420. a lower housing; 430. a trunking structure; 500. a hook; 600. an infusion support; 700. a base; 710. a universal wheel; 800. micropump.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present utility model and are not to be construed as limiting the present utility model.

In the description of the present utility model, references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. The technical features of the utility model can be interactively combined on the premise of no contradiction and conflict.

Referring to fig. 1 to 6, an embodiment of the present utility model provides a micro pump rack, which includes a movable rack 100, a placement plate 200, and a fixed frame 300. The movable frame 100 is disposed to extend in the vertical direction, the placement plate 200 is connected to a side wall surface of the movable frame 100, the fixing frame 300 is hollow to form a fixing cavity 340, the fixing cavity 340 is disposed to open downward, and the fixing frame 300 is disposed above the placement plate 200, and the fixing frame 300 is connected to the side wall surface of the movable frame 100 and is movable in the vertical direction of the movable frame 100.

It can be understood that the micropump 800 can be placed on the placement board 200, the fixing frame 300 is located above the micropump 800, and the upper portion of the micropump 800 is surrounded by the inner wall surface of the fixing cavity 340, so that protection of the micropump 800 can be achieved, and damage to the micropump 800 caused by sliding of the micropump 800 from front and rear sides or left and right sides of the placement board 200 is avoided.

It will be appreciated that when the micropump 800 is used, the front side of the micropump 800 may be provided with components such as a medicine and a syringe, and it is necessary to use a device such as an infusion tube to guide the medicine from the syringe to the patient, so that a space needs to be left between the lower end surface of the fixing frame 300 and the upper surface of the placement plate 200 to facilitate the passage of the infusion tube.

In addition, since the fixing frame 300 can be moved and adjusted in the up-and-down direction of the moving frame 100, i.e., the distance between the upper wall surface of the fixing chamber 340 and the upper surface of the placing plate 200 can be changed, it is advantageous to fix the micropumps 800 having different heights, and when the fixing frame 300 is moved upward, the upper portion of the micropump 800 leaves the fixing chamber 340, thereby facilitating the removal of the micropump 800 from the placing plate 200.

It is understood that the side wall surfaces of the placement plate 200 and the movable frame 100 may be fixedly connected by welding, gluing, or the like, or may be detachably connected by a connecting member such as a bolt.

It will be appreciated that the mobile carriage 100 can be mounted at the bedside or can be placed on the ground. In the present embodiment, the moving frame 100 is capable of moving on the ground, the lower end of the moving frame 100 is provided with a base 700, and the bottom surface of the base 700 is provided with universal wheels 710 for movement.

In this embodiment, the base 700 is provided with 5 supports, one end of the support is connected with the moving frame 100 and extends outwards from the moving frame 100, the 5 supports are uniformly arranged around the circumference of the central axis of the moving frame 100, the number of universal wheels 710 is 5 and is connected with the lower end face of the support, and the 5 universal wheels 710 are respectively located at the other ends of the 5 supports, so that good supporting and fixing effects can be achieved, the moving frame 100 can be moved, and medical staff can transfer the micropump 800 more conveniently.

In some embodiments, the universal wheel 710 is provided with a locking device, the universal wheel 710 is locked by the locking device, and when the position where the micropump shelf needs to be placed is determined, the universal wheel 710 is locked by the locking device, so that the universal wheel 710 is prevented from rolling relative to the ground to enable the micropump shelf to move.

In this embodiment, the rear end of the fixed frame 300 is provided with a connection slider 320, the connection slider 320 is provided with a connection hole, the connection hole penetrates through the upper surface and the lower surface of the connection slider 320, the movable frame 100 penetrates through the connection hole, and the peripheral wall surface of the movable frame 100 is movably connected with the hole wall of the connection hole.

It is understood that the connection hole may be a round hole or a square hole, and the cross section of the movable frame 100 is matched with the connection hole. In some embodiments, the connection hole is a circular hole, the cross section of the connection frame is circular, and the fixing frame 300 can rotate around the central axis of the connection frame.

It will be appreciated that when the micropump 800 is not placed on the placement board 200, the fixing frame 300 moves downward under the action of gravity, and in the process of placing the micropump 800, a medical staff is required to hold the fixing frame 300 and place the micropump 800, so that a space for placing the micropump 800 is provided between the fixing frame 300 and the placement board 200. In some embodiments, since the fixed frame 300 can rotate around the central axis of the movable frame 100, the fixed frame 300 can be rotated to the rear of the movable frame 100 before the micropump 800 is placed, even if the fixed frame 300 moves downward under the action of gravity, the medical staff is not blocked from placing the micropump 800 on the placing plate 200 from the front of the placing plate 200.

In some embodiments, the fixing frame 300 is provided with a fixing member for locking the fixing frame 300 to the moving frame 100, and the fixing member is connected to the moving frame 100 during the process of moving the micropump 800 to the placing plate 200, so that the fixing frame 300 can be prevented from moving downwards under the action of gravity, and medical staff does not need to move the micropump 800 while holding the fixing frame 300. In addition, the fixing frame 300 can also play a role in alignment, and after the micropump 800 is placed on the placement board 200, since the fixing frame 300 is located above the micropump 800, the position of the micropump 800 on the placement board 200 can be adjusted by the position of the fixing frame 300, so that when the fixing frame 300 moves downward, the opening of the fixing cavity 340 can be aligned with the position of the micropump 800 without further moving the micropump 800.

It is understood that the fixing frame 300 can be supported by the micropump 800 without locking the fixing frame 300 when the micropump 800 is placed on the placing plate 200. Of course, when the micropump 800 is placed on the placement plate 200, the fixing frame 300 may be locked, so that the micropump 800 is prevented from being collided due to the up-down movement of the fixing frame 300 during the movement.

In some embodiments, the fixing component is a fixing bolt, the side wall surface of the connecting slider 320 is provided with a fixing screw hole, the fixing screw hole is communicated with the connecting hole, the fixing bolt is in threaded connection with the fixing screw hole, because the moving frame 100 is penetrated in the connecting hole, when the fixing bolt is penetrated in the fixing screw hole, the end part of the fixing bolt can be abutted with the side wall surface of the moving frame 100 in the connecting hole, and the end part of the fixing bolt and the hole wall of the connecting hole jointly clamp the moving frame 100, so that the fixing frame 300 cannot move up and down along the moving frame 100, and locking is realized.

It can be appreciated that the moving frame 100 may also be provided with a plurality of positioning holes along the up-down direction, and the fixing bolts penetrate through the fixing screw holes and the positioning holes, so that the fixing frame 300 can be locked, and the fixing frame 300 is locked more stably. It is understood that the positioning hole may be a through hole or a blind hole, which is not specifically limited herein.

It will be appreciated that if it is required to ensure that the fixing frame 300 is locked when the micropump 800 is placed on the placing plate 200, the distance between two adjacent positioning holes should be less than or equal to the depth of the fixing cavity 340, and the depth of the fixing cavity 340 is the distance from the upper wall surface to the lower end opening of the fixing cavity 340.

In other embodiments, the moving frame 100 is provided with a plurality of positioning holes along the up-down direction, the positioning holes are through holes, the fixing component is a bolt, the side wall surface of the connecting slider 320 is provided with a through hole structure, the through hole structure is communicated with the connecting hole, and the bolt penetrates through the through hole structure and the positioning holes to position the fixing frame 300.

In some embodiments, the fixing frame 300 is provided with a transparent plate 310, the front end of the fixing cavity 340 is of an opening structure, the transparent plate 310 is covered in front of the opening structure, and medical staff can observe the condition inside the fixing cavity 340 through the transparent plate 310.

It can be appreciated that the display screen is disposed on the upper portion of most micropumps 800, which can display the medicine allowance, the medicine administration speed, etc., and the transparent plate 310 is disposed, which can avoid the shielding of the display screen of the micropump 800 by the fixing frame 300, so that the medical staff can observe the state of the micropump 800 through the transparent plate 310, thereby facilitating the monitoring of medicine administration for patients.

It is understood that the transparent plate 310 may be made of a glass material or a transparent plastic, which is not particularly limited herein.

It is understood that the fixing frame 300 may be provided in plurality, and a plurality of fixing frames 300 are provided in the up-down direction of the moving frame 100 to place a plurality of micropumps 800. It is understood that a plurality of placement boards 200 may be provided, and the number of placement boards 200 may be equal to the number of fixing frames 300 or may be different from the number of fixing frames 300.

In the present embodiment, two fixing frames 300 are provided, and the placement plate 200 is provided with one block, both fixing frames 300 are connected to the moving frame 100, and both fixing frames 300 are disposed up and down. It will be appreciated that the placement plate 200 is located below the two fixed frames 300. It is understood that the micropump 800 can be placed on the placing plate 200, and the fixing frame 300 located below can fix the micropump 800 placed on the placing plate 200. The micro pump 800 may be placed on the upper surface of the fixing frame 300 located below, and the fixing frame 300 located above may fix the micro pump 800.

In some embodiments, the fixing frame 300 is further provided with a locking part capable of locking the micro pump 800 on the placement plate 200, preventing the micro pump 800 from moving on the placement plate 200 to collide with the inner wall surface of the fixing chamber 340, and further protecting the micro pump 800. Moreover, most of the micropumps 800 are further provided with control buttons on the upper portion, the control buttons are generally disposed on the front side of the micropump 800, if the micropump 800 moves forward, the front side wall surface of the fixing cavity 340 may contact with the control buttons on the front side of the micropump 800, so that an accident of false touch is caused, and the locking component is provided, so that the micropump 800 can be prevented from moving on the placing plate 200, and the situation that the inner wall surface of the fixing cavity 340 touches the control buttons by mistake can be avoided.

In some embodiments, the locking member is a locking screw 330, and screw hole structures are disposed on the left side wall surface and the right side wall surface of the fixed frame 300, and the screw hole structures are communicated with the fixed cavity 340, and the locking screw 330 is disposed in the screw hole structures in a penetrating manner and can be matched with the screw hole structures.

By providing the locking screw 330 at the left and right sides of the fixing frame 300, the micro pump 800 can be clamped at a fixed position by the interaction of the locking screw 330, and the micro pump 800 is prevented from vibrating to move or move on the placement plate 200 during the movement of the moving frame 100, so that the micro pump 800 can be prevented from colliding with the inner wall surface of the fixing cavity 340, and the micro pump 800 can be better protected.

It will be appreciated that the locking means may be provided only on the left or right side of the fixing frame 300. In this embodiment, a screw hole structure is disposed on the left side wall of the fixing frame 300, the locking screw 330 is disposed through the screw hole structure and is matched with the screw hole structure, and the locking screw 330 and the right side wall of the fixing cavity 340 cooperate to clamp the micropump 800 in a fixed position, so that the micropump 800 can be prevented from moving or moving on the placement plate 200, and the micropump 800 is protected.

In some embodiments, the end of the locking screw 330 is provided with a non-slip pad 331, the non-slip pad 331 being provided at the end of the locking screw 330 that is in contact with the micropump 800. When the locking screw 330 wears to establish in the screw structure, slipmat 331 is located fixed cavity 340, because slipmat 331 and micropump 800 contact, can cushion locking screw 330's pressure, avoid locking screw 330 to cause the damage to micropump 800, also can increase the frictional force between locking screw 330 and the micropump 800 surface, further avoid micropump 800 to remove or move on placing board 200.

In some embodiments, the locking screw 330 is further provided with a turning handle 332, the turning handle 332 is located at an end of the locking screw 330 far away from the anti-slip pad 331, and when the locking screw 330 is threaded in the screw hole structure, the turning handle 332 is located at the outer side of the fixing frame 300. It will be appreciated that by providing the turning handle 332, a fulcrum for turning the locking screw 330 can be provided to the medical personnel, facilitating the medical personnel to turn the locking screw 330.

In some embodiments, the outer surface of the rotating handle 332 is provided with a plurality of anti-slip protrusions, the number, shape and arrangement of the plurality of anti-slip protrusions are not limited herein, and by providing the anti-slip protrusions, slipping between the hands of the medical staff and the rotating handle 332 during rotation of the locking screw 330 can be avoided, which is more beneficial for the medical staff to rotate the locking screw 330.

It will be appreciated that when the micropump 800 is used, a power strip is often required to extend the length of the electrical wire of the micropump 800, and electrically connect the electrical wire of the micropump 800 to a socket on a wall. However, when the power strip is used, the power strip is hung in the mid-air or directly placed on the ground, so that poor contact or electric shock accidents are easy to occur, and a large potential safety hazard exists.

In some embodiments, the micropump shelf is further provided with a socket 400, where the socket 400 is used for placing a socket, and the socket 400 is connected with a side wall surface of the mobile frame 100, so that the socket is prevented from being hung in mid-air or directly placed on the ground, and the electricity safety is ensured.

It can be appreciated that the power strip socket 400 is provided with a placement cavity for placing the power strip, and the power strip can be prevented from sliding off the power strip socket 400 by the protection of the inner wall surface of the placement cavity.

In this embodiment, the socket 400 is located below the placement board 200, which is more beneficial for medical staff to insert the self-contained wires of the micropump 800 into the socket in the placement cavity. It will be appreciated that the socket 400 may be disposed above the fixed frame 300, but this arrangement not only limits the height of the fixed frame 300 moving upwards, but also is not beneficial for medical staff to insert the self-contained electric wire of the micropump 800 into the socket in the placement cavity.

In some embodiments, the power strip socket 400 includes an upper housing 410 and a lower housing 420, the upper housing 410 is hollow to form an upper cavity, the upper cavity is opened downward, the lower housing 420 is hollow to form a lower cavity, the lower cavity is opened upward, the lower end of the upper housing 410 is movably connected with the upper end of the lower housing 420, and the upper cavity and the lower cavity can together form a placement cavity for placing the power strip.

In the present embodiment, the outer wall surface of the lower case 420 is connected to the side wall surface of the movable rack 100, so that the outlet 400 can be fixed to the movable rack 100. It is understood that the lower case 420 may be connected to the side wall surface of the movable frame 100 by welding, gluing, or the like, or may be connected to the movable frame 100 by a connection member such as a bolt. It will be appreciated that the height of the outlet 400 may also be adjusted when connected to the mobile frame 100 by using bolts, as is suitable for micropumps 800 having different lengths of self-contained wires.

In addition, when the upper case 410 and the lower case 420 are snap-coupled, the placement chamber is closed by the upper case 410 and the lower case 420. Because of the protection of the upper and lower cases 410 and 420, the power strip located in the placement cavity is not easily wetted by the liquid to cause an accident of electric leakage, thereby further guaranteeing the safety of electricity.

In this embodiment, the upper case 410 and the lower case 420 are hinged by a hinge member, which is located at the front ends of the upper case 410 and the lower case 420, and the upper case 410 can be flipped forward to expose the placement cavity. It will be appreciated that the self-contained electrical wires of the micropump 800 are generally disposed on the rear side of the micropump 800, and when the micropump 800 is placed on the placement board 200, the self-contained electrical wires of the micropump 800 extend from the rear of the placement board 200 to the placement cavity to be electrically connected with the power strip, and since the upper case 410 is turned over forward, the self-contained electrical wires of the micropump 800 are not blocked when the upper case 410 is turned over.

In some embodiments, the lower end of the upper case 410 is provided with an upper half groove which is opened toward the lower side and communicates with the upper cavity, and the upper end of the lower case 420 is provided with a lower half groove which is opened toward the upper side and communicates with the lower cavity. When the upper and lower cases 410 and 420 are engaged with each other, the upper and lower half grooves together form the wire groove structure 430.

It can be appreciated that the electric wires of the micropump 800 and the electric wires of the power strip can enter and exit the placement cavity from the wire slot structure 430, so that when the lower end of the upper casing 410 and the upper end of the lower casing 420 are mutually buckled, the upper casing 410 and the lower casing 420 squeeze the electric wires of the micropump 800 and the electric wires of the power strip, so that the electric wires are damaged, and the service life of the electric wires of the micropump 800 and the electric wires of the power strip can be prolonged.

In this embodiment, 3 wire slot structures 430 are provided, wherein 2 wire slot structures 430 are located on the rear side of the socket 400, so that the micro pump 800 can enter the placement cavity from the rear, and another wire slot structure 430 is located on the left side or the right side of the socket 400, so that the socket wires can enter the placement cavity from the side of the socket 400.

In some embodiments, the micropump shelf is further provided with a hook 500, and the hook 500 is connected to a sidewall surface of the movable shelf 100. It can be appreciated that the hook 500 can be used for hanging the micropump 800 from a power line and a power strip, and the micropump 800 from a power line or a power strip is wound around the hook 500, so that the arrangement is convenient, and the micropump 800 can be prevented from being tripped by a person when being dragged to the ground from the power line or the power strip. Particularly, when the micropump shelf is moved, the electric wires of the micropump 800 and the electric wires of the power strip can be prevented from affecting the travelling of the universal wheel 710 of the moving shelf 100.

In this embodiment, the hook 500 is located between the socket 400 and the placement board 200, which is beneficial to the hanging of the micropump 800 from the live wire and the hanging of the socket wire. It should be understood that the hook 500 may be disposed at other positions, such as under the power strip 400, and is not limited herein.

In some embodiments, the micropump shelf further includes an infusion support 600, and the infusion support 600 is connected to the mobile frame 100. It can be appreciated that the infusion support 600 is used to hang the medicine for patient infusion, so that the micropump shelf has the function of hanging injection.

In some embodiments, the infusion support 600 includes a telescopic rod and a hanging rod, the hanging rod is connected with the upper end of the telescopic rod and extends outwards from the peripheral wall surface of the telescopic rod, and the injection can be hung on the hanging rod.

In some embodiments, the movable frame 100 is hollow to form an adjusting cavity, the outer wall surface of the telescopic rod is movably connected with the inner wall surface of the adjusting cavity, and the telescopic rod can change the length of the telescopic rod extending out of the adjusting cavity, so that the height of the hanging rod can be changed to be suitable for different patients.

In this embodiment, the inner wall surface in regulation chamber is provided with internal thread structure, and the outer wall surface of telescopic link is provided with external thread structure, and the internal thread structure of movable frame 100 and the external thread structure of telescopic link can mutually support and connect, through rotatory telescopic link, just can adjust the height of hanging the pole.

In other embodiments, the side wall surface of the telescopic rod is provided with a plurality of locking holes, the plurality of locking holes are sequentially arranged along the up-down direction of the telescopic rod, the telescopic rod is provided with locking pins, and the locking pins penetrate through one of the locking holes. When the telescopic rod is inserted into the adjustment chamber, the locking pin abuts against the upper end surface of the moving frame 100, so that the telescopic rod can be fixed at a proper height.

It will be appreciated that the infusion support 600 can be detached from the mobile stand 100. In this embodiment, when the infusion support 600 is detached, the connection slider 320 of the fixed frame 300 can be separated from the upper end of the movable frame 100, so that the fixed frame 300 is separated from the movable frame 100, and the number of fixed frames 300 can be increased according to practical situations.

It is understood that when the micro pump 800 is not placed, the micro pump rack in this embodiment can also be used as a common infusion support 600, so as to improve the utilization rate of the micro pump rack.

While the preferred embodiments of the present utility model have been illustrated and described, the present utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by one skilled in the art without departing from the spirit of the present utility model, and these are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. A micropump shelf comprising:

the movable frame is arranged in an extending manner along the up-down direction;

the placing plate is connected with the side wall surface of the movable frame;

the fixed frame, fixed frame cavity forms the fixed chamber towards below open-ended, and is located place the top of board, fixed frame with remove the lateral wall face swing joint of frame, fixed frame can be followed remove the extending direction of frame.

2. The micropump shelf of claim 1, wherein the fixing frame is provided with a fixing member movably connected with the moving frame to fix the fixing frame.

3. The micropump shelf of claim 1, wherein the front end of the fixing cavity is of an opening structure, and a transparent plate is arranged on the front side surface of the fixing frame, and the transparent plate covers the opening structure.

4. The micropump commodity shelf according to claim 1, wherein the fixing frame is further provided with a locking screw, the left side wall surface and/or the right side wall surface of the fixing frame are/is provided with a screw hole structure, the screw hole structure is communicated with the fixing cavity, and the locking screw is connected with the screw hole structure in a matching manner.

5. The micropump shelf of claim 4, wherein an end of the locking screw is provided with a non-slip pad, the non-slip pad being located within the stationary cavity.

6. The micropump shelf of claim 1, further comprising a socket, the socket being connected to a side wall surface of the mobile carrier.

7. The micropump shelf of claim 6, wherein the socket comprises an upper housing and a lower housing, the upper housing is hollow to form an upper cavity opening downward, the lower housing is hollow to form a lower cavity opening upward, an outer wall surface of the lower housing is connected with a side wall surface of the movable frame, and a lower end of the upper housing is movably connected with an upper end of the lower housing.

8. The micropump shelf of claim 7, wherein the lower end of the upper housing is provided with an upper half groove opening downward, the upper half groove is communicated with the upper cavity, the upper end of the lower housing is provided with a lower half groove opening upward, the lower half groove is communicated with the lower cavity, and the upper half groove and the lower half groove together form a wire groove structure.

9. The micropump shelf of claim 1, further comprising a hanger coupled to a side wall of the movable shelf.

10. The micropump shelf of claim 1, further comprising an infusion support, the infusion support being movably coupled to the movable support.

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