CN116750319A - Medical anti-infective drug transfer device - Google Patents

Abstract

The application relates to the technical field of containers for object transportation, and discloses a medical anti-infective drug transfer device, which comprises a box body, wherein a plurality of partition boards are equidistantly arranged in the box body, the box body is divided into a plurality of storage areas by the plurality of partition boards, a lifting box is vertically and slidingly connected in the storage areas, and a first spring is arranged between the lifting box and the storage areas; grooves are formed in the two sides of the storage area on the box body and communicated with the storage area; the lifting plate is fixedly connected with the lifting box, and a guide block is arranged at the bottom of the lifting plate; a guide groove is arranged in the groove, and a guide block is connected with the guide groove in a sliding way; and a stop mechanism for stopping the lifting box. The problem that the medicine bottle dropped easily during the transportation of current equipment has mainly been solved to this scheme.

Description

Medical anti-infective drug transfer device

Technical Field

The application relates to the technical field of containers for object transportation, in particular to a medical anti-infective drug transfer device.

Background

The anti-infective drug has the function of killing or inhibiting various pathogenic microorganisms, and can be used for oral administration, intramuscular injection, intravenous injection and other systemic application of various antibiotics, sulfanilamide drugs and other chemical synthetic drugs; at present, anti-infective drugs are mainly stored in drug vials for transfer; in order to improve the transfer efficiency of medicine bottles, a transfer box is used, and a plurality of medicine bottles can be simultaneously transferred to a target through the transfer box; however, the existing transfer box does not have the function of classified storage, so that medicine bottles filled with different kinds of anti-infective medicines are randomly stored in the transfer box, a great deal of time is required to be spent for searching when the specified medicine bottles are taken, the operation is complex, and the taking efficiency is low.

In order to solve the problems, chinese patent publication No. CN217919033U discloses a medicine taking carrying box for a medicine department, which comprises a buffer base, wherein the top of the buffer base is penetrated and slidably connected with a storage box, a placing groove is formed in the inner cavity of the storage box, movable shells are slidably connected to the left side and the right side of the top of the storage box, first label shells are glued to the opposite sides of the tops of the left movable shell and the right movable shell, and medicine storing boxes are penetrated and slidably connected to the bottoms of the front side and the rear side of the storage box; the patent has the function of classifying and placing, and can classify and store the medicine bottles filled with different kinds of anti-infective medicines so as to directly take the medicines and improve the taking efficiency.

In the actual use process of the patent, the medicine bottle is stored in the movable shell, if the top of the medicine bottle is higher than the top of the movable shell, the medicine bottle is easy to fall from the movable shell during the transportation, so that the medicine bottle is lost or damaged; if the top of medicine is far below the top of movable shell, then the staff need hold the medicine bottle and stretch into in the movable shell, just can deposit the medicine bottle in the movable shell bottom, adopts such a mode to deposit the medicine bottle one by one, and complex operation just inefficiency.

Disclosure of Invention

The application aims to provide a medical anti-infective drug transferring device which solves the problem that a drug bottle is easy to fall off during transportation of the existing equipment.

In order to achieve the above purpose, the application adopts the following technical scheme: the medical anti-infection medicine transfer device comprises a box body, wherein a plurality of partition plates are arranged in the box body at equal intervals, the box body is divided into a plurality of storage areas by the plurality of partition plates, a lifting box is vertically and slidably connected in the storage areas, and a first spring is arranged between the lifting box and the storage areas; grooves are formed in the two sides of the storage area on the box body and communicated with the storage area; the lifting plate is fixedly connected with the lifting box, and a guide block is arranged at the bottom of the lifting plate; a guide groove is arranged in the groove, and a guide block is connected with the guide groove in a sliding way; and a stop mechanism for stopping the lifting box.

The principle and the advantages of the scheme are as follows:

1. according to the scheme, different kinds of medicine bottles can be stored in different storage areas in a classified mode, and each storage area stores single medicine bottles through the lifting box, so that workers can store and take the medicine bottles quickly in order.

2. After a plurality of medicine bottles are stored in a lifting box, a lifting plate is pressed to move downwards, the lifting plate drives the lifting box to move synchronously, and a first spring is compressed; during the downward movement of the lifting plate, the lifting box also moves downward, and then the lifting box is stopped by the stopping mechanism; compared with the prior art, the position of the lifting box is lowered, the top of the medicine bottle is lower than the top of the box body, namely, the medicine bottle is positioned in the box body, and therefore the medicine bottle can be prevented from falling out of the lifting box.

3. When this scheme was put into the lift incasement with the medicine bottle, the top of medicine bottle was higher than the top of box, can make things convenient for the staff to deposit the medicine bottle for the storage mode of medicine bottle is simpler and more direct.

4. During the vertical movement of the lifting plate and the lifting box, the lifting block drives the guide block to move vertically along the path of the guide groove, so that the vertical movement of the lifting plate and the lifting box can be guided, and the stability of the vertical movement of the lifting plate and the lifting box is improved.

Further, the stop mechanism comprises a cavity formed in the box body, stop parts positioned at two sides in the cavity and spheres fixedly connected at two sides of the guide block, the cavity is communicated with the guide groove, and the guide block stretches into the cavity; the stop part comprises two sliding grooves transversely arranged on the cavity, and sliding blocks are connected in the sliding grooves in a sliding manner; the sliding block is rotationally connected with a rotating shaft, and a first torsion spring is arranged between the rotating shaft and the sliding block; the rotating shaft is provided with an arc-shaped block for propping against the sphere, the arc-shaped block is provided with a wedge surface for being extruded by the sphere, and the wedge surface is positioned on the movement track of the sphere; the device also comprises an adjusting part for driving the two sliding blocks to slide and for stopping the two sliding blocks.

Through the arrangement, the lifting plate is pressed to move downwards, the lifting plate drives the lifting box to move synchronously, and the first spring is compressed; during the downward movement of the lifting plate, the lifting plate drives the guide block to move downwards along the path of the guide groove, and the guide block drives the auxiliary block and the sphere to move downwards synchronously, so that the sphere moves towards the direction of the arc-shaped block; the guide blocks continue to move downwards, the guide blocks are positioned between the two arc blocks, so that the sphere extrudes the wedge surface, and the two sliding blocks are stopped by the adjusting part at the moment, so that the sliding blocks cannot move along the path of the sliding groove, and therefore, the sphere extrusion wedge surface can drive the arc blocks to rotate, namely, the distance between the two arc blocks is increased, and the first torsion spring is deformed; the guide block moves continuously again, the distance between the two wedge surfaces is larger than the sum of the widths of the two spheres and the guide block, the spheres pass through the wedge surfaces, the arc blocks reversely rotate under the action of the first torsion springs, the spheres are propped against the inner walls of the arc blocks, namely, the two spheres are clamped through the two arc blocks, the spheres are further limited, the vertical movement of the spheres is avoided, namely, the vertical movement of the guide block is avoided, and the positioning of the guide block, the lifting plate and the lifting box is realized.

Further, the adjusting part comprises a circular shaft connected with the box body in a rotating way, a disc fixedly connected with the circular shaft and stop blocks positioned at two sides of the guide block, the thickness of the disc is gradually increased along the circumferential direction of the disc, the disc is positioned between the two sliding blocks, and two sides of the disc are respectively propped against the two sliding blocks; the stop block is fixedly connected to the circular shaft and is propped against one end of the sliding block, which is far away from the disc; a second spring is arranged between the sliding block and the sliding groove; the direction of the stop block along the axial direction of the circular shaft is opposite to the direction of the position of the maximum thickness of the disc, and the maximum thickness of the disc is not less than the sum of the widths of the two spheres and the guide block; the device also comprises an adjusting unit for driving the circular shaft to rotate.

Through the arrangement, after the positioning of a plurality of lifting boxes is finished, the boxes are transferred to the designated positions, so that the transfer of the medicine bottles is finished.

The adjusting unit drives the circular shaft to rotate, and the circular shaft drives the stop blocks and the disc to rotate together, so that the two stop blocks are separated from the two sliding blocks, namely the two sliding blocks are in a movable state; the circular shaft continues to rotate, so that the circular shaft drives the disc to rotate, when the first wedge block is positioned, the position with the maximum thickness of the disc extrudes the two sliding blocks to separate, and the second spring is compressed; during the separation of the two sliding blocks, the two arc blocks synchronously move, so that the two arc blocks are separated, when the first wedge block is positioned, the distance between the two wedge faces is larger than the sum of the widths of the two spheres and the guide block, the limiting effect of the two arc blocks on the two spheres disappears, namely, the limiting effect on the guide block disappears, the guide block moves upwards under the action of the first spring, and the guide block drives the lifting plate and the lifting box to move upwards together, so that the top of the medicine bottle is higher than the top of the box body, and a worker can conveniently take the medicine bottle.

Further, the adjusting unit comprises a side groove formed in the side wall of the box body and a first gear fixedly connected with the round shaft, the side groove is communicated with the cavity, a movable block is connected in a sliding mode in the side groove, a third spring is arranged between the movable block and the side groove, and a first rack meshed with the first gear is arranged on the movable block; a second torsion spring is arranged between the circular shaft and the box body; the movable block is provided with a first wedge block, and a limit groove is formed in the first wedge block; the side wall of the box body is provided with a side block, the side block is provided with a vertical groove and a transverse groove communicated with the vertical groove, the first wedge block is in sliding fit with the vertical groove, and the vertical groove is positioned on the movement track of the first wedge block; the second wedge block is slidably connected in the transverse groove and is used for being extruded by the first wedge block, a fourth spring is arranged between the second wedge block and the side block, the second wedge block is located on the movement track of the first wedge block, and the second wedge block is slidably matched with the limiting groove.

Through the arrangement, after the positioning of the lifting boxes is finished, the boxes are transferred to the designated positions, so that the transfer of the medicine bottles is finished; the pressing movable block moves downwards, so that the third spring is compressed; during the downward movement of the movable block, the movable block drives the first wedge block to move downwards, so that the first wedge block extrudes the second wedge block to slide along the path of the transverse groove, and the fourth spring stretches; the movable block continues to move downwards, so that the second wedge block is propped against the side wall of the first wedge block; the movable block moves downwards again, when the second wedge block is transversely opposite to the limit groove, the second wedge block moves reversely under the action of the fourth spring and stretches into the limit groove, so that the first wedge block is positioned, and the movable block is positioned.

During the downward movement of the movable block, the movable block drives the first rack to synchronously move downwards, the first rack is meshed with the first gear to drive the first gear to rotate, the first gear drives the circular shaft to rotate, and the second torsion spring deforms; during the rotation of the circular shaft, the circular shaft drives the stop blocks and the disc to rotate together, so that the two stop blocks are separated from the two sliding blocks, namely, the two sliding blocks are in a movable state; the circular shaft continues to rotate, so that the circular shaft drives the disc to rotate, when the first wedge block is positioned, the position with the maximum thickness of the disc extrudes the two sliding blocks to separate, and the second spring is compressed; during the separation of the two sliding blocks, the two arc blocks synchronously move, so that the two arc blocks are separated, when the first wedge block is positioned, the distance between the two wedge faces is larger than the sum of the widths of the two spheres and the guide block, the limiting effect of the two arc blocks on the two spheres disappears, namely, the limiting effect on the guide block disappears, the guide block moves upwards under the action of the first spring, and the guide block drives the lifting plate and the lifting box to move upwards together, so that the top of the medicine bottle is higher than the top of the box body, and a worker can conveniently take the medicine bottle.

Further, two adjacent movable blocks are fixedly connected, and two adjacent second wedge blocks are fixedly connected.

Through the arrangement, synchronous movement of the movable blocks and synchronous movement of the second wedges can be realized, and the operation is simpler and more convenient.

Further, a side shaft is rotatably connected to the chamber, and a limiting block is arranged on the side shaft; a limiting cylinder is arranged in the cavity and is positioned on the movement track of the limiting block, and the limiting block is in sliding fit with the limiting cylinder; the side shaft is driven to rotate along with the vertical movement of the guide block.

Through the arrangement, during the downward movement of the guide block, the guide block drives the side shaft to rotate through the linkage mechanism, and the side shaft drives the limiting block to synchronously rotate, so that the limiting block moves in the direction of the limiting cylinder; the guide block continues the downward movement, when the guide block location, the guide block slides into the guide cylinder to this can play spacing effect to the guide block, and then avoid the vertical motion of guide block, strengthened the location effect to guide block, lifter plate and lifter box promptly, also improved the stability that guide block, lifter plate and lifter box were fixed a position.

Further, the linkage mechanism comprises a second rack fixedly connected with the guide block and a second gear fixedly connected with the side shaft, the second gear is positioned on the movement track of the second rack, and the second gear can be meshed with the second rack.

Through the arrangement, during the downward movement of the guide block, the guide block can also move downwards by the second rack, so that the second rack is meshed with the second gear to drive the side shaft to rotate.

Further, the lifting box is provided with an elastic layer, and the elastic layer is provided with a plurality of through holes for the medicine bottles to slide in and slide out.

Through the arrangement, during the process that a plurality of medicine bottles are placed in the lifting box, the medicine bottles are placed in the through holes one by one, friction force between the medicine bottles and the medicine bottles can be increased through the rubber layer, and then the limiting effect on the medicine bottles can be enhanced.

Further, anti-skid patterns are arranged on the inner wall of the through hole.

Through the arrangement, the friction force between the medicine bottle and the inner wall of the through hole can be further increased through the anti-skid patterns, and the limiting effect on the medicine bottle is further enhanced; and, during the upward movement of the lifting box, the medicine bottle also moves upwards, and when the lifting box stops after upward movement, the medicine bottle still has the upward movement trend, and the medicine bottle can be prevented from falling off from the through hole through the anti-skid patterns.

Drawings

FIG. 1 is a top view of an embodiment of a medical anti-infective drug delivery device of the present application;

FIG. 2 is a cross-sectional view in the front view of FIG. 1;

FIG. 3 is an enlarged view of FIG. 2 at A;

fig. 4 is a left side view of the right stopper tube of fig. 2.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the box 10, the partition 11, the lifting box 12, the first spring 13, the elastic layer 14, the through hole 15, the lifting plate 16, the guide block 17, the sphere 171, the auxiliary block 172, the chamber 20, the sliding block 21, the arc-shaped block 22, the wedge surface 221, the round shaft 30, the round disc 31, the stop 32, the second spring 33, the movable block 40, the first gear 41, the third spring 42, the first rack 43, the first wedge 44, the limit groove 441, the side block 50, the vertical groove 51, the second wedge 52, the fourth spring 53, the side shaft 60, the limit block 61, the limit cylinder 62, the second rack 63, and the second gear 64.

Examples

Substantially as shown in figures 1, 2, 3 and 4: the medical anti-infective drug transferring device comprises a box body 10, wherein a plurality of partition plates 11 are fixedly connected in the box body 10 at equal intervals, the box body 10 is divided into a plurality of storage areas by the plurality of partition plates 11, a lifting box 12 is vertically and slidingly connected in the storage areas, and a first spring 13 is fixedly connected between the lifting box 12 and the storage areas; the lifting box 12 is fixedly connected with an elastic layer 14, the elastic layer 14 is a rubber layer, a plurality of through holes 15 for sliding in and out of the medicine bottle are formed in the elastic layer 14, and anti-slip patterns are formed in the inner wall of the through holes 15. Grooves are formed on two sides of the box body 10, which are positioned in the storage area, and the grooves are communicated with the storage area; the lifting plate 16 is connected in the groove in a sliding way, the lifting plate 16 is fixedly connected with the lifting box 12, and the bottom of the lifting plate 16 is fixedly connected with the guide block 17; the bottom of the groove is provided with a guide groove, and the guide block 17 is in sliding connection with the guide groove.

The lifting box is characterized by further comprising a stop mechanism for stopping the lifting box 12, wherein the stop mechanism comprises a cavity 20 arranged in the box body 10, stop parts positioned at two sides in the cavity 20 and spheres 171 fixedly connected at two sides of the guide block 17, the cavity 20 is communicated with the guide groove, and the guide block 17 stretches into the cavity 20; an auxiliary block 172 is fixedly connected to the guide block 17, and the auxiliary block 172 is propped against the top of the cavity 20; the stop part comprises two sliding grooves transversely arranged on the cavity 20, the two sliding grooves are symmetrically arranged relative to the guide block 17, and the sliding blocks 21 are connected in the sliding grooves in a sliding manner; a rotating shaft is rotationally connected to the sliding block 21, and a first torsion spring is fixedly connected between the rotating shaft and the sliding block 21; an arc-shaped block 22 for propping against the sphere 171 is fixedly connected on the rotating shaft, a wedge surface 221 for being extruded by the sphere 171 is arranged on the arc-shaped block 22, and the wedge surface 221 is positioned on the movement track of the sphere 171.

The device further comprises an adjusting part for driving the two sliding blocks 21 to slide and for stopping the two sliding blocks 21, wherein the adjusting part comprises a circular shaft 30 rotationally connected with the box body 10, a circular disc 31 fixedly connected with the circular shaft 30 and stop blocks 32 positioned at two sides of the guide block 17, the thickness of the circular disc 31 is gradually increased along the circumferential direction of the circular disc 31, the circular disc 31 is positioned between the two sliding blocks 21, and two sides of the circular disc 31 respectively prop against the two sliding blocks 21; the stop block 32 is fixedly connected to the circular shaft 30, and the stop block 32 abuts against one end of the sliding block 21, which is far away from the disc 31; one end of the sliding block 21 is propped against one end of the sliding groove, and a second spring 33 is fixedly connected between the other end of the sliding block 21 and the other end of the sliding groove; the direction of the stop 32 along the axial direction of the circular shaft 30 is opposite to the direction of the maximum thickness position of the disc 31, i.e. when the stop 32 is upward, the maximum thickness position of the disc 31 is downward, and the maximum thickness of the disc 31 is greater than the sum of the widths of the two spheres 171 and the guide block 17; when the circular shaft 30 rotates, the circular shaft 30 drives the stop block 32 and the disc 31 to synchronously rotate, and when the stop block 32 is separated from the sliding blocks 21, the disc 31 simultaneously presses the two sliding blocks 21 to be far away by utilizing thickness change.

The device also comprises an adjusting unit for driving the round shaft 30 to rotate, wherein the adjusting unit comprises a side groove formed in the side wall of the box body 10 and a first gear 41 fixedly connected with the round shaft 30, the side groove is communicated with the cavity 20, a movable block 40 is slidably connected in the side groove, a third spring 42 is fixedly connected between the movable block 40 and the side groove, and a first rack 43 meshed with the first gear 41 is fixedly connected on the movable block 40; a second torsion spring is fixedly connected between the circular shaft 30 and the box body 10; the movable block 40 is fixedly connected with a first wedge block 44, and a limit groove 441 is formed in the first wedge block 44; a side block 50 is fixedly connected to the side wall of the box body 10, a vertical groove 51 and a transverse groove communicated with the vertical groove 51 are formed in the side block 50, the first wedge block 44 is in sliding fit with the vertical groove 51, and the vertical groove 51 is positioned on the movement track of the first wedge block 44; a second wedge block 52 which is used for being extruded by the first wedge block 44 is connected in a sliding way in the transverse groove, a fourth spring 53 is fixedly connected between the second wedge block 52 and the side block 50, the second wedge block 52 is positioned on the movement track of the first wedge block 44, and the second wedge block 52 is in sliding fit with the limiting groove 441.

A side shaft 60 is rotatably connected to the chamber 20, and a limiting block 61 is fixedly connected to the side shaft 60; a limiting cylinder 62 is fixedly connected in the cavity 20, the limiting cylinder 62 is positioned on the movement track of the limiting block 61, and the limiting block 61 is in sliding fit with the limiting cylinder 62; the side shaft 60 is driven to rotate along with the vertical movement of the guide block 17, the linkage mechanism comprises a second rack 63 fixedly connected with the guide block 17 and a second gear 64 fixedly connected with the side shaft 60, the second gear 64 is positioned on the movement track of the second rack 63, and the second gear 64 can be meshed with the second rack 63.

The specific implementation process is as follows:

when the medicine bottle storage box is used, different kinds of medicine bottles are stored in each storage area in a classified mode, a plurality of medicine bottles are stored in the lifting box 12 one by one, the top of each medicine bottle is higher than the top of the box body 10, the medicine bottles have risks of falling out of the lifting box 12, and for reducing risks, the following adjustment is made:

pressing the lifting plate 16 to move downwards, the lifting plate 16 drives the lifting box 12 to move synchronously, and the first spring 13 is compressed; during the downward movement of the lifting plate 16, the lifting plate 16 drives the guide block 17 to move downwards along the path of the guide groove, and the guide block 17 drives the auxiliary block 172 and the sphere 171 to synchronously move downwards, so that the sphere 171 moves towards the direction of the arc-shaped block 22; the guide block 17 continues to move downwards, the guide block 17 is positioned between the two arc blocks 22, so that the sphere 171 presses the wedge surface 221, and the two stop blocks 32 respectively abut against the two sliding blocks 21 at the moment, so that the sliding blocks 21 cannot move along the path of the sliding groove, and therefore the sphere 171 presses the wedge surface 221 to drive the arc blocks 22 to rotate, namely the distance between the two arc blocks 22 is increased, and the first torsion spring is deformed; the guide block 17 continues to move again, so that the distance between the two wedge surfaces 221 is larger than the sum of the widths of the two spheres 171 and the guide block 17, the spheres 171 pass through the wedge surfaces 221, the arc-shaped blocks 22 reversely rotate under the action of the first torsion springs, the spheres 171 are propped against the inner walls of the arc-shaped blocks 22, namely, the two spheres 171 are clamped through the two arc-shaped blocks 22, the spheres 171 are further limited, the spheres 171 are prevented from moving vertically, namely, the guide block 17 is prevented from moving vertically, the positioning of the guide block 17, the lifting plate 16 and the lifting box 12 is realized, the position of the lifting box 12 is lowered at the moment, the top of a medicine bottle is lower than the top of the box body 10, namely, the medicine bottle is positioned in the box body 10, and the medicine bottle lifting box 12 can be prevented from falling out; and when putting the medicine bottle into lift case 12, the top of medicine bottle is higher than the top of box 10, can make things convenient for the staff to deposit the medicine bottle for the storage mode of medicine bottle is simpler and more direct.

During the downward movement of the guide block 17, the guide block 17 also moves downward by the second rack 63, so that the second rack 63 is meshed with the second gear 64 to drive the side shaft 60 to rotate, and the side shaft 60 drives the limiting block 61 to synchronously rotate, so that the limiting block 61 moves towards the limiting cylinder 62; the guide block 17 continues to move downwards, and when the guide block 17 is positioned, the guide block 17 slides into the guide cylinder, so that the guide block 17 can be limited, and further the vertical movement of the guide block 17 is avoided, namely, the positioning effect on the guide block 17, the lifting plate 16 and the lifting box 12 is enhanced, and the positioning stability of the guide block 17, the lifting plate 16 and the lifting box 12 is also improved.

After the positioning of the lifting boxes 12 is completed, the box body 10 is transferred to a designated position, so that the transfer of the medicine bottles is completed; pressing the movable block 40 moves downward so that the third spring 42 is compressed; during the downward movement of the movable block 40, the movable block 40 drives the first wedge 44 to move downward, so that the first wedge 44 presses the second wedge 52 to slide along the path of the transverse groove, and the fourth spring 53 stretches; the movable block 40 continues to move downwardly such that the second wedge 52 abuts the side wall of the first wedge 44; when the second wedge block 52 transversely faces the limit groove 441, the second wedge block 52 reversely moves under the action of the fourth spring 53 and stretches into the limit groove 441, so that the first wedge block 44 is positioned, and the movable block 40 is positioned.

During the downward movement of the movable block 40, the movable block 40 drives the first rack 43 to synchronously move downward, the first rack 43 is meshed with the first gear 41 to drive the first gear 41 to rotate, the first gear 41 drives the circular shaft 30 to rotate, and the second torsion spring deforms; during the rotation of the circular shaft 30, the circular shaft 30 drives the stop blocks 32 and the disc 31 to rotate together, so that the two stop blocks 32 are separated from the two sliding blocks 21, namely, the two sliding blocks 21 are in a movable state; the circular shaft 30 continues to rotate, so that the circular shaft 30 drives the disc 31 to rotate, when the first wedge block 44 is positioned, the position with the maximum thickness of the disc 31 presses the two sliding blocks 21 to separate, and the second spring 33 is compressed; during the separation of the two sliding blocks 21, the two arc blocks 22 move synchronously, so that the two arc blocks 22 are separated, when the first wedge block 44 is positioned, the distance between the two wedge surfaces 221 is larger than the sum of the widths of the two spheres 171 and the guide block 17, the limiting effect of the two arc blocks 22 on the two spheres 171 disappears, namely the limiting effect on the guide block 17 disappears, the guide block 17 moves upwards under the action of the first spring 13, the guide block 17 drives the lifting plate 16 and the lifting box 12 to move upwards together, and when the auxiliary block 172 abuts against the top of the cavity 20, the guide block 17, the lifting plate 16 and the lifting box 12 are stopped, and at the moment, the top of the medicine bottle is higher than the top of the box 10, so that a worker can take the medicine bottle more conveniently.

In addition, during the period that a plurality of medicine bottles are placed in the lifting box 12, the medicine bottles are placed in the through holes 15 one by one, the friction force between the medicine bottles and the medicine bottles can be increased through the rubber layer, and then the limiting effect on the medicine bottles can be enhanced; in addition, friction force can be further increased through the anti-skid patterns, and the limiting effect on the medicine bottle is further enhanced; in addition, during the upward movement of the lifting box 12, the medicine bottle also moves upward, and when the lifting box 12 stops after moving upward, the medicine bottle still has the upward movement trend, and the medicine bottle can be prevented from falling out of the through hole 15 through the anti-skid patterns.

In the embodiment, a handle is fixedly connected on the box body 10; the box body 10 is driven to be transferred by the handle, so that the operation is simpler and more convenient.

In this embodiment, two adjacent movable blocks 40 are fixedly connected, and two adjacent second wedges 52 are fixedly connected; this enables synchronous movement of the movable blocks 40 and synchronous movement of the second wedges 52, and is simpler and more convenient to operate.

The foregoing is merely exemplary of the present application, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present application, and these should also be regarded as the protection scope of the present application, which does not affect the effect of the implementation of the present application and the practical applicability of the patent. The protection scope of the present application is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (9)

1. The utility model provides a medical treatment is with anti-infection medicine shifter, includes the box, and the equidistance is equipped with a plurality of baffles in the box, and the box is cut apart into a plurality of storage areas by a plurality of baffles, its characterized in that: a lifting box is vertically and slidably connected in the storage area, and a first spring is arranged between the lifting box and the storage area; grooves are formed in the two sides of the storage area on the box body and communicated with the storage area; the lifting plate is fixedly connected with the lifting box, and a guide block is arranged at the bottom of the lifting plate; a guide groove is arranged in the groove, and a guide block is connected with the guide groove in a sliding way; and a stop mechanism for stopping the lifting box.

2. The medical anti-infective drug delivery device of claim 1, wherein: the stop mechanism comprises a cavity formed in the box body, stop parts positioned at two sides in the cavity and spheres fixedly connected at two sides of the guide block, the cavity is communicated with the guide groove, and the guide block stretches into the cavity; the stop part comprises two sliding grooves transversely arranged on the cavity, and sliding blocks are connected in the sliding grooves in a sliding manner; the sliding block is rotationally connected with a rotating shaft, and a first torsion spring is arranged between the rotating shaft and the sliding block; the rotating shaft is provided with an arc-shaped block for propping against the sphere, the arc-shaped block is provided with a wedge surface for being extruded by the sphere, and the wedge surface is positioned on the movement track of the sphere; the device also comprises an adjusting part for driving the two sliding blocks to slide and for stopping the two sliding blocks.

3. The medical anti-infective drug delivery device of claim 2, wherein: the adjusting part comprises a circular shaft connected with the box body in a rotating way, a disc fixedly connected with the circular shaft and stop blocks positioned at two sides of the guide block, the thickness of the disc is gradually increased along the circumferential direction of the disc, the disc is positioned between the two sliding blocks, and two sides of the disc are respectively propped against the two sliding blocks; the stop block is fixedly connected to the circular shaft and is propped against one end of the sliding block, which is far away from the disc; a second spring is arranged between the sliding block and the sliding groove; the direction of the stop block along the axial direction of the circular shaft is opposite to the direction of the position of the maximum thickness of the disc, and the maximum thickness of the disc is not less than the sum of the widths of the two spheres and the guide block; the device also comprises an adjusting unit for driving the circular shaft to rotate.

4. A medical anti-infective drug delivery device according to claim 3, characterized in that: the adjusting unit comprises a side groove formed in the side wall of the box body and a first gear fixedly connected with the circular shaft, the side groove is communicated with the cavity, a movable block is connected in a sliding manner in the side groove, a third spring is arranged between the movable block and the side groove, and a first rack meshed with the first gear is arranged on the movable block; a second torsion spring is arranged between the circular shaft and the box body; the movable block is provided with a first wedge block, and a limit groove is formed in the first wedge block; the side wall of the box body is provided with a side block, the side block is provided with a vertical groove and a transverse groove communicated with the vertical groove, the first wedge block is in sliding fit with the vertical groove, and the vertical groove is positioned on the movement track of the first wedge block; the second wedge block is slidably connected in the transverse groove and is used for being extruded by the first wedge block, a fourth spring is arranged between the second wedge block and the side block, the second wedge block is located on the movement track of the first wedge block, and the second wedge block is slidably matched with the limiting groove.

5. The medical anti-infective drug delivery device of claim 4, wherein: two adjacent movable blocks are fixedly connected, and two adjacent second wedge blocks are fixedly connected.

6. The medical anti-infective drug delivery device of claim 5, wherein: a side shaft is rotationally connected to the chamber, and a limiting block is arranged on the side shaft; a limiting cylinder is arranged in the cavity and is positioned on the movement track of the limiting block, and the limiting block is in sliding fit with the limiting cylinder; the side shaft is driven to rotate along with the vertical movement of the guide block.

7. The medical anti-infective drug delivery device of claim 6, wherein: the linkage mechanism comprises a second rack fixedly connected with the guide block and a second gear fixedly connected with the side shaft, the second gear is positioned on the motion track of the second rack, and the second gear can be meshed with the second rack.

8. The medical anti-infective drug delivery device of claim 7, wherein: the lifting box is provided with an elastic layer, and the elastic layer is provided with a plurality of through holes for the medicine bottles to slide in and slide out.

9. The medical anti-infective drug delivery device of claim 8, wherein: the inner wall of the through hole is provided with anti-skid patterns.