CN113184358B - Transport device for biological medicine - Google Patents

Abstract

The invention discloses a transport device for biological medicines, which structurally comprises a handle, a loading box, a controller and a closing door, wherein the handle is riveted and connected to the upper end of the loading box; load the case by clamping device, and a support, place the frame, the contact, the test tube is constituteed, clamping device inlays solid connection in the support inboard, the support meshing is connected in placing the frame upper end, the contact is with placing the frame structure as an organic whole, the test tube activity block fits in the clamping device inboard, jolt when rocking when the transportation, according to the direction of rocking, extrude outstanding piece down, make its impact the extension piece of outstanding piece lower extreme middle part position, make it constantly stretch into in the outstanding piece, expand to the left and right sides and be close to the groove up end of putting in order, make and can drive the block in inboard sliding layer and extend the roll-off to the left and right sides at the in-process that expandes, wrap up the test tube outside, increase its stability, alleviate its range of rocking.

Description

Transport device for biological medicine

Technical Field

The invention belongs to the field of medicine transportation, and particularly relates to a transportation device for biological medicines.

Background

The medical transportation device is a transportation and storage device, and when in transportation, the specified medical supplies are placed on the shelf in the transportation device, wrapped by the gaskets and then transported to the specified place.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when transportation equipment transported test tube class medicament, owing to place the test tube in the downthehole transportation of support, and for the later stage conveniently takes, leave certain clearance between test tube and the support hole to meet rugged road section and produce when jolting and rocking when the in-process of transportation, its inside test tube also can rock thereupon, impel to put the test tube of arranging the conveyer corner position in rocking in-process and can collide with each other with the device inner wall, cause certain wearing and tearing.

It is therefore desirable to provide a delivery device for biopharmaceutical use.

Disclosure of Invention

To solve the problems of the above-described technology.

The invention relates to a transport device for biological medicine, which is achieved by the following specific technical means: the structure of the device comprises a handle, a loading box, a controller and a closing door, wherein the handle is riveted and connected to the upper end of the loading box, the controller is movably clamped at the front end of the closing door, and the side end of the closing door is connected with the loading box through a bolt; the loading box comprises clamping device, support, placing frame, contact, test tube, clamping device inlays to be fixed and connects in the support inboard, the support meshing is connected in placing the frame upper end, the contact with place frame structure as an organic whole, the test tube activity block fits in clamping device is inboard.

The clamping device is composed of an outer disc, insert blocks and extrusion rings, the insert blocks are connected to the inner side of the outer disc in a riveting mode, the extrusion rings are fixedly connected to the inner side of the insert blocks in an embedding mode, and the four extrusion rings are installed at different positions of the inner side of the outer disc in an arc mode.

Wherein, the extrusion ring comprises outstanding piece, inlayer, extension piece, spring, outstanding piece is embedded solid and is connected in the inlayer upper end, extend a movable block and block in outstanding piece middle part, spring threaded connection is in outstanding piece lower extreme left and right sides, it is the arc to install in outstanding piece lower extreme middle part to extend the piece, and is the rubber material.

Wherein, outstanding piece comprises block rubber, sliding layer, groove, adsorption plate of putting in order, the block rubber is embedded to be connected in putting in order the groove upper end, sliding layer activity block is in putting in order the inslot side, the adsorption plate meshing is connected in the block rubber inboardly, sliding layer profile and the inslot portion of putting in order are corresponding, and the diameter is less than and puts in order the groove.

Wherein, the contact comprises rectangular piece, isolated piece, fixed slot, hard board, the vertical connection in hard board right side of rectangular piece, isolated piece activity block in the fixed slot right side, the fixed slot is embedded to be connected in rectangular piece right side, both ends are oval-shaped about the rectangular piece, and have certain elasticity.

Wherein, isolated piece comprises gathering together the board, touching board, indent groove, crooked board, it inlays solid to connect in gathering together the board middle part to touch the board, indent groove activity block closes in the crooked board outside, crooked board meshing is connected in gathering together inboard, touch the board and have certain thickness, be the arc and install in gathering together the board middle part.

Wherein, it comprises articulamentum, rubber ring, kickdown to bump the touch panel, the rubber ring activity joint is inboard in the articulamentum, the kickdown inlays solid the both ends about connecting in the articulamentum, the kickdown is equipped with two, and the symmetry is installed in both ends about the articulamentum right side.

The concave plate is composed of a pasting plate, an elastic sheet and a spongy cushion, the pasting plate is fixedly connected to the right side of the elastic sheet, the spongy cushion is fixedly installed on the inner side of the pasting plate, the elastic sheet is bent to a certain radian, and the spongy cushion is provided with three parts and is installed on the right side of the elastic sheet.

Compared with the prior art, the invention has the following beneficial effects:

1. when the transportation jolts and rocks, according to the direction of rocking, will outstanding piece extrudees downwards, makes its collision to the extension piece of outstanding piece lower extreme middle part position for in it constantly stretches into outstanding piece, expand to the left and right sides and be close to the groove up end of putting in order, make and can drive the block and extend the roll-off in inboard sliding layer to the left and right sides at the in-process that expands, wrap up the test tube outside, increase its stability, alleviate its range of rocking.

2. When the test tube takes place to rock, can touch isolated piece, according to the size of atress with its inside extrusion, gather together the board at the extruded in-process and constantly incurve, make inboard crooked board to indentation inslot indentation to give certain buffering, utilize the outstanding arc outline of isolated piece, avoid the test tube direct and conveyer inner wall to collide mutually when rocking and cause wearing and tearing.

Drawings

FIG. 1 is a schematic view of a transport device for biopharmaceuticals of the present invention.

Fig. 2 is a schematic structural view of a transport device loading case for biopharmaceuticals of the present invention.

FIG. 3 is a schematic view of a transportation device holding apparatus for biomedical use according to the present invention.

FIG. 4 is a schematic view of the extrusion ring of a transport device for biopharmaceuticals of the present invention.

FIG. 5 is a schematic view of a protruded block of a transportation device for biomedical use according to the present invention.

FIG. 6 is a schematic view of a contact member of a transportation device for biomedical use according to the present invention.

Fig. 7 is a schematic structural view of a biomedical transportation device insulation member according to the present invention.

FIG. 8 is a schematic view of a structure of a contact plate of a transportation device for biomedical use according to the present invention.

FIG. 9 is a schematic view of the structure of a recessed plate of a transportation device for biomedical use according to the present invention.

In the figure: handle-1, loading box-2, controller-3, closing door-4, clamping device-21, support-22, placing frame-23, contact piece-24, test tube-25, outer disc-211, mosaic block-212, extrusion ring-213, projection block-131, inner layer-132, extension block-133, spring-134, rubber block-311, sliding layer-312, arrangement groove-313, adsorption plate-314, long strip block-241, isolation piece-242, fixed groove-243, hard plate-244, gathering plate-421, touch plate-422, retraction groove-423, bending plate-424, connecting layer-221, rubber ring-222, depression plate-223, sticking plate-231, elastic sheet-232, elastic sheet-311, A sponge cushion-233.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a transport device for biological medicines, which structurally comprises a handle 1, a loading box 2, a controller 3 and a closing door 4, wherein the handle 1 is riveted and connected to the upper end of the loading box 2, the controller 3 is movably clamped at the front end of the closing door 4, and the side end of the closing door 4 is in bolted connection with the loading box 2; load case 2 by clamping device 21, support 22, place frame 23, contact 24, test tube 25 and constitute, clamping device 21 embedded connection is inboard in support 22, support 22 meshes to be connected in placing frame 23 upper end, contact 24 with place frame 23 structure as an organic whole, test tube 25 activity joint is inboard in clamping device 21.

Wherein, clamping device 21 comprises outer dish 211, mosaic block 212, extrusion ring 213, mosaic block 212 riveting is inboard in outer dish 211, extrusion ring 213 is embedded to be connected in mosaic block 212 inboardly, extrusion ring 213 is equipped with four, is the arc and installs in the inboard different positions of outer dish 211, can adjust when the test tube is placed, carries out the centre gripping to it from different angles, guarantees the steady in the test tube transportation.

Wherein, extrusion ring 213 comprises outstanding piece 131, inlayer 132, extension piece 133, spring 134, outstanding piece 131 is embedded to be connected in inlayer 132 upper end, extend the movable block of piece 133 and block in outstanding piece 131 middle part, spring 134 threaded connection is in outstanding piece 131 lower extreme left and right sides, it is installed in outstanding piece 131 lower extreme middle part to extend piece 133 to be the arc, and is the rubber material, can produce certain deformation when the transportation and assist outstanding piece 131, effectively centre gripping to the test tube.

The protruding block 131 is composed of a rubber block 311, a sliding layer 312, a homing groove 313 and an adsorption plate 314, the rubber block 311 is fixedly connected to the upper end of the homing groove 313 in an embedded mode, the sliding layer 312 is movably clamped on the inner side of the homing groove 313, the adsorption plate 314 is connected to the inner side of the rubber block 311 in an engaged mode, the outer contour of the sliding layer 312 corresponds to the inner portion of the homing groove 313, the diameter of the sliding layer 312 is smaller than that of the homing groove 313, the sliding layer 312 can conveniently extend to the left side and the right side from the homing groove 313 when the test tube is transported and shaken, the attaching area of the sliding layer 312 to the surface of the test tube is increased, and the sliding layer is enabled to be vertically installed in the support all the time.

The specific use mode and function of the embodiment are as follows:

in the invention, when in transportation, a test tube 25 is vertically placed in a support 22 in a loading box 2, a clamping device 21 is arranged in the support 22, the test tube 25 can contact a pressing ring 213 on the inner side of an outer disc 211 when being placed, the arc-shaped pressing ring 213 with different angles is used for clamping the test tube 25 at the middle position, when in transportation, bumping and shaking, a protruding block 131 at the upper end of an inner layer 132 in the pressing ring 213 is downwards pressed according to the shaking direction, so that the protruding block collides with an extending block 133 at the middle position of the lower end of the protruding block 131, the protruding block 131 is continuously extended into the protruding block 131, the protruding block is unfolded towards the left side and the right side and is close to the upper end surface of a homing groove 313, a sliding layer 312 clamped on the inner side is driven to extend towards the left side and the right side and slide out in the unfolding process, the outer side of the test tube is wrapped, the stability of the test tube is increased, the shaking amplitude is reduced, and an adsorption plate 314 on the inner side of a rubber block 311 is matched to be attached to the outer side of the test tube 25, fix it in the assigned position, avoid causing the skew, utilize the opening part of closing door 4 and loading case 2 to laminate mutually at last, press the button in the controller 3 and close it, avoid toppling over in the transportation.

Example 2:

as shown in fig. 6 to 9:

the contact element 24 is composed of a long block 241, an isolation element 242, a fixing groove 243 and a rigid plate 244, the long block 241 is vertically connected to the right side of the rigid plate 244, the isolation element 242 is movably clamped to the right side of the fixing groove 243, the fixing groove 243 is fixedly embedded to the right side of the long block 241, the upper end and the lower end of the long block 241 are oval, and the long block has certain elasticity, so that the isolation element 242 can be assisted to give certain buffering when being impacted, and the surface deformation of the fixing groove 243 is avoided.

Wherein, isolated piece 242 comprises gathering together board 421, touching board 422, indentation groove 423, crooked board 424, touch board 422 embedded solid connect in gathering together board 421 middle part, indentation groove 423 activity joint in crooked board 424 outside, crooked board 424 meshes to connect in gathering together inboard board 421, touch board 422 has certain thickness, is the arc and installs in gathering together board 421 middle part, is convenient for play certain guard action, avoids because of the wearing and tearing of transportation collision.

Wherein, touch panel 422 comprises articulamentum 221, rubber ring 222, recess plate 223, rubber ring 222 activity joint is inboard in articulamentum 221, recess plate 223 inlays solid and connects both ends about articulamentum 221, recess plate 223 is equipped with two, and both ends about the symmetry is installed in the articulamentum 221 right side are favorable to cooperateing with rubber ring 222 and make the test tube contact rather than the surface when rocking, increase the guard effect, avoid surface wear.

Wherein, the sunk plate 223 comprises pasting board 231, flexure strip 232, foam-rubber cushion 233, pasting board 231 inlays admittedly and connects in flexure strip 232 right side, foam-rubber cushion 233 fixed mounting is inboard in pasting board 231, the certain radian of flexure strip 232 surface curvature, and foam-rubber cushion 233 are equipped with the three and install in flexure strip 232 right side, are favorable to wrapping up in the outside when the test tube transportation rocks, prevent to cause wearing and tearing with conveyer inner wall direct impact.

The specific use mode and function of the embodiment are as follows:

the contact piece 24 is arranged at the outer side corner of the placing frame 23, when the test tube 25 shakes, the test tube can touch the isolating piece 242 on the right side of the fixing groove 243 in the contact piece 24, the test tube is extruded inwards according to the stress, the gathering plate 421 in the isolating piece 242 is continuously bent inwards in the extrusion process, the bending plate 424 on the inner side is enabled to retract into the retracting groove 423, certain buffering is provided, the protruding arc-shaped outer contour of the isolating piece 242 is utilized, the test tube is prevented from directly colliding with the inner wall of the transportation device to cause abrasion when shaking, the touch plate 422 is arranged in the middle of the gathering plate 421, the concave plate 223 on the right side of the connecting layer 221 at different positions is utilized to be matched with the rubber ring 222, the test tube is enabled to be fixedly embedded into the sponge pads 233 of the sticking plate 231 at different angles in the shaking process, certain protection effect is achieved, and damage to the surface of the test tube is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. A transport device for biological medicine structurally comprises a handle (1), a loading box (2), a controller (3) and a closing door (4), wherein the handle (1) is connected to the upper end of the loading box (2) in a riveting mode, the controller (3) is movably clamped at the front end of the closing door (4), and the side end of the closing door (4) is connected with the loading box (2) through a bolt; the method is characterized in that:

the loading box (2) is composed of a clamping device (21), a support (22), a placing frame (23), a contact element (24) and a test tube (25), the clamping device (21) is fixedly embedded in the support (22), the support (22) is meshed and connected to the upper end of the placing frame (23), the contact element (24) and the placing frame (23) are of an integrated structure, and the test tube (25) is movably clamped on the inner side of the clamping device (21);

the clamping device (21) consists of an outer disc (211), an embedding block (212) and a pressing ring (213), the embedding block (212) is connected to the inner side of the outer disc (211) in a riveting mode, and the pressing ring (213) is connected to the inner side of the embedding block (212) in a embedding mode;

the extrusion ring (213) consists of a protruding block (131), an inner layer (132), an extending block (133) and a spring (134), the protruding block (131) is fixedly embedded in the upper end of the inner layer (132), the extending block (133) is movably clamped in the middle of the protruding block (131), and the spring (134) is in threaded connection with the left side and the right side of the lower end of the protruding block (131);

the protruding block (131) consists of a rubber block (311), a sliding layer (312), a homing groove (313) and an adsorption plate (314), the rubber block (311) is fixedly embedded at the upper end of the homing groove (313), the sliding layer (312) is movably clamped at the inner side of the homing groove (313), and the adsorption plate (314) is meshed and connected with the inner side of the rubber block (311);

the contact element (24) consists of a long strip block (241), an isolation piece (242), a fixing groove (243) and a hard plate (244), the long strip block (241) is vertically connected to the right side of the hard plate (244), the isolation piece (242) is movably clamped on the right side of the fixing groove (243), and the fixing groove (243) is fixedly connected to the right side of the long strip block (241);

the isolation piece (242) consists of a gathering plate (421), a touch plate (422), a retraction groove (423) and a bending plate (424), the touch plate (422) is fixedly connected to the middle of the gathering plate (421), the retraction groove (423) is movably clamped on the outer side of the bending plate (424), and the bending plate (424) is connected to the inner side of the gathering plate (421) in a meshed manner;

the touch plate (422) consists of a connecting layer (221), a rubber ring (222) and a concave plate (223), the rubber ring (222) is movably clamped at the inner side of the connecting layer (221), and the concave plate (223) is fixedly embedded at the upper end and the lower end of the connecting layer (221);

the concave plate (223) consists of an adhesive plate (231), an elastic sheet (232) and a spongy cushion (233), the adhesive plate (231) is fixedly connected to the right side of the elastic sheet (232) in an embedded mode, and the spongy cushion (233) is fixedly installed on the inner side of the adhesive plate (231);

the test tube (25) is vertically placed into a support (22) in a loading box (2), a clamping device (21) is arranged in the support (22), when the test tube (25) is placed into the loading box, the test tube can contact with a squeezing ring (213) on the inner side of an outer disc (211), the test tube (25) is clamped at the middle position by utilizing arc-shaped squeezing rings (213) with different angles, when the test tube is transported, bumped and shaken, a protruding block (131) at the upper end of an inner layer (132) in the squeezing ring (213) is downwards squeezed according to the shaking direction, so that the protruding block collides with an extending block (133) at the middle position of the lower end of the protruding block (131), the test tube continuously extends into the protruding block (131), is unfolded towards the left side and the right side to be close to the upper end surface of a returning groove (313), so that a sliding layer (312) clamped on the inner side can be driven to extend and slide out towards the left side and right side in the unfolding process, the test tube is wrapped outside, and the stability of the test tube is improved, the shaking amplitude of the test tube is reduced, meanwhile, an adsorption plate (314) on the inner side of a rubber block (311) is attached to the outer side of the test tube (25) and fixed at a specified position to avoid deviation, and finally, a closing door (4) is attached to an opening of the loading box (2) and closed by pressing a button in the controller (3);

the outer side corner of the placing frame (23) is provided with a contact piece (24), when the test tube (25) shakes, the isolating piece (242) at the right side of the fixing groove (243) in the contact piece (24) is contacted and is pressed inwards according to the magnitude of the stress, the gathering plate (421) in the isolating piece (242) is continuously bent inwards in the process of extrusion, the bending plate (424) at the inner side is caused to retract into the retraction groove (423), thereby providing certain buffer, avoiding the abrasion caused by the direct collision of the test tube with the inner wall of the conveying device when the test tube shakes by utilizing the protruding arc-shaped outer contour of the isolating piece (242), a touch plate (422) is arranged in the middle of the gathering plate (421), concave plates (223) at different positions on the right side of the connecting layer (221) are matched with the rubber ring (222), so that the test tube is contacted with the sponge pads (233) embedded in the concave plate (223) and fixed on the sticking plate (231) at different angles in the shaking process.

Images