CN114152051B - Vertical medical slide draining rack - Google Patents

Abstract

The invention relates to the technical field of medical slide draining racks, and discloses a combined medical slide draining rack, which aims to solve the problems that the conventional device is inconvenient to stabilize slides, the slides are inclined to cause collision damage and even fall, and the traditional slide draining rack is inconvenient to adjust the angle to accelerate the slide dewatering rate; according to the invention, when the slide is inserted, the clamping block is triggered to descend, so that the slide is clamped by the first elastic block and the second elastic block through the linkage structure, and the magnetic block is separated from the first magnetic sticking block and is magnetically connected with the second magnetic sticking block through rotating the cam, at the moment, the first draining rack body and the second draining rack body are gradually inclined, waste liquid in the first draining rack body and the second draining rack body can be automatically discharged, and the dehydration rate of the slide is accelerated.

Description

Vertical medical slide draining rack

Technical Field

The invention relates to the technical field of medical slide draining racks, in particular to an assembled medical slide draining rack.

Background

The draining rack is used for placing an object inside the draining rack and then standing for a long time to enable water drops on the outer surface of the object to slide down under the action of gravity so as to separate the object from the water drops.

Place into traditional slide waterlogging caused by excessive rainfall frame with the slide and dewater the time, be not convenient for stabilize the slide, lead to the slide to easily receive external factors when the dehydration to disturb, when receiving collision or impact force, the slide can askew cause the collision damage, the condition of dropping can appear even, and traditional slide waterlogging caused by excessive rainfall frame is not convenient for use group to splice as the unit, the wholeization dewaters the slide, the area that leads to the device is great, traditional slide waterlogging caused by excessive rainfall frame is not convenient for carry out the regulation of angle, accelerate the dehydration rate of slide.

Disclosure of Invention

The invention aims to provide a combined medical slide draining rack, and aims to solve the problems that in the prior art, when a slide is placed in a traditional slide draining rack for dewatering, the slide is not convenient to stabilize, the slide is easy to be interfered by external factors during dewatering, the slide can be inclined to cause collision damage or even fall when being collided or impacted, the traditional slide draining rack is not convenient to splice by taking a group as a unit, the integral slide is dewatered, the occupied area of the device is large, and the traditional slide draining rack is not convenient to adjust the angle so as to accelerate the dewatering rate of the slide.

The assembled medical slide draining rack comprises a first draining rack body and a second draining rack body arranged on one side of the first draining rack body, wherein a first splicing plate is arranged on one side of the first draining rack body, a second splicing plate is arranged on one side of the second draining rack body, the second splicing plate is spliced with the first splicing plate, and a supporting mechanism is connected to one side of the first splicing plate;

the first draining rack body comprises a connecting partition plate arranged on one side of the first draining rack body and an embedded block arranged on the other side of the first draining rack body, the connecting partition plates are provided with a plurality of groups, the embedded blocks are provided with two groups, a jacking assembly is arranged at the lower end position in the connecting partition plate, a clamping block is arranged at the upper end of the jacking assembly, the clamping block is movably clamped at the lower end position in the connecting partition plate, the first draining rack body also comprises a waste liquid cavity arranged in the first draining rack body, the jacking assembly comprises a screwing head and a jacking wheel connected to one end of the screwing head, and one side of the jacking wheel is meshed with a jacking column;

the connecting partition plate comprises a partition plate body arranged on one side of the first draining rack body, a water inlet groove is formed in the covering position of the partition plate body, the water inlet groove is formed in one side of the first draining rack body and communicated with the waste liquid cavity, a first elastic block is arranged at the upper end of the water inlet groove, and the first elastic block is embedded in the first draining rack body;

the waste liquid chamber includes that the gomphosis sets up at the retaining pull board of waste liquid chamber lower extreme and sets up the weeping groove in waste liquid chamber bottom, the waste liquid chamber is still including running through set up in the inside through groove of retaining pull board and set up the side hole in waste liquid chamber one side, the open-top in waste liquid chamber sets up, run through groove and weeping groove and be in on the same axis, and length and width homogeneous phase equal, retaining pull board one end is provided with the fixed plate, and the inside arc hole that has seted up that runs through of fixed plate, arc hole one end position is in the lower extreme in waste liquid chamber, the arc hole other end is on same horizontal plane with side hole department.

Furthermore, the block includes that the meshing sets up at block one side first from the driving wheel and through the second of hub connection in first from driving wheel one side from the driving wheel, the second is provided with the third from driving wheel from the meshing of driving wheel one side, the third has the fourth from the driving wheel through the hub connection, the fourth is provided with the fifth from driving wheel from the meshing of driving wheel one side, the fifth has first meshing subassembly and second meshing subassembly from the driving wheel through the hub connection, the inside upper end one side gomphosis of connecting the baffle is provided with the second elastic block, and the second elastic block is in on the same horizontal plane with first elastic block.

Furthermore, the second meshing assembly comprises a first meshing wheel and a second meshing wheel, the first meshing wheel is connected to one side of the fifth driven wheel through a shaft, the second meshing wheel is meshed to one side of the first meshing wheel, the second meshing wheel is connected with a third meshing wheel through a shaft, the third meshing wheel is meshed to one side of the second elastic block, the first meshing assembly and the second meshing assembly are members made of the same structure, and the third meshing wheel arranged on the first meshing assembly is meshed with the first elastic block.

Furthermore, first splice plate is including setting up the second connection triangle piece and the second triangle groove of setting in first splice plate one side of setting up in the side of first splice plate, and first splice plate is still including running through the second gomphosis groove of seting up in first splice plate inside, and first splice plate one side is provided with thread groove and arc piece.

Furthermore, the second splice plate comprises a first connecting triangular block arranged on the side face of the second splice plate and a first triangular groove arranged on one side of the second splice plate, the second splice plate further comprises a first embedded groove arranged inside the second splice plate in a penetrating mode, the second connecting triangular block is matched with the first triangular groove, the first connecting triangular block is matched with the second triangular groove, and a threaded groove and an arc-shaped block are also arranged on one side of the second splice plate.

Further, the arc piece is including seting up at the inside arc wall of arc piece and setting up the screw thread post in arc piece four corners department, and the screw thread post runs through arc piece threaded connection inside first splice plate, and the arc piece is still inhaled the piece and is inhaled the piece with the second magnetism that sets up at the inside other end of arc wall at the first magnetism of the inside one end of arc wall including setting up.

Furthermore, the supporting mechanism comprises a supporting base and a telescopic strip movably arranged at the upper end of the supporting base, a cam is movably sleeved on one side of the telescopic strip, and the cam is positioned on one side of the arc-shaped groove.

Further, the telescopic strip comprises a connecting column arranged on one side of the telescopic strip and a fixed column arranged on one side of the connecting column, a thread movable column is movably arranged on one side of the fixed column, the upper end of the cam is sleeved on the outer side of the connecting column, and the length of the connecting column is larger than the thickness of the upper end of the cam.

Further, the fixed column is including setting up first swiveling wheel, second swiveling wheel and the third swiveling wheel in the fixed column is inside, and first swiveling wheel passes through axle and screw thread activity post fixed connection, and second swiveling wheel and third swiveling wheel all mesh with first swiveling wheel mutually, and the equal activity of second swiveling wheel and third swiveling wheel sets up inside the fixed column.

Further, the cam is including setting up the cooperation piece on one side of the cam and setting up the arc strip of both sides about the cooperation piece, and cam one side is provided with the magnetism piece, and the radian of arc strip and cooperation piece all with the radian phase-match of arc wall, magnetism piece and first magnetism inhale the piece and the second magnetism inhale the piece magnetism and inhale mutually.

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

1. the invention provides a combined medical slide draining rack, wherein a plurality of groups of connecting partition plates are arranged on one side of a first draining rack body, a slide is embedded in the connecting partition plates, the lower end of the slide extrudes a clamping block to move downwards, the descending of the clamping block drives a first driven wheel to rotate as the clamping block is meshed with the first driven wheel, the rotation of the first driven wheel drives a second driven wheel, a third driven wheel, a fourth driven wheel, a fifth driven wheel, a first meshing wheel, a second meshing wheel and a third meshing wheel to rotate, so that a second elastic block is driven to move, the second meshing assembly and the first meshing assembly are components made of the same structure, when the second elastic block moves, the first elastic block moves simultaneously, and at the moment, the second elastic block and the first elastic block move relatively to clamp the slide, so that the position at the moment is stabilized, and the slide is prevented from being deviated, collided and even falling down when the slide is dehydrated.

2. According to the assembled medical slide draining rack provided by the invention, the first draining rack body is arranged on one side of the first splicing plate, the second draining rack body is arranged on one side of the second splicing plate, the first draining rack body and the second draining rack body are spliced by embedding the two groups of first triangular grooves and the two groups of second triangular grooves due to the fact that the second triangular connecting blocks are matched with the first triangular grooves and the first triangular connecting blocks are matched, the first draining rack body and the second draining rack body can be spliced by using the first splicing plate, the first draining rack body, the second splicing plate and the second draining rack body as a group, a plurality of groups of first splicing plates, the first draining rack body, the second splicing plates and the second draining rack body are spliced to plug in more water, the phenomenon that the dispersed draining rack needs larger floor area is avoided, when water of a slide enters the waste liquid cavity through the water inlet groove, when the water storage plate is embedded in the waste liquid cavity and penetrates through the liquid leakage groove and is not located in the same vertical direction, the waste liquid collecting cavity is formed by splicing the first draining rack body and the second draining rack body, and when the waste liquid can be stored in the waste liquid collecting waste liquid in the waste liquid collecting line, and the second draining rack body can be arranged on the same drawing rack.

3. According to the assembled medical slide draining rack provided by the invention, when the first draining rack body and the second draining rack body are spliced together, a group of arc blocks can be taken and connected with the first splicing plate through the threaded column, then the support mechanism is taken and connected to one side through the threaded movable column, the arc blocks and the support mechanism can also be connected to one side of the second splicing plate, the rotating cam enables the matching blocks to be movably clamped in the arc groove, at the moment, the magnetic blocks can be magnetically connected with the first magnetic attachment block, the first draining rack body, the first splicing plate, the second splicing plate and the second draining rack body are stabilized through the gravity of the cam, the position of the first splicing plate is stabilized, the position of the matching blocks in the arc groove is changed through the rotating cam, namely, the magnetic blocks are separated from the first magnetic attachment block, the magnetic blocks are magnetically connected with the second magnetic attachment block, under the gravity action of the cam, the first splicing plate can rotate to enable the cam to be in a vertically downward state from the oblique state, the rotation of the threaded movable column and the first magnetic attachment block drive the rotating wheel to be in a magnetic connection with the second magnetic attachment block, the inclined rotation of the slide, the rotating wheel, the waste liquid is slowly rotated, and waste liquid is prevented from being slowly discharged from the slide, and waste liquid is prevented from being slowly discharged from being discharged from the inclined state, and is quickly discharged from the slide draining cavity.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a schematic structural view of a first splice plate and a second splice plate provided by the present invention;

FIG. 3 is a schematic structural view of a first draining rack body provided by the invention;

FIG. 4 is a schematic view of the construction of the connecting partition according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of a waste chamber according to the present invention;

FIG. 7 is an enlarged schematic view of the structure at B in FIG. 6 according to the present invention;

FIG. 8 is a schematic structural view of a first splice plate and a support mechanism provided by the present invention;

FIG. 9 is a schematic view of an arcuate block configuration provided by the present invention;

FIG. 10 is a schematic plan view of the telescoping strips and cam provided by the present invention;

fig. 11 is a schematic plan view of an arc block provided by the present invention.

In the figure: 1. a first draining rack body; 11. connecting the partition boards; 111. a first elastic block; 112. a separator body; 113. a water inlet tank; 12. an engagement block; 13. a jacking assembly; 131. screwing the head; 132. a jacking wheel; 133. jacking the column; 14. a clamping block; 141. a first driven wheel; 142. a second driven wheel; 143. a third driven wheel; 144. a fourth driven wheel; 145. a fifth driven wheel; 146. a second elastic block; 147. a first engagement assembly; 148. a second engagement assembly; 1481. a first meshing wheel; 1482. a second meshing wheel; 1483. a third meshing wheel; 15. a waste fluid chamber; 151. a water storage drawing plate; 152. a liquid leakage groove; 153. a through groove; 154. a side hole; 155. a fixing plate; 156. an arc-shaped hole; 2. a first splice plate; 21. a second connecting triangular block; 22. a second fitting groove; 23. a second triangular groove; 24. a thread groove; 25. an arc-shaped block; 251. an arc-shaped slot; 252. a threaded post; 253. a first magnetic attachment block; 254. a second magnetic attachment block; 3. a support mechanism; 31. a support base; 32. a telescopic bar; 321. connecting columns; 322. fixing the column; 3221. a first rotating wheel; 3222. a second rotating wheel; 3223. a third rotating wheel; 323. a threaded movable post; 33. a cam; 331. a matching block; 332. an arc-shaped strip; 333. a magnetic block; 4. a second splice plate; 41. a first connecting triangular block; 42. a first fitting groove; 43. a first triangular groove; 5. the second draining rack body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

In order to solve the technical problems that when a slide is placed into a traditional slide draining rack for dewatering, the slide is not convenient to stabilize, the slide is easy to be interfered by external factors when being dewatered, and when the slide is collided or impacted, the slide can be inclined to cause collision damage or even fall, as shown in figures 1 to 5, the following preferable technical scheme is provided:

the assembled medical glass slide draining rack comprises a first draining rack body 1 and a second draining rack body 5 arranged on one side of the first draining rack body 1, wherein one side of the first draining rack body 1 is provided with a first splicing plate 2, one side of the second draining rack body 5 is provided with a second splicing plate 4, the second splicing plate 4 is spliced with the first splicing plate 2, one side of the first splicing plate 2 is connected with a supporting mechanism 3, the first draining rack body 1 comprises a connecting partition plate 11 arranged on one side of the first draining rack body 1 and embedded blocks 12 arranged on the other side of the first draining rack body 1, the connecting partition plates 11 are provided with a plurality of groups, the embedded blocks 12 are provided with two groups, the lower end position in the connecting partition plate 11 is provided with a jacking assembly 13, the upper end of the jacking assembly 13 is provided with a clamping block 14, the clamping block 14 is movably clamped at the lower end position in the connecting partition plate 11, the first draining rack body 1 further comprises a waste liquid cavity 15 arranged in the first draining rack body 1, the connecting clapboard 11 comprises a clapboard body 112 arranged at one side of a first draining rack body 1, a water inlet groove 113 is arranged at the covering position of the clapboard body 112, the water inlet groove 113 is arranged at one side of the first draining rack body 1 and is communicated with a waste liquid cavity 15, a jacking component 13 comprises a screwing head 131 and a jacking wheel 132 connected at one end of the screwing head 131, a jacking column 133 is arranged at one side of the jacking wheel 132 in a meshed manner, a first elastic block 111 is arranged at the upper end of the water inlet groove 113, the first elastic block 111 is embedded and arranged in the first draining rack body 1, a clamping block 14 comprises a first driven wheel 141 arranged at one side of the clamping block 14 in a meshed manner and a second driven wheel 142 connected at one side of the first driven wheel 141 through a shaft, a third driven wheel 143 is arranged at one side of the second driven wheel 142 in a meshed manner, and the third driven wheel 143 is connected with a fourth driven wheel 144 through a shaft, a fifth driven wheel 145 is engaged with one side of the fourth driven wheel 144, a first engaging member 147 and a second engaging member 148 are connected to the fifth driven wheel 145 through a shaft, a second elastic block 146 is engaged with one side of the upper end inside the connecting partition 11, the second elastic block 146 and the first elastic block 111 are located on the same horizontal plane, the second engaging member 148 includes a first engaging wheel 1481 connected to one side of the fifth driven wheel 145 through a shaft and a second engaging wheel 1482 engaged with one side of the first engaging wheel 1481, the second engaging wheel 1482 is connected to a third engaging wheel 1483 through a shaft, the third engaging wheel 1483 is engaged with one side of the second elastic block 146, the first engaging member 147 and the second engaging member 148 are members made of the same structure, and the third engaging wheel 1483 provided on the first engaging member 147 is engaged with the first elastic block 111.

Specifically, a plurality of groups of connecting partition plates 11 are arranged on one side of the first draining rack body 1, a glass slide is embedded in the connecting partition plates 11, the lower end of the glass slide extrudes the clamping block 14 to move downwards, the clamping block 14 is meshed with the first driven wheel 141, the descending of the clamping block 14 drives the first driven wheel 141 to rotate, the rotation of the first driven wheel 141 drives the second driven wheel 142, the third driven wheel 143, the fourth driven wheel 144, the fifth driven wheel 145, the first meshing wheel 1481, the second meshing wheel 1482 and the third meshing wheel 1483 to rotate, the second elastic block 146 is driven to move, the second meshing assembly 148 and the first meshing assembly 147 are components made of the same structure, when the second elastic block 146 moves, the first elastic block 111 also moves at the same time, and the second elastic block 146 and the first elastic block 111 relatively move to clamp the glass slide at this time, so that the position at this time is stabilized, and the situation that the glass slide is offset, collision and even dropping during dewatering is prevented.

In order to solve the technical problems that the traditional slide draining rack is inconvenient to splice in units of groups and integrally dehydrates slides, which results in large occupied area of the device, as shown in fig. 2, 6 and 8, the following preferred technical solutions are provided:

first splice plate 2 is including setting up the second connection triangle piece 21 and the second triangle groove 23 of setting in first splice plate 2 one side in the side of first splice plate 2, first splice plate 2 is still including running through the second gomphosis groove 22 of seting up in first splice plate 2 inside, first splice plate 2 one side is provided with thread groove 24 and arc 25, second splice plate 4 is including setting up the first connection triangle piece 41 and the first triangle groove 43 of seting up in second splice plate 4 one side in the side of second splice plate 4, second splice plate 4 is still including running through the first gomphosis groove 42 of seting up in second splice plate 4 inside, three triangle pieces 21 and first triangle groove 43 phase-matches are connected to the second, first connection triangle piece 41 and second triangle groove 23 phase-matches, second splice plate 4 one side also is provided with thread groove 24 and arc 25.

Specifically, the first draining rack body 1 is arranged on one side of the first splicing plate 2, the second draining rack body 5 is arranged on one side of the second splicing plate 4, the first draining rack body 1 and the second draining rack body 5 are spliced by embedding the two groups of first triangular grooves 43 and the two groups of second triangular grooves 21 because the second triangular connecting blocks 21 are matched with the first triangular grooves 43 and the first triangular connecting blocks 41 are matched with the second triangular grooves 23, the first draining rack body 2, the first draining rack body 1, the second draining rack body 4 and the second draining rack body 5 can be used as a group, and the first splicing plate 2, the first draining rack body 1, the second splicing plate 4 and the second draining rack body 5 are arranged in a plurality of groups for splicing, come more slides of pegging graft, avoid the draining frame of dispersion to need bigger area, because of the water of slide can get into waste liquid chamber 15 inside through intake chamber 113, when retaining pull board 151 gomphosis is inside waste liquid chamber 15, and run through when groove 153 and weeping groove 152 are not in same vertical on-line, waste liquid chamber 15 bottom can carry out the retaining, collect the waste liquid, when first draining frame body 1 and the concatenation of second draining frame body 5 are together, but the retaining pull board 151 of the inside setting of pull second draining frame body 5, make the inside waste liquid of second draining frame body 5 get into the waste liquid chamber 15 of first draining frame body 1 inside, it is same by the inside collection of first draining frame body 1.

In order to solve the technical problem that the traditional slide draining rack is inconvenient to adjust the angle so as to accelerate the slide dewatering rate, as shown in figures 7-11, the following preferred technical solutions are provided:

the waste liquid cavity 15 comprises a water storage drawing plate 151 which is embedded at the lower end of the waste liquid cavity 15 and a liquid leakage groove 152 which is arranged at the bottom of the waste liquid cavity 15, the waste liquid cavity 15 further comprises a through groove 153 which is arranged inside the water storage drawing plate 151 in a penetrating way and a side hole 154 which is arranged at one side of the waste liquid cavity 15 in a penetrating way, the top end of the waste liquid cavity 15 is opened, the through groove 153 and the liquid leakage groove 152 are arranged on the same axis, the length and the width are equal, one end of the water storage drawing plate 151 is provided with a fixing plate 155, an arc hole 156 is arranged inside the fixing plate 155 in a penetrating way, one end of the arc hole 156 is arranged at the lower end of the waste liquid cavity 15, the other end of the arc hole 156 and the side hole 154 are arranged on the same horizontal plane, the arc block 25 comprises an arc groove 251 which is arranged inside the arc block 25 and thread columns 252 which are arranged at four corners of the arc block 25, and the thread columns 252 are connected inside the first splicing plate 2 in a penetrating way, the arc-shaped block 25 further comprises a first magnetic sticking block 253 arranged at one end inside the arc-shaped groove 251 and a second magnetic sticking block 254 arranged at the other end inside the arc-shaped groove 251, the supporting mechanism 3 comprises a supporting base 31 and a telescopic bar 32 movably arranged at the upper end of the supporting base 31, a cam 33 is movably sleeved at one side of the telescopic bar 32, the cam 33 is arranged at one side of the arc-shaped groove 251, the telescopic bar 32 comprises a connecting column 321 arranged at one side of the telescopic bar 32 and a fixed column 322 arranged at one side of the connecting column 321, a threaded movable column 323 is movably arranged at one side of the fixed column 322, the upper end of the cam 33 is sleeved at the outer side of the connecting column 321, the length of the connecting column 321 is larger than the thickness of the upper end of the cam 33, the fixed column 322 comprises a first rotating wheel 3221, a second rotating wheel 3222 and a third rotating wheel 3223 which are arranged inside the fixed column 322, the first rotating wheel 3221 is fixedly connected with the threaded movable column 323 through a shaft, the second rotating wheel 3222 and the third rotating wheel 3223 are both meshed with the first rotating wheel 3221, the second rotating wheel 3222 and the third rotating wheel 3223 are both movably arranged inside the fixing column 322, the cam 33 comprises a matching block 331 arranged on one side of the cam 33 and arc-shaped strips 332 arranged on the upper side and the lower side of the matching block 331, a magnetic block 333 is arranged on one side of the cam 33, the radians of the arc-shaped strips 332 and the matching block 331 are both matched with the radian of the arc-shaped groove 251, and the magnetic block 333 is magnetically attracted to the first magnetic attraction attachment block 253 and the second magnetic attraction attachment block 254.

Specifically, when the first draining rack body 1 and the second draining rack body 5 are spliced together, a group of arc blocks 25 can be taken to be connected with the first splicing plate 2 through the threaded columns 252, the support mechanism 3 can be taken to be connected with one side through the threaded movable columns 323, the arc blocks 25 and the support mechanism 3 can also be connected with one side of the second splicing plate 4, the matching blocks 331 are movably clamped in the arc groove 251 by rotating the cam 33, at the moment, the magnetic blocks 333 are magnetically connected with the first magnetic attraction sticking blocks 253, the first draining rack body 1, the first splicing plate 2, the second splicing plate 4 and the second draining rack body 5 are stabilized through the gravity of the cam 33, the position of the first splicing plate 2 is stabilized, the position of the matching blocks 331 in the arc groove 251 is changed through rotating the cam 33, namely, the magnetic blocks 333 are separated from the first magnetic attraction sticking blocks 253, the magnetic block 333 is magnetically connected to the second magnetic attachment block 254, under the gravity of the cam 33, the first splicing plate 2 rotates, so that the cam 33 is changed from the oblique state to the vertical downward state, the rotation of the first splicing plate 2 drives the threaded movable column 323 and the first rotating wheel 3221 to rotate, the first rotating wheel 3221 rotates slowly under the resistance of the second rotating wheel 3222 and the third rotating wheel 3223, that is, the rotation of the first splicing plate 2 when being changed to the oblique state is slow, and the slide is prevented from being damaged by the excessively fast rotation, when the first splicing plate 2 is in the oblique state, the waste liquid inside the waste liquid cavity 15 can incline, that is, the waste liquid can be discharged through the arc-shaped hole 156 and the side hole 154, and at the moment, the slide is in the oblique state, the slide dehydration rate is increased, and the problem of excessive waste liquid inside the waste liquid cavity 15 is avoided.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (3)

1. Group's vertical medical slide draining rack, including first draining rack body (1) and second draining rack body (5) of setting in first draining rack body (1) one side, its characterized in that: a first splicing plate (2) is arranged on one side of the first draining rack body (1), a second splicing plate (4) is arranged on one side of the second draining rack body (5), the second splicing plate (4) is spliced with the first splicing plate (2), and a supporting mechanism (3) is connected to one side of the first splicing plate (2);

the first draining rack body (1) comprises a connecting partition plate (11) arranged on one side of the first draining rack body (1) and embedded blocks (12) arranged on the other side of the first draining rack body (1), the connecting partition plate (11) is provided with a plurality of groups, the embedded blocks (12) are provided with two groups, a jacking assembly (13) is arranged at the lower end inside the connecting partition plate (11), a clamping block (14) is arranged at the upper end of the jacking assembly (13), the clamping block (14) is movably clamped at the lower end inside the connecting partition plate (11), the first draining rack body (1) further comprises a waste liquid cavity (15) arranged inside the first draining rack body (1), the jacking assembly (13) comprises a screwing head (131) and a jacking wheel (132) connected to one end of the screwing head (131), and one side of the jacking wheel (132) is meshed with a jacking column (133);

the connecting partition plate (11) comprises a partition plate body (112) arranged on one side of the first draining rack body (1), a water inlet groove (113) is formed in the covering position of the partition plate body (112), the water inlet groove (113) is formed in one side of the first draining rack body (1) and is communicated with the waste liquid cavity (15), a first elastic block (111) is arranged at the upper end of the water inlet groove (113), and the first elastic block (111) is embedded in the first draining rack body (1);

the waste liquid cavity (15) comprises a water storage drawing plate (151) which is embedded at the lower end of the waste liquid cavity (15) and a liquid leakage groove (152) which is formed in the bottom of the waste liquid cavity (15), the waste liquid cavity (15) further comprises a through groove (153) which penetrates through the inside of the water storage drawing plate (151) and a side hole (154) which is formed in one side of the waste liquid cavity (15), the top end of the waste liquid cavity (15) is provided with an opening, the through groove (153) and the liquid leakage groove (152) are positioned on the same axis, the length and the width are equal, one end of the water storage drawing plate (151) is provided with a fixing plate (155), an arc-shaped hole (156) is formed in the fixing plate (155) in a penetrating mode, one end of the arc-shaped hole (156) is positioned at the lower end of the waste liquid cavity (15), and the other end of the arc-shaped hole (156) and the side hole (154) are positioned on the same horizontal plane;

a first driven wheel (141) is arranged on one side of the clamping block (14) in a meshed mode, the clamping block (14) further comprises a second driven wheel (142) connected to one side of the first driven wheel (141) through a shaft, a third driven wheel (143) is arranged on one side of the second driven wheel (142) in a meshed mode, the third driven wheel (143) is connected with a fourth driven wheel (144) through a shaft, a fifth driven wheel (145) is arranged on one side of the fourth driven wheel (144) in a meshed mode, the fifth driven wheel (145) is connected with a first meshing assembly (147) and a second meshing assembly (148) through a shaft, a second elastic block (146) is arranged on one side of the upper end inside the connecting partition plate (11) in a meshed mode, and the second elastic block (146) and the first elastic block (111) are located on the same horizontal plane;

the second meshing assembly (148) comprises a first meshing wheel (1481) connected to one side of the fifth driven wheel (145) through a shaft and a second meshing wheel (1482) meshed to one side of the first meshing wheel (1481), the second meshing wheel (1482) is connected with a third meshing wheel (1483) through a shaft, the third meshing wheel (1483) is meshed with one side of the second elastic block (146), the first meshing assembly (147) and the second meshing assembly (148) are members made of the same structure, and the third meshing wheel (1483) arranged on the first meshing assembly (147) is meshed with the first elastic block (111);

a thread groove (24) and an arc-shaped block (25) are arranged on one side of the first splicing plate (2); a thread groove (24) and an arc-shaped block (25) are also arranged on one side of the second splicing plate (4);

the arc-shaped block (25) comprises an arc-shaped groove (251) arranged in the arc-shaped block (25) and thread posts (252) arranged at four corners of the arc-shaped block (25), the thread posts (252) penetrate through the arc-shaped block (25) and are connected in the first splicing plate (2) in a threaded manner, and the arc-shaped block (25) further comprises a first magnetic sticking block (253) arranged at one end in the arc-shaped groove (251) and a second magnetic sticking block (254) arranged at the other end in the arc-shaped groove (251);

the supporting mechanism (3) comprises a supporting base (31) and a telescopic strip (32) movably arranged at the upper end of the supporting base (31), a cam (33) is movably sleeved on one side of the telescopic strip (32), and the cam (33) is positioned on one side of the arc-shaped groove (251);

the telescopic strip (32) comprises a connecting column (321) arranged on one side of the telescopic strip (32) and a fixed column (322) arranged on one side of the connecting column (321), a thread movable column (323) is movably arranged on one side of the fixed column (322), the upper end of the cam (33) is sleeved on the outer side of the connecting column (321), and the length of the connecting column (321) is greater than the thickness of the upper end of the cam (33);

the fixed column (322) comprises a first rotating wheel (3221), a second rotating wheel (3222) and a third rotating wheel (3223) which are arranged inside the fixed column (322), the first rotating wheel (3221) is fixedly connected with the threaded movable column (323) through a shaft, the second rotating wheel (3222) and the third rotating wheel (3223) are both meshed with the first rotating wheel (3221), and the second rotating wheel (3222) and the third rotating wheel (3223) are both movably arranged inside the fixed column (322);

cam (33) is including setting up cooperation piece (331) and arc strip (332) that set up both sides about cooperation piece (331) in cam (33) one side, and cam (33) one side is provided with magnetism piece (333), and the radian of arc strip (332) and cooperation piece (331) all matches with the radian of arc groove (251), and magnetism piece (333) are inhaled with first magnetism and are inhaled sticking block (253) and second magnetism and inhale sticking block (254) magnetism and inhale mutually.

2. The assembly medical slide draining rack of claim 1, wherein: the first splicing plate (2) comprises a second connecting triangular block (21) arranged on the side face of the first splicing plate (2) and a second triangular groove (23) arranged on one side of the first splicing plate (2), and the first splicing plate (2) further comprises a second embedded groove (22) which is arranged inside the first splicing plate (2) in a penetrating mode.

3. The assembly medical slide draining rack of claim 2, wherein: the second splicing plate (4) comprises a first triangular connecting block (41) arranged on the side face of the second splicing plate (4) and a first triangular groove (43) formed in one side of the second splicing plate (4), the second splicing plate (4) further comprises a first embedded groove (42) formed in the second splicing plate (4) in a penetrating mode, the second triangular connecting block (21) is matched with the first triangular groove (43), and the first triangular connecting block (41) is matched with the second triangular groove (23).

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