CN218627650U - Medical equipment support of dry usefulness - Google Patents

Abstract

The utility model belongs to the medical equipment field especially relates to a medical equipment support of dry usefulness, and it includes curb plate, bottom plate, baffle, U groove, roof, and wherein top-down is unsettled installs roof and netted bottom plate between two curb plates, and the space interpolation between roof and the bottom plate is equipped with netted baffle, and evenly distributed has a plurality of jacks that are used for the cartridge test tube on the baffle. The utility model discloses divide three layer construction, the aspirator of different length and thickness specification need not to make long and thin aspirator supported fixedly by the bottom plate through its lower extreme in can unsettled vertical slot of being fixed in the superiors' roof, has effectively reduced the inner space of support.

Description

Medical equipment support of dry usefulness

Technical Field

The utility model belongs to the medical equipment field especially relates to a medical equipment support of dry usefulness.

Background

A aspirator and medical test tube for absorbing content in hemorrhage, exudate, pus, thorax internal organs often need wash the disinfection after using in the operation, later put into the drying cabinet and dry, in order to carry out better drying with treating dry aspirator and test tube, need can be with aspirator and test tube unsettled place in the shelf that is used for dry stoving for residual moisture on aspirator and the test tube evaporates fast, reaches the dry purpose of equipment.

However, the following problems still exist between the drying aspirator and the test tube which are used at present:

1. when the suction apparatus is supported, the suction apparatus has different thickness shapes due to different action positions, and the existing support does not have the function of effectively supporting the suction apparatus with different shapes.

2. The bottom of the rack is generally closed, and the bottom of the rack is easy to retain water dropped from the aspirator or the test tube to cause scale.

3. The holder is generally non-adjustable and does not have sufficient room for a longer aspirator.

4. The rack has multiple layers with each layer having a plurality of holes of different sizes to accommodate different sized aspirators or test tubes, but such a design also limits the use of the rack, as the elongated aspirator cannot be held vertically stationary when placed in a large hole, unless the lower end of the elongated aspirator is supported on a lower floor, thereby increasing the space within the rack.

The utility model relates to a medical equipment support of dry usefulness solves above-mentioned problem.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model discloses a medical equipment support for drying, which is realized by adopting the following technical scheme.

A medical equipment support for drying comprises side plates, a bottom plate, partition plates, U-shaped grooves and a top plate, wherein the top plate and a net-shaped bottom plate are suspended from top to bottom between the two side plates; a plurality of reticular U grooves are inserted in a limited space between the partition plate and the top plate in an inclined stacking mode so that the test tube can roll in by means of self gravity and the attached water drops in the test tube can flow out; a plurality of long and narrow slots for inserting long and narrow suction apparatuses are uniformly distributed on the top plate, and each slot is provided with a structure for fixing a plurality of suction apparatuses with different diameters inserted into the slot; both the U-shaped groove and the partition plate have a structure which does not interfere with a suction apparatus inserted from above.

As a further improvement of the technology, a plurality of vent grooves which are convenient for ventilating and drying the placed test tubes or the suction apparatus are uniformly arranged on the side plates, and two guide grooves for horizontally inserting the partition plates are arranged on the inner walls of the two side plates.

As a further improvement of the technology, two groups of inserting frames which are inserted with a plurality of U-shaped grooves in an inclined stacking mode and do not interfere with the test tubes inserted into the inserting holes in the partition plates are arranged between the two side plates, and a reticular baffle which blocks the test tubes rolled into the U-shaped grooves is arranged on one group of inserting frames.

As a further improvement of the technology, the inner wall of the slot of the top plate is provided with an inclined plane, and a clamping block for horizontally clamping and fixing the suction apparatus inserted into the slot slides on the inclined plane; a guide rod A arranged on the clamping block slides in a guide hole on the top plate, a return spring for returning the clamping block is nested on the guide rod A, and the tail end of the guide rod A is provided with a limiting block A for limiting the motion amplitude of the guide rod A; the slot is provided with a structure for uniformly releasing all clamping blocks on the slot from clamping and fixing the corresponding suction apparatus.

As a further improvement of the technology, a pressure lever matched with all the clamping block upper pressure plates in each slot is vertically moved, guide rods B at two ends of the pressure lever respectively slide in sliding grooves in the top plate, and the tail end of each guide rod B is provided with a limiting block B for limiting the movement amplitude of the pressure lever.

As a further improvement of the technology, the return spring is a compression spring and is always in a compression state.

As a further improvement of the technology, a plurality of containing holes and a plurality of containing grooves for containing the lower ends of the suction devices are respectively and uniformly distributed on the U-shaped groove and the partition plate.

For the drying support of traditional aspirator or test tube, the utility model discloses have less accommodation space and can place more aspirator and test tube through baffle, U groove and roof isotructure in it, thereby make the utility model discloses a space is by make full use of, improves the utility model discloses a space rate of utilization.

The utility model discloses divide three layer construction, the aspirator of different length and thickness specification need not to make long and thin aspirator support fixedly through its lower extreme by the bottom plate in can unsettled vertical slot of being fixed in the superiors' roof, has effectively reduced the inner space of support. The U inslot of intermediate level cartridge can put the not treat dry test tube of equidimension to carry out effective abundant utilization to the compact space between baffle and the roof. The baffle of lower floor can prevent great test tube, and longer test tube is through shifting out the intermediate level U groove cartridge of relevant position on the baffle simultaneously. The three-layer structure does not influence each other, and the space utilization rate is higher. The utility model discloses simple structure has better result of use.

Drawings

Fig. 1 is a schematic diagram of two viewing angles of the present invention.

Fig. 2 is a schematic cross-sectional view of the arrangement structure of the U-shaped groove of the present invention.

Fig. 3 is a cross-sectional view of the clamping structure in the slot on the top plate.

FIG. 4 is a cross-sectional view of the side panel, top panel and insert frame assembly.

FIG. 5 is a cross-sectional view of the top plate and the slot therein.

Fig. 6 is a schematic view of a U-channel.

FIG. 7 is a schematic view of a separator.

Fig. 8 is a schematic cross-sectional view of the utility model in cooperation with the aspirator and the test tube.

Number designation in the figure: 1. a side plate; 2. a vent groove; 3. a guide groove; 4. a base plate; 5. a partition plate; 6. a jack; 7. accommodating a tank; 8. inserting a frame; 9. a baffle plate; 10. a U-shaped groove; 11. an accommodation hole; 12. a top plate; 13. a slot; 14. a bevel; 15. a guide hole; 16. a chute; 17. a clamping block; 18. pressing a plate; 19. a guide rod A; 20. a limiting block A; 21. a return spring; 22. a pressure lever; 23. a guide bar B; 24. a limiting block B; 25. a suction apparatus; 26. test tubes.

Description of the preferred embodiment

The attached drawings are schematic diagrams of the implementation of the present invention, so as to understand the structure operation principle. The specific product structure and the proportional size are determined according to the use environment and the conventional technology.

As shown in fig. 1, it includes side plates 1, bottom plate 4, baffle 5, U-shaped groove 10, top plate 12, wherein as shown in fig. 1, 7, 8, top plate 12 and netted bottom plate 4 are installed in the air from top to bottom between two side plates 1, netted baffle 5 is inserted in the space between top plate 12 and bottom plate 4, and a plurality of jacks 6 for inserting test tubes 26 are evenly distributed on baffle 5; as shown in fig. 1, 2 and 6, a plurality of reticular U grooves 10 are inserted in a limited space between the partition plate 5 and the top plate 12 in an inclined stacking manner so that the test tube 26 rolls in by means of self gravity and water drops attached in the test tube 26 flow out; as shown in fig. 1, 5 and 6, a plurality of long and narrow slots 13 for inserting the long and narrow suction apparatuses 25 are uniformly distributed on the top plate 12, and each slot 13 is provided with a structure for fixing a plurality of suction apparatuses 25 with different diameters inserted therein; as shown in fig. 6, 7, and 8, the U-shaped groove 10 and the partition plate 5 are configured so as not to interfere with the suction unit 25 inserted from above.

As shown in fig. 4, a plurality of ventilation grooves 2 for facilitating ventilation and drying of the placed test tubes 26 or the suction apparatus 25 are uniformly formed on the side plates 1, and two guide grooves 3 for horizontally inserting the partition plates 5 are formed on the inner walls of the two side plates 1.

As shown in fig. 1 and 4, two sets of insertion frames 8 are installed between the two side plates 1, wherein the insertion frames 8 are inserted into a plurality of U-shaped slots 10 in an inclined and stacked manner and do not interfere with the test tubes 26 inserted into the insertion holes 6 of the partition plate 5, and a mesh-shaped baffle plate 9 blocking the test tubes 26 rolled into the U-shaped slots 10 is installed on one set of insertion frames 8.

As shown in fig. 3 and 5, the inner wall of the slot 13 of the top plate 12 has an inclined surface 14, and a clamping block 17 for horizontally clamping and fixing the suction unit 25 inserted into the slot 13 slides on the inclined surface 14; a guide rod A19 arranged on the clamping block 17 slides in a guide hole 15 on the top plate 12, a return spring 21 for returning the clamping block 17 is nested on the guide rod A19, and the tail end of the guide rod A19 is provided with a limiting block A20 for limiting the motion amplitude of the guide rod A19; as shown in fig. 2, the slot 13 has a structure for releasing all the clamping blocks 17 on it from clamping the corresponding suction apparatuses 25.

As shown in fig. 2 and 3, a pressing rod 22 is vertically moved at each slot 13 and is matched with the upper pressing plate 18 of all the clamping blocks 17 therein, guide rods B23 at two ends of the pressing rod 22 respectively slide in the sliding grooves 16 on the top plate 12, and the tail end of the guide rod B23 is provided with a limiting block B24 for limiting the movement amplitude of the pressing rod 22.

As shown in fig. 2, the return spring 21 is a compression spring and is always in a compressed state.

As shown in fig. 6, 7 and 8, a plurality of accommodating holes 11 and accommodating grooves 7 for accommodating the lower ends of the attractors 25 are uniformly distributed on the U-shaped groove 10 and the partition plate 5, respectively.

The utility model discloses a work flow: in the initial state, the U-shaped slots 10 are inserted into the insertion frames 8, and the return spring 21 is in a compressed state.

When needing to use the utility model discloses when the built on stilts drying after wasing partial test tube 26 and aspirator 25, will extract the dismantlement with partial U groove 10 for space increase between baffle 5 and the roof 12 will be earlier on test tube 26 cartridge and the baffle 5 in the jack 6 of being dismantled U groove 10 below and make test tube 26's the mouth of pipe downwards, the water discharge in the test tube 26 of being convenient for.

Then, the pressing rod 22 is pressed down, the pressing rod 22 drives all the clamping blocks 17 at the corresponding slots 13 to slide downwards along the inclined planes 14 on the slot walls of the corresponding sliding slots 16 through the pressing plates 18 on all the clamping blocks 17 at the corresponding slots 13, and the return springs 21 corresponding to the clamping blocks 17 are further compressed. Then, the suction unit 25 is inserted downwards from the slot 13 of the top plate 12, where the clamp blocks 17 move, and when the lower end of the suction unit 25 reaches to penetrate through the containing hole 11 of the U-shaped groove 10 below and the containing groove 7 of the partition plate 5 to abut against the bottom plate 4, the acting force on the pressing rod 22 is removed, and all the clamp blocks 17 drive the pressing rod 22 to synchronously reset under the resetting action of the corresponding reset springs 21 and tighten and suspend the suction unit 25 in the slot 13.

Slot 13 department clamp splice 17 is fixed to the clamp of aspirator 25 for long and thin aspirator 25 need not to realize its unsettled fixed through enough deep-going certain degree of depth of slot 13, thereby has reduced the space height between bottom plate 4 and the roof 12 and has arranged, saves when saving space the utility model discloses manufacturing cost.

When test tube 26 and aspirator 25 after a large amount of washings need unsettled drying process, take out whole U groove 10 earlier, all insert the decurrent test tube 26 of mouth of pipe in every jack 6 of baffle 5, then, with whole cartridges in inserting frame 8 of U groove 10, and inwards place test tube 26 from the side opening part of every U groove 10, test tube 26 is in the state that its mouth of pipe is less than its blind end, be convenient for the interior residual water of test tube 26 to flow out, test tube 26 rolls into under the dead weight effect and finally places full test tube 26 in every U groove 10.

Then, the suction devices 25 corresponding to the clamping blocks 17 are inserted into the inserting grooves 13 of the top plate 12, each suction device 25 sequentially passes through the accommodating hole 11 on the corresponding U groove 10 below and the accommodating groove 7 on the partition plate 5 in the process of being inserted into the inserting groove 13 and fixed by the corresponding clamping block 17, and the test tubes 26 in the U grooves 10 are avoided when the suction devices 25 pass through the accommodating holes 11.

Therefore, a large number of suction devices 25 and test tubes 26 can be placed in a limited space, and the drying efficiency of the test tubes 26 and the suction devices 25 is improved.

When the longer test tube 26 of a large amount of length need place in the utility model discloses in carry out the drying, take off whole U groove 10 earlier for the space that U groove 10 occupied obtains utilizing, guarantees that the longer test tube 26 of length can not receive the restriction in U groove 10 after inserting jack 6 on the baffle 5.

After aspirator 25 is completely dry, push down corresponding depression bar 22, the depression bar 22 can drive whole clamp splice 17 through the clamp plate 18 on the whole clamp splice 17 of corresponding slot 13 department and remove to the clamp of aspirator 25 fixedly, take out aspirator 25 and can accomplish aspirator 25 and be in the utility model provides a place the drying.

When all the test tubes 26 are completely dried, the test tubes 26 in the U-shaped groove 10 are taken out first, and then the test tubes 26 on the partition plate 5 are taken out.

The oblique overlapping arrangement of the U-shaped grooves 10 in the effective space between the partition 5 and the top plate 12 effectively improves the utilization rate of the limited space and achieves the purpose of placing more test tubes 26 or suction devices 25 in the limited space.

To sum up, the beneficial effects of the utility model are that: the utility model discloses have less accommodation space in and can place more aspirator 25 and test tube 26 through baffle 5, U groove 10 and roof 12 isotructure, thereby make the utility model discloses a space is by make full use of, improves the utility model discloses a space rate of utilization.

The utility model discloses divide three layer construction, the aspirator 25 of different length and thickness specification need not to make long and thin aspirator 25 support and support fixedly through its lower extreme by bottom plate 4 in can unsettled vertical slot 13 of being fixed in the superiors' roof 12, has effectively reduced the inner space of support. The test tubes 26 to be dried in different sizes can be obliquely placed in the U-shaped groove 10 inserted in the middle layer, so that the compact space between the partition plate 5 and the top plate 12 is effectively and fully utilized. The lower partition 5 prevents the larger test tubes 26, while the longer test tubes 26 are inserted into the partition 5 through the intermediate U-shaped groove 10 removed from the corresponding position. The three-layer structure does not influence each other, and the space utilization rate is higher. The utility model discloses simple structure has better result of use.

Claims (7)

1. A medical device support for drying, comprising: the test tube rack comprises side plates, a bottom plate, partition plates, a U groove and a top plate, wherein the top plate and a net-shaped bottom plate are arranged between the two side plates in a suspended mode from top to bottom, the net-shaped partition plates are inserted into a space between the top plate and the bottom plate, and a plurality of jacks for inserting test tubes are uniformly distributed on the partition plates; a plurality of reticular U grooves are inserted in a limited space between the partition plate and the top plate in an inclined stacking mode so that the test tube can roll in by means of self gravity and the attached water drops in the test tube can flow out; a plurality of long and narrow slots for inserting long and narrow suction apparatuses are uniformly distributed on the top plate, and each slot is provided with a structure for fixing a plurality of suction apparatuses with different diameters inserted into the slot; both the U-shaped groove and the partition plate have a structure which does not interfere with an aspirator inserted from above.

2. A drying medical device holder as in claim 1, wherein: a plurality of vent grooves convenient for ventilating and drying the placed test tubes or the suction apparatus are uniformly formed in the side plates, and two guide grooves used for horizontally inserting the partition plates are formed in the inner walls of the two side plates.

3. A drying medical device holder as in claim 1, wherein: two groups of inserting frames which are inserted with a plurality of U grooves in an inclined stacking mode and do not interfere with the test tubes inserted into the inserting holes in the partition plates are arranged between the two side plates, and one group of inserting frames are provided with net-shaped baffle plates which form blocking to the test tubes rolled into the U grooves.

4. A drying medical device holder as in claim 1, wherein: the inner wall of the slot of the top plate is provided with an inclined plane, and a clamping block for horizontally clamping and fixing the suction apparatus inserted into the slot is arranged on the inclined plane in a sliding manner; a guide rod A arranged on the clamping block slides in a guide hole on the top plate, a return spring for returning the clamping block is nested on the guide rod A, and the tail end of the guide rod A is provided with a limiting block A for limiting the motion amplitude of the guide rod A; the slot is provided with a structure for uniformly releasing all clamping blocks on the slot from clamping and fixing the corresponding suction apparatus.

5. A drying medical device holder according to claim 4, wherein: and each slot is vertically provided with a pressure lever matched with all the clamping block upper pressure plates in the slot, guide rods B at two ends of the pressure lever respectively slide in sliding grooves on the top plate, and the tail end of each guide rod B is provided with a limiting block B for limiting the motion amplitude of the pressure lever.

6. A drying medical device holder according to claim 4, wherein: the reset spring is a compression spring and is always in a compression state.

7. A drying medical device holder as claimed in claim 1, wherein: and a plurality of accommodating holes and accommodating grooves for accommodating the lower ends of the suction devices are uniformly distributed on the U-shaped groove and the partition plate respectively.

Images