CN218999837U - Clinical trial data stores cabinet - Google Patents

Abstract

The utility model relates to the field of storage cabinets and discloses a clinical test data storage cabinet which comprises a base plate, a scissors mechanism and a support frame, wherein the scissors mechanism and the support frame are arranged on two sides of the base plate, the scissors mechanism is a scissors type lifter, a plurality of laminates are horizontally arranged between the scissors mechanism and the support frame, two cross bars are movably arranged in the laminates in a penetrating mode, each cross bar is connected with the scissors mechanism, a placing cavity is formed between the adjacent laminates for placing data files, a pushing component is arranged in the placing cavity for pushing the data files, the support frame is a tripod, the inclined side of the support frame is far away from the scissors mechanism, at least one conveying channel is downwards arranged from the top of the support frame, the conveying channel is communicated with the placing cavity with the corresponding height, and an opening of the conveying channel is arranged on the inclined side of the support frame. The utility model has simple operation, is convenient for staff to realize the taking of the high-altitude data files, and is also beneficial to the classified storage and the classified taking of the data.

Description

Clinical trial data stores cabinet

Technical Field

The utility model relates to the technical field of construction machinery, in particular to a clinical test data storage cabinet.

Background

Clinical trials refer to any systematic study of drugs in humans (patients or healthy volunteers) to confirm or reveal the effects, adverse reactions and/or absorption, distribution, metabolism and excretion of the test drugs, with the aim of determining the efficacy and safety of the test drugs, and researchers generate corresponding test data during clinical trials, which need to be stored by a storage cabinet.

The existing storage cabinets are basically fixed in height and size, if the storage cabinet is too low, storage space is limited, and if the storage cabinet is too high, high-altitude data files are difficult to take. Clinical trials are generally classified into I, II, III, IV-phase clinical trials and EAP-phase clinical trials, and the data files also have common data files and unusual data files, which cannot be clearly classified by a general storage cabinet at the same time. Therefore, the scheme provides the clinical test data storage cabinet.

Disclosure of Invention

The utility model provides a clinical test data storage cabinet, which aims to solve the technical problem that clinical test data in the prior art cannot be clearly classified.

The utility model is realized by adopting the following technical scheme: the clinical test data storage cabinet is characterized by comprising a base plate, a scissors mechanism and a support frame, wherein the scissors mechanism and the support frame are arranged on two sides of the base plate.

The scissors mechanism is a scissors type lifter.

A plurality of laminates are horizontally arranged between the scissors mechanism and the support frame, two cross rods are movably arranged in the laminates in a penetrating mode, each cross rod is connected with the scissors mechanism, a placing cavity is formed between the adjacent laminates to place data files, and a pushing assembly is arranged in the placing cavity to push the data files.

The support frame is the tripod, and its slope side is kept away from scissors mechanism setting, sets up at least one conveying channel downwards by the top of support frame, and conveying channel and the chamber intercommunication of placing of corresponding height, and conveying channel's opening setting is in the slope side of support frame.

Through the technical scheme, when the storage cabinet is used, test data are placed in the placing cavities, the common files of the data files are placed on the parts, close to the supporting frames, of each layer of placing cavity, if the common files need to be taken, the pushing assembly on the other side of the placing cavity is used for pushing the common files, the files are pushed to the opening of the conveying channel, so that the common files of each layer are taken, if the unusual files of the layer need to be taken, the height of the layers below the layer is adjusted by using the scissors mechanism, and the height of the layer is lowered to a place where the user can take the files, so that the classified taking of the common files and the unusual files is realized.

As a further improvement of the scheme, the pushing assembly comprises a first push rod and a push plate assembly, the push plate assembly is connected with the scissor mechanism through the first push rod, and the first push rod is an electric push rod so as to push the push plate assembly to move towards the conveying channel.

Through the technical scheme, when the pushing component pushes the common files, the electric push rod drives the push plate component to move towards the direction of the conveying channel, so that the common files can be moved into the conveying channel from the placing cavity, and the pushing distance of the electric push rod can be determined according to the number of the common files when the files are pushed.

As a further improvement of the scheme, the push plate assembly comprises two second push rods and two fixed push plates, wherein one fixed push plate is connected with the first push rod, the two second push rods are connected to the other side of the fixed push plate, and the other fixed push plate is connected to the other end of the two second push rods.

Through above-mentioned technical scheme, the second push rod of push pedal subassembly forms the space of placing of unusual file in the middle of fixed push plate spare, sets up fixed push plate and makes and forms the separation between the unusual file of usual file and the unusual file, avoids taking by mistake, can change the proportion of the space of placing of unusual file and usual file through the position of placing of adjusting fixed push plate, realizes the nimble regulation to the data file space of placing.

As a further improvement of the scheme, the push plate assembly further comprises at least one movable push plate, the movable push plate is positioned between the two fixed push plates, the movable push plate is in sliding connection with the second push rod, and an elastic restoring mechanism is arranged in the second push rod so as to drive the movable push plate to slide.

Through above-mentioned technical scheme, the movable push plate separates the space of placing between two fixed push plates for unusual file can carry out further classification, and the movable push plate can be adjusted the position by the elastic restoring mechanism in the second push rod, can adjust the distance between movable push plate and the fixed push plate according to the thickness of the file of putting into, makes the thickness of the file of putting into equal with the distance between the push plate, avoids the landing of file.

As a further improvement of the scheme, the second push rod is hollow rod-shaped, and the surface of the second push rod is provided with a sliding groove along the length direction.

The elastic restoring mechanism comprises a lug, a first spring and a sliding block, wherein the lug movably penetrates through the sliding groove and is connected with the movable push plate, the sliding block is movably arranged in the second push rod, and one side of the sliding block is connected with the first spring.

Through above-mentioned technical scheme, the second push rod passes through elastic return mechanism and is connected with movable push plate, and lug and slider make movable push plate can slide along the spout of second push rod's length direction under the effect of spring, realize the adjustment to the size of placing the space through the degree of tightening that changes the spring.

As a further improvement of the scheme, the fixed push plate and the movable push plate can stretch and retract longitudinally.

Through the technical scheme, the fixed push plate and the movable push plate have the same structure, and when the height between adjacent laminates is required to be adjusted, the fixed push plate and the movable push plate longitudinally stretch to realize the matching with the heights of the corresponding laminates, so that the heights of the fixed push plate and the movable push plate are always equal to the distance between the two laminates which are in contact.

As a further improvement of the scheme, the two sides of the inclined plane of the supporting frame are both protruded with the baffle.

Through the technical scheme, the baffle is arranged on the inclined surface of the supporting frame, so that the common files can slide along the inclined surface of the supporting frame in parallel when sliding out from the conveying channel, and the data files are prevented from deviating.

As a further improvement of the scheme, the inclined surface of the support frame is connected with a horizontally arranged bearing plate.

Through the technical scheme, the horizontally arranged receiving plate can receive the document data sliding down along the supporting frame, so that the falling documents are prevented from falling to the ground, and meanwhile, the falling documents are convenient to take.

As a further improvement of the scheme, a baffle is arranged at one end of the conveying channel close to the placing cavity, and one side of the baffle close to the ground is movably connected with the conveying channel.

Through the technical scheme, when common document data do not need to be taken, the baffle blocks the conveying channel, and the documents can be normally placed; when the common file data is required to be taken, the pushing component pushes the common file to the conveying channel, so that the baffle falls down to the conveying channel, and the file enters the conveying channel.

Compared with the prior art, the utility model has the beneficial effects that: when the storage cabinet is used, test data are placed in the placing cavities, the parts, close to the supporting frames, of each layer of placing cavity are used for placing common files of the data files, if the common files need to be taken, the pushing assembly on the other side of the placing cavity is used for pushing the common files, the files are pushed to the opening of the conveying channel, so that the common files of each layer are taken, if the unusual files of the layer need to be taken, the height of the layers below the layer is adjusted by using the scissors mechanism, and the height of the layer is lowered to a place where the user can take the common files by hand, so that the classified taking of the common files and the unusual files is realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a clinical test data storage cabinet according to the present utility model;

FIG. 2 is a transverse cross-sectional view of the pushing assembly of the present utility model;

FIG. 3 is a cross-sectional view of a stationary push plate and a movable push plate according to the present utility model;

FIG. 4 is a cross-sectional view of a transfer passage in accordance with the present utility model.

Main symbol description:

1. a substrate; 2. a scissors mechanism; 3. a support frame; 4. a laminate; 5. a cross bar; 6. a pushing assembly; 61. a first push rod; 62. a push plate assembly; 621. a second push rod; 6211. a chute; 622. fixing the push plate; 623. a movable push plate; 7. a conveying channel; 8. an elastic restoring mechanism; 81. a bump; 82. a first spring; 83. a slide block; 9. a pusher plate body; 10. an elongated push plate; 11. a second spring; 12. a baffle; 13. a receiving plate; 14. a baffle; 15. a slide rail.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Referring to fig. 1, as an embodiment of the present utility model, a clinical test data storage cabinet includes a base plate 1, scissor mechanisms 2 and a supporting frame 3 mounted on two sides of the base plate 1.

The scissor mechanism 2 is a scissor lift.

The level sets up a plurality of plywood 4 between scissors mechanism 2 and the support frame 3, the activity wears to be equipped with two horizontal poles 5 in the plywood 4, plywood 4 is hollow structure, and every horizontal pole 5 all is connected with scissors mechanism 2, the bottom installation slide rail 15 of one side that scissors mechanism 2 was kept away from to base plate 1, the both sides that support frame 3 is close to the one side of plywood 4 set up the bracing piece, the through-hole that a plurality of interval distances equal is all opened to two bracing pieces, the size of through-hole is the same with the cross-section size of horizontal pole 5, when using scissors mechanism 2 to adjust cabinet height or layer height, the bracing piece slides in slide rail 15, make simultaneously two horizontal poles 5 joint that pass plywood 4 advance in the through-hole of required height on the bracing piece, in order to reach the purpose of adjusting to required height. A placing cavity is formed between the adjacent laminates 4 for placing the data file, and a pushing component 6 is arranged in the placing cavity for pushing the data file.

The support frame 3 is the tripod, and its slope side is kept away from scissors mechanism 2 and is set up at least one conveying channel 7 downwards by the top of support frame 3, and conveying channel 7 and the chamber intercommunication of placing of corresponding height, and conveying channel 7's opening setting is at the slope side of support frame 3.

When the storage cabinet is used, test data are placed in the placing cavities, the parts, close to the supporting frame 3, of each layer of placing cavity are used for placing common files of the data files, if the common files need to be taken, the pushing component 6 on the other side of the placing cavity is used for pushing the common files, the files are pushed to the opening of the conveying channel 7, so that the common files of each layer can be taken, if the unusual files of the layer need to be taken, the height of the layers below the layer is adjusted by using the scissors mechanism 2, and the height of the layer is lowered to a place where a user can take the common files and the unusual files, so that the common files and the unusual files can be taken in a classified mode.

As an embodiment of the present utility model, referring to fig. 2, the pushing assembly 6 includes a first push rod 61 and a push plate assembly 62, the push plate assembly 62 is connected to the scissor mechanism 2 through the first push rod 61, and may be preferably connected to a middle portion of two scissor forks of the scissor mechanism 2, where the first push rod 61 is an electric push rod to push the push plate assembly 62 to move toward the conveying channel 7.

When the pushing component 6 pushes the common files, the electric push rod drives the push plate component 62 to move towards the conveying channel 7, so that the common files can be moved into the conveying channel 7 from the placing cavity, and the pushing distance of the electric push rod can be determined according to the number of the common files when the files are pushed.

As an embodiment of the present utility model, referring to fig. 2, the push plate assembly 62 includes two second push rods 621 and two fixed push plates 622, wherein one fixed push plate 622 is connected to the first push rod 61, and the two second push rods 621 are connected to the other side of the fixed push plate 622, and the other fixed push plate 622 is connected to the other end of the two second push rods 621. The fixed push plate 622 is preferably rectangular in shape to facilitate the overall movement of the entire push plate assembly 62 over the lamina 4.

The second push rod 621 of the push plate assembly 62 and the fixed push plate 622 form a placing space for the unusual files, the fixed push plate 622 is arranged to form a separation between the unusual files and the unusual files, wrong handling is avoided, the proportion of the placing space for the unusual files and the unusual files can be changed by adjusting the placing position of the fixed push plate 622, and flexible adjustment of the placing space for the data files is realized.

As an embodiment of the present utility model, referring to fig. 2, the push plate assembly 62 further includes at least one movable push plate 623, wherein the movable push plate 623 is located between two fixed push plates 622, the movable push plate 623 is slidably connected to the second push rod 621, and an elastic restoring mechanism 8 is disposed in the second push rod 621 to drive the movable push plate 623 to slide.

The movable push plate 623 separates the placing space between the two fixed push plates 622, so that the files which are not commonly used can be further classified, the movable push plate 623 can be adjusted in position by the elastic restoring mechanism 8 in the second push rod 621, the distance between the movable push plate 623 and the fixed push plates 622 can be adjusted according to the thickness of the placed files, the thickness of the placed files is equal to the distance between the push plates, and the slipping of the files is avoided. A plurality of fixed pushing plates 622 and movable pushing plates 623 can be arranged more, so that the placing cavities are separated into more divisions, and more document classification is realized.

As an embodiment of the present utility model, referring to fig. 2, the second push rod 621 has a hollow rod shape, and a sliding groove 6211 is formed on a surface of the second push rod along a length direction.

The elastic restoring mechanism 8 includes a bump 81, a first spring 82, and a slider 83, where the bump 81 movably passes through the sliding groove 6211 and is connected to the movable push plate 623, the slider 83 is movably disposed in the second push plate 621, one side of the slider 83 is connected to the first spring 82, and the other side of the slider 83 is connected to the bump 81.

The second push rod 621 is connected with the movable push plate 623 through the elastic restoring mechanism 8, and the protruding block 81 and the sliding block 83 enable the movable push plate 623 to slide along the sliding groove 6211 of the second push rod 621 in the length direction under the action of the spring, and the size of the placing space is adjusted by changing the tightening degree of the spring. The length of the sliding groove 6211 can also be changed to change the range of motion of the elastic restoring mechanism 8.

As an embodiment of the present utility model, referring to fig. 3, both the fixed push plate 622 and the movable push plate 623 are capable of extending and retracting in the longitudinal direction.

The fixed push plate 622 and the movable push plate 623 have the same structure, and when the height between the adjacent layers 4 needs to be adjusted, the fixed push plate 622 and the movable push plate 623 are longitudinally stretched to match the heights of the corresponding layers 4, so that the heights of the fixed push plate 622 and the movable push plate 623 are always equal to the distance between the two layers 4 in contact. The fixed push plate 622 comprises a push plate body 9 and an extension push plate 10, a groove is formed in the push plate body 9, a second spring 11 is coaxially and fixedly arranged in the groove, one end, close to a notch, of the second spring 11 is fixedly arranged on the extension push plate 10, and the movable push plate 623 has the same structure as the fixed push plate 622.

As an embodiment of the present utility model, referring to fig. 1, two sides of the inclined surface of the supporting frame 3 protrude with the blocking stand 12.

The baffle 12 is arranged on the inclined surface of the support frame 3, so that the common document can slide along the inclined surface of the support frame 3 in parallel when sliding out from the conveying channel 7, and the deviation of the document is avoided. The shape of the stopper 12 is preferably rectangular parallelepiped.

As an embodiment of the present utility model, referring to fig. 1, a supporting plate 13 is horizontally disposed on the inclined surface of the supporting frame 3.

The horizontally arranged receiving plate 13 can receive the document data sliding down along the supporting frame 3, so that the falling documents are prevented from falling to the ground and the falling documents are convenient to take. The bearing plate 13 can be fixedly arranged on the inclined surface of the support frame 3, and also can be arranged on the inclined surface in a sliding manner, if the bearing plate 13 is arranged on the inclined surface of the support frame 3 in a sliding manner, a block can be arranged on the inclined surface of the support frame 3 according to the height of the user to conveniently take the bearing plate 13 so as to enable the bearing plate to be stable at the height.

As an embodiment of the present utility model, referring to fig. 4, a baffle 14 is disposed at an end of the conveying channel 7 near the placement cavity, and a side of the baffle 14 near the ground is movably connected to the conveying channel 7.

When the common document materials do not need to be taken, the baffle 14 blocks the conveying channel 7, and the documents can be normally placed; when the common document data is required to be taken, the pushing component 6 pushes the common document to the conveying channel 7, so that the baffle 14 falls down to the conveying channel 7, and the document enters the conveying channel 7. The thickness of the baffle 14 is preferably thinner to avoid clamping the document, and the conveying channel 7 has a certain gradient, so that the document can slide out of the conveying channel 7 to reach the inclined surface of the supporting frame 3 under the action of gravity.

The implementation principle of the clinical test data storage cabinet in the embodiment of the application is as follows: when the clinical test data storage cabinet stores clinical test data, files which are required to be stored can be firstly definitely divided into a plurality of categories, the files are placed according to the difference of the categories of the files and are subdivided according to the sequence of one layer, the common files are placed on one side close to the supporting frame 3 and are convenient to take, the other side of the placing cavity can be used for being used, the space ratio of the common files and the unused files in one placing cavity can be adjusted according to the quantity of the placed common files and the unused files, the files can be further subdivided in the unused files according to the movable pushing plate 623, the distance between the movable pushing plate 623 and the fixed pushing plate 622 can be adjusted according to the thickness of the placed different files, so that the files cannot slide, if the common files of a certain high-layer test data file are required to be taken, the left electric pushing rod of the layer is started, the quantity of the common files which are required to be taken is controlled by adjusting the pushing distance of the electric pushing rod, a certain quantity of the common files which are required to be taken are pushed down along the inclined plane of the supporting frame 3 to be placed on the supporting plate 13; if it is necessary to take an unusual file at a higher level, the level is lowered to take the file at that level when the left-hand scissor mechanism 2 is adjusted.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (9)

1. The clinical test data storage cabinet is characterized by comprising a base plate, a scissors mechanism and a support frame, wherein the scissors mechanism and the support frame are arranged on two sides of the base plate;

the scissors mechanism is a scissors type lifter;

a plurality of laminates are horizontally arranged between the scissors mechanism and the support frame, two cross bars are movably arranged in the laminates in a penetrating manner, each cross bar is connected with the scissors mechanism, a placing cavity is formed between the adjacent laminates for placing data files, and a pushing assembly is arranged in the placing cavity for pushing the data files;

the support frame is the tripod, and its slope side is kept away from scissors mechanism setting, sets up at least one conveying channel downwards by the top of support frame, and conveying channel and the chamber intercommunication of placing of corresponding height, and conveying channel's opening setting is in the slope side of support frame.

2. The clinical trial data storage cabinet of claim 1, wherein the pusher assembly comprises a first pusher and a pusher assembly, the pusher assembly being coupled to the scissor mechanism by the first pusher, the first pusher being an electric pusher for pushing the pusher assembly in a direction toward the delivery path.

3. The clinical trial data storage cabinet of claim 2, wherein the push plate assembly comprises two second push rods and two fixed push plates, wherein one fixed push plate is connected with the first push rod, the two second push rods are connected to the other side of the fixed push plate, and the other fixed push plate is connected to the other end of the two second push rods.

4. The clinical trial data storage cabinet of claim 3, wherein the pusher assembly further comprises at least one movable pusher plate, the movable pusher plate is positioned between two fixed pusher plates, the movable pusher plate is slidably coupled to the second pusher plate, and an elastic restoring mechanism is disposed in the second pusher plate to urge the movable pusher plate to slide.

5. The clinical trial data storage cabinet of claim 3, wherein the second push rod is hollow rod-shaped, and a sliding groove is formed on the surface of the second push rod along the length direction;

the elastic restoring mechanism comprises a lug, a first spring and a sliding block, wherein the lug movably penetrates through the sliding groove and is connected with the movable push plate, the sliding block is movably arranged in the second push rod, and one side of the sliding block is connected with the first spring.

6. The clinical trial data storage cabinet of claim 4, wherein the stationary push plate and the movable push plate are each longitudinally retractable.

7. The clinical trial data storage cabinet of claim 1, wherein the abutment is protruded from both sides of the inclined surface of the support frame.

8. The clinical trial data storage cabinet of claim 1, wherein the inclined surface of the support frame is connected with a horizontally disposed receiving plate.

9. The clinical trial data storage cabinet of claim 1, wherein a baffle is disposed at an end of the delivery channel adjacent the placement cavity, the side of the baffle adjacent the ground being movably coupled to the delivery channel.

Images