CN114572514A

CN114572514A - Computer machine case shock attenuation protection base convenient to shift transportation

Info

Publication number: CN114572514A
Application number: CN202210208281.4A
Authority: CN
Inventors: 张建宏
Original assignee: Huzhou University
Current assignee: Huzhou University
Priority date: 2022-03-04
Filing date: 2022-03-04
Publication date: 2022-06-03

Abstract

The invention discloses a computer case shock absorption protection base convenient for transfer and transportation, which comprises a support, wherein the support is a multilayer three-dimensional truss, a plurality of bases are uniformly and fixedly distributed in the support, and sliding plates are embedded into the bases in a sliding manner; side plates are fixed on two sides of the base, and an air bag is arranged in one surface of each side plate, which is opposite to the side plate; and a plurality of clamping wheels capable of clamping two sides of an object on the sliding plate are arranged in the bases on two sides of the sliding plate. Compared with the prior art, the machine case is automatically clamped and loosened when the sliding plate is pushed, extra operation is not needed, the efficiency of transferring the machine case is higher, the locking conditions of different machine cases can be controlled by controlling the electrifying condition of the electromagnet through a program, the machine case is prevented from being taken by mistake during transferring and transportation, and the air bags are inflated to fill the two sides of the machine case to provide damping support.

Description

Computer machine case shock attenuation protection base convenient to shift transportation

Technical Field

The invention relates to the technical field of computer case supports, in particular to a computer case shock absorption protection base convenient to transfer and transport.

Background

The computer case is stacked on a goods shelf in the carrier when being transferred and transported, the carrier is easy to fall off when bumping and inclining, the carrier can be clamped by the clamp to prevent the carrier from falling off, and in order to prevent the case from being damaged due to vibration in the transportation process, the damping protection device is required to be added, but the more reliable clamp and damping device and the case take longer time when being assembled and disassembled, and the transportation and transportation transfer efficiency is reduced. In addition, since different cases may need to be transported to different locations in a carrier, it is also desirable to prevent mishandling cases and theft.

Therefore, there is a need for a shock-absorbing protection base for a computer case that facilitates transportation and transportation, so as to solve the problems mentioned in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a computer case shock absorption protection base convenient for transfer and transportation comprises a support, wherein the support is a multilayer three-dimensional truss, a plurality of bases are uniformly and fixedly distributed in the support, and sliding plates are embedded in the bases in a sliding manner;

side plates are fixed on two sides of the base, and an air bag is arranged in one surface of each side plate, which is opposite to the side plate;

and a plurality of clamping wheels capable of clamping two sides of an object on the sliding plate are arranged in the bases on two sides of the sliding plate.

Further, preferably, an intermediate plate is slidably disposed below the sliding plate, and the intermediate plate is slidably connected to the base, so that the sliding plate, the intermediate plate and the base can slide in a stepped manner.

Further, preferably, an upper rack with downward insections is fixed at the bottom of the sliding plate, a lower rack with upward insections is fixed at the bottom of the base, a central gear embedded in the middle plate and penetrating through the upper surface and the lower surface of the middle plate is rotatably arranged at the center of the middle plate, and the central gear is respectively in meshed connection with the upper rack and the lower rack.

Further, the clamping wheel is preferably an eccentric wheel which is rotatably connected with the base, a part of the clamping wheel is embedded into a side cavity at the side of the base, and a part of the clamping wheel is arranged at the edge above the sliding plate.

Further, preferably, a driven gear is fixed on a rotating shaft of each clamping wheel, the driven gears on the same side are meshed into a side rack together, and the side rack is slidably arranged in a side cavity;

a through groove is formed in one surface, close to the middle plate, of the side cavity, and the two sides of the middle plate penetrate through the through groove and are fixedly connected to the side racks on the two sides.

Further, as a preferred option, the central gear is rotatably connected with the intermediate plate through a central shaft, a ratchet groove is formed in one side of the central gear, and a plurality of rotatable limiting teeth are distributed on the inner circumference of the ratchet groove.

Furthermore, as an optimization, a magnetic conduction block is slidably sleeved in a central shaft in the ratchet groove, and the side wall of the magnetic conduction block is respectively connected to each limit tooth through a plurality of universal rods;

and a reset spring is arranged between the magnetic conduction block and the bottom of the ratchet groove and provides a force for enabling the magnetic conduction block to be close to the bottom of the ratchet groove.

Preferably, a fixing rod is slidably embedded in the middle plate, one end of the fixing rod is fixedly connected with the base, and an electromagnet is fixed in the middle of the fixing rod.

Further, preferably, the central shaft is rotatably inserted through a damping fluid chamber fixed in the intermediate plate, and a resistance blade is fixed to the central shaft in the damping fluid chamber and has a through hole formed therein.

Further, preferably, an air inlet valve and an air outlet valve are arranged in the air bag, and the air inlet valve is connected with an air supply device through a conduit;

the sliding plate is far away from the bottom of the base, a sliding switch is arranged in the extending direction of the sliding plate, the sliding switch can control the air inlet valve to be opened when contacting the middle plate, and the middle plate controls the exhaust valve to be opened when leaving.

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

in the invention, when the sliding plate is pushed back into the base, the middle plate synchronously slides under the action of the central gear to drive the side racks to slide, so that the driven gear meshed with the side racks rotates, the clamping wheels rotate to the side surface away from the rotating shaft and outwards clamp two sides of the case, the sliding plate can be loosened only by pulling the sliding plate outwards again after clamping, the case is not easy to be loosened under the action of external force, and the sliding plate is automatically clamped and loosened without additional operation when pushed, so that the efficiency of transferring the case is higher.

According to the invention, when the middle plate slides to the magnetic conduction block and aligns with the electromagnet, the electromagnet is electrified to adsorb the magnetic conduction block, the universal rod pushes the limiting teeth to be attached to the ratchet groove to lock the central gear, so that the middle plate and the sliding plate cannot slide, the locking conditions of different cases can be controlled by controlling the electrifying condition of the electromagnet through a program, and the case is prevented from being taken by mistake during transfer and transportation.

According to the invention, when the sliding switch contacts the middle plate, the air inlet valve can be controlled to be opened, the air bag is inflated to fill the two sides of the case to provide damping support, and when the case needs to be taken down, the sliding plate is pulled outwards, and the air bag is opened by the air outlet valve to exhaust air.

Drawings

FIG. 1 is a schematic view of a shock absorbing protective base of a computer case for easy transportation;

FIG. 2 is a schematic structural diagram of a base;

FIG. 3 is a schematic view of the sun gear;

FIG. 4 is a schematic structural view of a magnetic block;

in the figure: 1. a support; 2. a base; 21. a side plate; 22. a side cavity; 23. a lower rack; 24. a through groove; 3. a slide plate; 31. an upper rack; 4. a clamping wheel; 41. a driven gear; 42. a side rack; 5. an air bag; 6. a middle plate; 61. a sun gear; 7. fixing the rod; 71. an electromagnet; 8. a slide switch; 612. a central shaft; 613. a ratchet groove; 614. limiting teeth; 615. a gimbal lever; 616. a magnetic conduction block; 617. a return spring; 621. a damping fluid chamber; 622. a drag blade; 623. through the aperture.

Detailed Description

Referring to fig. 1 and 2, in an embodiment of the present invention, a computer case shock absorption protection base convenient for transfer and transportation includes a support 1, where the support 1 is a multi-layer three-dimensional truss, a plurality of bases 2 are uniformly and fixedly distributed in the support 1, and sliding plates 3 are slidably embedded in the bases 2;

side plates 21 are fixed on two sides of the base 2, and an air bag 5 is arranged in one surface of each side plate 21 opposite to the side plate;

and a plurality of clamping wheels 4 capable of clamping two sides of an object on the sliding plate 3 are arranged in the bases 2 at two sides of the sliding plate 3.

In this embodiment, an intermediate plate 6 is slidably disposed below the sliding plate 3, and the intermediate plate 6 is slidably connected to the base 2, so that the sliding plate 3, the intermediate plate 6 and the base 2 can form a step-shaped sliding motion.

In this embodiment, the bottom of the sliding plate 3 is fixed with an upper rack 31 with downward insections, the bottom of the base 2 is fixed with a lower rack 23 with upward insections, the center of the middle plate 6 is rotatably provided with a central gear 61 embedded in the middle and penetrating through the upper and lower surfaces of the middle plate, and the central gear 61 is respectively engaged with the upper rack 31 and the lower rack 23;

that is to say, when the sliding plate 3 slides, the upper rack 31 drives the central gear 61 to rotate, and the middle plate 6 is pushed to slide under the action of the lower rack 23, so that the sliding plate 3 and the middle plate 6 can slide synchronously, and the two are always kept in an even step shape when being positioned outside the base 2, so that the stress of the two is more stable.

In this embodiment, the clamping wheel 4 is an eccentric wheel rotatably connected to the base 2, and a part of the clamping wheel is embedded in a side cavity 22 at the side of the base 2 and a part of the clamping wheel is at the edge above the sliding plate 3;

when the clamping wheel 4 rotates to the side surface far away from the rotating shaft and faces outwards, the object on the sliding plate 3 can be clamped.

In this embodiment, a driven gear 41 is fixed on the rotating shaft of each clamping wheel 4, the driven gears 41 on the same side are jointly engaged into a side rack 42, and the side rack 42 is slidably disposed in the side cavity 22;

a through groove 24 is formed in one surface, close to the middle plate 6, of the side cavity 22, and two sides of the middle plate 6 penetrate through the through groove 24 and are fixedly connected to side racks 42 at two sides;

that is, when the intermediate plate 6 slides, the side rack 42 is caused to slide, the driven gear 41 engaged therewith is caused to rotate, and the chucking wheel 4 is caused to rotate;

when the middle plate 6 slides to the outermost position, the clamping wheel 4 rotates to the side surface of the clamping wheel 4 far away from the rotating shaft and faces inwards;

when the intermediate plate 6 slides to the retracted innermost position, the chucking wheel 4 rotates to the side away from the rotation shaft side outward.

Referring to fig. 3 and 4, in the present embodiment, the central gear 61 is rotatably connected to the middle plate 6 through a central shaft 612, a ratchet groove 613 is formed at one side of the central gear 61, and a plurality of rotatable limiting teeth 614 are distributed on an inner circumference of the ratchet groove 613;

the limit teeth 614 can be rotated to fit into the ratchet grooves 613, thereby locking the sun gear 61.

In this embodiment, a magnetic block 616 is slidably sleeved in the central shaft 612 in the ratchet groove 613, and the side wall of the magnetic block 616 is connected to each of the limiting teeth 614 through a plurality of universal rods 615;

a return spring 617 is arranged between the magnetic block 616 and the bottom of the ratchet groove 613, and the return spring 617 provides a force for making the magnetic block 616 close to the bottom of the ratchet groove 613;

and, when the magnetic block 616 approaches the bottom of the ratchet groove 613, the universal rod 615 pushes the limit teeth 614 away from the ratchet groove 613.

In this embodiment, a fixing rod 7 is slidably embedded in the middle plate 6, one end of the fixing rod 7 is fixedly connected with the base 2, and an electromagnet 71 is fixed in the middle of the fixing rod 7;

when the middle plate 6 slides to the magnetic block 616 and aligns with the electromagnet 71, the electromagnet 71 is energized to attract the magnetic block 616, and the universal rod 615 pushes the limit teeth 614 to fit into the ratchet groove 613 to lock the central gear 61.

In this embodiment, the central shaft 612 rotatably penetrates through a damping liquid cavity 621, the damping liquid cavity 621 is fixed in the middle plate 6, a resistance blade 622 is fixed in the damping liquid cavity 621 by the central shaft 612, and a through hole 623 is formed in the resistance blade 622;

the central shaft 612 drives the resistance blade 622 in rotation to stir the damping fluid in the damping fluid chamber 621 to flow through the through hole 623 to obtain a damping force, so that the sliding of the slide plate 3 is smoother.

In this embodiment, the air bag 5 is provided with an air inlet valve and an air outlet valve, and the air inlet valve is connected with an air supply device through a conduit;

the bottom of the base 2 is provided with a sliding switch 8 in the extending direction far away from the sliding plate 3, the sliding switch 8 can control the opening of the air inlet valve when contacting the middle plate 6, and the opening of the exhaust valve is controlled when the middle plate 6 leaves.

In the specific implementation process, the sliding plate 3 is pulled out of the base, the case is placed on the sliding plate 3, the sliding plate 3 is pushed back, in the process, the middle plate 6 synchronously slides under the action of the central gear 61, the side rack 42 is driven to slide, the driven gear 41 meshed with the side rack is driven to rotate, so that the clamping wheel 4 rotates to the side surface away from the rotating shaft, the side surface faces outwards to clamp the two sides of the case, the clamping wheel can be loosened only by pulling the sliding plate 3 outwards again after clamping, and the case is not easy to loosen under the action of external force;

when the intermediate plate 6 slides to the magnetic block 616 and aligns with the electromagnet 71, the electromagnet 71 is electrified to adsorb the magnetic block 616, and the universal rod 615 pushes the limit teeth 614 to fit into the ratchet groove 613 to lock the central gear 61, so that the intermediate plate 6 and the sliding plate 3 cannot slide;

when the sliding switch 8 contacts the middle plate 6, the air inlet valve can be controlled to be opened, and the air bag 5 is inflated to fill the two sides of the case to provide damping support;

when the case needs to be taken down, the electromagnet 71 is powered off, the sliding plate 3 is pulled outwards, the air bag 5 is opened by the exhaust valve to exhaust air, the clamping wheel 4 rotates until the side face of the clamping wheel 4, which is far away from the rotating shaft, faces inwards, and the case is loosened.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. A computer case shock absorption protection base convenient for transfer and transportation is characterized by comprising a support (1), wherein the support (1) is a multilayer three-dimensional truss, a plurality of bases (2) are uniformly and fixedly distributed in the support, and sliding plates (3) are slidably embedded in the bases (2);

side plates (21) are fixed on two sides of the base (2), and an air bag (5) is arranged in one surface of each side plate (21) opposite to the other surface;

the clamping device is characterized in that a plurality of clamping wheels (4) capable of clamping two sides of an object on the sliding plate (3) are arranged in the bases (2) on two sides of the sliding plate (3).

2. The computer case shock absorption protection base convenient for transfer and transportation according to claim 1, wherein an intermediate plate (6) is slidably arranged below the sliding plate (3), and the intermediate plate (6) is slidably connected with the base (2) so that the sliding plate (3), the intermediate plate (6) and the base (2) can slide in a stepped manner.

3. The computer case shock absorption protection base convenient for transfer transportation according to claim 2, wherein an upper rack (31) with downward insection is fixed at the bottom of the sliding plate (3), a lower rack (23) with upward insection is fixed at the bottom of the base (2), a central gear (61) embedded in the middle plate (6) and penetrating through the upper surface and the lower surface of the middle plate is rotatably arranged at the center of the middle plate, and the central gear (61) is respectively engaged and connected with the upper rack (31) and the lower rack (23).

4. The shock-absorbing protection base for computer cases convenient for transfer and transportation according to claim 1 is characterized in that the clamping wheels (4) are eccentric wheels rotatably connected with the base (2), a part of which are embedded in side cavities (22) at the sides of the base (2) and a part of which are at the edges above the sliding plate (3).

5. The computer case shock absorption protection base convenient for transfer and transportation according to claim 4, wherein a driven gear (41) is fixed on a rotating shaft of each clamping wheel (4), the driven gears (41) on the same side are jointly meshed into a side rack (42), and the side rack (42) is slidably arranged in the side cavity (22);

a through groove (24) is formed in one surface, close to the middle plate (6), of the side cavity (22), and the two sides of the middle plate (6) penetrate through the through groove (24) and are fixedly connected to side racks (42) on the two sides.

6. The computer case shock absorption protection base convenient for transfer and transportation according to claim 1, wherein the central gear (61) is rotatably connected with the middle plate (6) through a central shaft (612), one side of the central gear (61) is provided with a ratchet groove (613), and a plurality of rotatable limit teeth (614) are distributed on the inner circumference of the ratchet groove (613).

7. The computer case shock absorbing protection base for facilitating transportation of claim 6, wherein a magnetic block (616) is slidably sleeved in the central shaft (612) in the ratchet groove (613), and the side wall of the magnetic block (616) is connected to each limit tooth (614) through a plurality of universal rods (615);

a return spring (617) is arranged between the magnetic conduction block (616) and the bottom of the ratchet groove (613), and the return spring (617) provides a force for enabling the magnetic conduction block (616) to be close to the bottom of the ratchet groove (613).

8. The computer case shock absorption protection base convenient for transfer and transportation according to claim 7, wherein a fixing rod (7) is slidably embedded in the middle plate (6), one end of the fixing rod (7) is fixedly connected with the base (2), and an electromagnet (71) is fixed in the middle of the fixing rod (7).

9. The computer case shock-absorbing protection base convenient for transfer and transportation of claim 6, wherein the central shaft (612) rotatably penetrates through a damping fluid chamber (621), the damping fluid chamber (621) is fixed in the middle plate (6), the central shaft (612) is fixed with a resistance blade (622) in the damping fluid chamber (621), and the resistance blade (622) is provided with a through hole (623) therein.

10. The computer case shock absorption protection base convenient for transfer and transportation according to claim 1, wherein an air inlet valve and an air outlet valve are arranged in the air bag (5), and the air inlet valve is connected with an air supply device through a conduit;

base (2) bottom is kept away from and is equipped with slide switch (8) in slide (3) the direction of stretching out, slide switch (8) can control the admission valve and open when contacting intermediate lamella (6), and intermediate lamella (6) are left and are controlled discharge valve and open.