CN116443405A - Storage box for transporting precision electromechanical equipment - Google Patents

Abstract

The invention relates to the technical field of precision electromechanical equipment transportation, in particular to a storage box for precision electromechanical equipment transportation. The invention provides a storage box for transporting precision electromechanical equipment, which can keep a protecting piece attached to the electromechanical equipment and improve the protection and shock absorption effects. The storage box for transporting the precision electromechanical equipment comprises a storage box, an electric door, an upper buffer mechanism, a lower buffer mechanism and a side buffer mechanism; the front side of the storage box is rotationally connected with an electric door, an upper buffer mechanism and a lower buffer mechanism are arranged in the storage box, and a side buffer mechanism is arranged in the storage box. The buffer board contacts the laminating of both sides about to accurate electromechanical device with buffering gasbag board, plays buffering shock attenuation's effect, avoids accurate electromechanical device damage, and elasticity gasbag inflation can carry out ' parcel to accurate electromechanical device, and in the transportation, elasticity gasbag also can follow accurate electromechanical device's rocking and slide from top to bottom, ensures accurate electromechanical device and is wrapped up in by elasticity gasbag all the time to improve the protection effect.

Description

Storage box for transporting precision electromechanical equipment

Technical Field

The invention relates to the technical field of precision electromechanical equipment transportation, in particular to a storage box for precision electromechanical equipment transportation.

Background

The electromechanical equipment generally refers to mechanical, electrical and electrical automation equipment, and when the precision electromechanical equipment is transported, a special storage box is required to be used for protection, so that the safety of the precision electromechanical equipment is ensured.

Patent grant bulletin number CN115321013A discloses a storage box for transportation based on precision electromechanical equipment, and this storage box includes the box, the shrouding is installed at the box top, an associated component is all installed in shrouding lower extreme four corners, just a bounding wall mechanism is all installed in four positions of shrouding lower extreme, and installs the bottom plate of shrouding lower extreme, the foam board has been laid to the bottom plate upper end. According to the storage box, the number of the clamping mechanisms is determined according to the number of the redundant protruding edges and corners of the electromechanical equipment transportation, the protruding edges and corners of the electromechanical equipment transportation are isolated from the peripheral plates by using the bayonets corresponding to the protruding edges and corners of the electromechanical equipment transportation surface, the peripheral plates are prevented from being locally sunken or damaged due to direct collision, and the mechanical equipment transportation device can be combined with the specific structural shape of the electromechanical equipment transportation, so that the electromechanical equipment transportation device and the peripheral plates of the box body are isolated and protected. But the rubber empty bag of this bin can't follow the vibration range of electromechanical device and reciprocate, and when the bin vibration range was too big, electromechanical device can rub each other with the rubber empty bag between, causes wearing and tearing to electromechanical device easily, and protection absorbing effect is also not good simultaneously.

Therefore, we propose a storage box for transporting precision electromechanical equipment, which can keep the protection piece attached to the electromechanical equipment and improve the protection and shock absorption effects.

Disclosure of Invention

In order to overcome the defect that a rubber empty bag of the existing storage box cannot move up and down along with the shaking amplitude of electromechanical equipment, the invention provides the storage box for transporting the precision electromechanical equipment, which can enable a protection piece to be attached to the electromechanical equipment and improve the protection and shock absorption effects.

The utility model provides a precision is bin for electromechanical device transportation, is including bin, electrically operated gate, upper and lower buffer gear and side buffer gear, and bin front side rotation is connected with the electrically operated gate, is equipped with in the bin and is used for carrying out absorbing upper and lower buffer gear to precision electromechanical device from upper and lower both sides, is equipped with the side buffer gear that is used for protecting precision electromechanical device side in the bin.

Preferably, the upper and lower buffer mechanisms comprise buffer plates, buffer springs, buffer airbag plates and pressing springs, the lower parts in the storage boxes are connected with the buffer plates in a sliding mode, the buffer springs are connected between the buffer plates and the lower sides in the storage boxes, the upper parts in the storage boxes are connected with the buffer airbag plates in a sliding mode, and the pressing springs are connected between the buffer airbag plates and the upper sides in the storage boxes.

As the preference, side buffer gear is including guide bar, sliding plate, elastic air bag, air pump and start-up switch, and storage box inboard left and right sides all is connected with a set of guide bar, all is connected with the sliding plate between every guide bar of group, and the sliding plate inboard all is connected with the elastic air bag that is used for protecting precision electromechanical device side, and the sliding plate middle part all is connected with the air pump of being connected with elastic air bag, and storage box front side lower part is connected with electrically operated gate complex start-up switch, and the air pump all passes through electric connection with start-up switch.

As the preference, still including the adsorption equipment who is used for controlling the ascending lifting of buffering gasbag board, adsorption equipment is including connecting rod, return spring, sliding magnet, L shape return pole and fixed magnet, and the upper right portion of rear side is connected with two connecting rods in the storage box, and sliding connection has sliding magnet between two connecting rods, all is connected with return spring between sliding magnet and the connecting rod, and sliding magnet front side is connected with the L shape return pole with electrically operated gate complex, and buffering gasbag board upside right part is connected with the fixed magnet that attracts mutually with sliding magnet.

Preferably, the buffer plate positioning device comprises a positioning mechanism for positioning the buffer plate, wherein the positioning mechanism comprises a positioning frame, a positioning spring and an L-shaped connecting rod, the lower part in the storage box is connected with the positioning frame for clamping the buffer plate for positioning in a sliding manner, the positioning spring is connected between the right part of the positioning frame and the storage box, and the right part of the positioning frame is connected with the L-shaped connecting rod matched with the electric door.

Preferably, the buffer plate comprises a buffer plate body, a buffer plate is arranged on the buffer plate body, the buffer plate is connected with a buffer plate through a sliding rod, a friction spring is arranged on the buffer plate body, the buffer plate is connected with the buffer plate through a sliding rod, and the buffer plate is connected with the buffer plate through a sliding rod.

Preferably, the trigger assembly comprises a wedge block, a pulling spring, a return pull rope and a pressing rod, wherein the wedge block used for clamping the speed reducing rod is connected to the rear lower portion of the left side in the storage box in a sliding mode, the pulling spring is connected between the wedge block and the storage box, the return pull rope is connected between the rear side of the wedge block and the left rear portion in the storage box, the pressing rod is connected to the left rear portion of the lower side of the buffer plate, and the pressing rod moves downwards to be in contact with the return pull rope.

Preferably, a handle is connected to the right part of the front side of the electric door.

The invention has the following advantages: 1. the buffer board contacts the laminating of both sides about to accurate electromechanical device with buffering gasbag board, plays buffering shock attenuation's effect, avoids accurate electromechanical device damage, and the elasticity gasbag inflation can wrap up accurate electromechanical device, and in the transportation, elasticity gasbag also can follow accurate electromechanical device's rocking and slide from top to bottom, ensures accurate electromechanical device is wrapped up in by elasticity gasbag all the time to improve the protective effect to accurate electromechanical device.

2. The electrically operated gate is opened and makes sliding magnet slide forward to adsorb fixed magnet upward movement and with the lifting of buffering gasbag board, so, can make buffering gasbag board upwards lifting voluntarily when the electrically operated gate is opened, conveniently put accurate electromechanical device on the buffering board.

3. The electric door is opened to enable the locating rack to clamp the buffer plate after sliding forwards, and then the position of the buffer plate is fixed, so that the buffer plate is kept stable, and a worker can conveniently place or take out the precision electromechanical equipment.

4. When rocking violently, the buffer plate slides from top to bottom and makes down the depression bar and cooperate with return stay cord, and then makes the deceleration strip remove the embedding buffer plate to the right in, the buffer plate slides from top to bottom can rub with the deceleration strip to make the buffer plate stabilize fast, avoid making the buffer plate continuously rocking by a wide margin because of inertia.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of the present invention.

Fig. 3 is a schematic perspective view of an up-down buffer mechanism according to the present invention.

FIG. 4 is a schematic cross-sectional perspective view of a side cushioning mechanism of the present invention.

Fig. 5 is a schematic perspective view of the adsorption mechanism of the present invention.

Fig. 6 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 7 is a schematic view of a partial perspective structure of the positioning mechanism of the present invention.

Fig. 8 is a schematic perspective view of a speed reducing mechanism according to the present invention.

Fig. 9 is a schematic partial perspective view of the reduction mechanism of the present invention.

Reference numerals illustrate: the device comprises a 1-storage box, a 2-electric door, a 3-upper and lower buffer mechanism, a 31-buffer plate, a 32-buffer spring, a 33-buffer air bag plate, a 34-push spring, a 4-side buffer mechanism, a 41-guide rod, a 42-sliding plate, a 43-elastic air bag, a 44-air pump, a 45-start switch, a 5-adsorption mechanism, a 51-connecting rod, a 52-return spring, a 53-sliding magnet, a 54-L-shaped return rod, a 55-fixed magnet, a 6-positioning mechanism, a 61-positioning frame, a 62-positioning spring, a 63-L-shaped connecting rod, a 7-reduction mechanism, a 71-sliding rod, a 72-friction spring, a 73-reduction spring, a 74-reduction rod, a 75-wedge block, a 76-pull spring, a 77-return pull rope and a 78-push rod.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a precision electromechanical equipment transportation is with bin, as shown in fig. 1-4, including bin 1, electrically operated gate 2, upper and lower buffer gear 3 and side buffer gear 4, bin 1 front side is connected with electrically operated gate 2 through the bearing, and electrically operated gate 2 front side right part welding has the handle, is equipped with upper and lower buffer gear 3 in the bin 1, and upper and lower buffer gear 3 can follow upper and lower both sides and carry out the shock attenuation to precision electromechanical equipment, is equipped with side buffer gear 4 in the bin 1, and side buffer gear 4 can protect precision electromechanical equipment side.

When the device is used, the electric door 2 is opened by a worker through the handle, then the precision electromechanical device is placed in the storage box 1, the precision electromechanical device is located in the upper buffer mechanism 3 and the lower buffer mechanism 3 is used for accurately contacting the upper side and the lower side of the precision electromechanical device, in the transportation process, the precision electromechanical device is buffered and damped through the upper buffer mechanism 3 and the lower buffer mechanism 3, after the precision electromechanical device is put, the electric door 2 is controlled to be closed by the worker, the electric door 2 is closed, the side buffer mechanism 4 is expanded to be in contact with the precision electromechanical device, the precision electromechanical device is further wrapped in, and in the transportation process, the side buffer mechanism 4 can move along with the shaking of the precision electromechanical device, so that the precision electromechanical device is always wrapped by the side buffer mechanism 4, and the protection effect is improved.

As shown in fig. 2 and 3, the up-down buffer mechanism 3 includes a buffer plate 31, a buffer spring 32, a buffer air bag plate 33 and a pressing spring 34, the buffer plate 31 is slidably connected to the lower portion in the storage box 1, the buffer spring 32 is connected between the buffer plate 31 and the lower portion in the storage box 1, the buffer air bag plate 33 is slidably connected to the upper portion in the storage box 1, and the pressing spring 34 is connected between the buffer air bag plate 33 and the upper portion in the storage box 1.

When the device is used, after the electric door 2 is opened, a worker pushes the buffer airbag plate 33 to slide upwards, the pressing spring 34 is deformed, then the worker places the precision electromechanical device on the buffer plate 31, after placing, the worker releases the buffer airbag plate 33, the buffer airbag plate 33 slides downwards along with the action of resetting the pressing spring 34 and is attached to the precision electromechanical device last time, and in the transportation process, the pressing spring 34 and the buffering spring 32 can buffer and damp the precision electromechanical device, so that the precision electromechanical device is prevented from being damaged.

As shown in fig. 2 and 4, the side buffering mechanism 4 comprises guide rods 41, a sliding plate 42, an elastic air bag 43, an air pump 44 and a start switch 45, wherein a group of guide rods 41 are connected to the left side and the right side in the storage box 1, one group of guide rods 41 is two, the sliding plate 42 is connected between the two guide rods 41 of each group in a sliding mode, the elastic air bag 43 is connected to the inner side of the sliding plate 42, the elastic air bag 43 can protect the side edge of precision electromechanical equipment, the air pump 44 connected with the elastic air bag 43 is connected to the middle of the sliding plate 42 in a bolting mode, the air pump 44 is used for inflating the elastic air bag 43, the start switch 45 matched with the electric door 2 is installed at the lower portion of the front side of the storage box 1, and the air pump 44 is electrically connected with the start switch 45.

When the device is used, after the precision electromechanical equipment is placed, a worker controls the electric door 2 to be closed, and the electric door is contacted with the starting switch 45 after being turned and closed backwards, at this time, the starting switch 45 controls the air pump 44 to operate, the air pump 44 operates to inflate the elastic air bag 43, so that the elastic air bag 43 is inflated to wrap the precision electromechanical equipment, the precision electromechanical equipment shakes up and down in the transportation process, the elastic air bag 43 can also slide up and down along with the shaking of the precision electromechanical equipment, the precision electromechanical equipment is always wrapped by the elastic air bag 43, so that the protection effect on the precision electromechanical equipment is improved, and after the electric door 2 is opened and the starting switch 45 is separated, the air pump 44 operates to pump the elastic air bag 43 again, so that the elastic air bag 43 is contracted and reset.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 5, the electric door further comprises an adsorption mechanism 5, the adsorption mechanism 5 can control the buffer air bag plate 33 to lift upwards, the adsorption mechanism 5 comprises a connecting rod 51, a return spring 52, a sliding magnet 53, an L-shaped return rod 54 and a fixed magnet 55, the right upper part of the rear side in the storage box 1 is connected with two connecting rods 51, the connecting rods 51 are symmetrically arranged left and right, the sliding magnet 53 is connected between the two connecting rods 51 in a sliding mode, the return springs 52 are connected between the sliding magnet 53 and the connecting rods 51, the front side of the sliding magnet 53 is connected with the L-shaped return rod 54 matched with the electric door 2, and the right part of the upper side of the buffer air bag plate 33 is provided with the fixed magnet 55 attracted with the sliding magnet 53.

In the initial state, the return spring 52 is in a stretching state, when the electric door 2 rotates forwards to be opened, the L-shaped return rod 54 is not extruded any more, under the action of reset of the return spring 52, the sliding magnet 53 slides forwards along with the return spring, the sliding magnet 53 slides forwards and is positioned above the fixed magnet 55, at this time, the fixed magnet 55 is adsorbed and moves upwards by the sliding magnet 53, the buffer air bag plate 33 is driven to lift upwards, the lower pressure spring 34 is deformed, the buffer air bag plate 33 is lifted upwards, a worker conveniently places precision electromechanical equipment on the buffer plate 31, after the precision electromechanical equipment is placed, the worker controls the electric door 2 to rotate backwards to be closed, the electric door 2 rotates backwards to be contacted with the L-shaped return rod 54, then the L-shaped return rod 54 moves backwards, the L-shaped return rod 54 moves backwards to drive the sliding magnet 53 to slide backwards, the return spring 52 is deformed, the sliding magnet 53 slides backwards and is dislocated with the fixed magnet 55, and therefore the fixed magnet 55 is not adsorbed any more, at this time, the buffer air bag plate 33 slides downwards along with the buffer air bag plate 33 under the action of reset of the lower pressure spring 34, the precision electromechanical equipment is automatically reset, the precision air bag plate 33 can be placed on the upper side of the precision electromechanical equipment, the buffer air bag plate 31 can be automatically lifted when the electric door 2 is opened, and the precision air bag equipment can be conveniently lifted upwards, and the precision air bag equipment can be conveniently lifted.

As shown in fig. 2, 6 and 7, the buffer plate 31 can be positioned by the positioning mechanism 6, the positioning mechanism 6 comprises a positioning frame 61, a positioning spring 62 and an L-shaped connecting rod 63, the positioning frame 61 is slidably connected to the lower portion in the storage box 1, the positioning frame 61 can clamp the buffer plate 31 for positioning, the positioning spring 62 is connected between the right portion of the positioning frame 61 and the storage box 1, and the L-shaped connecting rod 63 matched with the electric door 2 is welded to the right portion of the positioning frame 61.

When the device is used, the electric door 2 rotates forwards and does not squeeze the L-shaped connecting rod 63 any more, at the moment, under the action of resetting the positioning spring 62, the positioning frame 61 slides forwards along with the positioning spring 62, the positioning frame 61 slides forwards and then clamps the buffer plate 31, and then the position of the buffer plate 31 is fixed, so that the buffer plate 31 is kept stable, a worker can conveniently place or take out precision electromechanical equipment, when the electric door 2 rotates backwards to be closed, the electric door 2 can squeeze the L-shaped connecting rod 63 to move backwards, the L-shaped connecting rod 63 moves backwards to drive the positioning frame 61 to slide backwards, the positioning spring 62 deforms, the positioning frame 61 does not clamp the buffer plate 31 any more after sliding backwards, and at the moment, the buffer plate 31 can slide normally up and down to buffer and damp.

As shown in fig. 2, 8 and 9, the buffer plate 31 can be decelerated by the deceleration mechanism 7, the deceleration mechanism 7 comprises a sliding rod 71, a friction spring 72, a deceleration spring 73, a deceleration rod 74, a wedge block 75, a pulling spring 76, a return pull rope 77 and a pressing rod 78, the sliding rod 71 is connected to the left rear part in the storage box 1 in a sliding manner, the friction spring 72 is connected between the sliding rod 71 and the storage box 1, the deceleration rod 74 is connected to the sliding rod 71 in a sliding manner, the deceleration rod 74 can decelerate the buffer plate 31, the deceleration spring 73 is connected between the deceleration rod 74 and the sliding rod 71, the wedge block 75 is connected to the rear lower part of the left side in the storage box 1 in a sliding manner, the wedge block 75 can clamp the deceleration rod 74, the pulling spring 76 is connected between the wedge block 75 and the storage box 1, the return pull rope 77 is connected to the rear left rear part in the storage box 1, the pressing rod 78 is welded to the rear left part of the lower part of the buffer plate 31 in a sliding manner, and the pressing rod 78 moves downward to be in contact with the return pull rope 77.

In the initial state, the friction spring 72 is in a stretching state, in the transportation process, slight shaking enables the buffer plate 31 to slide up and down to have smaller amplitude, when shaking is severe, the amplitude of the buffer plate 31 sliding up and down is increased along with the amplitude, the buffer plate 31 is driven to move up and down by inertia, the lower pressing rod 78 is driven to move up and down, when the lower pressing rod 78 moves downwards to be in contact with the return pull rope 77, the wedge block 75 is pulled to slide backwards through the return pull rope 77 to enable the wedge block 75 to deform, the wedge block 75 does not clamp the reducing rod 74 after sliding backwards, at this time, under the action of resetting of the friction spring 72, the sliding rod 71 drives the reducing rod 74 to move rightwards to be embedded into the buffer plate 31, at this time, the buffer plate 31 slides up and down to rub with the reducing rod 74, so that the buffer plate 31 is enabled to be fast and stable, the buffer plate 31 is prevented from continuously shaking by inertia, meanwhile, under the action of the reducing spring 73, the normal up and down sliding of the buffer plate 31 can be ensured, after the amplitude of the lower pressing rod 78 is reduced, the wedge block 75 is pulled backwards, the reducing rod 76 is not pressed, the reducing rod 76 is pushed leftwards, and the reducing rod 74 is pushed down, and the reducing rod 74 is pushed leftwards, and the reducing rod 74 is deformed, and the reducing rod 74 is pushed leftwards, and the reducing rod 76 is pushed.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims (8)

1. The utility model provides a precision is bin for electromechanical device transportation, including bin (1) and electrically operated gate (2), bin (1) front side rotation type is connected with electrically operated gate (2), its characterized in that is equipped with in bin (1) and is used for carrying out absorbing upper and lower buffer gear (3) to precision electromechanical device from upper and lower both sides including upper and lower buffer gear (3) and side buffer gear (4) about, is equipped with in bin (1) and is used for protecting precision electromechanical device side.

2. The storage box for transporting precision electromechanical equipment according to claim 1, wherein the upper and lower buffer mechanisms (3) comprise a buffer plate (31), buffer springs (32), a buffer airbag plate (33) and a pressing spring (34), the buffer plate (31) is slidably connected to the lower portion in the storage box (1), the buffer springs (32) are connected between the buffer plate (31) and the lower portion in the storage box (1), the buffer airbag plate (33) is slidably connected to the upper portion in the storage box (1), and the pressing spring (34) is connected between the buffer airbag plate (33) and the upper portion in the storage box (1).

3. The storage box for transporting precision electromechanical equipment according to claim 1, wherein the side buffer mechanism (4) comprises guide rods (41), sliding plates (42), elastic air bags (43), air pumps (44) and starting switches (45), a group of guide rods (41) are connected to the left side and the right side in the storage box (1), sliding plates (42) are connected between each group of guide rods (41) in a sliding mode, the elastic air bags (43) used for protecting the sides of the precision electromechanical equipment are connected to the inner sides of the sliding plates (42), air pumps (44) connected with the elastic air bags (43) are connected to the middle portions of the sliding plates (42), starting switches (45) matched with the electric doors (2) are connected to the lower portions of the front sides of the storage box (1), and the air pumps (44) are electrically connected with the starting switches (45).

4. The storage box for transporting precision electromechanical equipment according to claim 2, further comprising an adsorption mechanism (5) for controlling the buffer air bag plate (33) to lift upwards, wherein the adsorption mechanism (5) comprises a connecting rod (51), a return spring (52), a sliding magnet (53), an L-shaped return rod (54) and a fixed magnet (55), the right upper part of the rear side in the storage box (1) is connected with two connecting rods (51), the sliding magnet (53) is connected between the two connecting rods (51), the return spring (52) is connected between the sliding magnet (53) and the connecting rods (51), the front side of the sliding magnet (53) is connected with the L-shaped return rod (54) matched with the electric door (2), and the right part of the upper side of the buffer air bag plate (33) is connected with the fixed magnet (55) attracted with the sliding magnet (53).

5. The storage box for transporting precision electromechanical equipment according to claim 2, further comprising a positioning mechanism (6) for positioning the buffer plate (31), wherein the positioning mechanism (6) comprises a positioning frame (61), a positioning spring (62) and an L-shaped connecting rod (63), the lower part in the storage box (1) is slidably connected with the positioning frame (61) for clamping the buffer plate (31) for positioning, a positioning spring (62) is connected between the right part of the positioning frame (61) and the storage box (1), and the right part of the positioning frame (61) is connected with the L-shaped connecting rod (63) matched with the electric door (2).

6. The storage box for transporting precision electromechanical equipment according to claim 2, further comprising a speed reducing mechanism (7) for reducing the speed of the buffer plate (31), wherein the speed reducing mechanism (7) comprises a sliding rod (71), a friction spring (72), a speed reducing spring (73), a speed reducing rod (74) and a triggering component, the sliding rod (71) is slidingly connected to the left rear part in the storage box (1), the friction spring (72) is connected between the sliding rod (71) and the storage box (1), the speed reducing rod (74) for reducing the speed of the buffer plate (31) is slidingly connected to the sliding rod (71), the speed reducing spring (73) is connected between the speed reducing rod (74) and the sliding rod (71), and the triggering component for controlling the contact and separation of the speed reducing rod (74) and the buffer plate (31) is arranged between the storage box (1) and the buffer plate (31).

7. The storage box for transporting precision electromechanical equipment according to claim 6, wherein the trigger assembly comprises a wedge block (75), a pulling spring (76), a return pull rope (77) and a pressing down rod (78), the wedge block (75) for clamping the deceleration rod (74) is slidably connected to the left rear lower portion in the storage box (1), the pulling spring (76) is connected between the wedge block (75) and the storage box (1), the return pull rope (77) is connected between the rear side of the wedge block (75) and the left rear portion in the storage box (1), the pressing down rod (78) is connected to the left rear portion of the lower side of the buffer plate (31), and the pressing down rod (78) moves downwards to be in contact with the return pull rope (77).

8. The storage box for transporting precision electromechanical equipment according to claim 7, wherein a handle is connected to the right portion of the front side of the electric door (2).