Disclosure of Invention
In order to overcome the defects that a common goods shelf is not provided with fixed objects, so that the air cylinder is easy to fall on the ground due to external force to cause impact, the air cylinder is generally heavy, and a large amount of physical power is consumed when the air cylinder is placed, the technical problem of the invention is as follows: the anti-slip gas cylinder shelf is capable of preventing dropping and easily placing gas cylinders.
The technical scheme is as follows: an antiskid formula gas cylinder goods shelves, including: a base; the rotating plate is rotatably arranged on the base; the fixed rods are arranged on two sides of the rotating plate; the driving assembly is arranged between the base and the rotating plate; the placing assembly is arranged between the fixing rods; and the clamping assembly is arranged on the placing assembly.
In a preferred embodiment of the present invention, the driving assembly comprises: the guide rails are arranged on two sides of the rotating plate; the speed reducing motor is arranged on the base; the guide blocks are arranged on two sides of the base; the rotating rod is rotatably arranged between the guide blocks and is connected with an output shaft of the speed reducing motor; and the pulling plates are arranged on two sides of the rotating rod and are connected with the guide rails in a sliding manner.
In a preferred embodiment of the present invention, the placement module comprises: the two first placing plates are arranged between the upper side and the lower side of the fixed rod; the rotating shaft is rotatably arranged between the right sides of the upper first placing plate and the lower first placing plate; the two second placing plates are arranged on the upper side and the lower side of the rotating shaft and correspondingly matched with the first placing plate; the rubber sleeve, two at least rubber sleeves are installed and are placed on the board at first.
In a preferred embodiment of the present invention, the clamping assembly comprises: the vertical rod is arranged between the left sides of the upper first placing plate and the lower first placing plate; the clamping rods are arranged on two sides of the vertical rod in a sliding mode and are matched with the second placing plate; the first spring is arranged between the clamping rods; the horizontal pole is installed on the kelly.
In a preferred embodiment of the present invention, the present invention further comprises a pulling assembly, wherein the pulling assembly comprises: the sliding rail is arranged on the fixed rod on one side; the sliding block is arranged on the sliding rail in a sliding manner; the pulling plate is arranged between the sliding block and the cross rod; the limiting rod is arranged on the base; the pushing plate is arranged on the limiting rod in a sliding mode, and the sliding block is matched with the pushing plate; and the second springs are arranged on two sides of the pushing plate and the limiting rod.
In a preferred embodiment of the present invention, the present invention further comprises an opening and closing assembly, wherein the opening and closing assembly comprises: the special-shaped rod is arranged on the rotating plate; the rack is slidably mounted on the special-shaped rod; the third spring is arranged between the special-shaped rod and the rack; the gear is arranged on the rotating shaft and meshed with the rack; the right side of the base is provided with a sliding groove, and the pushing block is arranged on the sliding groove in a sliding manner; the fourth spring is arranged between the pushing block and the sliding chute; the connecting rod is arranged on the pushing plate; the wedge block is installed on the connecting rod and is matched with the pushing block.
In a preferred embodiment of the present invention, the present invention further comprises a positioning assembly, wherein the positioning assembly comprises: the guide plate is arranged on the base; the sliding rod is arranged on the guide plate in a sliding manner; the clamping block is arranged on the sliding rod and matched with the pushing plate; and the fifth spring is arranged between the sliding rod and the guide plate.
In a preferred embodiment of the present invention, the present invention further comprises a buffer assembly, wherein the buffer assembly comprises: at least two support rods are slidably mounted on the rotating plate; the buffer disc is arranged on the support rod; and the sixth spring is arranged between the supporting rod and the rotating plate.
Compared with the prior art, the invention has the following advantages: 1. the invention is provided with the pulling assembly, when the rotating plate rotates, the cross rods can automatically move towards the mutually approaching direction, so that the second placing plate is not clamped any more, the cross rods are not required to be manually controlled by workers, and the trouble of manual operation is reduced.
2. The second placing plate is provided with the opening and closing assembly, and the rotating shaft can automatically rotate when the rotating plate rotates, so that the rotating shaft does not need to be manually controlled to open the second placing plate, and the burden of workers is reduced.
3. The pushing plate is provided with the positioning assembly, and the clamping block is matched with the pushing plate, so that the pushing plate does not need to be controlled all the time manually when the second placing plate is not required to be opened.
4. The gas cylinder is provided with the buffering assembly, so that the pressure of the gas cylinder is buffered under the action of the sixth spring, and the gas cylinder is prevented from crushing a goods shelf.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the driving assembly of the present invention.
Fig. 3 is a schematic perspective view of the placement module of the present invention.
Fig. 4 is a perspective view of the clamping assembly of the present invention.
FIG. 5 is a perspective view of the pulling assembly of the present invention.
Fig. 6 is a schematic perspective view of the opening and closing assembly of the present invention.
Fig. 7 is a schematic perspective view of the positioning assembly of the present invention.
FIG. 8 is a perspective view of a cushioning assembly according to the present invention.
The parts are labeled as follows: 1. a base, 2, a rotating plate, 3, a fixed rod, 4, a driving component, 41, a guide rail, 42, a speed reducing motor, 43, a guide block, 44, a rotating rod, 45, a pulling plate, 5, a placing component, 51, a first placing plate, 52, a rotating shaft, 53, a second placing plate, 54, a rubber sleeve, 6, a clamping component, 61, a vertical rod, 62, a clamping rod, 63, a first spring, 64, a cross rod, 7, a pulling component, 71, a sliding rail, 72, a sliding block, 73, a pulling plate, 74, a limiting rod, 75, a pushing plate, 76, a second spring, 8, an opening and closing component, 81, a special-shaped rod, 82, a rack, 83, a third spring, 84, a gear, 85, a sliding chute, 86, a pushing block, 87, a fourth spring, 88, a connecting rod, 89, a wedge-shaped block, 9, a positioning component, 91, a guide plate, 92, a sliding rod, a clamping block, 94, a fifth spring, 10, a buffer component, 101, a supporting rod, 102. a buffer disc 103 and a sixth spring.
Detailed Description
Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.
Example 1
The utility model provides an antiskid formula gas cylinder goods shelves, as shown in fig. 1 to 4, including base 1, rotor plate 2, dead lever 3, drive assembly 4, place subassembly 5 and chucking subassembly 6, the front side rotation formula of base 1 is equipped with rotor plate 2, and the left and right sides of rotor plate 2 all is connected with dead lever 3, is equipped with drive assembly 4 between base 1 and the rotor plate 2, is equipped with between the dead lever 3 and places subassembly 5, and the left side of placing subassembly 5 is equipped with chucking subassembly 6.
When the gas cylinder is placed to needs, start drive assembly 4, drive assembly 4 just can drive rotor plate 2 and rotate, and then make dead lever 3, place subassembly 5 and chucking subassembly 6 and remove together, just steerable chucking subassembly 6 then, make and place subassembly 5 and open, and then can place the gas cylinder on placing subassembly 5, control chucking subassembly 6 afterwards, make and place subassembly 5 and press from both sides the gas cylinder tightly, control drive assembly 4 reverse rotation afterwards, and then make rotor plate 2, dead lever 3 and place subassembly 5 and remove and reset, and then make the gas cylinder stand up, then close drive assembly 4 can.
Drive assembly 4 is including guide rail 41, gear motor 42, guide block 43, bull stick 44 and pulling plate 45, the rear portion left and right sides of rotor plate 2 all has guide rail 41 through the bolt rigid coupling, the right side of base 1 is equipped with gear motor 42, the upper portion left and right sides of base 1 all is equipped with guide block 43, the rotary type is equipped with bull stick 44 between the guide block 43, bull stick 44 is connected with gear motor 42's output shaft, pulling plate 45 has all been welded to the left and right sides of bull stick 44, pulling plate 45 is connected with guide rail 41 slidingtype.
When the gas cylinder is placed to needs, start gear motor 42, gear motor 42 just can drive bull stick 44 and rotate, and then drive pulling plate 45 and rotate, thereby make rotor plate 2 to the rear side rotatory through guide rail 41, and then can place the gas cylinder on placing subassembly 5, control gear motor 42 reversal afterwards, and then make bull stick 44 and pulling plate 45 carry out the antiport, thereby make rotor plate 2 carry out the antiport through guide rail 41, it can to close gear motor 42 after resetting.
The placing assembly 5 comprises a first placing plate 51, a rotating shaft 52, a second placing plate 53 and a rubber sleeve 54, wherein the first placing plate 51 is welded between the upper side and the lower side of the fixing rod 3, the rotating shaft 52 is connected between the right sides of the first placing plate 51 on the upper side and the lower side in a rotating mode, the second placing plate 53 is welded on the upper side and the lower side of the rotating shaft 52, the second placing plate 53 is correspondingly matched with the first placing plate 51, and the first placing plate 51 is provided with the three rubber sleeves 54.
The gear motor 42 is started to rotate the rotating plate 2 to the rear side, so that the fixed rod 3 rotates, so that the first placing plate 51, the rotating shaft 52, the second placing plate 53 and the rubber sleeve 54 rotate together, then the clamping assembly 6 can be controlled, so that the clamping assembly 6 can not clamp the first placing plate 51 and the second placing plate 53 any more, then the rotating shaft 52 is controlled to rotate, so that the second placing plate 53 can not be matched with the first placing plate 51 any more, so that the gas cylinder can be placed on the rubber sleeve 54, then the rotating shaft 52 is controlled to rotate reversely, so that the second placing plate 53 is reset, then the clamping assembly 6 fixes the first placing plate 51 and the second placing plate 53 again, so that the gear motor 42 can be controlled to rotate reversely, so that the rotating plate 2, the fixed rod 3, the first placing plate 51, the rotating shaft 52, the second placing plate 53 and the rubber sleeve 54 rotate reversely together, so that the gas cylinder is erected and then the reduction motor 42 is turned off.
Chucking subassembly 6 is including montant 61, kelly 62, first spring 63 and horizontal pole 64, and the welding has montant 61 between the first left side of placing board 51 in upper and lower both sides, and the upper and lower both sides of montant 61 all are slidingtype to be equipped with kelly 62, and kelly 62 places the board 53 cooperation with the second, is connected with first spring 63 between the kelly 62, and horizontal pole 64 has all been welded in the left side of kelly 62.
When the first placing plate 51 and the second placing plate 53 need to be separated, the control cross rod 64 moves towards the direction of approaching each other, so that the clamping rod 62 is not matched with the second placing plate 53 any more, the first spring 63 is compressed, and then the rotating shaft 52 can be controlled to rotate, so that the second placing plate 53 is separated from the first placing plate 51, when the first placing plate 51 and the second placing plate 53 need to be fixed, the control rotating shaft 52 rotates reversely, so that the second placing plate 53 resets, then the cross rod 64 is not controlled any more, the first spring 63 rebounds to drive the clamping rod 62 and the cross rod 64 to reset, so that the clamping rod 62 is matched with the second placing plate 53 again, and the first placing plate 51 and the second placing plate 53 are fixed.
Example 2
On the basis of embodiment 1, as shown in fig. 1, 5, 6, 7 and 8, the present invention further includes a pulling assembly 7, the pulling assembly 7 includes a sliding rail 71, a sliding block 72, a pulling plate 73, a limiting rod 74, a pushing plate 75 and a second spring 76, the sliding rail 71 is disposed on the left side of the left side fixing rod 3, the sliding rail 71 is slidably provided with the sliding block 72, the pulling plate 73 is rotatably disposed between the sliding block 72 and the cross rod 64, the limiting rod 74 is welded on the upper portion of the left side of the base 1, the pushing plate 75 is slidably disposed on the limiting rod 74, the sliding block 72 is matched with the pushing plate 75, and the second spring 76 is connected to the pushing plate 75 and the limiting rod 74.
When the rotating plate 2 rotates, the cross rod 64, the sliding rail 71, the sliding block 72 and the pulling plate 73 move together, when the sliding block 72 rotates to be in contact with the pushing plate 75, the sliding block 72 can not move any more, the cross rod 64 and the sliding rail 71 continue to move, and then the cross rod 64 moves towards the direction close to each other through the pulling plate 73, so that the second placing plate 53 can be opened, and further the cross rod 64 does not need to be manually controlled by a worker, the trouble of manual operation is reduced, when the rotating plate 2 reversely rotates and resets, the cross rod 64, the sliding rail 71, the sliding block 72 and the pulling plate 73 reversely move together, and further the sliding block 72 is not in contact with the pushing plate 75 any more, at the moment, the cross rod 64 automatically resets to drive the sliding block 72 and the pulling plate 73 to reset.
Still including the subassembly 8 that opens and shuts, the subassembly 8 that opens and shuts is including special-shaped pole 81, rack 82, third spring 83, gear 84, promote piece 86, fourth spring 87, connecting rod 88 and wedge 89, the right side of rotor plate 2 is connected with special-shaped pole 81, the gliding formula is equipped with rack 82 on special-shaped pole 81, be connected with third spring 83 between special-shaped pole 81 and the rack 82, the downside key-type of pivot 52 has gear 84, gear 84 and rack 82 mesh, base 1 right side is opened there is spout 85, the gliding formula is equipped with in the spout 85 promotes piece 86, it is connected with fourth spring 87 to promote between piece 86 and the spout 85, the right side welding of promotion board 75 has connecting rod 88, the right part lower side welding of connecting rod 88 has wedge 89, wedge 89 and the cooperation of promoting piece 86.
When the rotating plate 2 rotates, the special-shaped rod 81, the rack 82, the third spring 83, the gear 84 and the rotating shaft 52 move together, so that the rack 82 contacts with the pushing block 86, so that the rack 82 does not move any more, the special-shaped rod 81, the gear 84 and the rotating shaft 52 continue to move, so that the third spring 83 is compressed, the gear 84 rotates, and the rotating shaft 52 is driven to rotate, so that the rotating shaft 52 does not need to be manually controlled to open the second placing plate 53, and the burden of a worker is reduced, when the rotating plate 2 rotates reversely and resets, the special-shaped rod 81, the rack 82, the third spring 83, the gear 84 and the rotating shaft 52 move reversely together, so that the rack 82 does not contact with the pushing block 86, at the moment, the third spring 83 rebounds to drive the rack 82 to reset, and the gear 84 and the rotating shaft 52 rotate reversely, and then make the second place board 53 cooperate with the first place board 51 again, when the control rotating plate 2 rotates and does not need the second place board 53 to open, control the pushing board 75 to move to the left, the second spring 76 is compressed, and then make the pushing board 75 not to contact with the slider 72 any more, still can drive the connecting rod 88 and the wedge 89 to move to the left at the same time, and then make the wedge 89 contact with the pushing block 86, and thus make the pushing block 86 move to the front, the fourth spring 87 is compressed, and then make the pushing block 86 not to contact with the rack 82 any more, and thus make the second place board 53 not to open, when needing the second place board 53 to open, no longer control the pushing board 75, because the effect of second spring 76 and fourth spring 87 makes the pushing board 75 and the pushing block 86 reset automatically.
The positioning device is characterized by further comprising a positioning assembly 9, wherein the positioning assembly 9 comprises a guide plate 91, a sliding rod 92, a fixture block 93 and a fifth spring 94, the guide plate 91 is fixedly connected to the upper side of the left portion of the base 1 through a bolt, the sliding rod 92 is slidably arranged on the guide plate 91, the fixture block 93 is welded to the left side of the front portion of the sliding rod 92, the fixture block 93 is matched with the pushing plate 75, and the fifth spring 94 is connected between the sliding rod 92 and the guide plate 91.
When the pushing plate 75 is controlled to move to the left side, the pushing plate 75 is in contact with the clamping block 93, the clamping block 93 further moves upwards, the fifth spring 94 is stretched, when the pushing plate 75 moves to a position where the pushing plate 75 is not in contact with the clamping block 93 any more, the fifth spring 94 resets to drive the clamping block 93 to reset, then the pushing plate 75 is not controlled any more, the clamping block 93 blocks the pushing plate 75, the pushing plate 75 is not reset to the right side, when the second placing plate 53 is not required to be opened, the pushing plate 75 is not required to be controlled all the time manually, when the second placing plate 53 is required to be opened, the sliding rod 92 is controlled to move upwards manually, then the clamping block 93 moves upwards, the fifth spring 94 is stretched, at the moment, the pushing plate 75 automatically resets, then the sliding rod 92 is not controlled any more, and the fifth spring 94 resets to drive the sliding rod 92 and the clamping block 93 to reset.
The buffer assembly 10 comprises a support rod 101, a buffer disc 102 and a sixth spring 103, the lower portion of the rotating plate 2 is connected with the three support rods 101 in a sliding mode, the buffer disc 102 is welded on the upper side of each support rod 101, and the sixth spring 103 is connected between each support rod 101 and the rotating plate 2.
After the gas cylinder is placed and erected, the gas cylinder can be in contact with the buffer disc 102, and then the pressure of the gas cylinder is buffered through the action of the sixth spring 103, and the shelf is prevented from being crushed by the gas cylinder.
The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.