CN215322644U - Commodity circulation storage is with transfer car (buggy) that has anti-rocking structure - Google Patents

Abstract

The utility model discloses a transfer trolley with an anti-shaking structure for logistics storage, which comprises a classification stacking mechanism, a stacking bin, a locking mechanism and a vertical frame, wherein the classification stacking mechanism is arranged on the vertical frame; the stand, its fixed mounting in the grudging post bottom, the conveyer belt is installed on the grudging post right side, the limiting plate is installed to grudging post bottom side terminal surface, grudging post internally mounted has the axostylus axostyle, rotatory round pin is installed to axostylus axostyle middle-end both sides, the dog is installed to the inside terminal surface of grudging post. The problem of current commodity circulation shallow pile up the in-process at the goods and materials and stack by the manual work more, stack and easily cause rocking of goods storehouse among the transportation because of the focus is unstable when mixed and disorderly causing the article damage, make the commodity circulation shallow drag the line inconvenient, not strong technical problem of suitability, a commodity circulation storage is with having transfer car of anti-rock structure is provided, can be simple and convenient completion goods and materials is located neatly piling up of sign indicating number feed bin, goods and materials are located sign indicating number feed bin and can not lead to the damage because of piling up the extrusion each other, be convenient for the transportation of valuables.

Description

Commodity circulation storage is with transfer car (buggy) that has anti-rocking structure

Technical Field

The utility model relates to the technical field of logistics storage, in particular to a transfer trolley with an anti-shaking structure for logistics storage.

Background

The cargo is continuously transferred during the logistics transportation process, wherein the transfer refers to the transfer or reloading of the cargo from a shipping port (ground) to an unloading port or a destination, and the transfer comprises the actions of moving from a transport tool or a ship to another transport tool or a ship of the same type or transferring from one transport mode to another transport mode, and logistics carts are frequently used during the transfer, so that the existing logistics carts are continuously innovated and developed.

Current commodity circulation shallow equipment, common problem has: the existing logistics trolley is stacked by manpower in the material stacking process, and the goods bin is easy to shake in the transfer process due to unstable gravity center when articles are easily damaged in a messy manner in stacking, so that the logistics trolley is inconvenient to drag and not strong in applicability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transfer trolley with an anti-shaking structure for logistics storage, which aims to solve the problems that the existing logistics carts proposed in the background art are stacked manually in the material stacking process, the stacking is messy, the articles are easy to damage, meanwhile, the center of gravity is unstable, the goods storage is easy to shake in the transfer process, the logistics carts are inconvenient to drag, and the applicability is not strong.

In order to achieve the purpose, the utility model provides the following technical scheme: a logistics storage is with transfer car (buggy) that has anti-rocking structure includes:

a stacking mechanism;

further comprising:

the stacking bin is movably arranged inside the stacking mechanism;

the yard feed bin includes:

erecting a frame;

the stand, its fixed mounting in the grudging post bottom, the conveyer belt is installed on the grudging post right side, the limiting plate is installed to grudging post bottom side terminal surface, grudging post internally mounted has the axostylus axostyle, rotatory round pin is installed to axostylus axostyle middle-end both sides, the dog is installed to the inside terminal surface of grudging post.

Preferably, there is the conveyer belt grudging post open end one side movable mounting, and the limiting plate height of grudging post both sides junction is higher than the conveyer belt, the grudging post cross-section is sword type structure.

Preferably, the shaft lever is rotatably installed in the stand, the rotating pin is sleeved on the end faces of two sides of the shaft lever, a stop block is fixedly installed at the corner of the top of the rotating pin, and the shape of the output end of the rotating pin is attached to the end face of the side of the material to be conveyed.

Preferably, the stacking mechanism includes:

a base plate;

the roller is rotatably installed at the corner of the bottom plate, a connecting pin is fixedly installed on the end face of the left side of the bottom plate, a pull rod is rotatably installed inside the connecting pin, and handles are fixedly installed on two sides of the top of the pull rod.

Preferably, the stacking mechanism further comprises:

the transmission rod is sleeved at the middle end of the pull rod, a support rod is rotatably installed at one end, away from the pull rod, of the transmission rod, the pull rod and the support rod form a transmission structure through the transmission rod, supporting plates are sleeved on the end faces of the two sides of the support rod, cranks are sleeved on the two sides of the support rod, a bearing is installed at one end, away from the support rod, of each crank, and the cranks are rotatably installed inside the bottom plate through the bearings.

Preferably, the top of the supporting plate is movably provided with a locking mechanism;

the locking mechanism includes:

the shell is fixedly arranged on the top end face of the bottom plate;

the clamping pin is movably arranged in the shell, the groove shape of the side end face of the clamping pin is matched with the side end face of the crank, a locking piece is fixedly arranged at the bottom of the clamping pin, the locking piece is far away from one end of the clamping pin, a reset spring is sleeved on the end of the clamping pin, and the locking piece and the shell form an elastic structure through the reset spring.

Preferably, the locking mechanism further comprises:

the limiting pin penetrates through the outer end face of the locking part, the length of the limiting pin is larger than the diameter of the shell, and a first pull handle is fixedly mounted at the tail end of the locking part;

the clamping block is movably arranged on the end face of the top of the locking piece, the shape of the clamping block is matched with the size of the groove of the locking piece, a loading spring is sleeved at one end, away from the locking piece, of the clamping block, the clamping block and the shell form an elastic structure through the loading spring, and a second pull handle is fixedly arranged at the tail end of the clamping block.

Compared with the prior art, the utility model has the beneficial effects that: the problem of current commodity circulation shallow pile up the in-process at the goods and materials and stack by the manual work more, stack and easily cause rocking of goods storehouse among the transportation because of the focus is unstable when mixed and disorderly causing the article damage, make the commodity circulation shallow drag the line inconvenient, not strong technical problem of suitability, a commodity circulation storage is with having transfer car of anti-rock structure is provided, can be simple and convenient completion goods and materials is located neatly piling up of sign indicating number feed bin, goods and materials are located sign indicating number feed bin and can not lead to the damage because of piling up the extrusion each other, be convenient for the transportation of valuables.

1. According to the utility model, through the arrangement of the stacking bin, a user sends the transfer trolley loaded with the stacking bin to the tail end of the conveyor belt, materials are sent into the stacking bin through the conveyor belt, the stroke of the materials is stopped at the top end of the support plate by the stop plate between the vertical frames at two sides, the materials stir the rotating pin to rotate anticlockwise in the top extension stroke of the support plate, the materials are enabled to pass through, the side end face of the materials is supported by the output end of the rotating pin after passing through, the rotating pin is enabled to rotate clockwise in the shaft rod until the left end face of the rotating pin is limited and stopped by the stop block, the first group of materials can be firmly connected with the output end of the rotating pin at the bottom end, the subsequent materials are stacked, so that the first group of materials are extruded and lifted to the output end of the rotating pin at the middle end until the last three groups of materials are stacked in the stacking bin, the top end face of the uppermost layer of materials is attached to the top of the vertical frames, and the loading of all materials is completed, due to the arrangement of the stacking bin, the stacking of materials is simple and easy to operate, and the materials cannot be damaged due to mutual stacking and extrusion in the transportation process;

2. according to the utility model, through the arrangement of the stacking mechanism, a user pulls the pull rod into the pocket through the handle to enable the pull rod to rotate inside the connecting pin, the transmission rod sleeved at the middle end of the pull rod transmits to the support rod in the rotating stroke of the pull rod, the support rod drives the support plate to realize lifting inside the stacking bin while rotating and lifting around the bottom plate through the bearings at two sides, after the whole loading of materials inside the stacking bin is completed, the stacking bin is integrally separated from the ground due to the lifting of the support plate at the last time, the support plate bears the corner concave part of the vertical frame with the knife-shaped structure to complete carrying, and when the preset unloading position is reached, the user unlocks the locking mechanism to enable the support legs at the bottoms of the vertical frames at two sides of the stacking bin to be stably placed at the unloading position, so as to avoid shaking.

3. According to the utility model, through the arrangement of the locking mechanism, when three groups of materials are loaded in the stacking bin, a user needs to drag the transfer vehicle to finish transferring, the user overcomes the elastic force of the loading spring and releases the compression energy storage state of the return spring originally compressed in the shell by pulling the second pull handle, when the clamping block is separated from the limiting groove body formed in the end face of the locking piece, the return spring pushes the locking piece and the clamping pin at the output end of the locking piece to pop out of the shell, the longitudinal stroke of the locking piece is limited by the limiting pin outside the shell, so that the slotting position of the end face of the clamping pin is just stopped at the end face of the crank of the stacking mechanism, the locking of the position of the crank is realized, and the problem that the crank rotates abnormally to cause the stacking bin supported at the top of the supporting plate to shake in the transportation process of the transfer vehicle is avoided.

Drawings

FIG. 1 is a schematic view of a front view structure of a stacking mechanism according to the present invention;

FIG. 2 is a schematic view of a front view structure of a stacking bin according to the present invention;

FIG. 3 is a front view of the internal structure of the locking mechanism of the present invention;

fig. 4 is a perspective view of the locking member of the present invention.

In the figure: 1. a stacking mechanism; 101. a base plate; 102. a roller; 103. a connecting pin; 104. a pull rod; 105. a handle; 106. a transmission rod; 107. a support bar; 108. a support plate; 109. a crank; 110. a bearing; 2. stacking a storage bin; 201. erecting a frame; 202. a support leg; 203. a conveyor belt; 204. a limiting plate; 205. a shaft lever; 206. a rotation pin; 207. a stopper; 3. a locking mechanism; 301. a housing; 302. a bayonet lock; 303. a locking member; 304. a return spring; 305. a spacing pin; 306. a first pull handle; 307. a clamping block; 308. loading a spring; 309. and a second pull handle.

Detailed Description

As shown in fig. 1, a transfer car with an anti-sloshing structure for logistics storage comprises: a stacking mechanism 1; a base plate 101; the roller 102 is rotatably mounted at a corner of the bottom plate 101, a connecting pin 103 is fixedly mounted on the left end face of the bottom plate 101, a pull rod 104 is rotatably mounted inside the connecting pin 103, handles 105 are fixedly mounted on two sides of the top of the pull rod 104, a transmission rod 106 is sleeved at the middle end of the pull rod 104, a support rod 107 is rotatably mounted at one end, away from the pull rod 104, of the transmission rod 106, the pull rod 104 and the support rod 107 form a transmission structure through the transmission rod 106, supporting plates 108 are sleeved on two side end faces of the support rod 107, cranks 109 are sleeved on two sides of the support rod 107, a bearing 110 is mounted at one end, away from the support rod 107, of the crank 109 is rotatably mounted inside the bottom plate 101 through the bearing 110, a user pulls the pull rod 104 towards the bosom through the handles 105 to enable the pull rod to be located inside the connecting pin 103 to rotate, the transmission rod 106 sleeved at the middle end of the pull rod 104 in the rotation stroke transmits to the support rod 107, the support rod 107 rotates and drives the supporting plates 108 to be located inside the stacking bin 2 while rotating and lifting around the bottom plate 101 through the bearings 110 at two sides Is raised.

As shown in fig. 2, the stacking bin 2 is movably mounted inside the stacking mechanism 1; a stand 201; the support legs 202 are fixedly arranged at the bottom of the vertical frame 201, after the whole loading of materials in the stacking bin 2 is completed, the stacking bin 2 is integrally separated from the ground to be convenient for integral transportation due to the lifting of the support plate 108 for the last time, the support plate 108 supports the corner concave part of the vertical frame 201 with the knife-shaped structure to be completed, when the preset unloading position is reached, a user unlocks the locking mechanism 3 to enable the support legs 202 at the bottoms of the vertical frames 201 at two sides of the stacking bin 2 to be stably placed at the appointed unloading position to avoid shaking, the right side of the vertical frame 201 is provided with the conveyor belt 203, the lateral end face of the bottom of the vertical frame 201 is provided with the limit plate 204, the user sends the transportation trolley loaded with the stacking bin 2 to the tail end of the conveyor belt 203, the materials are sent into the stacking bin 2 through the conveyor belt 203, the stroke of the materials is stopped at the top end of the support plate 108 due to the obstruction of the limit plate 204 between the vertical frames 201 at two sides, the open end of the vertical frame 201 is movably provided with the conveyor belt 203, the height of the limit plate 204 at the joint of the two sides of the vertical frame 201 is higher than that of the conveyor belt 203, the cross section of the vertical frame 201 is of a knife-shaped structure, the shaft lever 205 is installed inside the vertical frame 201, the rotating pins 206 are installed at the two sides of the shaft lever 205, the shaft lever 205 is installed inside the vertical frame 201 in a rotating mode, the rotating pins 206 are sleeved on the end surfaces of the two sides of the shaft lever 205, the stoppers 207 are fixedly installed at the corners of the top of the rotating pins 206, the shape of the output end of the rotating pins 206 is attached to the end surface of the side of the material to be conveyed, the stoppers 207 are installed on the end surface inside the vertical frame 201, the rotating pins 206 are pushed by the material to rotate anticlockwise in the jacking stroke of the supporting plate 108, the side end surface of the material is supported by the output end of the rotating pins 206, the rotating pins 206 are enabled to rotate clockwise in the vertical direction in the vertical frame 205 until the end surface of the left side of the rotating pins are blocked by the stoppers 207, and the first material can be firmly connected to the output end of the rotating pins 206 at the bottom end, the stacking of follow-up material makes first group's goods and materials extruded lifting to the rotatory round pin 206 output of middle-end put up neatly in sign indicating number feed bin 2 of three group's goods and materials at last, and the topmost layer goods and materials top end face laminates mutually with grudging post 201 top this moment, accomplishes the loading of whole goods and materials.

As shown in fig. 3-4, the top of the supporting plate 108 is movably provided with a locking mechanism 3; the shell 301 is fixedly arranged on the top end face of the bottom plate 101; the bayonet 302 is movably arranged in the shell 301, the shape of a groove on the side end face of the bayonet 302 is matched with that of the side end face of the crank 109, the bottom of the bayonet 302 is fixedly provided with a locking piece 303, one end, far away from the bayonet 302, of the locking piece 303 is sleeved with a return spring 304, the locking piece 303 and the shell 301 form an elastic structure through the return spring 304, the limiting pin 305 penetrates through the outer end face of the locking piece 303, the length of the limiting pin 305 is larger than the diameter of the shell 301, and the tail end of the locking piece 303 is fixedly provided with a first pull handle 306; a fixture block 307 movably arranged on the top end face of the locking member 303, the shape of the fixture block 307 is matched with the size of the groove of the locking member 303, one end of the fixture block 307, which is far away from the locking member 303, is sleeved with a loading spring 308, when three groups of materials are loaded in the stacking bin 2, a user needs to drag a transfer vehicle to finish transferring, at the moment, the user overcomes the elastic force of the loading spring 308, and pulls a return spring 304, which is originally compressed in the shell 301, to release a compression energy storage state by pulling a second pull handle 309, when the fixture block 307 is separated from a limit groove body arranged on the end face of the locking member 303, the fixture block 307 forms an elastic structure with the shell 301 through the loading spring 308, the tail end of the fixture block 307 is fixedly provided with the second pull handle 309, the return spring 304 pushes the locking member 303 and a bayonet 302 at an output end of the locking member 303 to pop out of the shell 301, the transverse stroke of the locking member 303 is limited by a limit pin 305 outside the shell 301, so that the groove of the end face of the bayonet 302 is just stopped at the end face of the crank 109 of the stacking mechanism 1, the locking of the position of the crank 109 is realized, and the phenomenon that the stacking bin 2 accepted at the top of the supporting plate 108 shakes due to the fact that the crank 109 rotates abnormally caused by shaking in the transportation process of the transfer trolley is avoided.

The working principle is as follows: when the transfer vehicle with the anti-shaking structure for logistics storage is used, a user sends the transfer vehicle loaded with the stacking bin 2 to the tail end of the conveyor belt 203, materials are sent into the stacking bin 2 through the conveyor belt 203, the travel of the materials is stopped at the top end of the supporting plate 108 by being blocked by the limiting plate 204 between the vertical frames 201 at two sides, then the user pulls the pull rod 104 to the pocket through the handle 105 to enable the pull rod 104 to be positioned inside the connecting pin 103 to rotate, the transmission rod 106 sleeved at the middle end in the rotation travel of the pull rod 104 transmits to the supporting rod 107, the supporting rod 107 drives the supporting plate 108 to realize lifting in the stacking bin 2 while rotating and lifting around the inside of the bottom plate 101 through the bearings 110 at two sides, the material rotating pin 206 rotates anticlockwise in the pushing travel of the supporting plate 108 to enable the materials to pass through, and the side end surface of the material is supported by the output end of the rotating pin 206 after the materials pass through, the rotating pin 206 is positioned in the shaft rod 205 and rotates clockwise until the left end face of the rotating pin is limited and blocked by the stop block 207, the first group of materials are firmly received at the output end of the rotating pin 206 at the bottommost end, the stacking of the subsequent materials enables the first group of materials to be extruded and lifted to the output end of the rotating pin 206 at the middle end until the last three groups of materials are neatly stacked in the stacking bin 2, the top end face of the uppermost layer of materials is attached to the top of the vertical frame 201 to complete the loading of all the materials, when the three groups of materials are loaded in the stacking bin 2, a user needs to drag a transfer trolley to complete the transfer, at the moment, the user overcomes the elastic force of the loading spring 308 and pulls the second pull handle 309 to release the compression energy storage state of the return spring 304 originally compressed in the shell 301, and when the fixture block 307 is separated from the limiting groove body formed on the end face of the fixture 303, the return spring 304 pushes the fixture 303 and the block 302 at the output end of the fixture 303 to pop out of the shell 301, the transverse stroke of the locking member 303 is limited by a limit pin 305 outside the shell 301, so that the slotting position of the end face of the bayonet lock 302 is just stopped at the end face of the crank 109 of the stacking mechanism 1, the locking of the position of the crank 109 is realized, the problem that the stacking bin 2 accepted at the top of the supporting plate 108 is shaken due to the abnormal rotation of the crank 109 caused by shaking of a transfer vehicle in the transportation process is avoided, after the whole loading of materials in the stacking bin 2 is completed, the stacking bin 2 is wholly separated from the ground due to the lifting of the supporting plate 108 at the last time so as to be convenient for the whole transportation, the supporting plate 108 bears the corner sunken part of the vertical frame 201 of the knife-shaped structure to complete the acceptance, when the preset unloading position is reached, a user unlocks the locking mechanism 3 to enable the support legs 202 at the bottoms of the vertical frames 201 at two sides of the stacking bin 2 to be stably placed at the appointed unloading position, and the shaking is avoided.

Claims (7)

1. A logistics storage is with transfer car (buggy) that has anti-rocking structure includes:

a stacking mechanism (1);

it is characterized by also comprising:

the stacking bin (2) is movably arranged in the stacking mechanism (1);

the stacking bin (2) comprises:

a stand (201);

stabilizer blade (202), its fixed mounting in grudging post (201) bottom, conveyer belt (203) are installed on grudging post (201) right side, limiting plate (204) are installed to grudging post (201) bottom side end face, grudging post (201) internally mounted has axostylus axostyle (205), rotatory round pin (206) are installed to axostylus axostyle (205) middle-end both sides, dog (207) are installed to grudging post (201) inside end face.

2. The transfer trolley with the anti-shaking structure for the logistics storage according to claim 1, wherein a conveyor belt (203) is movably installed on one side of the opening end of the stand (201), the height of a limiting plate (204) at the joint of two sides of the stand (201) is higher than that of the conveyor belt (203), and the cross section of the stand (201) is of a knife-shaped structure.

3. The transfer trolley with the anti-shaking structure for the logistics storage according to claim 1, wherein the shaft rod (205) is rotatably installed inside the vertical frame (201), the rotating pin (206) is sleeved on the end surfaces of two sides of the shaft rod (205), the stopper (207) is fixedly installed at the corner of the top of the rotating pin (206), and the shape of the output end of the rotating pin (206) is fitted with the end surface of the side of the material to be conveyed.

4. The transfer trolley with the anti-shaking structure for logistics storage according to claim 1, wherein the stacking mechanism (1) comprises:

a base plate (101);

the roller (102) is rotatably installed at the corner of the bottom plate (101), a connecting pin (103) is fixedly installed on the end face of the left side of the bottom plate (101), a pull rod (104) is rotatably installed inside the connecting pin (103), and handles (105) are fixedly installed on two sides of the top of the pull rod (104).

5. The transfer trolley with the anti-shaking structure for logistics storage according to claim 4, wherein the stacking mechanism (1) further comprises:

the transmission rod (106) is sleeved at the middle end of the pull rod (104), one end, far away from the pull rod (104), of the transmission rod (106) is rotatably provided with a support rod (107), the pull rod (104) and the support rod (107) form a transmission structure through the transmission rod (106), end faces on two sides of the support rod (107) are sleeved with support plates (108), cranks (109) are sleeved on two sides of the support rod (107), one end, far away from the support rod (107), of each crank (109) is provided with a bearing (110), and each crank (109) is rotatably arranged inside the bottom plate (101) through the corresponding bearing (110).

6. The transfer trolley with the anti-shaking structure for the logistics storage according to claim 5, wherein the top of the supporting plate (108) is movably provided with a locking mechanism (3);

the locking mechanism (3) comprises:

the shell (301), the shell (301) is fixedly installed on the top end face of the bottom plate (101);

bayonet lock (302), its movable mounting in inside casing (301), bayonet lock (302) side end face fluting shape agrees with mutually with crank (109) side end face, bayonet lock (302) bottom fixed mounting has retaining member (303), retaining member (303) are kept away from bayonet lock (302) one end cover is equipped with reset spring (304), retaining member (303) pass through reset spring (304) and casing (301) constitution elastic construction.

7. The transfer trolley with the anti-shaking structure for logistics storage according to claim 6, wherein the locking mechanism (3) further comprises:

the limiting pin (305) penetrates through the outer end face of the locking piece (303), the length of the limiting pin (305) is larger than the diameter of the shell (301), and a first pull handle (306) is fixedly mounted at the tail end of the locking piece (303);

the clamping block (307) is movably mounted on the top end face of the locking member (303), the shape of the clamping block (307) is matched with the size of a groove of the locking member (303), a loading spring (308) is sleeved at one end, away from the locking member (303), of the clamping block (307), the clamping block (307) forms an elastic structure with the shell (301) through the loading spring (308), and a second pull handle (309) is fixedly mounted at the tail end of the clamping block (307).

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