CN212862670U - Vertical warehouse and three-dimensional warehouse system - Google Patents

Abstract

The utility model provides a vertical warehouse and three-dimensional warehouse system, vertical warehouse includes a plurality of goods shelves subassemblies, the goods shelves subassembly includes goods shelves and a plurality of devices that bear that range upon range of distribution about on the goods shelves, bear the device and include the support frame, locate a plurality of bearing roller and the drive that set up side by side on the support frame bear the rolling actuating mechanism of cylinder, bearing roller rolls and drives the goods and removes. The utility model discloses a vertical warehouse and three-dimensional warehouse system has good compatibility to the goods of unidimensional and material through set up rotatable bearing roller on conventional goods shelves, has improved the efficiency of storage work.

Description

Vertical warehouse and three-dimensional warehouse system

Technical Field

The utility model relates to a logistics storage technical field especially relates to a vertical warehouse and three-dimensional warehouse system.

Background

An automatic stereoscopic warehouse is a warehouse which stores goods by utilizing a high-rise stereoscopic goods shelf, is controlled and managed by a computer and adopts an automatic control stacker to carry out goods storing and taking operation. The tunnel stacker is a special crane developed along with the appearance of the automatic stereoscopic warehouse, and is the most important hoisting and transporting equipment in the automatic stereoscopic warehouse. The stacker moves along a rail in a roadway of the automatic stereoscopic warehouse to store the goods into the designated goods grid or take out the goods in the designated goods grid and convey the goods to a required position, and the storage and warehouse-in and warehouse-out operation of the goods are completed.

The existing stacker, goods to be carried and the three-dimensional goods shelf are generally matched in size. When the goods with different sizes need to be carried, the fork of the stacker needs to be replaced or the size of the fork of the stacker needs to be adjusted, and the compatibility of the stacker is poor, so that the working efficiency is low. In addition, when carrying the softer goods of material, the inconvenient directness of structure of conventional stacker is forked the goods and is got, needs place the goods and fork again on layer board or other strutting arrangement and get, and the operation is inconvenient, and conveying efficiency is lower, and the automation of just not being convenient for is stored up in the warehouse.

Therefore, there is a need to design a vertical warehouse and a three-dimensional warehouse system to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vertical storehouse of compatible different goods.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a vertical warehouse, its includes a plurality of goods shelves subassemblies, the goods shelves subassembly includes the goods shelves and a plurality of devices that bear that range upon range of distribution about on the goods shelves, bear the device and include the support frame, locate a plurality of bearing roller and the drive that set up side by side on the support frame bear the rolling actuating mechanism of roller, bear the roller and roll and drive the goods and remove.

As a further improved technical scheme of the utility model, it is motorized pulley to bear the weight of the cylinder, actuating mechanism is the drive card, actuating mechanism can drive bear the weight of cylinder forward rotation and antiport.

As the utility model discloses further modified technical scheme, bear the stop gear of the liftable of device still including locating on the support frame, stop gear's top surpasss when bearing the cylinder top, stop gear carries on spacingly to the goods that bear on the cylinder.

As the utility model discloses further modified technical scheme, stop gear includes the baffle and the cylinder of being connected with the baffle, the cylinder is fixed in on the support frame, the baffle rises or descends under the drive of cylinder to carry on spacingly to the goods that bear on the cylinder.

As the utility model discloses further modified technical scheme, stop gear is still including the photoelectric sensor who is used for responding to the position of goods, photoelectric sensor locates on the support frame and with the baffle corresponds the setting.

An object of the utility model is also to provide a three-dimensional warehouse system of compatible different goods.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a three-dimensional warehousing system comprises a stacker, a carrying trolley and any one of the three-dimensional warehouses, wherein the stacker is arranged between two rows of goods shelf assemblies to carry goods, and the carrying trolley is used for carrying the goods out of the three-dimensional warehouses or carrying the goods into the three-dimensional warehouses.

As the utility model discloses further modified technical scheme, the floor truck includes the frame and locates the transport mechanism on the frame, transport mechanism includes the transport support frame and locates a plurality of motorized pulley on the transport support frame side by side.

As the utility model discloses further modified technical scheme, be equipped with steering mechanism between the adjacent motorized pulley of floor truck, steering mechanism includes a plurality of trundles, supports the gyro wheel support of trundle and locate the conveyer belt in the trundle outside, the direction of roll of trundle and the direction of transfer of conveyer belt and the motorized pulley's of floor truck axial direction parallel.

As the utility model discloses further modified technical scheme, steering mechanism still includes lift portion, the gyro wheel support is located lift portion, lift portion can reciprocate for bearing the weight of the cylinder, when lift portion drives gyro wheel support, little gyro wheel and conveyer belt and rises, the goods only with the conveyer belt contact.

As the utility model discloses further modified technical scheme, three-dimensional warehouse system still includes the PLC controller, the PLC controller is according to the positional information of goods and the rule control of depositing that prestores stacker, vertical warehouse and floor truck action.

According to the above technical scheme, the utility model discloses a vertical warehouse and three-dimensional warehouse system has good compatibility to the goods of unidimensional and material through will set up rotatable bearing roller on goods shelves, has improved the efficiency of storage work.

Drawings

Fig. 1 is a perspective view of a three-dimensional warehousing system of the present invention.

Fig. 2 is a perspective view of the three-dimensional warehousing system of the present invention.

Fig. 3 is a top view of the three-dimensional warehousing system of fig. 2.

Fig. 4 is an enlarged view of a circled portion in fig. 2.

Fig. 5 is a perspective view of the bearing device of the vertical warehouse of the present invention.

Fig. 6 is a perspective view of the middle stacking machine of the present invention.

Fig. 7 is an enlarged view of the circled portion in fig. 6.

Fig. 8 is a perspective view of a transfer device of the middle stacker of the present invention.

Fig. 9 is a perspective view of the middle carrying trolley of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 3, the present invention provides a three-dimensional warehousing system 100, which includes a vertical warehouse 1, a stacker 2, a carrying trolley 3 and a PLC controller 4. The utility model discloses a three-dimensional warehouse system 100 generally locates indoorly, is particularly useful for dustless warehouse. The utility model discloses in, warehouse 5 is equipped with goods import 51, goods export 52 and personnel import and export 53.

The vertical warehouse 1 is used for storing goods, and as shown in fig. 4 and 5, the vertical warehouse 1 includes a plurality of shelf assemblies, each shelf assembly includes a shelf 11 and a plurality of carrying devices 12 stacked on the shelf 11. The shelves 11 may be individually placed or welded as a whole, which is not limited herein.

The carrying device 12 includes a carrying bracket 121, a plurality of carrying rollers 122 arranged side by side, and a limiting mechanism 123. The supporting frame 121 is composed of a plurality of beams 1211 and two vertical beams 1212 connecting two ends of the beams 1211. The two ends of the bearing roller 122 are respectively installed between the two vertical beams 1212. In other embodiments, the specific structure of the bearing bracket 121 may be in other forms, and only two ends of the bearing roller 122 need to be fixed, which is not limited herein.

The carrying roller 122 can be driven by a driving mechanism (not shown) to rotate synchronously. The drive mechanism may drive the load bearing roller 122 in either a forward or reverse direction, depending on the particular requirements of the cargo being handled. Specifically, the load-bearing roller 122 is a motorized roller and the drive mechanism is a drive card. A motor is provided inside the carrying roller 122, and the adjacent carrying rollers 122 are driven by a timing belt (not shown). The speed of the rolling of the load bearing rollers 122 may be controlled by selectively turning on or off a switch on the drive card that controls each load bearing roller 122. The size of the carrier 12 for different shelf assemblies may be set to different sizes, i.e., different lengths of the carrier roller 122, to accommodate the storage requirements of different sized products.

The limiting mechanism 123 is disposed on the supporting bracket 121, and specifically, the limiting mechanism 123 includes a plurality of baffles 124, an air cylinder 125 for driving the baffles 124 to ascend and descend, and a photoelectric sensor 126 for sensing the position of the goods. The cylinder 125 is fixed to the middle of the cross-beam 1211, and the baffle 124 is mounted to the top end of the cylinder 125. Each baffle 124 is lifted and lowered between two adjacent bearing rollers 122 by the pushing of the air cylinder 125. The photoelectric sensor 126 is disposed on the supporting bracket 121 and corresponds to the baffle 124. The utility model discloses in, stop gear 123 sets up to 2 groups. When the goods are conveyed to the carrying device 12, the front and rear baffle plates 124 of the goods are pushed by the air cylinder 125 to rise and be higher than the carrying roller 122 so as to block the goods and prevent the goods from sliding off; when the goods need to be removed, the air cylinder 125 pushes the baffle 124 to descend, the baffle 124 is lower than the highest point of the bearing roller 122, and the goods are smoothly transported out under the rotation of the bearing roller 122.

Please refer to fig. 3, in the present invention, the shelf assemblies are arranged in two rows. The stacker 2 is arranged between two rows of goods shelf components, so that goods can be conveniently taken and placed on the goods shelf components. Referring to fig. 5 to 8, the stacker crane 2 includes a column 21, a traveling device 22, a stage 23 provided on the column 21, a transfer device 24 provided on the stage 23, and a lifting/lowering drive 24 for driving the stage 23 to lift and lower along the column 22. The utility model discloses in, running gear 22 is including installing in the ground rail 221 of ground and locating walking wheel 222, the walking drive mechanism 223 of the walking of road wheel drive travel, sky rail 224 of stand 21 lower extreme and locating the supporting wheel 225 on stand 21 top. In other embodiments, the top rail 224 and the supporting wheels 225 disposed at the top end of the upright 21 can be omitted from the walking device 22. The upright post 21 and the walking device 22 are both of the prior structure and are not described in detail herein.

Similar to the carrier device 12 of the vertical warehouse 1, the transfer device 24 includes a support mechanism 241, a rolling mechanism provided on the support mechanism 241, a drive mechanism for driving the rolling mechanism to roll, and a limit mechanism 243. The supporting mechanism 241 includes a rectangular parallelepiped frame and a plurality of cross beams 2411 disposed on the bottom surface of the rectangular parallelepiped frame. The rolling mechanism rolls and drives the goods to move, the rolling mechanism comprises a plurality of rollers 242 arranged side by side, and two ends of each roller 242 are respectively installed at the bottom of the frame of the supporting mechanism 241. In other embodiments, the specific structure of the supporting mechanism 241 may be in other forms, and is not limited herein.

The rollers 242 are driven by a driving mechanism to rotate synchronously. The drive mechanism may drive the roller 242 in either a forward or reverse direction depending on the particular requirements of the cargo being handled. Specifically, the roller 242 is a motorized roller and the drive mechanism is a drive card. The electric roller is internally provided with a motor which is connected with a driving card, and the adjacent rollers 242 are driven by a synchronous belt. The rolling speed of the rollers 242 may be controlled by selectively turning on or off a switch on the drive card that controls each roller 242.

In the present invention, the size of the transfer device 24 is the same as the largest carrier 12, i.e. the length of the roller 242 is equal to the length of the longest carrier roller 122. So set up, convenient compatible not unidimensional load bearing device 12, and then the goods of convenient transportation not unidimensional need not frequently to change moving of stacker 2 and carry device 24.

The limiting mechanism 243 is arranged on the supporting mechanism 241 in a lifting manner, and when the top end of the limiting mechanism 243 exceeds the upper part of the rolling mechanism, the limiting mechanism 243 limits the goods in the first direction. Specifically, the limiting mechanism 243 includes a photoelectric sensor 246, a baffle 244 and an air cylinder 245 for driving the baffle 244 to ascend and descend, the air cylinder 245 is respectively connected with the baffle 244 and the supporting mechanism 241, the air cylinder 245 is specifically fixed in the middle of the cross beam 2411, and the air cylinder 245 drives the baffle 244 to ascend and descend between the two adjacent rollers 242. A photosensor 246 is provided on the support mechanism and is disposed in correspondence with the baffle 244.

The utility model discloses in, the moving direction of definition goods on rolling mechanism is first direction, and the rolling direction of cylinder 242 is first direction promptly, and the axial of cylinder 242 is the second direction. The limiting mechanisms 243 are 3 groups and are arranged along the first direction. The distance between the two adjacent limiting mechanisms 243 is set according to the size of the cargo, and is not limited herein. When the goods are transferred onto the transfer device 24, the photoelectric sensor 246 senses the position of the goods and transmits a position signal of the goods to the PLC 4, the air cylinder 245 is controlled to act, and the front baffle 244 and the rear baffle 244 of the goods are pushed by the air cylinder 245 to rise and exceed the upper side of the roller 242 so as to block the goods and prevent the goods from sliding; when the goods need to be removed, the air cylinder 245 pushes the baffle 244 to descend, the baffle 244 is lower than the highest point of the roller 242, and the goods are smoothly transported out under the rotation of the roller 242.

The transfer device 24 further includes a material pushing mechanism disposed on the supporting mechanism 241, and the material pushing mechanism and the supporting mechanism 241 cooperate to limit the goods in the second direction, so as to prevent the goods from shaking. The pushing mechanism is located above one end of the roller 242 and can move along the second direction, specifically, the pushing mechanism includes a push plate 247 extending in the first direction and a telescopic member 248 disposed between the push plate 247 and the supporting mechanism 241, and the telescopic member 248 stretches along the second direction to drive the push plate 247 to move in the second direction.

Referring to fig. 1 and 9, the carrier 3 is used for carrying cargo in and out at a cargo inlet 51 or a cargo outlet 52. The utility model discloses in, the high phase-match of the height of floor goods shelves of floor 1 of floor's of floor truck 3, when floor truck 3 is close to goods shelves 11, floor truck 3's cylinder 322 aligns with the bearing roller 122 of floor, the transportation of the goods of being convenient for.

The conveyance cart 3 includes a cart body 31, a transfer mechanism 32 provided at an upper portion of the cart body 31, and a steering mechanism 33. The vehicle body 31 is preferably formed by channel steel welding. The transferring mechanism 32 includes a frame 321, and a plurality of rollers 322 and a driving mechanism disposed side by side, wherein the rollers 322 can be driven by the driving mechanism to rotate synchronously. The utility model discloses in, cylinder 322 is motorized pulley, and actuating mechanism is the drive card. The roller 322 is similar to the roller 242 in structure, and is not described in detail herein.

The number of the steering mechanism 33 is plural, and the steering mechanism 33 is provided between two adjacent rollers 322. Specifically, the turning mechanism 33 includes an elevating portion 331, a roller holder 332 fixed to the elevating portion 331, a plurality of small rollers 333, and a conveyor belt 334 provided outside the small rollers 333. The rolling direction of the small rollers 333 and the conveying direction of the conveyor belt 334 are parallel to the axial direction of the rollers 322. The turning mechanism 33 is integrally lifted by the lifting part 331, and when the goods on the carrying trolley 3 need to be turned to be transported, the turning mechanism 33 is lifted, the uppermost part of the conveyor belt 334 is higher than the highest part of the roller 322, at this time, the goods only contacts with the turning mechanism 33, the small roller 333 rotates to drive the conveyor belt 334, and the goods move along the conveying direction of the conveyor belt. When the transfer is complete, the diverter mechanism 33 is lowered and the conveyor belt 334 is uppermost below the rollers 322.

The PLC 4 is used for controlling the actions of the vertical warehouse 1, the stacker 2 and the carrying trolley 3 according to the position information of the goods and the pre-stored storage rule. For convenience, the PLC controller 4 is disposed outside the wall near the personnel access opening 53, so as to facilitate operation by an operator. So set up, the automated control of three-dimensional warehouse system of being convenient for improves the efficiency and the degree of automation of storage work.

During operation, a carrying trolley is respectively arranged at the goods inlet 51 and the goods outlet 52, goods to be transported are placed on the carrying trolley 3a positioned at the goods inlet 51, the carrying trolley 3b positioned at the goods outlet 52 is in an idle state, and the carrying trolleys 3a and 3b are respectively butted with the bearing device 12 on the goods shelf 11. The PLC controller 4 controls the rollers 322 of the cart 3a and the carrier roller 122 to roll synchronously to transport the cargo from the cart 3a to the carrier 12. Further, the PLC controller 4 controls the transfer device 24 of the stacker 2 to be in butt joint with the carrier device 12, and the drums of the carrier device and the carrier device rotate synchronously to transport the goods from the carrier device 12 to the transfer device 24, and further, the stacker 2 selects an appropriate position on the shelf by traveling and lifting the carrier table 23, and transfers the goods on the transfer device 24 to the appropriate position. On the other hand, when the goods on the shelf 11 need to be transported, the stacker 2 first transfers the goods from another position on the shelf 11 to the carrier 12 abutting on the cart 3b, and then controls the cart 3b and the rollers 122 of the carrier 12 to rotate synchronously to transport the goods.

To sum up, the utility model discloses a three-dimensional warehouse system moves the device through setting up on the goods carrying platform at stacker and carry to and bear the device through setting up on the goods shelves in the vertical warehouse, and then will move the device and bear the device butt joint, make things convenient for the goods to transport between the goods shelves in stacker and vertical warehouse, have good compatibility to the goods of unidimensional and material not, better softer goods of compatible material, like plastic uptake dish etc. has improved the efficiency of storage work. The shifting device is provided with the limiting mechanism and the pushing mechanism to limit the goods on the shifting device in the first direction and the second direction, so that the safety of the stacker during transportation is improved. In addition, the limiting mechanism is arranged on the bearing device to limit the goods on the goods shelf, so that the safety of storage in the vertical warehouse is improved. Furthermore, the carrying trolley with the transfer mechanism and the steering mechanism is arranged to carry goods in and out of the vertical warehouse, operation is flexible, and storage work efficiency is further improved.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the above embodiments are only used for illustrating the present invention and not for limiting the technical solutions described in the present invention, and the understanding of the present specification should be based on the technical personnel in the technical field, and although the present specification has described the present invention in detail with reference to the above embodiments, the person of ordinary skill in the art should understand that the person of ordinary skill in the art can still modify the present invention or substitute the same, and all the technical solutions and modifications that do not depart from the spirit and scope of the present invention should be covered within the scope of the claims of the present invention.

Claims (10)

1. The vertical warehouse is characterized in that the bearing device comprises a support frame, a plurality of bearing rollers arranged side by side on the support frame and a driving mechanism for driving the bearing rollers to roll, and the bearing rollers roll and drive goods to move.

2. The library of claim 1, wherein: the bearing roller is an electric roller, the driving mechanism is a driving card, and the driving mechanism can drive the bearing roller to rotate in the forward direction and the reverse direction.

3. The library of claim 1, wherein: the bearing device further comprises a liftable limiting mechanism arranged on the supporting frame, and when the top end of the limiting mechanism exceeds the upper portion of the bearing roller, the limiting mechanism limits the goods on the bearing roller.

4. The library of claim 3, wherein: the limiting mechanism comprises a baffle and a cylinder connected with the baffle, the cylinder is fixed on the support frame, and the baffle is driven by the cylinder to ascend or descend so as to limit goods on the bearing roller.

5. The library of claim 4, wherein: the limiting mechanism further comprises a photoelectric sensor used for sensing the position of the goods, and the photoelectric sensor is arranged on the supporting frame and corresponds to the baffle.

6. A three-dimensional warehouse system, its characterized in that: the vertical warehouse comprises a stacker, a carrying trolley and the vertical warehouse according to any one of claims 1 to 5, wherein the stacker is arranged between two rows of shelf assemblies to carry goods, and the carrying trolley is used for carrying the goods out of the vertical warehouse or carrying the goods into the vertical warehouse.

7. The stereoscopic warehousing system of claim 6, wherein: the transfer trolley comprises a trolley frame and a transfer mechanism arranged on the trolley frame, wherein the transfer mechanism comprises a transfer support frame and a plurality of electric rollers arranged on the transfer support frame side by side.

8. The stereoscopic warehousing system of claim 7, wherein: and a steering mechanism is arranged between the adjacent electric rollers of the carrying trolley, the steering mechanism comprises a plurality of small rollers, roller supports for supporting the small rollers and a conveyor belt arranged on the outer side of the small rollers, and the rolling direction of the small rollers and the conveying direction of the conveyor belt are parallel to the axial direction of the electric rollers of the carrying trolley.

9. The stereoscopic warehousing system of claim 8, wherein: the steering mechanism further comprises a lifting part, the roller support is arranged on the lifting part, the lifting part can move up and down relative to the bearing roller, and when the lifting part drives the roller support, the small rollers and the conveying belt to ascend, the goods only contact with the conveying belt.

10. The stereoscopic warehousing system of claim 6, wherein: the three-dimensional warehousing system further comprises a PLC (programmable logic controller), and the PLC controls the stacker, the vertical warehouse and the carrying trolley to act according to the position information of the goods and the pre-stored storage rule.

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