Distribution center cargo allocation line traction type cargo supplementing vehicle device
Technical Field
The invention relates to the field of replenishment trucks, in particular to a traction type replenishment truck device for a distribution line of a distribution center.
Background
In distribution centers, it is often necessary to perform moving, pushing and arranging of goods, and it is often necessary to manually carry the goods to a designated location for replenishment or pushing. However, the current distribution center cargo allocation line traction type replenishment trolley device has the following defects:
1. this line towed benefit freight car device is when using, because the vanning length of some goods, area are not of uniform size, need transversely place when placing on-line towed benefit freight car, and the quantity of placing that reduces like this leads to the time greatly increased of benefit.
2. And because the line traction type truck supplementing device is not controlled manually in the transportation process, the device is difficult to turn around or decelerate in the transportation process and has reverse centrifugal acting force, and when more goods are pushed, the device is easy to shake or throw out in the transportation process.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a traction type replenishment trolley device for a distribution line of a distribution center, which aims to solve the defects that when the traction type replenishment trolley device in the prior art is used, because the packing lengths and areas of some goods are different, the goods need to be transversely placed when being placed in an online traction type replenishment trolley, the time for replenishing the goods is greatly increased due to the reduced placing quantity, and because the traction type replenishment trolley device is not manually controlled in the transportation process, the goods are difficult to turn or decelerate in the transportation process and have reverse centrifugal acting force, and when more goods are pushed, the goods are easy to shake or throw out in the transportation process.
In order to achieve the purpose, the invention is realized by the following technical scheme:
the traction type truck supplementing device for the distribution line of the distribution center structurally comprises a guide rail, rotating rollers, a face-expanding anti-centrifugal-force buffering device, a welding fixing block and rope connecting rings, wherein the rotating rollers are embedded in the inner side of the guide rail and connected in a rolling mode, four rotating rollers are arranged below the face-expanding anti-centrifugal-force buffering device, the face-expanding anti-centrifugal-force buffering device is connected with the guide rail through the rotating rollers, the rear end of the welding fixing block is connected with the front end of the face-expanding anti-centrifugal-force buffering device in an electric welding mode, the rope connecting rings are arranged at the front end of the welding fixing block and are of an integrated structure, the rope connecting rings are connected with the face-expanding anti-centrifugal-force buffering device through the welding fixing block, and the face-expanding anti-centrifugal-force buffering device comprises a stable buffering, The stable anti-throwing device that promotes, the stable placer left side of buffering is equipped with and pushes away puts and expands a device, it installs in the stable anti-throwing device below that promotes to push away to put and expand a device, it is equipped with the stable placer of buffering to promote to stabilize anti-throwing device below.
As a further scheme of the invention, the buffer stable placement device comprises a base outer cover shell, a welding partition plate, a spring welding base and a hard buffer spring, wherein the welding partition plate is embedded and installed on the inner side of the base outer cover shell, the spring welding base is provided with four buffer springs embedded and installed on the surface of the welding partition plate, the hard buffer spring is embedded and installed on the inner side of the spring welding base, the hard buffer spring is connected with the welding partition plate through the spring welding base, and the base outer cover shell is connected with the spring welding base through the welding partition plate.
As a further scheme of the invention, the pushing and expanding device comprises an electric driving device and a sliding pushing and expanding device, wherein the sliding pushing and expanding device is arranged above the electric driving device and is connected in a transmission manner.
As a further scheme of the present invention, the electric driving device includes a motor base, a driving motor, a rotating rope wheel, a hard rope, a rope traction wheel, a pushing plate, a compression spring, a sliding block, and a sliding outer casing, wherein the upper surface of the motor base is connected with the lower surface of the driving motor by means of electric welding, the rotating rope wheel is embedded in the surface of the driving motor and located on the same center line and connected by means of transmission, the hard rope is installed around the outer side of the rotating rope wheel, the driving motor is connected with the hard rope by means of transmission of the rotating rope wheel, the hard rope is installed around the outer side of the rope traction wheel, the rotating rope wheel is arranged below the rope traction wheel and connected with both ends of the hard rope, the tail end of the hard rope is connected with the surface of the pushing plate, the right side of the pushing plate is provided with the rope traction wheel and, the surface of the right side of the pushing plate is perpendicular to the left end of the compression spring and is connected with the left end of the compression spring in an electric welding mode, the two sliding blocks are arranged at the upper end and the lower end of the pushing plate, the upper end and the lower end of the pushing plate are attached to the sliding outer housing, the sliding blocks are embedded into the sliding outer housing and are connected with the sliding outer housing in a sliding mode, the motor base is connected with the rotating rope wheel through the driving motor, the hard rope ring is connected with the pushing plate on the right side by bypassing the rope traction wheel, the rotating rope wheel is connected with the pushing plate through the rope traction wheel, and the surface of the pushing plate is provided with a sliding pushing face expanding device and is connected with the pushing plate in.
As a further proposal of the invention, the sliding pushing surface expanding device comprises a connecting moving plate, a joint sliding block, a fixed rolling shaft, a welding connecting block, a sliding chute and a moving surrounding block, the rear end of the connecting moving plate is provided with a pushing plate and is connected with the pushing plate in a sliding mode, the top end of the connecting moving plate is vertically welded with the lower surface of the attaching slide block, two fixed rolling shafts are arranged and are arranged below the attaching slide block, the fixed rolling shafts are embedded and arranged at the inner side of the sliding chute, the upper surface of the sliding chute is jointed with the lower surface of the jointing slide block and is connected with the lower surface of the jointing slide block in a sliding way, the joint sliding block is connected with the sliding groove in a sliding way through a fixed rolling shaft, the top end of the welding connecting block is vertically welded with the lower surface of the movable enclosing block, the laminating slider upper surface is perpendicular and be connected through the mode of electric welding with welding connecting block bottom, laminating slider top is equipped with the removal and encloses the piece and both ends are connected through the welding connecting block.
As a further scheme of the invention, the pushing and stabilizing anti-throwing device comprises an electrified transmission device and a mechanical pushing anti-centrifugal device, wherein the mechanical pushing anti-centrifugal device is arranged above the electrified transmission device and is connected in a transmission mode.
As a further scheme of the invention, the power-on transmission device comprises a servo motor base, a servo motor, a transmission belt pulley, a plastic belt, a transmission belt rod and a fixed rotary stripe rod, wherein the upper surface of the servo motor base is connected with the lower surface of the servo motor, the transmission belt pulley is embedded in the servo motor and connected in a transmission mode, the plastic belt is arranged on the outer side of the transmission belt pulley in a surrounding mode, the transmission belt rod is arranged above the transmission belt pulley, two ends of the transmission belt rod are connected through the plastic belt, the fixed rotary stripe rod is arranged on the left side of the transmission belt rod and is of an integrated structure, and the upper surface of the fixed rotary stripe rod is provided with a repetition shaft and is connected in a sliding mode.
As a further scheme of the invention, the mechanical pushing anti-centrifugal device comprises a repeating shaft, an embedded connecting shaft, a repeating rod, a push rod, a connecting push block, four extrusion springs and a rear push block, wherein the repeating shaft is installed on the upper surface of the fixed rotating stripe rod and connected in a sliding manner, the repeating shaft is embedded and installed on the surface of the embedded connecting shaft, the left end of the push rod is vertically welded with the right side surface of the connecting push block, the four extrusion springs are installed on the left side of the connecting push block, the left side surface of the connecting push block is parallel to the right side surface of the rear push block, two ends of the connecting push block and the rear push block are connected through the extrusion springs, and the left end of each extrusion spring is connected with the right side surface of the rear push block in an.
Advantageous effects of the invention
The invention relates to a traction type goods supplementing device for a goods distribution line of a distribution center, which can pre-transport a rope and a rope connecting ring after the rope and the rope connecting ring are connected, then the goods are put on an outer casing of a base and can be buffered by a rigid buffer spring above a welding clapboard to reduce the shock force of the goods above, when the area of the goods is larger, a driving motor above a motor base can be started to drive a rotating rope wheel to rotate so as to lead the rotating rope wheel to move along a rigid rope traction wheel, when a pushing plate block loses tension, the pushing plate block is matched with a sliding block to slide along a sliding outer casing by the strong counterforce of a compression spring, a connecting moving plate can be driven to be matched with a laminating sliding block to drive a fixed rolling shaft to slide along a sliding groove, a moving surrounding block connected by a welding connecting block can be driven to move to expand the placed area, the time of supplementing the goods is prevented, can start the servo motor of servo motor base top and drive the rotatory axle that relapses that drives the top of the rotatory drive of fixed rotatory stripe pole that makes the top be connected through the drive belt pole of the rotatory drive of drive belt pulley cooperation plasticity belt and remove just can make the pole that relapses that is connected through the embedding connecting axle remove and drive looks welded catch bar and will connect the ejecting piece and release, just the cooperation of accessible extrusion spring and rearmounted ejecting piece reduces centrifugal power, avoids rocking or throw away at the in-process of transportation.
According to the traction type goods supplementing device for the goods distribution line of the distribution center, when more goods are packed into a large box, the driving motor can be started to loosen the rope, the rope can be pushed to enlarge the placing area through the strong reaction force of the compression spring, the goods supplementing time is prevented from being greatly increased, the servo motor can be started to drive the mechanical structure to be pushed out to fix the goods in the transportation process, and the goods are prevented from shaking or throwing out in the transportation process.
Drawings
Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.
In the drawings:
fig. 1 is a schematic structural diagram of a delivery center cargo allocation line traction type truck replenishment device of the invention.
FIG. 2 is a plan view of a structure of a widened anti-centrifugal force buffer device of the present invention.
FIG. 3 is a detailed structural diagram of a widened anti-centrifugal force buffer device according to the present invention.
FIG. 4 is a plan view of a push-off expanding device according to the present invention.
Fig. 5 is a detailed structural schematic diagram of a push-off face-expanding device of the present invention.
Fig. 6 is a plan view of a stable anti-whip device of the present invention.
Fig. 7 is a detailed structural schematic diagram of a stable anti-throwing device of the present invention.
In the figure: guide rail-1, rotating roller-2, expanding surface anti-centrifugal force buffer-3, welding fixed block-4, rope connecting ring-5, buffer stable placing device-31, pushing and expanding surface device-32, pushing and stabilizing anti-throwing device-33, base outer encloser-311, welding clapboard-312, spring welding base-313, hard buffer spring-314, motor base-3211, driving motor-3212, rotating rope wheel-3213, hard rope-3214, rope traction wheel-3215, pushing plate-3216, compression spring-3217, sliding block-3218, sliding outer encloser-3219, connecting moving plate-3221, attaching sliding block-3222, fixed rolling shaft-3223, welding connecting block-3224, sliding chute-3225, welding fixed block-4, rope connecting ring-3211, fixing block-1, fixing block-3211, fixing block-3213, fixing block-3212, A movable surrounding block-3226, a power-on transmission device-331, a mechanical pushing anti-centrifugal device-332, a servo motor base-3311, a servo motor-3312, a transmission belt pulley-3313, a plastic belt-3314, a transmission belt rod-3315, a fixed rotary stripe rod-3316, a repeated shaft-3321, an embedded connecting shaft-3322, a repeated rod-3323, a push rod-3324, a connecting pushing block-3325, an extrusion spring-3326 and a rear pushing block-3327.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
As shown in fig. 1 to 7, the present invention provides a technical solution of a pull-type truck replenishment device for a distribution center cargo allocation line:
the utility model provides a delivery center distribution line towed benefit freight train device, its structure includes guide rail 1, rotates gyro wheel 2, expands face anti-centrifugal force buffer 3, welded fastening piece 4, rope go-between 5, rotate gyro wheel 2 embedding and install in guide rail 1 inboard and be connected through rolling mode, rotate gyro wheel 2 and be equipped with four and install in expanding face anti-centrifugal force buffer 3 below, expand face anti-centrifugal force buffer 3 and be connected with guide rail 1 through rotating gyro wheel 2, welded fastening piece 4 rear end is connected through the electric welding with expand face anti-centrifugal force buffer 3 front end, welded fastening piece 4 front end is equipped with rope go-between 5 and is the integral structure, rope go-between 5 is connected with expand face anti-centrifugal force buffer 3 through welded fastening piece 4, expand face anti-centrifugal force buffer 3 includes that the stable placer 31 of buffering is placed to the buffering, The device comprises a push-open face-expanding device 32 and a push-stable anti-throwing device 33, wherein the push-open face-expanding device 32 is arranged on the left side of a buffer stable placing device 31, the push-open face-expanding device 32 is arranged below the push-stable anti-throwing device 33, the buffer stable placing device 31 comprises a base outer housing 311, a welding clapboard 312, a spring welding base 313 and a rigid buffer spring 314, the welding clapboard 312 is embedded and installed on the inner side of the base outer housing 311, the spring welding base 313 is provided with four embedded and installed on the surface of the welding clapboard 312, the rigid buffer spring 314 is embedded and installed on the inner side of the spring welding base 313, the rigid buffer spring 314 is connected with the welding clapboard 312 through the spring welding base 313, the base outer housing 311 is connected with the spring welding, the push-release surface expanding device 32 comprises an electric driving device 321 and a sliding push surface expanding device 322, the sliding push surface expanding device 322 is arranged above the electric driving device 321 and is connected in a transmission manner, the electric driving device 321 comprises a motor base 3211, a driving motor 3212, a rotating rope wheel 3213, a hard rope 3214, a rope traction wheel 3215, a pushing plate 3216, a compression spring 3217, a sliding block 3218 and a sliding outer casing 3219, the upper surface of the motor base 3211 is connected with the lower surface of the driving motor 3212 in an electric welding manner, the rotating rope wheel 3213 is embedded in the surface of the driving motor 3212 at the same central line and is connected in a transmission manner, the hard rope 3214 is installed around the rotating rope wheel 3213, the driving motor 3212 is connected with the hard rope 3214 in a transmission manner through the rotating rope wheel 3213, the hard rope 3214 is installed around the rope traction wheel 3215, a rotary rope wheel 3213 is arranged below the rope traction wheel 3215, and both ends are connected by a hard rope 3214, the end of the hard rope 3214 is connected to the surface of the pushing plate 3216, the right side of the pushing plate 3216 is provided with the rope traction wheel 3215, and both ends are connected by a hard rope 3214, the right side surface of the pushing plate 3216 is perpendicular to the left end of the compression spring 3217 and is connected by electric welding, two sliding blocks 3218 are arranged and installed at the upper and lower ends of the pushing plate 3216, the upper and lower ends of the pushing plate 3216 are attached to the sliding outer housing 3219, the sliding block 3218 is embedded in the sliding outer housing 3219, the pushing plate 3216 is connected to the sliding outer housing 3219 by a sliding block 3218, the motor base 3211 is connected to the rotary rope wheel 3213 by a driving motor 3212, the hard rope 4 is connected to the pushing plate 3216 on the right side by surrounding the rope wheel 3215, the rotating rope pulley 3213 is connected to a pushing plate 3216 by a rope pulley 3215, the surface of the pushing plate 3216 is provided with a sliding pushing surface expanding device 322 and connected in a sliding manner, the sliding pushing surface expanding device 322 includes a connecting moving plate 3221, a fitting slider 3222, a fixed rolling shaft 3223, a welding connecting block 3224, a sliding groove 3225, and a moving enclosing block 3226, the pushing plate 3216 is provided at the rear end of the connecting moving plate 3221 and connected in a sliding manner, the top end of the connecting moving plate 3221 is vertically welded to the lower surface of the fitting slider 3222, two fixed rolling shafts 3223 are provided and installed below the fitting slider 3222, the fixed rolling shaft 3223 is embedded inside the sliding groove 3225, the upper surface of the sliding groove 3225 is fitted to the lower surface of the fitting slider 3222 and connected in a sliding manner, the fitting slider 3222 is slidably connected to the sliding groove 3225 by the fixed rolling shaft 3223, the top end of the welding connecting block 3224 is vertically welded with the lower surface of the movable enclosing block 3226, the upper surface of the attaching slider 3222 is perpendicular to the bottom end of the welding connecting block 3224 and is connected with the bottom end of the welding connecting block 3224 by means of electric welding, the movable enclosing block 3226 is arranged above the attaching slider 3222 and two ends of the movable enclosing block 3222 are connected with the welding connecting block 3224, the pushing and stabilizing and anti-shaking device 33 comprises a power-on transmission device 331 and a mechanical pushing and anti-centrifuging device 332, the mechanical pushing and anti-centrifuging device 332 is arranged above the power-on transmission device 331 and is connected with the power-on transmission device in a transmission manner, the power-on transmission device 331 comprises a servo motor base 3311, a servo motor 3312, a transmission belt 3313, a plastic belt 3314, a transmission belt rod 3315 and a fixed rotating strip rod 3316, the upper surface of the servo motor base 3311 is connected with the lower, the plastic belt 3314 is installed around the outside of the driving belt 3313, a driving belt rod 3315 is provided above the driving belt 3313 and both ends thereof are connected by the plastic belt 3314, a fixed rotation stripe rod 3316 is provided on the left side of the driving belt rod 3315 and is an integrated structure, a repetition shaft 3321 is provided on the upper surface of the fixed rotation stripe rod 3316 and is connected by sliding, the mechanical push anti-centrifugal device 332 includes a repetition shaft 3321, an embedded connection shaft 3322, a repetition rod 3323, a push rod 3324, a connection push-out block 3325, a pressing spring 3326, a post push-out block 3327, the repetition shaft 3321 is installed on the upper surface of the fixed rotation stripe rod 3316 and is connected by sliding, the repetition shaft 3321 is embedded in the surface of the embedded connection shaft 3322, the left end of the push rod 3324 is vertically welded to the right surface of the connection push-out block 3325, the pressing spring 3326 is provided with four and is installed on the left side of the connection push-out block, the left side surface of the connecting push-out block 3325 is parallel to the right side surface of the rear push-out block 3327, the two ends of the connecting push-out block are connected through a pressing spring 3326, and the left end of the pressing spring 3326 is connected with the right side surface of the rear push-out block 3327 through electric welding.
The invention relates to a traction type truck supplementing device for a distribution line of a distribution center, which has the working principle that: the rope is connected with the rope connecting ring 5 to pre-transport, then the goods are put on the outer cover 311 of the base and can be buffered by the rigid buffer spring 314 above the welding clapboard 312 to reduce the oscillation force of the goods above, when the area of the goods is larger, the driving motor 3212 above the motor base 3211 can be started to drive the rotating rope wheel 3213 to rotate to lead the rotating rope wheel to move along the rope traction wheel 3214 of the rigid rope, when the pushing plate 3216 loses tension, the rotating rope wheel and the sliding block 3218 are matched with each other to slide along the outer cover 3219 by the strong counterforce of the compression spring 3217, then the connecting moving plate 3221 and the attaching slider 3222 are driven to cooperate to drive the fixed rolling shaft 3223 to slide along the chute 3225, then the moving surrounding block 3226 connected by the welding connecting block 3224 can be driven to move to enlarge the placed area, thereby avoiding the time for supplementing goods from being greatly increased, when the goods are placed, the servo motor 3312 above the servo motor base 3311 can be started to drive the transmission pulley 3313 to rotate and the transmission pulley 3313 to cooperate with the plastic belt 3314 to rotate, so that the fixed rotation stripe rod 3316 connected with the transmission belt rod 3315 above rotates to drive the repeated shaft 3321 above to move, and the repeated shaft 3323 connected with the embedded connection shaft 3322 moves to drive the push rod 3324 to push out the connected push block 3325, and the extrusion spring 3326 can cooperate with the post-push block 3327 to reduce centrifugal force, thereby avoiding shaking or throwing out in the transportation process.
The invention solves the problems that when the line traction type replenishment trolley device in the prior art is used, because the length and the area of some cargoes are different, the cargoes need to be transversely placed when being placed in the line traction type replenishment trolley, the placing quantity is reduced, the replenishment time is greatly increased, and because the line traction type replenishment trolley device is not manually controlled in the transportation process, the line traction type replenishment trolley device turns or decelerates in the transportation process and has reverse centrifugal acting force, when the cargoes are pushed more, the line traction type replenishment trolley device is easy to shake or throw out in the transportation process, the invention can start the driving motor to loosen the rope to enable the rope to be loosened when the cargoes are boxed more, the rope can be pushed to expand the placing area through the strong reactive force of the compression spring, the replenishment time is prevented from being greatly increased, and the servo motor can be started in the transportation process to drive a mechanical structure to push the cargoes to be fixed, avoiding shaking or throwing out in the transportation process.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.