CN216509350U - Equipment, system are tied up to portable slope top support - Google Patents

Abstract

The utility model discloses a movable inclined jacking and binding device which comprises a binding device and a turning device, and also discloses a movable inclined jacking and binding system which comprises an automatic pallet warehouse, a bag stacking device, a logistics conveying device and the movable inclined jacking and binding device. The utility model has the following beneficial effects: this equipment is tied up to portable slope top support has compact structure's advantage, can form whole factory single line or multi-thread commodity circulation of tying up and carry intelligent system on the commodity circulation transfer line, conveniently forms the multi-thread commodity circulation of tying up and carries intelligent system, has realized can accomplishing the pile up neatly of keeping flat of multiple specification and has put the function of the operation of tying up of pile up neatly immediately, is favorable to improving automatic transport efficiency, and the operating efficiency is high.

Description

Equipment, system are tied up to portable slope top support

Technical Field

The utility model relates to the technical field of binding equipment, in particular to movable inclined jacking binding equipment and a system.

Background

Bundling generally refers to a packaging operation of directly and firmly bundling one or more products with ropes and plastic steel belts (PET plastic steel packaging belts) for transportation, storage, loading and unloading, wherein stacking of the products is called stacking, horizontal stacking when the products are horizontally placed in a brick pile is called horizontal stacking, and vertical stacking when the products are vertically placed in the brick pile is called vertical stacking. The packing back-end packing procedure in the field of ceramic building materials directly influences the efficiency of the whole packing, and the whole stack packing mode after packing directly relates to the links of delivery loading, logistics transportation and storage. At present, most of the stacking, bundling and supporting in the ceramic industry are manually packaged, so that the cost is high, the efficiency is low, and a large safety factor exists.

Chinese utility model patent with publication number CN211996266U discloses a horizontal binding machine that commonality is high and tie up effectually, it includes the support frame, fixes hoist mechanism on the support frame, receive hoist mechanism drive carries out up-and-down motion's braced frame, sets up last tie up aircraft nose, the fixing of binding on the braced frame just inside is provided with the support frame of strapping runner, sets up and is in on the support frame and the ribbon that keeps a side keeps the horizontality to beat the ribbon direction output mechanism on product surface.

The utility model patent application document with the publication number of CN112550808A discloses a double-robot cooperation stacking integrated device, which comprises a bearing tilting device, a stacking robot, a horizontal bundling machine, a chain conveying line, a pallet taking and placing robot, a first pallet conveying part, a pallet warehouse and a second pallet conveying part, wherein the bearing tilting device is connected with the chain conveying line, the stacking robot is arranged between two adjacent bearing tilting devices, the horizontal bundling machine is arranged at the joint of the bearing tilting device and the chain conveying line, the horizontal bundling machine is used for bundling the brick stacks above the bearing tilting device after the stacking is finished, the first pallet conveying part, the pallet warehouse part and the second pallet conveying part are sequentially connected, the pallet taking and placing robot is arranged between the chain conveying lines, the chain conveying line is communicated with the second pallet conveying part through the pallet taking and placing robot, and the horizontal bundling machine comprises a belt frame, a first pallet warehouse part and a second pallet warehouse part, The belt conveyor comprises a belt bin, a bundling motor and a body frame, wherein the belt frame is connected to the body frame in a sliding mode along the gravity direction, the belt frame is located above a bearing inclining device, the belt bin is arranged at the position, close to a chain type conveying line, of the bottom of the body frame, and the bundling motor is fixedly connected to the belt frame.

The horizontal binding machine in the utility model patent application document with the publication number of CN112550808A is similar to the binding belt surrounding direction of the horizontal binding machine in the chinese utility model patent with the publication number of CN211996266U, and can bind the piled bricks vertically arranged by a horizontal binding and rolling machine, so that the binding requirement of the piled bricks when the piled bricks are vertically placed can be met, but the binding requirement of horizontal stacking is difficult to meet, and the problem of poor applicability also exists.

Therefore, there is a need in the art for a strapping device that efficiently accomplishes both flat and vertical stacking of multiple sized products.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, an object of the present invention is to provide a mobile inclined top-supporting bundling apparatus, which includes a bundling device and a turning device, and further provide a mobile inclined top-supporting bundling system, which includes an automatic pallet warehouse, a stacking device, a logistics conveying device, and the mobile inclined top-supporting bundling apparatus. The movable inclined jacking bundling equipment has the advantages of capability of finishing the bundling operation of flat stacking and vertical stacking of various specifications and high operation efficiency.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

the utility model provides a portable slope top holds in palm binding apparatus, includes bundling device and turns over the support device, bundling device includes frame, slide rail and bundling mechanism, slide rail and frame sliding connection, turn over the support device and include base, roll-over stand, tray conveying mechanism, bundle support band way and slope bracket, the rotatable installation of roll-over stand is on the base, tray conveying mechanism installs on the roll-over stand, the rotatable installation on the roll-over stand of slope bracket, tray conveying mechanism is located one side of slope bracket along roll-over stand rotation direction, one side that tray conveying mechanism is close to the slope bracket is equipped with the tray and places the position, bundling mechanism is including bundling aircraft nose and activity band way, bundle aircraft nose installs in the frame, activity band way and frame fixed connection, bundle support band way is corresponding with activity band way position. By such an arrangement: this equipment is tied up to portable slope top support has compact structure's advantage, can effectively reduce the required area of equipment, conveniently forms the multi-thread logistics transportation intelligent system that ties up, has realized the pile up neatly of keeping flat that can accomplish multiple specification and has put the function of the operation of tying up of pile up neatly immediately, can form the whole factory single line or the multi-thread logistics transportation intelligent system that ties up on the logistics transportation line, is favorable to improving automatic transport efficiency, and the operating efficiency is high.

Preferably, the bundling machine head is arranged in an inclined mode, and the inclined angle of the bundling machine head is the same as the inclined angle of the inclined bracket on the turnover frame. By such an arrangement: make to bundle the aircraft nose and can paste closely with the brick pillar on the slope bracket, improve the stability of brick pillar.

Preferably, the bundling device further comprises a pushing mechanism, the pushing mechanism comprises a pushing plate and a pushing driving piece for driving the pushing plate to move, and the pushing driving piece is connected with the pushing plate and the rack respectively. By such an arrangement: the stability of the piled bricks after being bundled can be improved.

Preferably, be equipped with elevating system between bundling aircraft nose and the frame, elevating system includes the crane, crane and the vertical sliding connection of frame, bundling aircraft nose and crane fixed connection, bundling aircraft nose fixedly connected with lift area way, lift area way is corresponding with activity area way position. By such an arrangement: realize the drive and beat the function that the aircraft nose goes up and down to move, can beat the bundle operation to the brick pillar of co-altitude not, play the effect that improves the suitability.

Preferably, a sliding frame is arranged between the inclined bracket and the turnover frame and is connected with the turnover frame in a sliding mode, the inclined bracket is connected with the sliding frame in a rotating mode, and an inclined driving piece is arranged between the inclined bracket and the sliding frame. By such an arrangement: the effect of conveniently bundling the brick piles can be achieved; the sliding frame drives the brick pile to move towards the pallet and enables the brick pile to be tightly attached to the pallet, so that the stability of the brick pile is improved, and the ceramic tile in the brick pile is prevented from being broken.

Preferably, a translation driving piece is arranged between the sliding frame and the turnover frame, and two ends of the translation driving piece are respectively connected with the sliding frame and the turnover frame. By such an arrangement: play and conveniently drive carriage and slope bracket translation on the roll-over stand, be favorable to improve equipment's automation rate, play the effect that improves production efficiency.

Preferably, the roll-over stand is provided with a centering push plate and a centering driving piece for driving the centering push plate to move towards the tray placing position, and the centering driving piece is connected with the roll-over stand and the centering push plate respectively. By such an arrangement: realize the function of pallet centering, guarantee that the pallet can the stable stay brick pillar.

Preferably, the slide rail is provided with a rail driving mechanism located between the rack and the slide rail, the rail driving mechanism comprises a rail chain wheel, a rail chain and a rail driving piece, the rail chain wheel is rotatably connected with the slide rail, the rail chain is clamped with the rail chain wheel and is fixedly connected with the rack, and the rail driving piece is fixedly installed on the slide rail and an output shaft is fixedly connected with the rail chain wheel. By such an arrangement: the function of driving the rack to move on the sliding rail through the rail driving mechanism is realized.

The utility model provides a system is tied up to portable slope top support, includes that automatic pallet storehouse, sign indicating number package equipment, commodity circulation conveying equipment and the portable slope in the aforesaid push up the support and tie up equipment, the automatic pallet storehouse is located one side that the position was placed to the tray and is used for placing the pallet on the position is placed to the tray, sign indicating number package equipment sets up in one side that the position was placed to the tray and is used for placing the thing that will wait to tie up on the slope bracket, commodity circulation conveying equipment sets up in one side of tray conveying mechanism direction of delivery and is used for carrying and has tied up the thing. By such an arrangement: the intelligent system for bundling logistics conveying of single lines or multiple lines of the whole factory can be formed on the logistics conveying line, the automatic conveying efficiency is improved, and the operation efficiency is high.

A movable inclined jacking bundling method comprises the following steps:

s1, setting a pallet: placing the pallet on a tray placing position;

s2, rotating the roll-over stand: the overturning frame is driven to rotate on the base until the inclined bracket is in a horizontal state;

s3, obliquely placing the object to be bundled: placing the object to be bundled on the inclined bracket, and rotating the inclined bracket to an inclined state to enable the object to be bundled to be in the inclined state;

s4, bundling: moving the rack to the object to be bundled on the slide rail to a position where the movable band path corresponds to the bundling band path, driving a bundling machine head to bundle the object to be bundled along the extending direction of the movable band path and the bundling band path to obtain the bundled object, and moving the rack to the reverse direction on the slide rail to return to the original position after the bundling is finished;

s5, turning the bundled object: driving the inclined bracket to rotate and enabling the bundled objects to be in a horizontal state, and driving the overturning frame to rotate on the base until the bundled objects are positioned on the pallet;

s6, conveying the bundled objects: the pallet conveying mechanism conveys the pallet and the bundled objects to the outside of the pallet placing position.

By such an arrangement: the bundling device can repeatedly and circularly work after bundling, and the effect of convenient batch production is achieved.

Compared with the prior art, the utility model has the beneficial technical effects that:

1. the movable inclined jacking and bundling equipment has the advantage of compact structure, can complete placement and bundling of pallets and piled bricks on the overturning device, can realize the conveyance of bundled objects through the tray conveying mechanism on the overturning device, and can effectively reduce the required area of the equipment, thereby conveniently forming a multi-line bundling logistics conveying intelligent system.

2. The lifting frame is driven to vertically move with the bundling machine head, so that the stacking machine head can be suitable for stacking at different heights, and can be suitable for flatly stacking and vertically stacking for bundling, and the functions of flatly stacking and vertically stacking for bundling operations of various specifications can be achieved. The realization can tie up the pile up neatly of keeping flat simultaneously and put the pile up neatly immediately after to can be applicable to the pile up neatly of keeping flat and put the pile up neatly and put the mixed brick pile of pile up neatly immediately, under the state of beating in the slope, keep flat the pile up neatly through the action of gravity and put the pile up neatly immediately along the mutual extrusion of incline direction and paste tightly, can make the brick pile compactedness better, the structure is more stable after the brick pile up neatly is tied up, can play the effect that improves brick pile compactedness and stability.

3. Through tray conveying mechanism's setting, can conveniently be connected to the commodity circulation transfer chain to can constitute whole factory single line or multi-thread commodity circulation of tying up and carry intelligent system on the commodity circulation transfer chain, be favorable to improving automatic transport efficiency, the operating efficiency is higher.

4. Drive the brick pillar through the carriage and remove and make brick pillar and pallet paste tightly to the pallet, can prevent at the in-process that the roll-over stand drove the upset of brick pillar that the brick pillar from pounding to the pallet to make the support brick pillar that the pallet can be stable, prevent that the ceramic tile in the brick pillar from being broken, and can effectively improve compactness and the stability of brick pillar in loading delivery, commodity circulation transportation and storage process.

Drawings

Fig. 1 is a schematic structural view of a mobile inclined jacking and binding apparatus according to embodiment 1 of the present invention;

FIG. 2 is a front view of the turn-up device according to embodiment 1 of the present invention;

FIG. 3 is a side view of the turn-up device according to embodiment 1 of the present invention;

FIG. 4 is a schematic structural view of a tying device according to embodiment 1 of the present invention;

FIG. 5 is a schematic structural view of a frame, a lifting mechanism and a belt magazine assembly according to embodiment 1 of the present invention;

fig. 6 is a schematic structural view of a mobile inclined jacking and binding system according to embodiment 2 of the present invention;

fig. 7 is a schematic structural view of a mobile inclined jacking and binding system according to embodiment 3 of the present invention;

fig. 8 is a schematic structural diagram of a mobile inclined jacking strapping system according to embodiment 4 of the present invention.

Wherein, the technical characteristics that each reference numeral refers to are as follows:

10. a mobile inclined jacking strapping device; 20. a bundling device; 211. a frame; 212. a tape cartridge assembly; 213. a reel; 214. A pulley; 221. a bundling mechanism; 222. a bundling machine head; 223. a movable belt path; 224. lifting the belt path; 225. a lifting frame; 226. a lifting sprocket; 227. a lifting chain; 228. a lifting drive member; 231. a pushing mechanism; 232. a pushing plate is tightly pressed; 233. Pushing the driving piece tightly; 241. a slide rail; 242. a track sprocket; 243. a track chain; 244. a rail drive; 30. a flipping device; 311. a base; 312. a roll-over stand; 313. a support plate; 314. supporting guide wheels; 321. a tray conveying mechanism; 322. Centering the driving member; 323. centering the push plate; 324. a tray placing position; 331. a tilt bracket; 332. bundling and supporting the belt path; 333. A carriage; 334. a tilt drive; 335. a translation drive; 336. a gear lever; 341. turning over a speed reducing motor; 342. a drive sprocket; 343. a driven sprocket; 344. turning over the chain; 345. a first link sprocket; 346. a second link sprocket; 347. A linkage chain; 348. a drive roller; 349. an arc-shaped plate; 40. an automatic pallet warehouse; 41. a pallet bin; 42. a pallet robot; 50. a code packet device; 51. a material bin; 52. a bag loader robot; 60. a logistics conveying device; 70. piling bricks; 80. and (5) a pallet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments, but the scope of the present invention is not limited to the following embodiments.

Example 1:

referring to fig. 1, a mobile inclined jacking strapping apparatus 10 includes a tying device 20 and a flipping device 30.

Referring to fig. 2 and 3, the flipper 30 includes a base 311, a flip frame 312, a tray conveying mechanism 321, a bundle holding belt 332, and an inclined bracket 331. The roll-over stand 312 is rotatably arranged on the base 311, the roll-over stand 312 is fixedly connected with a supporting plate 313, the base 311 is rotatably connected with a supporting guide wheel 314 abutted against the supporting plate 313, the roll-over stand 312 can keep contact with the supporting plate 313 in the rotating process of the roll-over stand 314, and provides supporting force for the supporting plate 313 and the roll-over stand 312, so that the roll-over stand 312 can rotate on the base 311. The overturning device is characterized in that an overturning driving piece is fixedly mounted on the base 311, the overturning driving piece adopts an overturning reducing motor 341, the base 311 is rotatably connected with a driving chain wheel 342 and a driven chain wheel 343, the driving chain wheel 342 is fixedly connected with an output shaft of the overturning reducing motor 341, an overturning chain 344 is wound between the driving chain wheel 342 and the driven chain wheel 343, the driven chain wheel 343 is fixedly connected with a first linkage chain wheel 345, the axle center of the driven chain wheel 343 is coincided with that of the first linkage chain wheel 345, the base 311 is rotatably connected with a second linkage chain wheel 346, a linkage chain 347 is wound between the first linkage chain wheel 345 and the second linkage chain wheel 346, and the second linkage chain wheel 346 is fixedly connected with a driving roller 348. The roll-over stand 312 is fixedly connected with an arc-shaped plate 349 abutting against the driving roller 348, and the driving roller 348 is kept in contact with the arc-shaped plate 349 during the rotation of the roll-over stand 312. The turnover speed reducing motor 341 drives the first link sprocket 345 to rotate through the driving sprocket 342, the turnover chain 344 and the driven sprocket 343, and drives the driving roller 348 to rotate through the rotation of the first link sprocket 345, the link chain 347 and the second link sprocket 346, and then drives the arc-shaped plate 349 and the turnover frame 312 to rotate through the driving roller 348, thereby realizing the function of driving the turnover frame 312 to rotate on the base 311.

The tray conveying mechanism 321 is installed on the turning frame 312, the tray conveying mechanism 321 includes a tray conveying belt installed on the turning frame 312, the tray conveying belt is located on one side of the inclined bracket 331 along the rotation direction of the turning frame 312, and in this embodiment, the tray conveying mechanism 321 is perpendicular to the inclined bracket 331. The roll-over stand 312 is provided with a centering push plate 323 and a centering driving member 322 for driving the centering push plate 323 to move towards the tray placing position 324, the centering driving member 322 is respectively connected with the roll-over stand 312 and the centering push plate 323, in this embodiment, the centering driving member 322 adopts a centering cylinder. Centering driving piece 322 and centering push pedal 323 all set up 2 altogether, and the tray is placed the position 324 and is located between 2 centering driving pieces 322, and 2 centering driving pieces 322 set up relatively, and 2 centering driving pieces 322 drive 2 centering push pedal 323 respectively and place the position 324 removal to the tray.

The inclined bracket 331 is rotatably installed on the roll-over stand 312, the stopper 336 is fixedly connected to the inclined bracket 331, and the tray placing position 324 is arranged on one side of the tray conveying mechanism 321 close to the inclined bracket 331. A sliding frame 333 is arranged between the inclined bracket 331 and the turning frame 312, the sliding frame 333 is in sliding connection with the turning frame 312, the inclined bracket 331 is in rotating connection with the sliding frame 333, an inclined driving piece 334 is arranged between the inclined bracket 331 and the sliding frame 333, the inclined driving piece 334 is an inclined cylinder, and the inclined cylinder pushes the inclined bracket 331 to rotate on the sliding frame 333 so as to realize the function of driving the inclined bracket 331 to rotate. A translation driving part 335 is arranged between the sliding frame 333 and the turning frame 312, and in the embodiment, the translation driving part 335 adopts a translation air cylinder. The translation drive 335 is connected at each end to the carriage 333 and the roll-over stand 312. Through the setting of translation driving piece 335, play and conveniently drive carriage 333 and slope bracket 331 and translate on roll-over stand 312, be favorable to the rate of automation of improve equipment, play the effect that improves production efficiency.

Referring to fig. 4 and 5, the tying device 20 includes a frame 211, a slide rail 241, a tying mechanism 221, and a pushing mechanism 231. The slide rail 241 is slidably connected to the frame 211, the slide rail 241 is provided with a rail driving mechanism located between the frame 211 and the slide rail 241, the rail driving mechanism includes a rail sprocket 242, a rail chain 243 and a rail driving member 244, and the rail driving member 244 is a rail speed reducing motor. The track sprocket 242 is rotatably connected to the slide rail 241, the track chain 243 is engaged with the track sprocket 242 and is fixedly connected to the frame 211, the track driving member 244 is fixedly mounted to the slide rail 241, and the output shaft is fixedly connected to the track sprocket 242.

The bundling mechanism 221 comprises a bundling machine head 222 and a movable belt way 223, the bundling machine head 222 is mounted on the frame 211, the movable belt way 223 is vertically arranged and fixedly connected with the frame 211, and the bundling belt way 332 corresponds to the movable belt way 223. An elevating mechanism is arranged between the bundling machine head 222 and the machine frame 211, the elevating mechanism comprises an elevating rack 225, an elevating chain wheel 226, an elevating chain 227 and an elevating driving piece 228, and the elevating driving piece 228 is an elevating speed reducing motor. The lifting frame 225 is vertically connected with the frame 211 in a sliding mode, the lifting chain wheel 226 is connected with the frame 211 in a rotating mode, the lifting chain 227 is clamped with the lifting chain wheel 226 and fixedly connected with the lifting frame 225, the lifting driving piece 228 is installed on the frame 211, the output shaft of the lifting driving piece is fixedly connected with the lifting chain wheel 226, and the bundling machine head 222 is fixedly connected with the lifting frame 225. The bundling machine head 222 is fixedly connected with an elevating belt path 224, and the elevating belt path 224 corresponds to the movable belt path 223. The baler head 222 is inclined at the same angle as the inclined bracket 331 is inclined on the roll-over stand 312.

The frame 211 is provided with a belt cabin assembly 212, the belt cabin assembly 212 comprises a winding drum 213 and a pulley 214, the winding drum 213 is rotatably connected with the pulley 214, the winding drum 213 is wound with a binding belt, the binding belt is wound around the pulley 214, and one end of the binding belt is connected with a binding machine head 222.

The pushing mechanism 231 includes a pushing plate 232 and a pushing driving member 233 for driving the pushing plate 232 to move, and the pushing driving member 233 is a pushing cylinder. The driving member 233 is connected to the pushing plate 232 and the frame 211, respectively. The pushing driving parts 233 and the pushing plates are all arranged in 2, 2 pushing driving parts 233 and 2 pushing plates 232 correspond to each other one by one, and the 2 pushing plates 232 are respectively positioned on two sides of the brick pile 70.

A movable inclined jacking bundling method comprises the following steps:

s1, setting the pallet 80: placing the pallet 80 on the pallet placement station 324;

s11, centering and positioning the pallet 80: the 2 centering push plates 323 push the pallet 80 to move to the middle of the pallet placement position 324, and the 2 centering push plates 323 clamp the pallet 80 from both sides of the pallet 80;

s2, rotating the roll-over stand 312: the roll-over stand 312 is driven to rotate on the base 311 to a state that the inclined bracket 331 is horizontally upward;

s3, obliquely placing the object to be bundled: the sliding frame 333 drives the inclined bracket 331 to slide in a direction away from the pallet 80, the object to be bundled is placed on the inclined bracket 331, and the inclined bracket 331 is rotated to be inclined by 5 degrees on the sliding frame 333, so that the object to be bundled is in an inclined state;

s4, bundling: moving the rack 211 to the object to be bundled on the slide rail 241 until the movable belt track 223 corresponds to the binding and supporting belt track 332, driving the binding machine head 222 to move downwards to the upper surface of the brick pile 70 by the lifting mechanism, binding the object to be bundled by the binding machine head 222 along the extension direction of the lifting belt track 224, the movable belt track 223 and the binding and supporting belt track 332 to obtain the bundled object after the bundling is finished, driving the binding machine head 222 to move upwards to return to the original position by the lifting mechanism, and moving the rack 211 to the opposite direction on the slide rail 241 to return to the original position;

s41, returning the carriage 333: the sliding rack 333 moves back to the original position in the direction close to the pallet 80, and drives the inclined bracket 331 and the bundled object to move toward the pallet 80, so that the bundled object is tightly attached to the pallet 80;

s5, turning the bundled object: the tilting bracket 331 is driven to rotate and to make the bundled objects in a horizontal state, and the roll-over stand 312 is driven to rotate on the base 311 until the bundled objects are positioned on the pallet 80;

s51, loosening the pallet 80: the centering push plate 323 moves away from the pallet 80, and the centering push plate 323 releases the pallet 80;

s6, conveying the bundled objects: the pallet transport mechanism 321 transports the pallet 80 and the bundled objects outside the pallet placement station 324;

s7, circulating operation: and repeating the steps S1-S6 and working circularly.

The specific work engineering is as follows:

in the initial state, the tray conveying mechanism 321 is in the horizontal state, and the inclined bracket 331 is in the vertical state. The pallet 80 is supported by the pallet transport mechanism 321 by either feeding the pallet 80 into an automatic pallet magazine or manually placing the pallet 80 onto the pallet placement station 324. The centering driving member 322 drives the centering pushing plate 323 to push the pallet 80 to move to the middle position of the pallet placing position 324, so as to realize the function of centering and positioning the pallet 80, and generate a wooden support positioning signal to trigger the turning frame 312 to start rotating. The driving roll-over stand 312 is turned over 90 degrees on the base 311, so that the tray conveying mechanism 321 is in a vertical state, the inclined bracket 331 is in a horizontal state, and the brick pile 70 is turned over 90 degrees and then is positioned on the inclined bracket 331, so that the brick pile 70 is supported through the inclined bracket 331, and the length direction of the tiles in the brick pile 70 is in a horizontal state, so that the binding belt can be conveniently bound around the tiles. The 2 centering driving members 322 push the centering push plates 323 from the two sides of the pallet 80 to clamp the pallet 80, so that the pallet 80 is kept stable after rotating 90 degrees, and the pallet 80 is prevented from sliding. The inclined bracket 331 is stacked with tiles to form horizontal stacking and vertical stacking, the length direction of the tiles is parallel to the rotation axis of the inclined bracket 331, the inclined bracket 331 is driven to rotate and incline to 3-15 degrees (in this embodiment, 5 degrees is adopted), and the length direction of the tiles is parallel to the horizontal plane. After the bale stacking is completed, the bale stacking equipment 50 triggers the bundling device 20 to move through linkage interlocking signals.

The carriage 333 is driven to move and the tilt bracket 331 and the stack of bricks 70 are driven to move away from the pallet 80 awaiting bundling. The frame 211 moves toward the flipping device 30 on the slide rail 241, and the frame 211 drives the movable belt track 223 to move to a position aligned with the bundle carrying belt track 332. The driving member 233 for pushing tightly drives the pushing plate 232 to move toward the brick pile 70 and push tightly the brick pile 70, so that the gap between the tiles in the brick pile 70 is reduced, the tiles can be prevented from sliding in the process of binding operation, and the effect of improving the stability of the brick pile 70 is achieved. The lifting driving member 228 drives the lifting chain wheel 226 and the lifting chain 227 to move, and drives the lifting frame 225 and the bundling machine head 222 to move downwards to the upper surface of the brick pile 70 through the lifting chain 227, and the bundling machine head 222 performs bundling operation on the brick pile 70 through the lifting belt way 224, the movable belt way 223 and the bundling belt way 332, so that the function of bundling the brick pile 70 is realized. Because the angle and direction of inclination of the bundling machine head 222 are the same as those of the inclined bracket 331, the bundling machine head 222 can be attached to the upper surface of the brick pile 70, so that the binding belt bound on the brick pile 70 is tightened, and the effect of improving the stability of the brick pile 70 is achieved.

After the binding is finished, the lifting driving member 228 drives the lifting frame 225 and the binding machine head 222 to move upwards to the original position through the lifting chain wheel 226 and the lifting chain 227, the driving frame 211 moves on the sliding rail 241 to the direction far away from the overturning device 30 until the original position is reached, the inclined bracket 331 overturns downwards to be in the horizontal state, the driving sliding frame 333 moves back to the original position, and meanwhile, the sliding frame 333 drives the inclined bracket 331 and the brick pile 70 to move towards the direction close to the pallet 80, so that the brick pile 70 is tightly attached to the tray conveying mechanism 321. The roll-over stand 312 is then driven to turn 90 deg. over the base 311, with the tray conveyor 321 horizontal, the tilt bracket 331 vertical, and the stack 70 turned 90 deg. over the pallet 80, thereby placing the bundled stack 70 on the pallet 80. The pallet 80 and bundled bricks 70 can be transported by the pallet transport mechanism 321 to a logistics conveyor line outside the pallet placement station 324, and the pallet 80 and bricks 70 can also be removed by forklift transport. After the pallet 70 and the brick pile are removed, the repeated cycle binding operation can be started.

The embodiment has the following advantages:

the mobile inclined jacking and bundling equipment 10 has the advantage of compact structure, can complete the placement and bundling of the pallet 80 and the brick pile 70 on the overturning device 30, can realize the transmission of the bundled objects through the tray conveying mechanism 321 on the overturning device 30, can effectively reduce the area required by the equipment, and is convenient to form a multi-line bundling logistics transmission intelligent system.

The driving crane 225 and the bundling machine head 222 vertically move, so that the stacking machine can be suitable for stacking at different heights, and can be suitable for flatly stacking and vertically stacking for bundling, and the functions of flatly stacking and vertically stacking for bundling operations of various specifications can be achieved.

The realization can tie up the pile up neatly of keeping flat simultaneously and put the pile up neatly immediately after to can be applicable to the pile up neatly of keeping flat 70 that the pile up neatly mixed with putting immediately, in this embodiment, the structure of pile up neatly is as shown in fig. 3, including 2 pile up neatly of keeping flat and 2 pile up neatly of putting immediately in the pile up neatly, under the state of slope, keep flat the pile up neatly through the action of gravity and put the pile up neatly immediately and push each other along the incline direction and paste tightly, can make the compactness of pile up neatly 70 better, the structure is more stable after pile up neatly 70, can play the effect that improves the compactness and the stability of pile up neatly.

In addition, when the stacking device is vertically stacked, the ceramic tiles are in a vertical state, and when the stacking device is high in running speed, the ceramic tiles are easy to fall off from the stacking device, so that a part of the ceramic tiles in the brick pile 70 are stacked in a flat stacking mode, the running speed of the stacking device can be increased, and the effect of improving the stacking efficiency can be achieved.

Through the setting of tray conveying mechanism 321, can conveniently be connected to the commodity circulation transfer chain to can constitute whole factory single line or multi-thread commodity circulation of tying up on the commodity circulation transfer chain and carry intelligent system, be favorable to improving automatic transport efficiency, the operating efficiency is higher.

The sliding frame 333 is driven to slide on the turning frame 312 by the translation driving piece 335, and the inclined bracket 331 and the brick pile 70 on the inclined bracket 331 are driven to move by the sliding frame 333. The sliding frame 333 drives the brick pile 70 to move away from the pallet 80, so that the effect of conveniently binding the brick pile 70 is achieved; the sliding frame 333 drives the brick pile 70 to move towards the pallet 80 and enables the brick pile 70 to be tightly attached to the pallet 80, the brick pile 70 can be prevented from being smashed towards the pallet 80 in the process that the overturning frame 312 drives the brick pile 70 to overturn, the pallet 80 can stably support the brick pile 70, the ceramic tiles in the brick pile 70 are prevented from being broken in the process of overturning for 90 degrees, the brick pile 70 can be more stable in the overturning process, the brick pile 70 is prevented from being loosened in the overturning process, and the compactness and the stability of the brick pile 70 in the loading and delivery process, the logistics transportation process and the warehousing process are effectively improved.

The inclined bracket drives the object to be bundled to rotate and enables the object to be bundled to be in an inclined state, so that the tiles in the tile pile 70 can be drawn close to one side under the action of gravity, the gap inside the object to be bundled is reduced, and the bundled object obtained after bundling is better in stability. The bundling device can repeatedly and circularly work after bundling, and the effect of convenient batch production is achieved.

The initial state of the inclined bracket 331 is a horizontal state, so that an object to be bound can be conveniently placed on the inclined bracket 331 which is horizontally arranged, and the effect of convenient use is achieved. After the brick pile 70 is tied, the inclined bracket 331 causes the brick pile 70 to rotate and return to a horizontal position, so that the brick pile 70 turned over to the pallet 80 is angularly aligned and the brick pile 70 on the pallet 80 is more orderly.

The angle and direction of inclination of the tying head 222 are the same as those of the inclined bracket 331, so that the tying head 222 can be closely attached to the brick pile 70 on the inclined bracket 331, and the stability of the brick pile 70 is improved when the tying head 222 ties the brick pile 70.

Through sliding the rack 211 on the sliding rail 241, the rack 211 can be moved in a direction away from the inclined bracket 331 in the process of stacking ceramic tiles, so that the inclined bracket 331 can be conveniently stacked to be horizontally stacked and vertically stacked, and the horizontally stacked and vertically stacked ceramic tiles can be conveniently bundled.

The driving piece 233 is tightly pushed to drive the pushing plate 232 to tightly push the brick pile 70, so that the tiles in the brick pile 70 are tightly attached to each other, the gap between the tiles is reduced, and the stability of the brick pile 70 after the bundling is finished can be improved. Because slope bracket 331 slope setting can make the in-process that pushes away tight board 232 and push away tight brick pillar 70 through the action of gravity make the ceramic tile in the brick pillar 70 paste more easily and draw close, effectively reduce the clearance between the ceramic tile to can improve brick pillar 70's stability.

The lifting driving member 228 drives the lifting chain wheel 226 to rotate, the lifting chain wheel 226 drives the lifting chain 227 to rotate, the lifting chain 227 drives the lifting frame 225 to vertically slide on the machine frame 211 in the rotating process, so that the lifting frame 225 drives the bundling machine head 222 to vertically move, and the function of driving the bundling machine head 222 to move up and down is realized. Through the vertical movement of the driving bundling machine head 222, the bundling machine head 222 can bundle the brick piles 70 with different heights, and the effect of improving the applicability is achieved.

The conveying end of the tray conveying belt is connected to the logistics line, so that the bundled objects and the pallet 80 can be conveniently and directly conveyed to the logistics line, the effect of conveniently conveying the bundled brick stacks 70 is achieved, a single-line or multi-line bundling logistics conveying intelligent system of the whole plant can be formed on the logistics conveying line, the automatic conveying efficiency is favorably improved, and the operation efficiency is high.

Centering driving piece 322 drives centering push plate 323 and places the pallet 80 in the position 324 to remove to the intermediate position that puts the position 324 through centering push plate 323 promotion pallet 80 to the tray, realize the function of pallet 80 centering, guarantee that pallet 80 can the stable stay brick pillar 70. The 2 centering driving members 322 drive the centering pushing plate 323 to clamp two sides of the pallet 80, so that the pallet 80 is kept stable, and the pallet 80 is prevented from sliding off in the process of rotating along with the roll-over stand 312.

The track driving member 244 drives the track chain wheel 242 to rotate, and the track chain wheel 242 drives the track chain 243 to rotate in the rotating process, so that the track chain 243 drives the rack 211 fixedly connected with the track chain 243 to move, thereby realizing the function of driving the rack 211 to move on the sliding rail 241 through the track driving mechanism.

Example 2:

referring to fig. 6, a mobile inclined top-tray bundling system includes an automatic pallet warehouse 40, a stacking device 50, a logistics transportation device 60 and the mobile inclined top-tray bundling device 10 of embodiment 1, wherein the automatic pallet warehouse 40 is located at one side of a tray placing position 324 and is used for placing a pallet on the tray placing position, the stacking device 50 is located at the other side of the tray placing position and is used for placing objects to be bundled on inclined brackets, and the logistics transportation device 60 is located at one side of the transportation direction of a tray transportation mechanism 321 and is used for transporting the bundled objects. The automatic pallet magazine 40 includes a pallet magazine 41 and a pallet robot 42, with pallets being predisposed in the pallet magazine 41, and the pallet robot 42 being adapted to transport the pallets in the pallet magazine 41 to the pallet placement locations 324. The packing equipment 50 comprises a material bin 51 and a packing robot 52, wherein tiles are preset in the material bin 51, and the packing robot 52 is used for conveying the tiles in the material bin 51 to the inclined bracket and stacking the tiles to form a brick pile. The logistics conveying device 60 is a conveyor belt for transporting the pallet and the bundled objects conveyed by the pallet conveying mechanism 321.

The embodiment has the following advantages:

the pallets are conveyed to the pallet placing position 324 through the automatic pallet warehouse 40, then the tiles are stacked on the inclined bracket through the stacking equipment 50 to form a tile stack 70, the tile stack 70 comprises a horizontal stacking mode and a vertical stacking mode, and the length directions of the tiles in the horizontal stacking mode and the vertical stacking mode are parallel to the horizontal plane. After the movable inclined top-supporting bundling equipment 10 bundles the brick pile 70, the bundled objects are obtained, and the pallet conveying mechanism 321 conveys the pallet and the bundled objects to the logistics conveying equipment 60 and then conveys the pallet and the bundled objects to a designated position through the logistics conveying equipment 60. Therefore, the intelligent system for bundling logistics conveying of single lines or multiple lines in the whole factory can be formed on the logistics conveying line, the automatic conveying efficiency can be improved, and the operation efficiency is high.

Example 3:

referring to fig. 7, a mobile inclined top-mount bundling system is different from embodiment 2 in that a plurality of automatic pallet storehouses 40, stacking apparatuses 50 and mobile inclined top-mount bundling apparatuses 10 in embodiment 1 are provided, and the plurality of automatic pallet storehouses 40, stacking apparatuses 50 and mobile inclined top-mount bundling apparatuses 10 correspond to one another.

The embodiment has the following advantages:

through a plurality of automatic pallet storehouses 40, sign indicating number package equipment 50 and portable slope top support binding apparatus 10, can realize the effect of many-thread binding, effectively improve production efficiency to can transport the product of tying up the completion through 1 commodity circulation conveying equipment 60, improve commodity circulation conveying equipment 60's availability factor, have the advantage that can reduce manufacturing cost.

Example 4:

referring to fig. 8, a mobile inclined top-bracket binding system is different from embodiment 2 in that 2 stacking devices 50 and 2 mobile inclined top-bracket binding devices 10 in embodiment 1 are provided, and 2 stacking devices 50 and 2 mobile inclined top-bracket binding devices 10 correspond to each other one by one, and an automatic pallet warehouse 40 is located between the 2 mobile inclined top-bracket binding devices 10 and is used for conveying pallets to the 2 mobile inclined top-bracket binding devices 10.

The embodiment has the following advantages:

the pallet 80 is conveyed to the 2 movable inclined jacking bundling devices 10 through the 1 automatic pallet warehouse 40, so that the effect of improving the use efficiency of the automatic pallet warehouse 40 can be achieved, and the advantage of reducing the manufacturing cost can be realized.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. In addition, although specific terms are used in the specification, the terms are used for convenience of description and do not limit the utility model in any way.

Claims (9)

1. A mobile inclined jacking strapping apparatus (10) comprising a tying device (20) and a roll-over device (30), characterized in that: the bundling device (20) comprises a rack (211), a sliding rail (241) and a bundling mechanism (221), the sliding rail (241) is connected with the rack (211) in a sliding manner, the overturning device (30) comprises a base (311), a turning frame (312), a tray conveying mechanism (321), a bundling belt channel (332) and an inclined bracket (331), the turning frame (312) is rotatably arranged on the base (311), the tray conveying mechanism (321) is arranged on the turning frame (312), the inclined bracket (331) is rotatably arranged on the turning frame (312), the tray conveying mechanism (321) is positioned on one side of the inclined bracket (331) along the rotating direction of the turning frame (312), a tray placing position (324) is arranged on one side of the tray conveying mechanism (321) close to the inclined bracket (331), the bundling mechanism (221) comprises a bundling machine head (222) and a movable belt channel (223), the bundling machine head (222) is mounted on the rack (211), the movable belt way (223) is fixedly connected with the rack (211), and the bundling support belt way (332) corresponds to the movable belt way (223).

2. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: the bundling machine head (222) is obliquely arranged, and the oblique angle of the bundling machine head (222) is the same as the oblique angle of the oblique bracket (331) on the turnover frame (312).

3. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: the bundling device (20) further comprises a pushing mechanism (231), the pushing mechanism (231) comprises a pushing plate (232) and a pushing driving piece (233) for driving the pushing plate (232) to move, and the pushing driving piece (233) is respectively connected with the pushing plate (232) and the rack (211).

4. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: it is equipped with elevating system to beat between bundle aircraft nose (222) and frame (211), elevating system includes crane (225), crane (225) and the vertical sliding connection of frame (211), beat bundle aircraft nose (222) and crane (225) fixed connection, beat bundle aircraft nose (222) fixedly connected with lift band way (224), lift band way (224) are corresponding with activity band way (223) position.

5. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: be equipped with carriage (333) between slope bracket (331) and roll-over stand (312), carriage (333) and roll-over stand (312) sliding connection, slope bracket (331) rotate with carriage (333) to be connected, be equipped with between slope bracket (331) and carriage (333) slope driving piece (334).

6. The mobile inclined jacking strapping apparatus (10) as claimed in claim 5, wherein: be equipped with translation driving piece (335) between carriage (333) and roll-over stand (312), translation driving piece (335) both ends are connected with carriage (333) and roll-over stand (312) respectively.

7. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: the overturning frame (312) is provided with a centering push plate (323) and a centering driving piece (322) for driving the centering push plate (323) to move to the tray placing position (324), and the centering driving piece (322) is respectively connected with the overturning frame (312) and the centering push plate (323).

8. The mobile inclined jacking strapping apparatus (10) as claimed in claim 1, wherein: slide rail (241) are equipped with the track actuating mechanism who is located between frame (211) and slide rail (241), track actuating mechanism includes track sprocket (242), track chain (243) and track driving piece (244), track sprocket (242) rotate with slide rail (241) and are connected, track chain (243) and track sprocket (242) block and with frame (211) fixed connection, track driving piece (244) fixed mounting is in slide rail (241) and output shaft and track sprocket (242) fixed connection.

9. The utility model provides a portable slope top holds in palm system of tying up which characterized in that: including automatic pallet storehouse (40), sign indicating number package equipment (50), commodity circulation conveying equipment (60) and any one of claim 1 ~ 8 portable slope top support binding apparatus (10), automatic pallet storehouse (40) are located one side of tray placement position (324) and are used for placing pallet (80) on tray placement position (324), sign indicating number package equipment (50) set up in one side of tray placement position (324) and are used for placing the thing of waiting to tie up on slope bracket (331), commodity circulation conveying equipment (60) set up in one side of tray conveying mechanism (321) direction of delivery and are used for carrying and have tied up the thing.

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