CN209905823U - Stacking conveying line for floor stacking - Google Patents

Abstract

The utility model discloses a pile up transfer chain for floor stack belongs to the technical field of floor stack equipment, aims at providing the stacking transfer chain of the floor stack of avoiding floor mirror surface wearing and tearing, and its technical scheme main points are pile up device and floor transmission line including floor transfer chain, the floor that sets gradually, the floor transfer chain includes the delivery support, the delivery support has two at least band pulley transfer chains along arranging on its width direction, is equipped with the transport universal driving shaft between each band pulley transfer chain, sprocket feed mechanism between delivery support and the transport universal driving shaft. Through the setting of turning over the board, every other floor just carries out the turn-over for the mirror surface and the mirror surface stack together of two adjacent floors, degree of automation is high, has greatly improved the work efficiency of floor stack.

Description

Stacking conveying line for floor stacking

Technical Field

The utility model relates to a technical field of floor stack equipment, in particular to a pile up transfer chain for floor stack.

Background

The wood floor is a bottom decorative material with certain specification requirements, which is processed by taking a wood plate as a raw material and carrying out drying treatment and surface processing, particularly a decorative lamp process.

In the last step of the production process of the wood floor, the wood floor needs to be stacked, so that the transportation is convenient. And when the timber apron was carried out the stack, because timber apron one side is the mirror surface, and the one side is the matte, need carry out the turn-over to one of them piece in two blocks of timber apron adjacent, another piece does not turn over, and when two blocks of timber apron coincide like this, mirror surface and mirror surface laminating can avoid fish tail timber apron mirror surface one side.

However, in the current production process, the wood floor is moved down and turned over by workers, which wastes manpower and time, has low working efficiency, and can cause damage to the wood floor and produce defective products.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pile up transfer chain for floor stack has and to the floor turn-over, avoids the advantage that the mirror surface was worn and torn in the floor transportation.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a stacking conveying line for floor stacking comprises a floor conveying line, a floor stacking device and a floor conveying line which are sequentially arranged, wherein the floor conveying line comprises a conveying support, at least two belt wheel conveying lines are arranged on the conveying support along the width direction of the conveying support, a conveying linkage shaft is arranged between the belt wheel conveying lines, a chain wheel transmission mechanism is arranged between the conveying support and the conveying linkage shaft,

a turning plate linkage shaft is arranged between the belt wheel conveying lines and is rotationally connected with the belt wheel conveying lines, a turning plate fixedly connected with the turning plate linkage shaft is arranged between two adjacent belt wheel conveying lines and is arranged in an L shape, one belt wheel conveying line is provided with an induction counter used for detecting the floor,

the conveying mechanism is characterized in that a turning plate transmission mechanism is arranged between the conveying support and the turning plate linkage shaft and comprises a turning plate motor arranged on the conveying support, a first chain wheel is arranged on an output shaft of the turning plate motor, a second chain wheel is arranged on the turning plate linkage shaft, and a turning plate chain is arranged between the first chain wheel and the second chain wheel.

By adopting the technical scheme, the floor enters the belt wheel conveying line after being processed in the preorder and is driven to advance by the belt wheel conveying line, when the floor is moved to the turning plate position, the floor is abutted against the inner side wall of the turning plate, the turning plate transmission mechanism drives the turning plate to turn, and the turning plate drives the floor to turn. The induction counter detects the number of the floors passing through the turning plate, and the turning plate is driven to turn the floor at intervals, so that when the floors are overlapped, the mirror surfaces of the adjacent floors are overlapped with the mirror surfaces, and the scratch of the surface of the floor is avoided.

Furthermore, a brake disc is arranged at one end of the flap linkage shaft, and a pneumatic brake is arranged on the conveying support.

By adopting the technical scheme, when the turnover motor for driving the turnover of the turnover plate is stopped, the turnover plate can rotate due to inertia, and the turnover plate can be stopped immediately through the pneumatic brake, so that the interference on floor conveying caused by the continuous rotation of the turnover plate can be avoided, and the action precision is higher when the turnover plate is turned over next time.

Furthermore, the conveying support is further provided with at least two baffle cylinders, the top end of a piston rod of each baffle cylinder is provided with a baffle, and the baffle is located at the head end of the turning plate support.

By adopting the technical scheme, the floors placed on the conveying support are not necessarily neat, and when one floor is placed, the baffle cylinder extends the piston rod of the baffle cylinder to drive the baffles to ascend, so that the two baffles arrange the floors neatly and the subsequent operation is convenient.

Further, the floor stacking device comprises a stacking frame arranged at the tail of the belt wheel conveying line, the stacking frame comprises two vertically arranged support legs, a stacking support is arranged between the two support legs in a sliding mode, and a stacking driving mechanism for driving the stacking support to slide up and down along the support legs is arranged on the stacking frame.

By adopting the technical scheme, the floors advance along with the belt wheel conveying line and are stacked on the stacking support, and when one floor is stacked on the stacking support, the stacking driving mechanism drives the stacking support to move downwards to the thickness of one floor.

Further, it includes the follow driving wheel of being connected with the landing leg rotation to pile up actuating mechanism, be equipped with the action wheel from the driving wheel below, the action wheel is equipped with driving belt with from the cover between the driving wheel, driving belt with pile up support fixed connection, be connected with on the action wheel and be used for driving its pivoted drive assembly that piles up, it still includes the spacing support of vertical setting to pile up actuating mechanism, vertical range has at least one limit switch on the spacing support.

Through adopting above-mentioned technical scheme, whenever have a floor to put on piling up the support, pile up drive assembly drive action wheel and rotate, action wheel and follow driving wheel cooperation drive driving belt downstream, when limit switch detected that to pile up the support and remove to the assigned position, send shut down signal to piling up drive assembly, stop to pile up the support and further descend.

Further, the two sides of the conveying support are respectively provided with a limiting cylinder, the two limiting cylinders are arranged in opposite directions, the top end of a piston rod of each limiting cylinder is provided with a push plate, and the two limiting cylinders are located at one end, close to the stacking floor, of the conveying support.

Through adopting above-mentioned technical scheme, because the floor is at the turn-over in-process, the condition that can have the slope, two spacing cylinders drive two push pedal motion in opposite directions, and it is spacing to the floor for the floor is neatly placed.

Further, it pushes away the pay-off baffle to pile up support one side of being dorsad the band pulley transfer chain.

Through adopting above-mentioned technical scheme, the propelling movement material baffle is spacing to the floor for the floor is neatly put.

Further, the floor conveying line comprises a conveying support, a plurality of conveying rollers are arranged on the conveying support along the length direction of the conveying support, and a conveying driving mechanism for driving the conveying rollers to rotate is arranged on the conveying support.

Through adopting above-mentioned technical scheme, conveying actuating mechanism drive transfer roller rotates, and the transfer roller conveys the floor to next process.

Furthermore, a pushing baffle is arranged on the conveying support and arranged along the length direction of the conveying support.

Through adopting above-mentioned technical scheme, the propelling movement baffle is spacing to the floor for the floor gets into next process along with the transfer roller neatly.

Furthermore, the two sides of the conveying support are respectively provided with a pressing wheel mechanism, and the two pressing wheel mechanisms are respectively positioned above the adjacent belt wheel conveying lines.

Through adopting above-mentioned technical scheme, the pinch roller mechanism compresses tightly the floor on the band pulley transfer line, can avoid the shake of floor in the transfer process like this, keeps the floor neat.

To sum up, the utility model discloses following beneficial effect has:

1. the turnover plates are arranged, so that every two floors are turned over, the mirror surfaces of two adjacent floors are stacked together, the automation degree is high, and the working efficiency of floor stacking is greatly improved;

2. the effect of improving the precision of the turning plate can be achieved through the arrangement of the brake pad and the pneumatic brake;

3. through the setting of baffle cylinder and baffle, can play the effect that improves the transfer chain precision.

Drawings

FIG. 1 is a schematic view of an embodiment of a stacked conveyor line;

FIG. 2 is a schematic diagram of an embodiment of a conveyor line for flooring;

FIG. 3 is a schematic diagram of an embodiment for embodying the flap transmission mechanism;

FIG. 4 is a schematic view of an embodiment of an apparatus for stacking floor boards;

FIG. 5 is a schematic diagram of an embodiment for embodying a stack pushing mechanism;

fig. 6 is a schematic view of an embodiment for embodying a floor conveyor line.

In the figure, 100, a floor conveying line; 101. a delivery stent; 102. a belt wheel conveyor line; 103. a conveying linkage shaft; 104. a sprocket drive mechanism; 105. a baffle cylinder; 106. a baffle plate; 107. a pinch roller mechanism; 108. a flap linkage shaft; 109. turning over a plate; 110. a flap transmission mechanism; 111. a plate turnover motor; 112. a first sprocket; 113. a second sprocket; 114. a flap chain; 115. pneumatic braking; 116. a brake disc; 200. a floor stacking device; 210. a stacking rack; 211. a support leg; 212. stacking the supports; 220. a stacking drive mechanism; 221. a driven wheel; 222. a driving wheel; 223. a drive belt; 230. a stack drive assembly; 231. stacking the universal driving shafts; 232. a speed reducer; 233. a limiting bracket; 234. a limit switch; 240. a stack pushing mechanism; 241. a stack pushing support; 242. a stacking plate pushing cylinder; 251. a limiting cylinder; 252. pushing the plate; 253. pushing the feeding baffle; 300. a floor conveyor line; 301. a delivery carriage; 302. a conveying roller; 303. pushing the baffle; 310. a transport drive mechanism.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): a stacking conveyor line for floor stacking, as shown in fig. 1, includes a floor conveyor line 100, a floor stacking device 200, and a floor conveyor line 300, which are arranged in this order.

As shown in fig. 2, the floor conveying line 100 includes a conveying support 101, four belt wheel conveying lines 102 are arranged on the conveying support 101 along the width direction thereof, a conveying linkage shaft 103 is arranged between the belt wheel conveying lines 102, and a sprocket drive mechanism 104 for driving the conveying linkage shaft 103 to rotate is arranged between the conveying support 101 and the conveying linkage shaft 103.

Two baffle cylinders 105 which are vertically arranged are arranged at the head end of the conveying support 101, a baffle 106 is arranged at the top end of a piston rod of each baffle cylinder 105, and the two baffle cylinders 105 are respectively positioned in the interval of the outer side of the conveying support 101. As soon as the floor is placed on the belt conveyor line 102, the two baffle cylinders 105 limit the floor. A sensor may be provided in front of the flap 106 and whenever it is detected that the floor is being fed onto the ground conveyor line 102, the flap cylinder 105 is actuated to raise the flap 106 to limit the floor.

As shown in fig. 2 and 3, two sides of the tail of the conveying bracket 101 are respectively provided with a pinch roller mechanism 107, the two pinch roller mechanisms 107 are respectively positioned above the adjacent belt wheel conveying lines 102, and the pinch roller mechanisms 107 press the floor to reduce the shaking of the floor in the conveying process.

As shown in fig. 2 and 3, a flap linkage shaft 108 is arranged between each two strip wheel conveying lines 102, the flap linkage shaft 108 is rotatably connected with each strip wheel conveying line, a flap 109 fixedly connected with the flap linkage shaft 108 is arranged between two adjacent strip wheel conveying lines 102, and the flap 109 is arranged in an L shape.

A flap transmission mechanism 110 is arranged between the conveying support 101 and the flap linkage shaft 108, the flap transmission mechanism 110 comprises a flap motor 111 arranged on the conveying support 101, a first chain wheel 112 is arranged on an output shaft of the flap motor 111, a second chain wheel 113 is arranged on the flap linkage shaft 108, and a flap chain 114 is arranged between the first chain wheel 112 and the second chain wheel 113. One of the belt wheel conveyor lines 102 is provided with an induction counter for detecting the floor.

One end of the flap linkage shaft 108 is provided with a brake disc 116, and the conveying bracket 101 is provided with a pneumatic brake 115. The pneumatic brake 115 causes the flap 109 to stop at the set position.

As shown in fig. 4, the floor stacking device 200 includes a stacking rack 210 disposed at the tail of the belt wheel conveyor line 102, the stacking rack 210 includes two vertical support legs 211, a stacking support 212 is slidably disposed between the two support legs 211, and a stacking driving mechanism 220 for driving the stacking support 212 to slide up and down along the support legs 211 is disposed on the stacking rack 210.

The stacking driving mechanism 220 comprises a driven wheel 221 connected with the supporting leg 211 in a rotating mode, a driving wheel 222 is arranged below the driven wheel 221, a transmission belt 223 is sleeved between the driving wheel 222 and the driven wheel 221, the transmission belt 223 is fixedly connected with the stacking support 212, and a stacking driving assembly 230 used for driving the driving wheel 222 to rotate is connected with the driving wheel 222.

The stacking driving assembly 230 includes a stacking linkage shaft 231 horizontally disposed, two ends of the stacking linkage shaft 231 are fixedly connected with the two driving wheels 222, and the stacking linkage shaft 231 is driven by a speed reducer 232. The stacking driving mechanism 220 further comprises a vertically arranged limit bracket 233, three limit switches 234 are vertically arranged on the limit bracket 233, and the three limit switches 234 send stop signals to the speed reducer 232.

As shown in fig. 4 and 5, the floor stacking device 200 further includes a stack pushing mechanism 240, the stack pushing mechanism 240 includes a stack pushing cylinder 242 horizontally disposed on the conveying support 101, the stack pushing cylinder 242 is disposed toward the stacking support 212, a stack pushing support 241 is slidably disposed on the conveying support 101, and the stack pushing support 241 is disposed toward the stacking support 212. The stack pushing mechanism 240 pushes the floor stacked on the stack holder 212 onto the floor conveyor line 300.

As shown in fig. 2, two sides of the conveying support 101 are respectively provided with a limiting cylinder 251, the two limiting cylinders 251 are oppositely arranged, and the top end of a piston rod of the limiting cylinder 251 is provided with a push plate 252. The two limit cylinders 251 drive the two push plates 252 to move oppositely to limit the floor, so that the floor is placed neatly.

As shown in fig. 4, the stacking bracket 212 is provided with a push-feed baffle 253 on the side facing away from the belt conveyor line 102, and the push-feed baffle 253 prevents the floor from moving directly onto the floor conveyor line 300.

As shown in fig. 6, the floor conveyor line 300 includes a conveyor frame 301, a plurality of conveyor rollers 302 are arranged on the conveyor frame 301 along the length direction thereof, and a conveyor driving mechanism 310 for driving the conveyor rollers 302 to rotate is provided on the conveyor frame 301.

The conveying bracket 301 is provided with a pushing baffle 303, and the pushing baffle 303 is arranged along the length direction of the conveying bracket 301. The pushing baffle plate 303 limits the floor, so that the floor can enter the next process along with the conveying roller 302 neatly.

The specific implementation process comprises the following steps: when the floor is moved to the position of the turning plate 109, the floor is abutted against the inner side wall of the turning plate 109, the turning plate transmission mechanism 110 drives the turning plate 109 to turn, and the turning plate 109 drives the floor to turn. The induction counter detects the number of the floors passing through the turning plate 109, every other floor drives the turning plate 109 to turn the floor, so that the mirror surfaces and the mirror surfaces of the adjacent floors are overlapped on the stacking bracket 212, the stacking plate pushing mechanism 240 pushes the floors on the stacking bracket 212 to the floor conveying line 300, and the floor conveying line 300 conveys the floors to the next process.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. A stacking conveyor line for floor stacking, comprising a floor conveyor line (100), a floor stacking device (200) and a floor conveyor line (300) arranged in sequence, characterized in that: the floor conveying line (100) comprises a conveying support (101), at least two belt wheel conveying lines (102) are arranged on the conveying support (101) along the width direction of the conveying support, a conveying linkage shaft (103) is arranged between the belt wheel conveying lines (102), a chain wheel transmission mechanism (104) is arranged between the conveying support (101) and the conveying linkage shaft (103),

a turning plate linkage shaft (108) is further arranged between the belt wheel conveying lines (102), the turning plate linkage shaft (108) is rotatably connected with each belt wheel conveying line (102), a turning plate (109) fixedly connected with the turning plate linkage shaft (108) is arranged between every two adjacent belt wheel conveying lines (102), the turning plates (109) are arranged in an L shape, one belt wheel conveying line (102) is provided with an induction counter used for detecting a floor,

the conveying mechanism is characterized in that a turning plate transmission mechanism (110) is arranged between the conveying support (101) and the turning plate linkage shaft (108), the turning plate transmission mechanism (110) comprises a turning plate motor (111) arranged on the conveying support (101), a first chain wheel (112) is arranged on an output shaft of the turning plate motor (111), a second chain wheel (113) is arranged on the turning plate linkage shaft (108), and a turning plate chain (114) is arranged between the first chain wheel (112) and the second chain wheel (113).

2. A stacking conveyor line for floor stacks as claimed in claim 1, wherein: and a brake disc (116) is arranged at one end of the flap linkage shaft (108), and a pneumatic brake (115) is arranged on the conveying support (101).

3. A stacking conveyor line for floor stacks as claimed in claim 1, wherein: the conveying support (101) is further provided with at least two baffle cylinders (105), the top end of a piston rod of each baffle cylinder (105) is provided with a baffle (106), and the baffle (106) is located at the head end of the support of the turning plate (109).

4. A stacking conveyor line for floor stacks as claimed in claim 1, wherein: the floor stacking device (200) comprises a stacking frame (210) arranged at the tail of a belt wheel conveying line (102), the stacking frame (210) comprises two vertically arranged support legs (211), a stacking support (212) is arranged between the two support legs (211) in a sliding mode, and a stacking driving mechanism (220) which drives the stacking support (212) to slide up and down along the support legs (211) is arranged on the stacking frame (210).

5. A stacking conveyor line for floor stacks, as claimed in claim 4, wherein: pile up actuating mechanism (220) and include and rotate the follow driving wheel (221) of being connected with landing leg (211), it is equipped with action wheel (222) to follow driving wheel (221) below, the cover is equipped with drive belt (223) between action wheel (222) and follow driving wheel (221), drive belt (223) and pile up support (212) fixed connection, be connected with on action wheel (222) and be used for driving its pivoted drive assembly (230) that piles up, it still includes vertical spacing support (233) that sets up still to pile up actuating mechanism (220), vertical range has at least one limit switch (234) on spacing support (233).

6. A stacking conveyor line for floor stacks, as claimed in claim 4, wherein: the conveying device is characterized in that two sides of the conveying support (101) are respectively provided with a limiting cylinder (251), the two limiting cylinders (251) are arranged in opposite directions, the top end of a piston rod of each limiting cylinder (251) is provided with a push plate (252), and the two limiting cylinders (251) are located at one end, close to the stacking floor, of the conveying support (101), of each stacking device (200).

7. A stacking conveyor line for floor stacks, as claimed in claim 4, wherein: and a pushing and feeding baffle plate (253) is arranged on one side of the stacking support (212) back to the belt wheel conveying line (102).

8. A stacking conveyor line for floor stacks as claimed in claim 1, wherein: floor transmission line (300) are including conveying support (301), it has a plurality of transfer rollers (302) to arrange along its length direction to convey support (301), be equipped with on conveying support (301) and drive transfer roller (302) pivoted conveying actuating mechanism (310).

9. A stacking conveyor line for floor stacks as claimed in claim 8, wherein: the conveying support (301) is provided with a pushing baffle (303), and the pushing baffle (303) is arranged along the length direction of the conveying support (301).

10. A stacking conveyor line for floor stacks as claimed in claim 1, wherein: and pressing wheel mechanisms (107) are respectively arranged on two sides of the conveying support (101), and the two pressing wheel mechanisms (107) are respectively positioned above the adjacent belt wheel conveying lines (102).

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