CN215905344U - Overturning and transporting mechanism for SPC floor - Google Patents

Abstract

The utility model relates to the technical field of subsequent process treatment of SPC floors, in particular to an overturning and conveying mechanism of an SPC floor. The method comprises the following steps: the supporting seat comprises a left supporting seat and a right supporting seat, and the left supporting seat and the right supporting seat are arranged on the ground in parallel at intervals; the conveyer belt, left side supporting seat and right supporting seat set up the left and right sides at the conveyer belt respectively to rotate with the conveyer belt and be connected, the upset subassembly includes left roll-over stand and right roll-over stand and pivot, the center of left roll-over stand and right roll-over stand all is equipped with the shaft hole, both ends about the pivot are all established through the axle hole cover to left roll-over stand and right roll-over stand, the pivot passes the cavity of conveyer belt along controlling the direction, left roll-over stand and right roll-over stand are located the both ends of conveyer belt, and set up in left side supporting seat and right supporting seat. The overturning and conveying mechanism for the SPC floor can effectively reduce floor surface scratching caused by overturning problems and can effectively improve production efficiency.

Description

Overturning and transporting mechanism for SPC floor

Technical Field

The utility model relates to the technical field of subsequent process treatment of SPC floors, in particular to an overturning and conveying mechanism of an SPC floor.

Background

The SPC product is a new popular product in the current market, has good simulation performance on wood floors and high comfort level, and belongs to a high-grade high-added-value product. However, such products have the problems of complex production process and long production period, when the whole floor is cut into small floor strips, the front side needs to be machined, then the process steps of milling, gluing and the like need to be carried out on the floor, and the floor needs to be turned over.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the technical problem that the floor is easy to scrape the surface of the floor due to the fact that the floor is turned over by the hook in the prior art is solved. The turnover conveying mechanism for the SPC floor provided by the utility model can effectively reduce floor surface scratching caused by a turnover problem, and is simple in structure, convenient to operate and capable of effectively improving the production efficiency.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an inverted transport mechanism for SPC floors comprising:

the supporting seat comprises a left supporting seat and a right supporting seat, and the left supporting seat and the right supporting seat are arranged on the ground in parallel at intervals;

the conveying belt is used for conveying forwards, the left supporting seat is arranged on the left side of the conveying belt, the right supporting seat is arranged on the right side of the conveying belt, the left supporting seat and the right supporting seat are both in rotating connection with the conveying belt, and an SPC floor is conveyed through the conveying belt;

the turning assembly comprises a left turning frame, a right turning frame and a rotating shaft, shaft holes are formed in the centers of the left turning frame and the right turning frame, the left turning frame and the right turning frame are sleeved at the left end and the right end of the rotating shaft through the shaft holes, the rotating shaft penetrates through the hollow part of the conveyor belt in the left-right direction and is erected between a left supporting seat and a right supporting seat, the left turning frame is arranged between the left side of the conveyor belt and the left supporting seat, and the right turning frame is arranged between the right side of the conveyor belt and the right supporting seat;

the left turnover frame and the right turnover frame both comprise a rotating disc, the shaft holes are arranged at the center of the rotating disc, a plurality of turnover forks are arranged on the periphery of the rotating disc in a divergent mode along the radial direction of the rotating disc, and the included angle degrees between every two adjacent turnover forks are the same.

Preferably, the included angle between adjacent turnover forks is 45 degrees. When the angle is less than 45 degrees, compare in the angle of 45 degrees, the opening that the SPC bottom plate got into the roll-over stand reduces, has increased the difficulty that the SPC bottom plate got into the roll-over stand, when the angle was greater than 45 degrees, compared in the angle of 45 degrees, has increased the possibility that the SPC floor dropped in the upset in-process.

Preferably, two adjacent turnover forks are provided with rubber pads on opposite end faces. Set up the rubber pad and can prevent on the one hand that the turnover fork from scraping colored floor surface, on the other hand rubber pad can increase frictional force, effectively avoids the SPC floor problem that drops at the upset in-process.

Specifically, the action wheel of conveyer belt and the axle center from the driving wheel all set firmly the center pin, erect respectively on left supporting seat and right branch seat at the both ends of center pin, just left side supporting seat with right branch seat all with the center pin rotates the connection.

Specifically, one end of a central shaft of the driving wheel is connected with a first driving motor, and one end of the rotating shaft is connected with a second driving motor.

Optionally, a gluing device is further arranged in front of the turnover assembly and on the support seat.

Specifically, the rubber coating device is including going out gluey box, mend gluey case and rubber tube, the one end of rubber tube with it links to each other to go out gluey box, the other end of rubber tube with it links to each other to go out gluey box, it erects to go out gluey box the left side supporting seat with between the right branch seat, and be located the top of conveyer belt, go out gluey box with the conveyer belt interval sets up, it can follow the activity of upper and lower direction through drive arrangement to go out gluey box, the lower terminal surface that goes out gluey box is equipped with a plurality of glue outlet holes, mend gluey case setting on the supporting seat, be equipped with in the glue supplementing case to go out the gluey pump of play of gluey box supply glue. The reverse side of the SPC floor is glued after the SPC floor is turned over, the turning device and the gluing device are arranged on one conveying belt at the same time, gluing is directly performed after the SPC floor is turned over, and the processing efficiency of products is improved.

It should be noted that, it mends gluey case to go out gluey box through the rubber tube intercommunication, mends to be provided with out gluey pump in the incasement, and the glue that this application adopted is for gluing thick and solid glue, goes out to glue the hole on the box and need extrude under the pressure of going out gluey pump and coat to the plastics plank on, under the out gluey pump out the out-of-work condition, go out gluey in the box and can't spill from going out gluey hole.

The glue outlet device is characterized by further comprising a position sensor, wherein the position sensor is arranged on the supporting seat, is close to the front end of the glue outlet box and does not exceed the glue outlet box; and the glue outlet pump, the driving device and the position sensor are in signal connection with the controller. The gluing of the SPC floor is controlled by the controller, the automation level of the device is increased, and the processing efficiency of the SPC floor is increased.

Specifically, the left supporting seat and the right supporting seat are respectively provided with a supporting column, and the glue outlet box is movably arranged on the supporting columns.

Specifically, every support column is provided with the spout along its direction of height, and the one side towards the conveyer belt, the left and right sides that goes out to glue the box is equipped with the slider respectively, the slider with the spout one-to-one, the drive arrangement drive the slider drives it is in to go out to glue the box activity from top to bottom in the spout, all is equipped with the spring in every spout, the spring sets up the below at corresponding slider, just the up end of spring supports with the lower terminal surface of corresponding slider and leans on. Move about in the spout through the slider, drive the rubber coating box and be close to the SPC floor and give the SPC floor rubber coating, push down the rubber coating box through the clamp plate, the rubber coating box that pushes down is to the SPC floor rubber coating, and the spring bounce rubber coating box behind the rubber coating for the rubber coating box is upwards movable, realizes whole rubber coating step, reasonable in design, and simple easy the implementation.

The overturning and conveying mechanism for the SPC floor has the following specific effects:

the utility model provides an upset transport mechanism on SPC floor transmits the SPC floor through the conveyer belt, and turn-over device sets up in the place ahead of direction of transmission, and two adjacent turn-over forked forms the opening, the SPC floor transmits forward and gets into on the turn-over fork through the opening, and turn-over device rotates forward, and it is rotatory to drive the floor on the turn-over fork, and the turn-over fork rotates 180 degrees, and the SPC floor is become the reverse side up by openly up, accomplishes the turn-over on SPC floor, is provided with the rubber pad on the turn-over fork, prevents to scrape colored floor at the in-process of turn-over, and the front portion of the turn-over device of this application still is equipped with the rubber coating device, and turn-over device and rubber coating device set up on a conveyer belt simultaneously, directly carry out the rubber coating behind SPC floor turn-over, increase the machining efficiency of product.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the turn-over transportation mechanism of the SPC floor of the present invention;

FIG. 2 is a schematic diagram of the connection between the conveyor belt and the supporting seat of the SPC floor turnover transportation mechanism of the present invention;

fig. 3 is a schematic diagram of the conveyor belt, slide block and chute of the turning and transporting mechanism of the SPC floor of the present invention.

Reference numerals:

11. a left support seat; 12. a right support seat; 13. a support pillar; 131. a chute; 132. a spring; 20. a conveyor belt; 21. a driving wheel; 22. a driven wheel; 23. a central shaft; 32. a left roll-over stand; 33. a right roll-over stand; 331. a turntable; 332. a turnover fork; 41. discharging the glue box; 412. a slider; 42. a hose; 43. a glue supplementing box; 44. a position sensor; 45. a drive device; 200. SPC floor.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 3, the turning and transporting mechanism for SPC floor according to the preferred embodiment of the present invention comprises:

the supporting seat comprises a left supporting seat 11 and a right supporting seat 12, and the left supporting seat 11 and the right supporting seat 12 are arranged on the ground in parallel at intervals;

the conveying belt 20 is used for conveying the SPC floor forwards, the left supporting seat 11 is arranged on the left side of the conveying belt 20, the right supporting seat 12 is arranged on the right side of the conveying belt 20, the left supporting seat 11 and the right supporting seat 12 are both in rotating connection with the conveying belt 20, and the SPC floor 200 is conveyed through the conveying belt 20; the axle center of the driving wheel 21 and the driven wheel 22 of the conveyor belt 20 is fixedly provided with a central shaft 23, two ends of the central shaft 23 are respectively erected on the left supporting seat 11 and the right supporting seat 12, and the left supporting seat 11 and the right supporting seat 12 are rotatably connected with the central shaft 23. One end of a central shaft 23 of the driving wheel 21 is connected with a first driving motor, and one end of the rotating shaft is connected with a second driving motor. As shown in fig. 2.

The turning assembly comprises a left turning frame 32, a right turning frame 33 and a rotating shaft, shaft holes are formed in the centers of the left turning frame 32 and the right turning frame 33, the left turning frame 32 and the right turning frame 33 are sleeved at the left end and the right end of the rotating shaft through the shaft holes, the rotating shaft penetrates through the hollow part of the conveyor belt 20 along the left-right direction and is erected between the left supporting seat 11 and the right supporting seat 12, the left turning frame 32 is arranged between the left side of the conveyor belt 20 and the left supporting seat 11, and the right turning frame 33 is arranged between the right side of the conveyor belt 20 and the right supporting seat 12; the hollow portion of the conveyor belt 20 is located between the upper end surface and the lower end surface of the conveyor belt 20, and is located between the driving pulley 21 and the driven pulley 22.

The left turnover frame 32 and the right turnover frame 33 both comprise rotating discs, shaft holes are formed in the centers of the rotating discs, a plurality of turnover forks 332 are arranged on the peripheries of the rotating discs in a radial direction in a divergent mode, and the included angle degrees between every two adjacent turnover forks 332 are the same; the included angle between the adjacent turnover forks 332 is 45 degrees; rubber pads are arranged on the opposite end faces of the two adjacent turnover forks 332.

The front of the turnover component is also provided with a gluing device on the supporting seat. The rubber coating device is including going out gluey box 41, mend gluey case 43 and rubber tube 42, the one end of rubber tube 42 links to each other with a gluey box 41 of play, the other end of rubber tube 42 links to each other with a gluey box 41 of play, it erects between left branch seat 11 and right branch seat 12 to go out gluey box 41 activity, and be located the top of conveyer belt 20, it sets up to go out gluey box 41 and the interval of conveyer belt 20, it can follow the activity of upper and lower direction through drive arrangement 45 to go out gluey box 41, the lower terminal surface that goes out gluey box 41 is equipped with a plurality of glue outlet holes, mend gluey case 43 and set up on the supporting seat, be equipped with the play gluey pump of box 41 supply glue to going out in the gluey case 43 of meneing.

The gluing device further comprises a position sensor 44, the position sensor 44 is arranged on the supporting seat, and the position sensor 44 is close to the front end of the glue outlet box 41 and does not exceed the glue outlet box 41;

the controller, the glue outlet pump, the driving device 45 and the position sensor 44 are in signal connection with the controller.

Be equipped with support column 13 on left side supporting seat 11 and the right branch supporting seat 12 respectively, it sets up on support column 13 to go out gluey box 41 activity, every support column 13 is along its direction of height, and the one side towards conveyer belt 20 is provided with spout 131, it is equipped with slider 412 respectively to go out gluey box 41's the left and right sides, slider 412 and spout 131 one-to-one, drive arrangement 45 drive slider 412 drives out gluey box 41 and moves about in spout 131, all be equipped with spring 132 in every spout 131, spring 132 sets up the below at corresponding slider 412, and the up end of spring 132 supports with the lower terminal surface of corresponding slider 412 and leans on, as shown in fig. 3.

The working principle is as follows:

this application passes through the conveyer belt to SPC floor transmission, the turn-over device sets up in the place ahead of direction of transmission, two adjacent turn-over forked forms the opening, SPC floor transmits forward on getting into the turn-over fork through the opening, the turn-over device rotates forward, it is rotatory to drive the floor on the turn-over fork, the turn-over fork rotates 180 degrees, the SPC floor is up changed into the reverse side by openly up, accomplish the turn-over on SPC floor, be provided with the rubber pad on the turn-over fork, prevent scraping colored floor at the in-process of turn-over, the front portion of the turn-over device of this application still is equipped with the rubber coating device, turning device and rubber coating device set up on a conveyer belt simultaneously, directly carry out the rubber coating behind SPC floor turn-over, increase the machining efficiency of product.

All in all, the upset transport mechanism on SPC floor can effectively reduce and lead to the floor surface to scrape the flower because of the turn-over problem, and this application simple structure is convenient for operate moreover, effectively improves production efficiency.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations can be made by the worker in the light of the above teachings without departing from the spirit of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. An overturning transportation mechanism for SPC floors, comprising:

the supporting seat comprises a left supporting seat (11) and a right supporting seat (12), and the left supporting seat (11) and the right supporting seat (12) are arranged on the ground in parallel at intervals;

the conveying belt (20) is used for conveying forwards in the conveying direction of the conveying belt (20), the left supporting seat (11) is arranged on the left side of the conveying belt (20), the right supporting seat (12) is arranged on the right side of the conveying belt (20), the left supporting seat (11) and the right supporting seat (12) are both in rotating connection with the conveying belt (20), and the SPC floor (200) is conveyed through the conveying belt (20);

the turnover assembly comprises a left turnover frame (32), a right turnover frame (33) and a rotating shaft, wherein shaft holes are formed in the centers of the left turnover frame (32) and the right turnover frame (33), the left turnover frame (32) and the right turnover frame (33) are respectively arranged at the left end and the right end of the rotating shaft through shaft holes in a sleeved mode, the rotating shaft penetrates through the hollow part of the conveyor belt (20) along the left-right direction and is erected between a left supporting seat (11) and a right supporting seat (12), the left turnover frame (32) is arranged between the left side of the conveyor belt (20) and the left supporting seat (11), and the right turnover frame (33) is arranged between the right side of the conveyor belt (20) and the right supporting seat (12);

left roll-over stand (32) and right roll-over stand (33) all include the rolling disc, the shaft hole is followed the center setting of rolling disc, the periphery of rolling disc just diverges along its radial direction and is provided with a plurality of turn-ups forks (332), and the contained angle number of degrees between adjacent turn-ups fork (332) is the same.

2. The turnover transport mechanism for SPC floor as set forth in claim 1, wherein the degree of included angle between adjacent turnover forks (332) is 45 degrees.

3. The turnover transport mechanism for an SPC floor as claimed in claim 1, wherein rubber pads are provided on the opposite end surfaces of adjacent two turnover forks (332).

4. An overturning and transporting mechanism for SPC floor as claimed in claim 1 wherein the axes of the driving wheel (21) and the driven wheel (22) of the conveyer belt (20) are fixed with a central shaft (23), the two ends of the central shaft (23) are respectively erected on the left supporting seat (11) and the right supporting seat (12), and the left supporting seat (11) and the right supporting seat (12) are rotatably connected with the central shaft (23).

5. An overturning transporting mechanism for SPC floor according to claim 4, characterized in that one end of the central shaft (23) of the driving wheel (21) is connected with a first driving motor, and one end of the rotating shaft is connected with a second driving motor.

6. The turnover transport mechanism for SPC floor as claimed in claim 1, wherein a glue spreading means is further provided in front of the turnover module and on the supporting base.

7. An overturning transporting mechanism of SPC floor according to claim 6, characterized in that the glue spreading device comprises a glue outlet box (41), a glue supplementing box (43) and a glue pipe (42), one end of the rubber tube (42) is connected with the rubber outlet box (41), the other end of the rubber tube (42) is connected with the rubber outlet box (41), the glue outlet box (41) is movably erected between the left support seat (11) and the right support seat (12), and is positioned above the conveyor belt (20), the glue outlet box (41) and the conveyor belt (20) are arranged at intervals, the glue outlet box (41) can move up and down through a driving device (45), the lower end surface of the glue outlet box (41) is provided with a plurality of glue outlet holes, the glue supplementing box (43) is arranged on the supporting seat, a glue outlet pump for supplying glue to the glue outlet box (41) is arranged in the glue supplementing box (43).

8. An SPC floor turnover transport mechanism as claimed in claim 7 further comprising a position sensor (44), said position sensor (44) is disposed on a support base, and said position sensor (44) is close to the front end of said glue discharging box (41) and does not exceed said glue discharging box (41);

and the glue outlet pump, the driving device (45) and the position sensor (44) are in signal connection with the controller.

9. An overturning and transporting mechanism for SPC floor as claimed in claim 8 wherein, the left support seat (11) and the right support seat (12) are respectively provided with a support column (13), and the glue outlet box (41) is movably arranged on the support column (13).

10. An overturning and transporting mechanism for an SPC floor according to claim 9, characterized in that a sliding groove (131) is arranged on one side of each supporting column (13) along the height direction and facing the conveyor belt (20), sliding blocks (412) are respectively arranged on the left side and the right side of the glue discharging box (41), the sliding blocks (412) and the sliding grooves (131) are in one-to-one correspondence, the driving device (45) drives the sliding blocks (412) to drive the glue discharging box (41) to move up and down in the sliding grooves (131), a spring (132) is arranged in each sliding groove (131), the spring (132) is arranged below the corresponding sliding block (412), and the upper end face of the spring (132) abuts against the lower end face of the corresponding sliding block (412).

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