CN115231326A

CN115231326A - Finished product stacking device for heat-insulation wallboard production line

Info

Publication number: CN115231326A
Application number: CN202211166365.2A
Authority: CN
Inventors: 杜美菊
Original assignee: Jiangsu Wanxin New Materials Co ltd
Current assignee: Jiangsu Wanxin New Materials Co ltd
Priority date: 2022-09-23
Filing date: 2022-09-23
Publication date: 2022-10-25

Abstract

The invention discloses a finished product stacking device for a heat-insulating wall board production line, which comprises a first driving rail and a second driving rail, wherein the first driving rail and the second driving rail are arranged in a staggered manner, the second driving rail is positioned above the first driving rail, a plurality of electric rotating rollers are linearly arranged between the first driving rail and the second driving rail, a plurality of heat-insulating wall boards to be stacked are placed on the electric rotating rollers in the first driving rail, a stacking mechanism for stacking the heat-insulating wall boards to be stacked is arranged above the first driving rail, a transverse pushing mechanism is arranged above the stacking mechanism, and a stacked heat-insulating wall board group is arranged in the stacking mechanism. The side push plates are fixed with push rods, the push rods are connected with the toothed plates through connecting plates, and it needs to be explained that when the toothed plates move, the side push plates at the end parts of the push rods are driven to push the stacked heat-insulation wall plates to separate from the stacking mechanism and send the stacked heat-insulation wall plates to the second driving rail, and then subsequent packaging processing is completed.

Description

Finished product stacking device for heat-insulation wallboard production line

Technical Field

The invention relates to the technical field of wallboard stacking, in particular to a finished product stacking device for a heat-insulation wallboard production line.

Background

At present, the heat insulation wallboards placed on a conveyor belt are effectively stacked in a stacking mode of the heat insulation wallboards, the traditional stacking mode is that a front heat insulation wallboard is lifted to be placed on a rear heat insulation wallboard, then two stacked heat insulation wallboards are lifted together and then placed on the top of a third heat insulation wallboard, and stacking is carried out in sequence according to the mode, but the stacking mode easily causes the upper heat insulation wallboard and the lower heat insulation wallboard to touch with each other, so that the upper heat insulation wallboard and the lower heat insulation wallboard are damaged; secondly traditional pile up neatly mode all adopts the mode of piling up from top to bottom usually, and along with piling up the thermal insulation wallboard quality increase of placing in addition, can cause the extrusion damage to the thermal insulation wallboard of below at the in-process that the pile up neatly was placed, also very easily leads to the vibrations of thermal insulation wallboard simultaneously, and then leads to piling up the thermal insulation wallboard that places and produce the damage.

Therefore, a finished product stacking device for a heat-insulation wallboard production line is designed.

Disclosure of Invention

The invention aims to solve the problem that as the quality of stacked heat-insulation wallboards is increased, the lower heat-insulation wallboards are extruded and damaged in the stacking process, and provides a finished product stacking device for a heat-insulation wallboard production line.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a finished product pile up neatly device for heat preservation wallboard production line, includes first drive rail and second drive rail, first drive rail and second drive rail dislocation set, and the second drive rail is located first drive rail top, all be the linearity between first drive rail and the second drive rail and be equipped with a plurality of electronic kun of rotating, a plurality of heat preservation wallboards of treating the pile up neatly have been placed on electronic kun of rotating in the first drive rail, first drive rail top is equipped with and is used for piling up the pile up mechanism of treating pile up neatly heat preservation wallboard, pile up the mechanism top and be equipped with the sidestep mechanism, be equipped with in the pile up mechanism and pile up heat preservation wallboard group, be fixed with step motor on the pile up mechanism.

Preferably, stacking mechanism includes the roof, is located roof bottom bilateral symmetry's curb plate, fixes on the curb plate and be a plurality of holding down plates of linear distribution to and fix the support bottom plate in the holding down plate bottom, it is provided with the turning block to rotate on the support bottom plate, the holding down plate is fixed with reset spring towards turning block one side, and the reset spring other end is the free end, adjacent two be equipped with between the holding down plate and be used for providing the side support board of side protection for piling up heat preservation wallboard group, the side is supported the board and is fixed in the curb plate bottom, vertical the inserting is equipped with the conflict telescopic link on the roof, be equipped with response trigger device in the roof.

Preferably, the bottom supporting plate and the lower pressing plate are arranged vertically, the rotating block rotates on the bottom supporting plate through a fixed shaft fixed on the bottom supporting plate, and the rotating block is attached to the surfaces of the lower pressing plate and the bottom supporting plate.

Preferably, the rotating block comprises a rotating half ring and a swinging plate, and one end of the swinging plate, which faces the bottom supporting plate, is provided with a chamfer.

Preferably, the transverse pushing mechanism comprises a side pushing plate which slides in a telescopic manner in the stacking mechanism, a meshing gear fixedly connected with the output end of the stepping motor, and a toothed plate which slides at the top of the stacking mechanism and is in meshing transmission with the meshing gear, a pushing rod is fixed on the side pushing plate, and the pushing rod is connected with the driven toothed plate through a connecting plate.

Preferably, the second driving rail is located obliquely above the first driving rail, the side push plate is tangent to the top of the second driving rail, and a stacked thermal insulation wallboard pushed away from the stacking mechanism by the side push plate is arranged on an electric rotating roller in the second driving rail.

Preferably, the width of the lower pressing plate is smaller than the distance between two adjacent electric rotating rollers.

Preferably, a pressing plate is arranged above the top plate, the pressing plate is connected with the top plate through a plurality of connecting rods, and an external electric control pressing device is arranged on the pressing plate.

The invention has the beneficial effects that:

1. according to the invention, the thermal insulation wallboard to be stacked is pressed along with the pressing plate, so that the thermal insulation wallboard to be stacked can drive the rotating block to rotate, meanwhile, the stacked thermal insulation wallboard group is arranged at the top of the rotating block, the rotating block can support the stacked thermal insulation wallboard group, and the thermal insulation wallboard to be stacked below the stacked thermal insulation wallboard group moves upwards at the moment, so that the thermal insulation wallboard to be stacked is tightly attached to the stacked thermal insulation wallboard group, the stacking effect can be achieved, and the problem that the thermal insulation wallboard to be stacked is extruded and damaged in the stacking process along with the increase of the quality of the thermal insulation wallboard stacked in the traditional sense can be effectively solved.

2. The side push plates are fixed with push rods, the push rods are connected with the toothed plates through connecting plates, and it needs to be explained that when the toothed plates move, the side push plates at the end parts of the push rods are driven to push the stacked heat-insulation wall plates to separate from the stacking mechanism and send the stacked heat-insulation wall plates to the second driving rail, and then subsequent packaging processing is completed.

Drawings

Fig. 1 is a schematic structural diagram of a finished product stacking device for a production line of thermal insulation wallboards, which is provided by the invention;

FIG. 2 is a side view of a finished product stacking device for a thermal insulation wallboard production line according to the present invention;

fig. 3 is a schematic structural diagram of a stacking mechanism in a finished product stacking device for a thermal insulation wallboard production line, which is provided by the invention;

FIG. 4 is a partial schematic view of a stacking mechanism in a finished product stacking device for a thermal insulation wallboard production line according to the present invention;

fig. 5 is a front view of a stacking mechanism in a finished product stacking device for a thermal insulation wallboard production line.

In the figure: 1. a first drive rail; 2. a second drive rail; 3. an electric rotating roller; 4. heat-insulating wallboards to be stacked; 5. stacking the heat insulation wallboard groups; 6. the thermal insulation wallboards are stacked; 7. a pressing plate; 8. a connecting rod; 9. a top plate; 10. a side plate; 11. is abutted against the telescopic rod; 12. rotating the block; 13. supporting the bottom plate; 14. a side abutting plate; 15. pressing the plate downwards; 16. a side push plate; 17. a push rod; 18. a connecting plate; 19. a toothed plate; 20. a stepping motor; 21. a meshing gear; 22. a return spring.

Detailed Description

Referring to fig. 1-5, a finished product stacking device for a heat-insulating wall panel production line comprises a first driving rail 1 and a second driving rail 2, wherein the first driving rail 1 and the second driving rail 2 are arranged in a staggered manner, the second driving rail 2 is located above the first driving rail 1, referring to fig. 1-2, a plurality of electric rotating rollers 3 are linearly arranged between the first driving rail 1 and the second driving rail 2, a plurality of heat-insulating wall panels 4 to be stacked are placed on the electric rotating rollers 3 in the first driving rail 1, the heat-insulating wall panels 4 to be stacked can pass through the electric rotating rollers 3 on the first driving rail 1, the second driving rail 2 is located above an oblique portion of the first driving rail 1, a side push plate 16 is tangent to the top of the second driving rail 2, a stacked heat-insulating wall panel 6 pushed away from a stacking mechanism by a side push plate 16 is arranged on the electric rotating rollers 3 in the second driving rail 2, and a stacking mechanism for stacking the heat-insulating wall panels 4 to be stacked is arranged above the first driving rail 1.

Referring to fig. 3-4, the stacking mechanism includes a top plate 9, side plates 10 symmetrically located on two sides of the bottom of the top plate 9, a plurality of lower press plates 15 fixed on the side plates 10 and linearly distributed, and a support bottom plate 13 fixed at the bottom of the lower press plates 15, where the width of each lower press plate 15 is smaller than the distance between two adjacent electric rotating rollers 3, so that an external electric control pressing device presses the top plate 9 below through the pressing plate 7, and so that the top plate 9 carries the lower press plate 15 below to pass through two adjacent electric rotating rollers 3, thereby achieving the effect of subsequently lifting the thermal insulation wall plate 4 to be palletized.

The supporting base plate 13 and the lower pressing plate 15 are vertically arranged, the rotating block 12 rotates on the supporting base plate 13 through a fixed shaft fixed on the supporting base plate 13, the rotating block 12 is attached to the surfaces of the lower pressing plate 15 and the supporting base plate 13, the rotating block 12 is rotatably arranged on the supporting base plate 13 and comprises a rotating semi-ring and a swinging plate, one end, facing the supporting base plate 13, of the swinging plate is provided with a chamfer, the rotating block 12 is driven by the lower pressing plate 15 to press the thermal insulation wallboard 4 to be stacked, the thermal insulation wallboard 4 to be stacked can drive the rotating block 12 to rotate, meanwhile, the stacked thermal insulation wallboard group 15 is arranged at the top of the rotating block 12, the rotating block 12 can support the stacked thermal insulation wallboard group 15, the thermal insulation wallboard 4 to be stacked can move upwards along with the lower pressing plate 15, the thermal insulation wallboard 4 to be stacked can be tightly attached to the stacked thermal insulation wallboard group 15, the traditional stacking mode is that the former thermal insulation wallboard is lifted and placed on the latter thermal insulation wallboard, then the two stacked thermal insulation wallboards are lifted together and then placed on the top of the third thermal insulation wallboard, and stacking mode is sequentially carried out, and stacking of the two thermal insulation wallboards is easy to be damaged; this mode of piling up can effectual solution tradition mean along with piling up the heat preservation wallboard quality increase of placing, can cause the damaged problem of extrusion to the heat preservation wallboard of below at the in-process that the pile up neatly was placed to two piece upper and lower heat preservation wallboards place the problem that the in-process touched each other among the prior art.

The holding down plate 15 is fixed with reset spring 22 towards turning block 12 one side, and the reset spring 22 other end is the free end, is equipped with between two adjacent holding down plates 15 to be used for providing the side for piling up heat preservation wallboard group 5 and supports board 14, and wherein the phenomenon that heat preservation wallboard group 5 can not take place the slope can effectually be piled up in the setting of side support board 14.

Side buttressing plate 14 is fixed in the bottom of lateral plate 10, vertically insert on roof 9 and be equipped with conflict telescopic link 11, be equipped with the response trigger device in roof 9, it should be explained that, the response trigger device is circuit system, for step motor 20 provides drive power, conflict telescopic link 11 is the switch of this circuit system's on-off circuit, when conflict telescopic link 11 is by the pile up heat preservation wallboard group 5 lift-off of below, will communicate this circuit system, and drive step motor 20, can come indirect control step motor 20 to open and stop through the thickness that piles up heat preservation wallboard group 5 like this, finally play the thickness that the response piles up heat preservation wallboard group 5 and then open and stop the effect of step motor 20, be equipped with in the pile up heat preservation wallboard group 5 in the pile up the mechanism, be fixed with step motor 20 on the pile up the mechanism, it is along with the lifting that piles up heat preservation wallboard group 5, so pile up heat preservation wallboard group 5 and touch conflict telescopic link 11, and the effect that this moment can receive the touching is upwards to open and stop the lifting, and then can trigger the response trigger device, because response trigger device control and conflict step motor 20 control, when the lifting, and start starting, and stopping the output end of step motor 21 and then can drive step motor and start the rotation.

The top plate 9 is provided with a pressing plate 7, the pressing plate 7 is connected with the top plate 9 through a plurality of connecting rods 8, the pressing plate 7 is provided with a peripheral electric control pressing device, and the peripheral electric control pressing device can drive the stacking mechanism to reciprocate up and down.

Stacking mechanism top is equipped with violently pushes away the mechanism, violently push away the mechanism and include the gliding side push pedal 16 of stretching out and drawing back in stacking mechanism, meshing gear 21 with step motor 20 output end fixed connection, and slide at stacking mechanism top and with meshing gear 21 meshing driven pinion rack 19, be fixed with push rod 17 on the side push pedal 16, link to each other through connecting plate 18 between push rod 17 and the driven pinion rack 19, it should explain that will drive the side push pedal 16 of push rod 17 tip when pinion rack 19 takes place the motion and push away from stacking mechanism to the heat preservation wallboard 6 of having piled up neatly, and send on the second drive rail 2, accomplish subsequent packing and handle.

The working principle of the invention is as follows: at first, the peripheral electric control pressing device can drive the stacking mechanism to reciprocate up and down to clamp the thermal insulation wall boards 4 to be stacked on the first driving rail 1 on the stacking mechanism, the thermal insulation wall boards below can be extruded and damaged in the stacking process, and therefore the problem that the upper thermal insulation wall board and the lower thermal insulation wall board touch each other in the stacking process in the prior art is solved, when the stacked thermal insulation wall board groups 5 in the stacking mechanism touch the touch telescopic rods 11, the touch telescopic rods 11 can be lifted upwards under the touch effect, and then the induction trigger device can be triggered, when the touch telescopic rods 11 are pushed up by the stacked thermal insulation wall board groups 5 below, the circuit system in the induction trigger device can be communicated to drive the stepping motor 20, the effect of sensing the thickness of the stacked thermal insulation wall board groups 5 and starting and stopping the stepping motor 20 is finally achieved, the starting and stopping of the stepping motor 20 can drive the meshing gear 21 at the output end of the stepping motor 20 to rotate, and then the toothed plate 19 is driven to move, then when the toothed plate 19 moves, the side push plate 16 at the end of the push rod 17 is pushed away from the stacked thermal insulation wall board 6 and is pushed away from the second driving rail 2, and the subsequent thermal insulation wall boards are processed, and the subsequent thermal insulation board processing is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a finished product pile up neatly device for heat preservation wallboard production line, includes first drive rail (1) and second drive rail (2), first drive rail (1) and second drive rail (2) dislocation set, and second drive rail (2) are located first drive rail (1) top, all be the linearity between first drive rail (1) and the second drive rail (2) and be equipped with a plurality of electronic rotation kun (3), a serial communication port, placed a plurality ofly on electronic rotation kun (3) in first drive rail (1) and wait pile up neatly heat preservation wallboard (4), first drive rail (1) top is equipped with the pile up mechanism that is used for piling up waiting to pile up heat preservation wallboard (4), it is equipped with the sidestep mechanism to pile up the mechanism top, be equipped with in the pile up mechanism and pile up heat preservation wallboard group (5), be fixed with step motor (20) on the pile up mechanism.

2. The finished product stacking device for the production line of the heat-insulating wall boards as claimed in claim 1, wherein the stacking mechanism comprises a top board (9), side boards (10) which are located on two sides of the bottom of the top board (9) and are symmetrical, a plurality of lower press boards (15) which are fixed on the side boards (10) and are distributed linearly, and a supporting bottom board (13) which is fixed on the bottom of the lower press boards (15), wherein a rotating block (12) is arranged on the supporting bottom board (13) in a rotating mode, a return spring (22) is fixed on one side of each lower press board (15) facing the rotating block (12), the other end of each return spring (22) is a free end, a side abutting board (14) which is used for providing side protection for stacking the heat-insulating wall board groups (5) is arranged between every two adjacent lower press boards (15), the side abutting boards (14) are fixed on the bottom of the side boards (10), a collision telescopic rod (11) is vertically inserted in the top board (9), and an induction triggering device is arranged in the top board (9).

3. A finished product stacking device for a heat-insulation wallboard production line as claimed in claim 2, wherein the support base plate (13) and the lower press plate (15) are vertically arranged, the rotating block (12) rotates on the support base plate (13) through a fixed shaft fixed on the support base plate (13), and the rotating block (12) is attached to the surfaces of the lower press plate (15) and the support base plate (13).

4. A finished product stacking device for a production line of thermal insulation wallboards as claimed in claim 2, wherein the rotating block (12) comprises a rotating half ring and a swinging plate, and one end of the swinging plate facing the support base plate (13) is chamfered.

5. A finished product stacking device for a heat-insulating wall board production line as claimed in claim 1, wherein the transverse pushing mechanism comprises a side pushing plate (16) which slides telescopically in the stacking mechanism, a meshing gear (21) fixedly connected with the output end of the stepping motor (20), and a toothed plate (19) which slides on the top of the stacking mechanism and is in meshing transmission with the meshing gear (21), a push rod (17) is fixed on the side pushing plate (16), and the push rod (17) is connected with the toothed plate (19) through a connecting plate (18).

6. A finished product stacking device for a heat-insulating wall board production line as claimed in claim 5, wherein the second driving rail (2) is located obliquely above the first driving rail (1), the side push plate (16) is tangent to the top of the second driving rail (2), and the stacked heat-insulating wall boards (6) which are pushed away from the stacking mechanism by the side push plate (16) are arranged on the electric rotating roller (3) in the second driving rail (2).

7. A finished product palletizing device for thermal insulation wallboard production lines according to claim 2, wherein the width of the lower pressing plate (15) is smaller than the distance between two adjacent electric rotating rollers (3).

8. A finished product stacking device for a heat-insulating wall board production line as claimed in claim 2, wherein a pressing plate (7) is arranged above the top plate (9), the pressing plate (7) is connected with the top plate (9) through a plurality of connecting rods (8), and an external electric control pressing device is arranged on the pressing plate (7).