CN113636150A

CN113636150A - Special interval upset machine of floor processing production

Info

Publication number: CN113636150A
Application number: CN202110725172.5A
Authority: CN
Inventors: 方伟华; 陈明伟; 戴炼斌
Original assignee: Zhejiang Shuimo Jiangnan New Material Technology Co ltd
Current assignee: Zhejiang Shuimo Jiangnan New Material Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-11-12

Abstract

The invention relates to the field of transportation and storage devices, and discloses a special interval turnover machine for floor processing and production, wherein a first conveying line is rotatably connected with a support, a first limiting plate is fixedly connected with the support, a rotating arm is rotatably connected with the support, an auxiliary arm is rotatably connected with the support and is fixedly connected with the rotating arm, the auxiliary arm rotates along with the rotating arm, a clamping plate is slidably connected with the rotating arm, a clamping cylinder is fixedly connected with the rotating arm, a telescopic rod of the clamping cylinder is fixedly connected with the clamping plate, the clamping plate can be driven to move through the clamping cylinder so as to be matched with the auxiliary arm to clamp a floor, and then a rotating motor drives the rotating arm to rotate 180 degrees to turn over the floor. On a floor carried the bracing piece through first transfer chain, then grip block centre gripping second floor and upset 180, loosen the grip block and place the first floor on with the floor, then the second transfer chain is carried, has improved work efficiency.

Description

Special interval upset machine of floor processing production

Technical Field

The invention relates to the field of transportation and storage devices, in particular to a special interval turnover machine for floor processing and production.

Background

The floor needs one just to place anti-at the vanning in-process, and it is now mainly manual operation, piles up after the take the altitude, arranges neatly, and then the pile up neatly is laid, and the shortcoming of existence is: the working intensity is high, a large amount of workers are needed, the cost is high, the working speed is low, and the method is not suitable for a large-batch production mode of a factory.

Disclosure of Invention

The invention aims to provide a special interval turnover machine for floor processing and production, and aims to solve the problem of high labor intensity of the existing manual turnover.

In order to achieve the above purpose, the invention provides a special interval turnover machine for floor processing and production, which comprises a support assembly, a turnover assembly, a superposition assembly and a controller, wherein the support assembly comprises a base and a support, the support is fixedly connected with the base and positioned on one side of the base, the turnover assembly comprises a first conveying line, a first limiting plate, a rotating motor, a rotating arm, a clamping plate, an auxiliary arm and a clamping cylinder, the first conveying line is rotatably connected with the support and positioned on one side of the support, the first limiting plate is fixedly connected with the support and positioned on one side of the first conveying line, the rotating arm is rotatably connected with the support and positioned on one side of the first limiting plate, the auxiliary arm is rotatably connected with the support and fixedly connected with the rotating arm, and the clamping plate is slidably connected with the rotating arm, and be located and be close to one side of auxiliary arm, the centre gripping cylinder with rotor arm fixed connection, the telescopic link of centre gripping cylinder with grip block fixed connection, the output shaft that rotates the motor with the rotor arm is connected, the coincide subassembly includes brace table, second transfer chain, first cylinder and bracing piece, the brace table sets up one side of first transfer chain, the second transfer chain with the brace table rotates to be connected, and is located one side of brace table, first cylinder with brace table fixed connection, and be located one side of second transfer chain, the bracing piece with the telescopic link fixed connection of first cylinder, and be located one side of first transfer chain.

The turnover assembly further comprises a slider, the slider comprises two sliders, and the two sliders are respectively connected with the clamping plate and the auxiliary arm in a sliding mode and are located between the clamping plate and the auxiliary arm.

The two sliding blocks are in contact with the floor and clamp the floor, impact can be generated on the floor after the rotating arm rotates for 180 degrees and stops, and the sliding blocks can move along with the floor, so that the situation that the floor is not accurately placed on another floor due to shaking is avoided.

The slider further comprises two first springs, and the two first springs are fixedly connected with the two sliders respectively and abut against the clamping plate and the auxiliary arm respectively.

The first spring is compressed through the sliding block to absorb vibration, so that the two floors can be placed more stably.

The overturning assembly further comprises a pressure sensor, and the pressure sensor is fixedly connected with the auxiliary arm and is positioned on one side, close to the rotating arm, of the auxiliary arm.

When the floor contacts the pressure sensor, the first conveying line applies pressure to the pressure sensor through the floor, so that the floor can be detected to be moved in place, and then the rotating motor can be controlled to move.

The support rod comprises a rod body, a buffer spring and a bearing plate, the rod body is connected with a telescopic rod of the first air cylinder, the bearing plate is connected with the rod body in a sliding mode and located on one side, close to the first conveying line, of the rod body, and the buffer spring is arranged between the rod body and the bearing plate.

When the floor moves to when on the bearing plate, can compress buffer spring cushions, still can set up the interval between bearing plate and the second transfer chain in addition for the second piece floor is placed when on the bearing plate, can compress spring and contact the second transfer chain through the weight on two floors, makes can directly carry through the second transfer chain.

The support rod further comprises a guide wheel, and the guide wheel is arranged on the surface of the bearing plate.

The friction between the floor and the bearing plate can be reduced through the guide wheel, so that the placement is more stable.

The laminating assembly further comprises a second limiting plate, and the second limiting plate is fixedly connected with the supporting table and located on one side of the second conveying line.

The second limiting plate can be used for arranging the positions of the floors on the second conveying line, so that the conveying is more stable.

The controller comprises a processing module, a receiving module, a motor driving module, an air cylinder driving module, a conveying line driving module and a transmission module, wherein the receiving module, the motor driving module, the air cylinder driving module, the conveying line driving module and the transmission module are connected with the processing module.

The receiving module can receive the sensing signals of each sensor, after the processing module processes the sensing signals, the motor driving module, the cylinder driving module and the conveying line driving module respectively drive different working elements to move, and the transmission module can transmit control logs outwards.

The invention relates to a special interval turnover machine for floor processing and production, wherein a support is fixedly connected with a base, the whole machine is supported by the base and the support, a first conveying line is rotatably connected with the support, so that the first conveying line can rotate relative to the support to convey a floor, a first limiting plate is fixedly connected with the support, the position of the moving floor can be adjusted by the first limiting plate, the floor can be conveyed in parallel relative to the first limiting plate, the rotating arm is rotatably connected with the support, the auxiliary arm is rotatably connected with the support and is fixedly connected with the rotating arm, so that the auxiliary arm can rotate along with the rotating arm, a clamping plate is slidably connected with the rotating arm, and a clamping cylinder is fixedly connected with the rotating arm, the telescopic link of centre gripping cylinder with grip block fixed connection, the output shaft that rotates the motor with the rotor arm is connected, through the centre gripping cylinder can drive the grip block removes, thereby with the auxiliary arm cooperation carries out the centre gripping to the floor, then it can drive to rotate the motor the rotor arm rotates 180 and overturns the floor. The utility model discloses a floor turnover laminating machine, including a supporting bench, first cylinder, supporting bench, bracing piece and first cylinder, the supporting bench sets up one side of first transfer chain, the second transfer chain with the supporting bench rotates to be connected, first cylinder with supporting bench fixed connection, the bracing piece with the telescopic link fixed connection of first cylinder, a floor at first passes through first transfer chain is carried on the bracing piece, then 180 in the last floor of grip block centre gripping back and upset loosen the grip block and place the floor on the last floor, first cylinder drives the floor and descends for the floor contact the second transfer chain is carried to can be with conveniently with the floor upset coincide on the same transfer chain, improved work efficiency, thereby solve the big problem of current artifical upset intensity of labour.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

FIG. 1 is a structural diagram of a spacing tilter specially used for floor processing and production according to the present invention;

FIG. 2 is an enlarged partial view of detail A of FIG. 1;

FIG. 3 is an enlarged partial view of detail B of FIG. 1;

FIG. 4 is a left side structure view of the spacing tilter specially used for floor processing and production of the present invention;

FIG. 5 is a top view of a spacer tipper for floor finishing operations of the present invention;

FIG. 6 is an enlarged partial view of detail C of FIG. 5;

FIG. 7 is a schematic cross-sectional view of a spacer tipper for floor finishing of the present invention;

fig. 8 is a block diagram of the controller of the present invention.

1-supporting component, 3-overturning component, 5-folding component, 7-controller, 11-base, 12-support, 31-first conveying line, 32-first limiting plate, 33-rotating motor, 34-rotating arm, 35-clamping plate, 36-auxiliary arm, 37-clamping cylinder, 38-mounting rod, 39-photoelectric sensor, 40-baffle, 41-control cylinder, 42-slider, 43-pressure sensor, 51-supporting table, 52-second conveying line, 53-first cylinder, 54-supporting rod, 55-second limiting plate, 71-processing module, 72-receiving module, 73-motor driving module, 74-cylinder driving module, 75-conveying line driving module, 76-transmission module, 421-slider, 422-first spring, 541-rod body, 542-buffer spring, 543-bearing plate, 544-guide wheel and 545-damping block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and are intended to be illustrative of the invention and should not be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, indicate orientations or positional relationships that are based on the orientations or positional relationships illustrated in the drawings, are used for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specifically limited.

Referring to fig. 1 to 8, the present invention provides a special space tilter for floor processing and production:

including supporting component 1, upset subassembly 3, coincide subassembly 5 and controller 7, supporting component 1 includes base 11 and support 12, support 12 with base 11 fixed connection to be located one side of base 11, upset subassembly 3 includes first transfer chain 31, first limiting plate 32, rotation motor 33, rotation arm 34, grip block 35, auxiliary arm 36 and centre gripping cylinder 37, first transfer chain 31 with support 12 rotates to be connected, and is located one side of support 12, first limiting plate 32 with support 12 fixed connection, and is located one side of first transfer chain 31, rotation arm 34 with support 12 rotates to be connected, and is located one side of first limiting plate 32, auxiliary arm 36 with support 12 rotates to be connected, and with rotation arm 34 fixed connection, grip block 35 with rotation arm 34 sliding connection, and be located near one side of auxiliary arm 36, centre gripping cylinder 37 with rotor arm 34 fixed connection, centre gripping cylinder 37's telescopic link with grip block 35 fixed connection, the output shaft of rotation motor 33 with rotor arm 34 is connected, coincide subassembly 5 includes a supporting bench 51, second transfer chain 52, first cylinder 53 and bracing piece 54, supporting bench 51 sets up one side of first transfer chain 31, second transfer chain 52 with supporting bench 51 rotates to be connected, and is located one side of supporting bench 51, first cylinder 53 with supporting bench 51 fixed connection, and be located one side of second transfer chain 52, bracing piece 54 with first cylinder 53's telescopic link fixed connection, and be located one side of first transfer chain 31.

In this embodiment, the support 12 is fixedly connected to the base 11 and located at one side of the base 11, the whole machine is supported by the base 11 and the support 12, the overturning assembly 3 includes a first conveying line 31, a first limiting plate 32, a rotating motor 33, a rotating arm 34, a clamping plate 35, an auxiliary arm 36 and a clamping cylinder 37, the first conveying line 31 is rotatably connected to the support 12 and located at one side of the support 12, so that the first conveying line 31 can rotate relative to the support 12 to convey the floor, the first limiting plate 32 is fixedly connected to the support 12 and located at one side of the first conveying line 31, the first limiting plate 32 can adjust the position of the moving floor, so that the floor can be conveyed in parallel relative to the first limiting plate 32, the rotating arm 34 is rotatably connected to the bracket 12 and is located at one side of the first limiting plate 32, the auxiliary arm 36 is rotatably connected to the bracket 12, and is fixedly connected with the rotating arm 34, so that the auxiliary arm 36 can rotate along with the rotating arm 34, the holding plate 35 is slidably connected with the rotating arm 34, and is located at one side close to the auxiliary arm 36, the clamping cylinder 37 is fixedly connected with the rotating arm 34, the telescopic rod of the clamping cylinder 37 is fixedly connected with the clamping plate 35, the output shaft of the rotating motor 33 is connected with the rotating arm 34, the clamping plate 35 can be driven to move by the clamping air cylinder 37, so as to clamp the floor in cooperation with the auxiliary arm 36, the rotating motor 33 can then drive the rotating arm 34 to rotate 180 ° to turn the floor. The folding assembly 5 comprises a supporting table 51, a second conveying line 52, a first air cylinder 53 and a supporting rod 54, wherein the supporting table 51 is arranged on one side of the first conveying line 31, the second conveying line 52 is rotatably connected with the supporting table 51 and is arranged on one side of the supporting table 51, the first air cylinder 53 is fixedly connected with the supporting table 51 and is arranged on one side of the second conveying line 52, the supporting rod 54 is fixedly connected with an expansion rod of the first air cylinder 53 and is arranged on one side of the first conveying line 31, a floor is firstly conveyed onto the supporting rod 54 through the first conveying line 31, then the clamping plate 35 clamps the subsequent floor and turns over 180 degrees, the clamping plate 35 is loosened to place the floor on the previous floor, the first air cylinder 53 drives the floor to descend, so that the floor contacts with the second conveying line 52 for conveying, therefore, the floor on the same conveying line can be conveniently turned and overlapped, the working efficiency is improved, and the problem that the labor intensity of the existing manual turning is high is solved.

Further, the turnover assembly 3 further includes a mounting rod 38, a photoelectric sensor 39, a baffle 40 and a control cylinder 41, the photoelectric sensor 39 is disposed on one side of the bracket 12 close to the first limiting plate 32, the mounting rod 38 is fixedly connected to the bracket 12 and located on one side of the bracket 12, the control cylinder 41 is fixedly connected to the mounting rod 38 and located on one side of the mounting rod 38, and the baffle 40 is fixedly connected to an expansion rod of the control cylinder 41 and located on one side of the photoelectric sensor 39; the turnover assembly 3 further comprises a slider 42, and the slider 42 comprises two sliders 421, and the two sliders 421 are respectively connected with the clamping plate 35 and the auxiliary arm 36 in a sliding manner and are located between the clamping plate 35 and the auxiliary arm 36. The slider 42 further includes two first springs 422, and the two first springs 422 are respectively fixedly connected to the two sliding blocks 421 and respectively abut against the clamping plate 35 and the auxiliary arm 36.

In this embodiment, in order to avoid that the distance between the two floors is too close to affect the matching between the first cylinder 53 and the rotating motor 33, the photoelectric sensor 39 is arranged to detect the floor passing through the first limiting plate 32, so that the distance between the two floors can be calculated by combining the moving speed of the first conveying line 31, if the distance is too small, the control cylinder 41 can drive the baffle plate 40 to move downwards to block the next floor for a period of time, and the time can be calculated according to the operating speed of the first conveying line 31 and the distance required by the two floors. The two sliding blocks 421 contact with the floor and clamp the floor, and impact is generated on the floor after the rotating arm 34 rotates 180 degrees and stops, at this time, the sliding blocks 421 can move along with the floor, so that the situation that the floor cannot be accurately placed on another floor due to shaking is avoided. After the floor is turned over by 180 degrees, the first spring 422 is compressed by the sliding block 421 to absorb vibration, so that the two floors can be placed more stably.

Further, the flipping module 3 further includes a pressure sensor 43, wherein the pressure sensor 43 is fixedly connected to the auxiliary arm 36 and is located on a side of the auxiliary arm 36 close to the rotating arm 34.

In this embodiment, the pressure sensor 43 may be a PX409, and when a floor contacts the pressure sensor 43, the first conveying line 31 applies pressure to the pressure sensor 43 through the floor, so that it can be detected that the floor has moved to a certain position, and then the rotating motor 33 can be controlled to move.

Further, the supporting rod 54 includes a rod body 541, a buffer spring 542 and a bearing plate 543, the rod body 541 is connected to the telescopic rod of the first cylinder 53, the bearing plate 543 is slidably connected to the rod body 541 and located at a side of the rod body 541 close to the first conveying line 31, and the buffer spring 542 is disposed between the rod body 541 and the bearing plate 543; the supporting rod 54 further comprises a guide wheel 544, and the guide wheel 544 is arranged on the surface of the bearing plate 543; the supporting rod 54 further includes a damping block 545, and the damping block 545 is fixedly connected to the bearing plate 543 and is located on a side of the bearing plate 543 away from the first conveying line 31.

In this embodiment, when the floor panel is moved onto the bearing plate 543, the buffer spring 542 may be compressed to buffer the floor panel, and a gap between the bearing plate 543 and the second conveyor line 52 may be further provided, so that when the second floor panel is placed on the bearing plate 543, the spring may be compressed by the weight of the two floor panels and may contact the second conveyor line 52, so that the floor panel may be directly conveyed by the second conveyor line 52. The friction between the floor and the bearing plate 543 can be reduced by the guide wheel 544, so that the placement is more stable. The damping block 545 is arranged on one side of the bearing plate 543, and can perform friction deceleration on the floor on the bearing plate 543 to prevent the floor from slipping out.

Further, the folding assembly 5 further includes a second limiting plate 55, and the second limiting plate 55 is fixedly connected to the supporting table 51 and is located on one side of the second conveying line 52.

In this embodiment, the second limiting plate 55 can arrange the positions of the floors on the second conveyor line 52, so that the conveying is more stable.

Further, the controller 7 includes a processing module 71, a receiving module 72, a motor driving module 73, a cylinder driving module 74, a conveyor line driving module 75, and a transmission module 76, wherein the receiving module 72, the motor driving module 73, the cylinder driving module 74, the conveyor line driving module 75, and the transmission module 76 are connected to the processing module 71.

In this embodiment, the receiving module 72 may receive control signals of the photoelectric sensor 39 and the pressure sensor 43, the processing module 71 is mainly composed of a single chip microcomputer, and the entire inverting machine may be controlled by the operation speeds of the first conveyor line 31 and the second conveyor line 52 and the rotation speed of the rotating motor 33 received by the processing module 71. The transmitted module 76 is used to upload control logs. One specific roll-over control process is as follows:

the rotating motor 33 drives the rotating arm 34 to move and suspend, after the two floors pass through the first limiting plate 32 is positioned, the photoelectric sensor 39 detects the time when the two floors pass through, and the distance between the two floors can be calculated through the time difference and the speed of the first conveying belt. And comparing the distance with a preset distance, if the distance is greater than the preset distance, not operating, and if the distance is less than the preset distance, controlling the control cylinder 41 to drive the baffle plate 40 to move downwards by the cylinder driving module 74 to shield the next floor, wherein the shielding time is determined by the required distance and the speed of the first conveying line 31.

Then, after the first floor passes through the rotating arm 34, the first floor continues to move to the supporting rod 54, the rotating motor 33 drives the rotating arm 34 to move downwards to wait for a second floor, after the second floor contacts the pressure sensor 43, the pressure sensor 43 obtains the change of an electric signal, so that the air cylinder driving module 74 can drive the clamping air cylinder to move to clamp the floor, then the rotating motor 33 drives the rotating arm 34 to rotate 180 degrees, the clamping air cylinder is released, the second floor and the first floor are stacked, then the first air cylinder 53 moves downwards, and the two floors continue to be transported through the second transporting line 52.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. A special interval turnover machine for floor processing and production, which is characterized in that,

comprises a supporting component, a turning component, a superposition component and a controller, wherein the supporting component comprises a base and a support, the support is fixedly connected with the base and is positioned on one side of the base, the turning component comprises a first conveying line, a first limiting plate, a rotating motor, a rotating arm, a clamping plate, an auxiliary arm and a clamping cylinder, the first conveying line is rotatably connected with the support and is positioned on one side of the support, the first limiting plate is fixedly connected with the support and is positioned on one side of the first conveying line, the rotating arm is rotatably connected with the support and is positioned on one side of the first limiting plate, the auxiliary arm is rotatably connected with the support and is fixedly connected with the rotating arm, the clamping plate is slidably connected with the rotating arm and is positioned on one side close to the auxiliary arm, and the clamping cylinder is fixedly connected with the rotating arm, the telescopic link of centre gripping cylinder with grip block fixed connection, the output shaft that rotates the motor with the rotor arm is connected, the coincide subassembly includes brace table, second transfer chain, first cylinder and bracing piece, the brace table sets up one side of first transfer chain, the second transfer chain with the brace table rotates to be connected, and is located one side of brace table, first cylinder with brace table fixed connection, and be located one side of second transfer chain, the bracing piece with the telescopic link fixed connection of first cylinder, and be located one side of first transfer chain.

2. The special spacing tilter for floor processing and production as claimed in claim 1,

3. The special spacing tilter for floor processing and production as claimed in claim 2,

the slider also comprises two first springs which are respectively fixedly connected with the two sliders and respectively abut against the clamping plate and the auxiliary arm.

4. The special spacing tilter for floor processing and production as claimed in claim 1,

5. The special spacing tilter for floor processing and production as claimed in claim 1,

the bracing piece includes the body of rod, buffer spring and bearing plate, the body of rod with the telescopic link of first cylinder is connected, the bearing plate with body of rod sliding connection to be located the body of rod is close to one side of first transfer chain, buffer spring sets up the body of rod with between the bearing plate.

6. The special spacing tilter for floor processing and production as claimed in claim 5,

7. The special spacing tilter for floor processing and production as claimed in claim 1,

the superposition assembly further comprises a second limiting plate, and the second limiting plate is fixedly connected with the supporting table and is located on one side of the second conveying line.

8. The special spacing tilter for floor processing and production as claimed in claim 4,

the controller comprises a processing module, a receiving module, a motor driving module, a cylinder driving module, a conveying line driving module and a transmission module, wherein the receiving module, the motor driving module, the cylinder driving module, the conveying line driving module and the transmission module are connected with the processing module.