CN111283774A

CN111283774A - Ration cutting device of cotton rope for building

Info

Publication number: CN111283774A
Application number: CN202010136520.0A
Authority: CN
Inventors: 段林杉; 李卫军; 王益杨; 武倩
Original assignee: Jingmen Yishengyuan Environmental Protection Technology Co ltd
Current assignee: Zhongchen Hongtai Construction Co.,Ltd.
Priority date: 2020-03-02
Filing date: 2020-03-02
Publication date: 2020-06-16
Anticipated expiration: 2040-03-02
Also published as: CN111283774B

Abstract

The utility model provides a cotton rope ration cutting device for building, belongs to construction machinery equipment field, controller and workstation fixed connection, its position is located the top of workstation, landing leg and workstation fixed connection, its position are located the below of workstation, bin and workstation fixed connection, its position is located the top of workstation, pull device and workstation fixed connection, its position is located the top of workstation. According to the invention, the controller controls the second electromagnet to stretch so as to drive the fifth bracket to move back and forth, the controller controls the third electromagnet to stretch so as to drive the push plate to move, so that the push plate can press the cotton rope, the cotton rope can be drawn out by the drawing device along the guide roller through the feeding device, the drawing work of the cotton rope is completed, the manual work is replaced, the labor force is saved, and the working efficiency is improved.

Description

Ration cutting device of cotton rope for building

Technical Field

The invention relates to a rope quantitative cutting device for a building, in particular to a device which drives a quantitative material taking device to rotate by a controller through controlling the rotation of a motor and realizes the quantitative cutting of ropes through a cutting device, belonging to the field of building mechanical equipment.

Background

Along with the development of urban construction in China, urban population is more and more, and therefore building construction is more and more, and the building construction often needs a large amount of cords of equal length to be used for binding and living fixed objects, and the cords are all bundled and sent to a construction site of a construction site, are not cut finished products, and need workers to manually cut the cords.

At present at the building site job site, the cutting of cotton rope is all through the manual cutting of workman, at first paves the cotton rope subaerial, carries out the measurement of length with the tape measure behind the people, then cuts according to required length, cuts through the manual cutting of workman, not only needs a large amount of manpower and materials, still can promote the cost budget of engineering, in addition, the inefficiency of manual cutting, the ration cutting work of completion cotton rope that can not be quick, and work quality can not guarantee.

Disclosure of Invention

Aiming at the defects, the invention provides a rope quantitative cutting device for buildings.

The invention is realized by the following technical scheme: the utility model provides a cotton rope ration cutting device for building, includes material feeding unit, workstation, controller, landing leg, bin, pull device, ration extracting device and cutting device, material feeding unit and workstation fixed connection, its position is located the top of workstation, controller and workstation fixed connection, its position is located the top of workstation, landing leg and workstation fixed connection, its position is located the below of workstation, bin and workstation fixed connection, its position is located the top of workstation, pull device and workstation fixed connection, its position is located the top of workstation, ration extracting device and workstation fixed connection, its position is located the top of workstation, cutting device is connected with ration extracting device, and its position is located the top of workstation.

The feeding device comprises a first support, a second support, a support frame, a rope box, a friction gasket, a fixing bolt, a limiting gasket and a guide roller, wherein the first support and the second support are fixedly connected and positioned above the workbench, the support frame is fixedly connected with the second support and positioned above the workbench, the rope box is fixedly connected with the support frame and positioned above the controller, the friction gasket is fixedly connected with the rope box and positioned above the workbench, the fixing bolt is connected with the friction gasket and positioned above the workbench, the limiting gasket is connected with the fixing bolt and positioned above the workbench, the guide roller is connected with the first support and positioned above the workbench.

The drawing device comprises a second electromagnet base, a fourth support, a fifth support, a push plate, a third electromagnet and a second electromagnet, the second electromagnet base is fixedly connected with the fourth support, the position of the second electromagnet base is located above the fourth support, the second electromagnet is connected with the fifth support, the position of the second electromagnet base is located above the fourth support, the third electromagnet is connected with the push plate, and the position of the third electromagnet base is located above the fourth support.

The quantitative material taking device comprises a driving wheel, a guide plate, a driven wheel, a guide plate bracket, a first electromagnet bracket, a limiting slide rail, a third bracket, a slide block, a first motor, an encoder and an encoder base, wherein the driving wheel is connected with the encoder base, the position of the driving wheel is positioned below the encoder base, the guide plate is fixedly connected with the guide plate bracket, the position of the guide plate is positioned above the guide plate bracket, the driven wheel is connected with the third bracket, the position of the driven wheel is positioned below the guide plate, the first electromagnet is connected with the first electromagnet bracket, the position of the first electromagnet is positioned below the first electromagnet bracket, the limiting slide rail is connected with the first electromagnet bracket, the position of the limiting slide rail is connected with the limiting slide rail, the position of the first electromagnet bracket is positioned above the first electromagnet bracket, and the first motor is connected with the driving wheel, the position of the encoder is above the guide plate, the encoder is connected with the encoder base, and the position of the encoder is above the guide plate.

The cutting device comprises a heat insulation support, a seventh support, a fourth electromagnet base, an eighth support and a cutting knife, the heat insulation support is connected with the seventh support, the position of the heat insulation support is located above the seventh support, the fourth electromagnet is fixedly connected with the seventh support and is located below the seventh support, the fourth electromagnet base is connected with the fourth electromagnet and is located below the fourth electromagnet, the eighth support is connected with the fourth electromagnet base and is located below the fourth electromagnet base, the cutting knife is connected with the heat insulation support, and the position of the cutting knife is located below the eighth support.

The controller controls the second electromagnet to stretch so as to drive the fifth support to move back and forth, and controls the third electromagnet to stretch so as to drive the push plate to move so as to press the cotton rope, and the feeding device enables the cotton rope to be drawn out by the drawing device along the guide roller, so that the drawing work of the cotton rope is completed, the manual operation is replaced, and the labor force is saved; the controller controls the first motor to rotate so as to drive the driving wheel to rotate, the encoder detects the rotating angle of the driving wheel and transmits a detection signal to the controller, and the controller controls the first motor to rotate and stop according to the length of the cotton rope to be cut, so that the material taking length of the quantitative material taking device is controlled, and the working efficiency is improved; the fourth electromagnet is controlled to stretch through the controller, so that the cutting knife is driven to move up and down, the cutting of the cotton rope is completed, and the cut cotton rope can fall into the storage box, so that workers can use the cutting machine conveniently.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the oblique side structure of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the feeding device of FIG. 1 according to the present invention;

FIG. 4 is a schematic top view of the feeding device shown in FIG. 1;

FIG. 5 is a schematic view of the drawing device of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the quantitative material extracting apparatus of FIG. 1 according to the present invention;

FIG. 7 is a side view of the metered dose dispensing apparatus of FIG. 1 in accordance with the present invention;

FIG. 8 is a schematic view of the cutting apparatus of FIG. 1 according to the present invention;

FIG. 9 is a schematic axial view of the FIG. 1 axial structure of the present invention;

FIG. 10 is a schematic side view of the front side structure of FIG. 1 according to the present invention.

In the figure, 1, a feeding device, 101, a first support, 102, a second support, 103, a support frame, 104, a rope box, 105, a friction gasket, 106, a fixing bolt, 107, a limit gasket, 108, a guide roller, 2, a workbench, 3, a controller, 4, a support leg, 5, a storage box, 6, a drawing device, 601, a second electromagnet base, 602, a fourth support, 603, a fifth support, 604, a push plate, 605, a third electromagnet, 606, a second electromagnet 7, a quantitative material taking device, 701, a driving wheel, 702, a guide plate, 703, a driven wheel, 704, a guide plate support, 705, a first electromagnet, 706, a first electromagnet support, 707, a limit slide rail, 8, a cutting device, 801, a heat insulation support, 802, a seventh support, 803, a fourth electromagnet, 804, a fourth electromagnet base, 805, an eighth support, 806 and a cutting knife.

Detailed Description

The invention is realized by the following technical scheme:

a rope quantitative cutting device for buildings comprises a feeding device 1, a workbench 2, a controller 3, supporting legs 4, a storage box 5, a drawing device 6, a quantitative material taking device 7 and a cutting device 8, wherein the feeding device 1 is fixedly connected with the workbench 2 and positioned above the workbench 2, ropes are supplied to the quantitative material taking device 7 through the feeding device 1, the controller 3 is fixedly connected with the workbench 2 and positioned above the workbench 2, the controller 3 controls the rotation of a first motor 710, the supporting legs 4 are fixedly connected with the workbench 2 and positioned below the workbench 2, the storage box 5 is fixedly connected with the workbench 2 and positioned above the workbench 2, the cut ropes are stored in the storage box 5, the drawing device 6 is fixedly connected with the workbench 2 and positioned above the workbench 2, the wire rope is drawn out through the drawing device 6, the quantitative material taking device 7 is fixedly connected with the workbench 2, the quantitative material taking device 7 is located above the workbench 2, quantitative material taking of the wire rope is achieved through the quantitative material taking device 7, the cutting device 8 is connected with the quantitative material taking device 7, the quantitative material taking device is located above the workbench 2, and cutting of the wire rope is achieved through the cutting device 8.

The feeding device comprises a first bracket 101, a second bracket 102, a supporting frame 103, a wire box 104, a friction gasket 105, a fixing bolt 106, a limit gasket 107 and a guide roller 108, wherein the first bracket 101 and the second bracket 102 are fixedly connected and positioned above the workbench 2, the supporting frame 103 is fixedly connected with the second bracket 102 and positioned above the workbench 2, the wire box 104 is fixedly connected with the supporting frame 103 and positioned above the controller 3, the friction gasket 105 is fixedly connected with the wire box 104 and positioned above the workbench 2, the friction force between the wire box and the supporting frame is increased through the friction gasket 105, the fixing bolt 106 is connected with the friction gasket 105 and positioned above the workbench 2, the limit gasket 107 is connected with the fixing bolt 106 and positioned above the workbench 2, the rope box is prevented from moving in the working process by a limiting gasket 107, the guide roller 108 is connected with the first bracket 101 and is positioned above the workbench 2, and the ropes are led out along the guide roller 108.

The drawing device 6 comprises a second electromagnet base 601, a fourth support 602, a fifth support 603, a push plate 604, a third electromagnet 605 and a second electromagnet 606, the second electromagnet base 601 is fixedly connected with the fourth support 602, the position of the second electromagnet base is located above the fourth support 602, the second electromagnet 606 is connected with the fifth support 603, the position of the second electromagnet base is located above the fourth support 602, the fifth support is driven to move through the extension and contraction of the second electromagnet 606, the third electromagnet 605 is connected with the push plate 604, the position of the third electromagnet 605 is located above the fourth support 602, and the third electromagnet 605 is driven to move.

The quantitative material taking device 7 comprises a driving wheel 701, a guide plate 702, a driven wheel 703, a guide plate support 704, a first electromagnet 705, a first electromagnet support 706, a limit slide 707, a third support 708, a slide block 709, a first motor 710, an encoder 711 and an encoder base 712, wherein the driving wheel 701 is connected with the encoder base 712, the position of the driving wheel is below the encoder base 712, the wire rope is driven to move by the driving wheel 701, the guide plate 702 is fixedly connected with the guide plate support 704, the position of the guide plate support 704 is above the guide plate support 704, the wire rope can move along the guide plate 702 by the guide plate 702, the driven wheel 703 is connected with the third support 708, the position of the driven wheel 703 is below the guide plate 702, the first electromagnet is connected with the first electromagnet support 706, the position of the driven wheel 705 is below the first electromagnet support 706, and the first electromagnet 705 extends and retracts, thereby drive ration extracting device 7 and reciprocate, spacing slide rail 707 is connected with first electromagnet support 706, and its position is located the top of first electromagnet support 706, through spacing slide rail 707 restriction slider 709's removal, slider 709 is connected with spacing slide rail 707, and its position is located the top of first electromagnet support 706, first motor 710 is connected with action wheel 701, and its position is located the top of deflector 702, through the rotation of first motor 710, thereby drive the rotation of action wheel 701, encoder 711 is connected with encoder base 712, and its position is located the top of deflector 702, detects action wheel pivoted angle through the encoder, and will detect the letter and convey controller 3.

The cutting device 8 comprises a heat insulation support 801, a seventh support 802, a fourth electromagnet 803, a fourth electromagnet base 804, an eighth support 805 and a cutting knife 806, the heat insulation support 801 is connected with the seventh support 802, the position of the heat insulation support 801 is located above the seventh support 802, the fourth electromagnet 803 is fixedly connected with the seventh support 802, the position of the fourth electromagnet 803 is located below the seventh support 802, the seventh support 802 is driven to move up and down through the extension and retraction of the fourth electromagnet 803, the fourth electromagnet base 804 is connected with the fourth electromagnet 803, the position of the fourth electromagnet base 803 is located below the fourth electromagnet 803, the eighth support 805 is connected with the fourth electromagnet base 804, the position of the eighth support 805 is located below the fourth electromagnet base 804, the cutting knife 806 is connected with the heat insulation support 801, and the position of the cutting knife 806 is located below the eighth support 805.

The working principle is as follows: the initial state of the device is that the feeding device 1 is in a random state, the sliding block 709 in the quantitative material taking device 7 is in an initial highest position, the cutting knife 806 in the cutting device 8 is in an initial lowest position, when the device is used, a worker firstly installs the friction gasket 105 and the limit gasket 107 at two ends of the wire box 104 respectively to prevent the wire box 104 from deviating in the feeding process, secondly tightens the fixing bolt 106 to input the expected rotation angle of the first motor 710 into the controller 3, the controller 3 controls the rotation of the first motor 710 to drive the driving wheel 701 to rotate, the rotation angle of the first motor 710 is detected through the encoder 711, the encoder 711 transmits the detected angle to the controller 3, when the rotation angle of the first motor 710 reaches the predicted value of the controller 3, the controller 3 controls the first motor 710 to stop rotating, the controller 3 controls the expansion and contraction of the first electromagnet 705, thereby driving the sliding block 709 to move downwards, the driving wheel 701 also moves downwards, the driving wheel 701 compresses the rope, thereby controlling the material taking of the quantitative material taking device 7, and simultaneously, the controller 3 controls the extension and contraction of the second electromagnet 606, thereby driving the fifth bracket 603 to move back and forth, controlling the third electromagnet 606 to extend and retract through the controller 3, thereby driving the push plate 604 to move, so that the push plate 604 can compress the cord for easy drawing, the cord on the cord box 104 can be drawn out by the drawing device 6 through the guide roller 108 and the guide plate 702, after a certain amount of cord is drawn out, the controller 3 controls the fourth electromagnet 803 to stretch and retract, thereby drive reciprocating of cutting knife 806 to the completion is to the cutting of the cotton rope that the ration was taken out, and the cotton rope that the cutting was accomplished can drop storage box 5, and the workman of being convenient for uses, so reciprocal, has accomplished the ration cutting work to the cotton rope.

It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.

Claims

1. The utility model provides a cotton rope ration cutting device for building, includes material feeding unit, workstation, controller, landing leg, bin, pull device, ration extracting device and cutting device, its characterized in that: feeding device and workstation fixed connection, its position are located the top of workstation, controller and workstation fixed connection, its position are located the top of workstation, landing leg and workstation fixed connection, its position are located the below of workstation, bin and workstation fixed connection, its position is located the top of workstation, pull device and workstation fixed connection, its position is located the top of workstation, ration extracting device and workstation fixed connection, its position is located the top of workstation, cutting device is connected with ration extracting device, and its position is located the top of workstation.

2. A quantitative cutting device for construction cords as set forth in claim 1, wherein: the feeding device comprises a first support, a second support, a support frame, a silk ribbon box, a friction gasket, a fixing bolt, a limiting gasket and a guide roller, wherein the first support is fixedly connected with the second support, the first support is positioned above the workbench, the support frame is fixedly connected with the second support, the support frame is positioned above the workbench, the silk ribbon box is fixedly connected with the support frame, the friction gasket is positioned above the controller, the friction gasket is fixedly connected with the silk ribbon box, the friction gasket is positioned above the workbench, the fixing bolt is connected with the friction gasket, the fixing bolt is positioned above the workbench, the limiting gasket is connected with the fixing bolt, the limiting gasket is positioned above the workbench, the guide roller is connected with the first support, and the guide roller is positioned above the workbench.

3. A quantitative cutting device for construction cords as set forth in claim 1, wherein: the drawing device comprises a second electromagnet base, a fourth support, a fifth support, a push plate, a third electromagnet and a second electromagnet, the second electromagnet base is fixedly connected with the fourth support, the position of the second electromagnet base is located above the fourth support, the second electromagnet is connected with the fifth support, the position of the second electromagnet base is located above the fourth support, the third electromagnet is connected with the push plate, and the position of the third electromagnet base is located above the fourth support.

4. A quantitative cutting device for construction cords as set forth in claim 1, wherein: the quantitative material taking device comprises a driving wheel, a guide plate, a driven wheel, a guide plate bracket, a first electromagnet bracket, a limiting slide rail, a third bracket, a slide block, a first motor, an encoder and an encoder base, wherein the driving wheel is connected with the encoder base, the position of the driving wheel is positioned below the encoder base, the guide plate is fixedly connected with the guide plate bracket, the position of the guide plate is positioned above the guide plate bracket, the driven wheel is connected with the third bracket, the position of the driven wheel is positioned below the guide plate, the first electromagnet is connected with the first electromagnet bracket, the position of the first electromagnet is positioned below the first electromagnet bracket, the limiting slide rail is connected with the first electromagnet bracket, the position of the limiting slide rail is connected with the limiting slide rail, the position of the first electromagnet bracket is positioned above the first electromagnet bracket, and the first motor is connected with the driving wheel, the position of the encoder is above the guide plate, the encoder is connected with the encoder base, and the position of the encoder is above the guide plate.

5. A quantitative cutting device for construction cords as set forth in claim 1, wherein: the cutting device comprises a heat insulation support, a seventh support, a fourth electromagnet base, an eighth support and a cutting knife, the heat insulation support is connected with the seventh support, the position of the heat insulation support is located above the seventh support, the fourth electromagnet is fixedly connected with the seventh support and is located below the seventh support, the fourth electromagnet base is connected with the fourth electromagnet and is located below the fourth electromagnet, the eighth support is connected with the fourth electromagnet base and is located below the fourth electromagnet base, the cutting knife is connected with the heat insulation support, and the position of the cutting knife is located below the eighth support.