CN210257577U - Equipment for continuously installing and positioning developing material on line - Google Patents

Abstract

The application discloses equipment for continuously installing and positioning developing materials on line, which comprises a first unwinding roller, a second unwinding roller, a developing material output channel, an output roller, a shearing mechanism, a composite roller and a traction roller, wherein the shearing mechanism is arranged between the output roller and the composite roller; the composite roller is arranged between the output roller and the photoelectric sensing switch; the composite roller is provided with a heating device; and the traction mechanism is arranged on a conveying path for continuously installing and positioning the developing material on line. Because the output roller and the shearing mechanism are arranged between the second unwinding roller and the composite roller, the output roller can drive the developing material to be conveyed to be compounded with the cloth according to the set output length, and the shearing mechanism can intermittently cut the developing material. In conclusion, the developing material can be conveyed to be thermally sealed with the cloth in a clearance mode according to a certain length, the discontinuous developing material is compounded on the uninterrupted cloth, and online continuous installing, positioning and compounding of the developing material are achieved.

Description

Equipment for continuously installing and positioning developing material on line

Technical Field

The application relates to the technical field of cloth production and preparation, in particular to equipment for continuously installing and positioning developing materials on line.

Background

In the prior art, the developing material is prepared on the cloth, the length of the existing material is the same as that of the cloth, the existing material and the cloth are compounded together, and then the cloth compounded with the developing material is cut into a finished product. No apparatus has been developed to compound the intermittent development material on the cloth.

Disclosure of Invention

The application provides a device for continuously installing and positioning developing materials on line.

The device comprises a first unwinding roller, a second unwinding roller, a developing material output channel, an output roller, a shearing mechanism, a compound roller and a traction roller;

the first unwinding roller is used for unwinding cloth, and the second unwinding roller is used for unwinding a developing material;

the developing material output channel is arranged below the outlet of the second unwinding roller and used for controlling the output position and the output form of the developing material unwound by the second unwinding roller;

the output roller is arranged between the developing material output channel and the shearing mechanism, and the output roller is connected with a driving device;

the shearing mechanism is arranged between the output roller and the composite roller and is used for cutting the developing material;

the composite roller is arranged between the shearing mechanism and the traction mechanism, a heating device is arranged on the composite roller, and the composite roller is used for horizontally overlapping the cloth and the developing material together and heating and compounding the cloth and the developing material;

the traction mechanism is arranged on a conveying path for continuously installing and positioning the developing materials on line.

The device comprises a compound roller, a controller and a photoelectric sensing switch, wherein the photoelectric sensing switch is arranged on a conveying path behind the compound roller and used for detecting the position of a developing material and generating a corresponding detection signal, and the controller is respectively in signal connection with the photoelectric sensing switch, a traction device, a driving device and a shearing mechanism and used for acquiring the detection signal of the photoelectric sensing switch and controlling the traction device, the driving device and the shearing mechanism to start and stop.

Further, shearing mechanism includes support, cylinder, cutter and conveying platform, the conveying platform is installed on the transfer path of development material, the support mounting is other at the conveying platform, the cylinder is vertical to be installed on the support, the output of cylinder sets up down, the cutter is installed on the output of cylinder to set up towards the conveying platform.

Further, still include transition roller and tensioning roller, transition roller and tensioning roller install respectively on cloth and the conveying path of development material.

According to the equipment for online continuously adding and positioning the developing materials, the output roller and the shearing mechanism are arranged between the second unwinding roller and the composite roller, the output roller can drive the developing materials to be conveyed to be compounded with the cloth at intervals, the shearing mechanism can cut the developing materials, the developing materials can be conveyed to be thermally sealed with the cloth in a clearance mode according to a certain length, discontinuous developing materials are compounded on the uninterrupted cloth, and online continuously adding and positioning compounding of the developing materials are achieved.

Drawings

FIG. 1 is a schematic view showing the structure of an apparatus for continuously charging and positioning a developing material on-line in one embodiment;

FIG. 2 is a schematic view of a partial structure of an apparatus for continuously charging and positioning a developing material on-line in one embodiment;

FIG. 3 is a block diagram showing the structure of a control part of the apparatus for continuously charging and positioning a developing material on-line in one embodiment;

FIG. 4 is a flow chart of a method for in-line continuous loading and positioning of developer material in one embodiment.

Detailed Description

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

The first embodiment is as follows:

as shown in fig. 1, the apparatus for online continuously loading and positioning a developing material of this embodiment mainly includes a first unwinding roller 10, a second unwinding roller 20, a composite roller 30 and a pulling roller 40, wherein an output roller 50 and a shearing mechanism 60 are sequentially installed between the second unwinding roller 20 and the composite roller 30 according to a conveying direction, a developing material output passage 21 is installed at an outlet of the second unwinding roller 20, the developing material output passage 21 is installed between the second unwinding roller 20 and the output roller 50, and the developing material output passage 21 is used for outputting a position and a form of the developing material.

The first unwinding roller 10 is used to unwind a cloth, and the second unwinding roller 20 is used to unwind a developing material, such as an X developing line. The composite roll 30 is installed at the intersection position of the two unwinding paths of the first unwinding roll 10 and the second unwinding roll 20, the developing material and the cloth are combined on the composite roll 30, and the composite roll 30 is installed with a heating device, such as a heating sheet or a heating pipe, which is installed in the composite roll 30 to heat the surface of the composite roll 30, so that the developing material is thermally bonded to the cloth on the composite roll 30. The traction roller 40 is arranged at the tail end and is positioned on a transmission path behind the composite roller 30, the traction roller 40 is connected with a traction device 71, the traction device 71 is a motor with a speed reducer, and the traction device 71 is used for driving the traction roller 40 to carry out active output.

The feeding roller 50 is disposed on the transport path after the first unwinding roller 10, the driving device 72 is connected to the feeding roller 50, the driving device 72 is also a motor with a speed reducer, and the driving device 72 is used for driving the feeding roller 50 to actively transport the developing material.

As shown in fig. 2, the shearing mechanism 60 is installed on the conveyance path after the carry-out roll 50, between the carry-out roll 50 and the compound roll 30. The shearing mechanism 60 comprises a support 61, a cylinder 62, a cutter 63 and a conveying table 64, the conveying table 64 is installed on a conveying path of the developing material, the support 61 is installed beside the conveying table 64, the cylinder 62 is vertically installed at the upper end of the support 61, the output end of the cylinder 62 is arranged downwards, the cutter 63 is installed at the output end of the cylinder 62, the cutting end of the cutter 63 is arranged towards the conveying table 64, and the cutter 63 is driven by the cylinder 62 to contact with the conveying table 64 in an orientation mode to form shearing on the developing material.

As shown in fig. 3, the apparatus of the present embodiment further includes a controller 80 and a photoelectric sensing switch 90, and the photoelectric sensing switch 90 is installed on the conveying path behind the compound roller 30, and is used for detecting the position and the interval distance of the developing material on the cloth and generating a corresponding detection signal.

The controller 80 is in signal connection with the photoelectric sensing switch 90, the traction device 71, the driving device 72 and the cylinder 62 of the shearing mechanism 60 respectively, the controller 80 is used for acquiring a real-time detection signal of the photoelectric sensing switch 90 and confirming the position and the spacing distance of the developing material, a length threshold value of the developing material is arranged in the controller, the interval between the cutting edge of the shearing mechanism and the photoelectric sensing switch 90 is a setting spacing distance for continuously additionally installing the developing material, and after the controller 80 acquires the real-time detection signal of the photoelectric sensing switch 90, the shearing mechanism 60 starts to cut off the material. The shearing mechanism finishes shearing and returning signals to start the output roller 50 to convey the developing material, the developing material output by the output roller is automatically stopped after reaching a set length, and the shearing mechanism 60 starts shearing when the photoelectric sensing switch 90 senses that the developing material reaches; the output roller 50, the shearing mechanism 60, the compound roller 30, the photoelectric sensing switch 90 and the controller 80 of the developing materials are a related control circulating system for compounding the developing materials with fixed length and equal distance and the cloth. The running speed of the traction device 71 is set in the controller 80 and runs at a constant speed. The developing material is circularly cut and unreeled, and the cloth is drawn at a constant speed by the drawing device, so that the developing material with fixed length is alternately compounded on the cloth.

In this embodiment, the apparatus further includes a plurality of transition rollers and tension rollers, which are respectively installed on the transfer paths of the developing material and the cloth, and are used to change the transfer direction and the transfer tension of the developing material and the cloth.

According to the online continuous charging and positioning equipment for the developing materials, the output roller 50 and the shearing mechanism 60 are installed between the second unwinding roller 20 and the composite roller 30, the output roller 50 can drive the developing materials to be conveyed to be compounded with cloth at intervals, the shearing mechanism 60 can cut the developing materials, the developing materials can be conveyed to be thermally sealed with the cloth at intervals according to a certain length, discontinuous developing materials are compounded on the uninterrupted cloth, and online continuous charging and positioning compounding of the developing materials are achieved.

Example two:

as shown in fig. 4, the present embodiment provides a method for continuously loading and positioning a developing material on line, which is implemented based on the above apparatus for continuously loading and positioning a developing material on line. The method comprises the following steps:

s01: unreeling;

the first unwinding roller 10 unwinds the fabric under the traction of the traction roller 40, and the second unwinding roller 20 unwinds the developing material under the traction of the output roller 50.

S02: shearing;

after the developing material and the cloth are compounded, the photoelectric sensing switch 90 detects the position of the developing material in real time and generates a corresponding detection signal; the controller 80 converts the detection signal into a cutting start signal for the cutting mechanism 60 to cut the developing material, and the cutting start signal starts the cutting mechanism 60 to cut the developing material.

S03: compounding;

the developing material and the cloth are merged and thermally bonded together at the composite roll 30.

S04: continuously unreeling;

after the shearing mechanism 60 finishes shearing the developing material, a return signal of the cutter is transmitted to the controller 80, and the controller 80 converts the return signal into an unwinding starting signal of the output roller 50;

s05: controlling the composite circulation of the developing material;

the shearing mechanism 60, the output roller 50, the photoelectric sensing switch 90 and the controller 80 form a circulating ring for compounding the developing material with fixed length and fixed interval and the cloth.

S06: a traction device;

the traction device 71 draws the cloth at a constant speed according to the set speed in the controller 80, so that the developing materials with fixed length can be alternately compounded on the cloth until the final production is finished.

According to the method, the developing materials with fixed lengths can be compounded on the continuous cloth at intervals, the production process flow is optimized, labor is reduced, and the production benefit is improved.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (4)

1. An online continuous loading and positioning device for a developing material is characterized by comprising a first unwinding roller, a second unwinding roller, a developing material output channel, an output roller, a shearing mechanism, a composite roller and a traction roller;

the first unwinding roller is used for unwinding cloth, and the second unwinding roller is used for unwinding a developing material;

the developing material output channel is arranged below the outlet of the second unwinding roller and used for controlling the output position and the output form of the developing material unwound by the second unwinding roller;

the output roller is arranged between the developing material output channel and the shearing mechanism, and the output roller is connected with a driving device;

the shearing mechanism is arranged between the output roller and the composite roller and is used for cutting the developing material;

the composite roller is arranged between the shearing mechanism and the traction mechanism, a heating device is arranged on the composite roller, and the composite roller is used for horizontally overlapping the cloth and the developing material together and heating and compounding the cloth and the developing material;

the traction mechanism is arranged on a conveying path for continuously installing and positioning the developing materials on line.

2. The apparatus for on-line continuous charging and positioning of developing materials according to claim 1, further comprising a controller and a photoelectric sensing switch, wherein the photoelectric sensing switch is installed on a conveying path behind the compound roller and used for detecting the position of the developing materials and generating corresponding detection signals, and the controller is respectively in signal connection with the photoelectric sensing switch, the traction device, the driving device and the shearing mechanism and used for acquiring the detection signals of the photoelectric sensing switch and controlling the start and stop of the traction device, the driving device and the shearing mechanism.

3. The apparatus for on-line continuous loading and positioning of developing material according to claim 2, wherein the shearing mechanism comprises a frame, a cylinder, a cutter, and a conveying table, the conveying table is installed on a conveying path of the developing material, the frame is installed beside the conveying table, the cylinder is vertically installed on the frame, an output end of the cylinder is disposed downward, and the cutter is installed on an output end of the cylinder and disposed toward the conveying table.

4. The apparatus for on-line continuous charging and positioning of developing material according to any one of claims 1 to 3, further comprising a transition roller and a tension roller which are respectively installed on a cloth and a conveying path of the developing material.

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