CN205240866U - Material is counterpointed and is met material control system - Google Patents

Abstract

The utility model relates to a sanitary towel, panty -shape diapers mechanical equipment's field provides a material is counterpointed and is met material control system, its characterized in that: include frame, an unwinding mechanism, the 2nd unwinding mechanism, trade receiving mechanism, first material fixed length conveying mechanism, second material fixed length conveying mechanism, a storage mechanism and the 2nd storage mechanism, trade on receiving mechanism, first material fixed length conveying mechanism, second material fixed length conveying mechanism, a storage mechanism and the 2nd storage mechanism all locate the frame, still include an acceleration sensor, the 2nd acceleration sensor, a color mark sensor, the 2nd color mark sensor, PLC controller and control panel. The utility model provides a current health supplies mechanical equipment is owing to connect the uneven messenger's product of material concatenation a large amount of waste products to appear to dock unable normal location even when the material dock, finally can lead to the defective percentage greatly increased of product and reduces the problem of device fabrication benefit.

Description

A kind of material contraposition control system that connects material

Technical field

The utility model relates to sanitary napkin, the field of paper diaper plant equipment, particularly a kind of material contraposition control system that connects material.

Background technology

At sanitary napkin, paper diaper are manufactured in process, tend to some material to position, as in paper diaper plant equipment to the processing that connects material of the location of counterdie and frontal waist plaster, when its locator material adopts two different material to involve in row splicing in changing-over material process, occur that composed pattern does not line up phenomenon if do not have specially treated to splice at random, the product of leaving after connecting material so just there will be a large amount of waste products even cannot normally locate docking, and the defect rate that finally can cause product greatly increases and reduces the productivity effect of equipment. Therefore be badly in need of a kind ofly can carrying out contraposition to the material of location and connecting material and make the equipment that mutually coincide of two roll of material patterns of splicing complete just material contraposition and connect material.

Summary of the invention

Therefore, for above-mentioned problem, the material contraposition that the utility model proposes a kind of percent defective that improves equipment operating efficiency, reduce material splicing, the reduces production costs control system that connects material.

For solving this technical problem, the utility model is taked following scheme: a kind of material contraposition control system that connects material, it is characterized in that: comprise frame, the first unreeling structure, the second unreeling structure, change material receiving mechanism, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the first material storage mechanism and the second material storage mechanism, the described material receiving mechanism that changes, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the first material storage mechanism and the second material storage mechanism are all located in frame, also comprise the first acceleration transducer, the second acceleration transducer, the first color mark sensor, the second color mark sensor, PLC controller and control panel, described the first acceleration transducer is located at first unreeling shaft one end of the first unreeling structure and is detected the first unreeling shaft rotating speed, described the second acceleration transducer is located at second unreeling shaft one end of the second unreeling structure and is detected the second unreeling shaft rotating speed, described the first unreeling structure is carried pre-docking material to the first material fixed-length conveying mechanism, described the first material fixed-length conveying mechanism continues to carry the pre-docking material of regular length to be delivered to the first material receiving terminal that changes material receiving mechanism through the first material storage mechanism, described the second unreeling structure is carried pre-docking material to the second material fixed-length conveying mechanism, described the second material fixed-length conveying mechanism continues to carry the pre-docking material of regular length to be delivered to the second material receiving terminal that changes material receiving mechanism through the second material storage mechanism, the described material receiving mechanism reception bi-material that changes completes docking, described the first color mark sensor is located to change material receiving mechanism below and be positioned at the first material storage mechanism output top and is detected the material that the first material storage mechanism transfers out, described the second color mark sensor is located to change material receiving mechanism below and be positioned at the second material storage mechanism output top and is detected the material that the second material storage mechanism transfers out, described control panel, the first acceleration transducer, the second acceleration transducer, the first color mark sensor is all connected with PLC controller input with the second color mark sensor, described PLC controls and connects respectively and control the first unreeling structure, the second unreeling structure, change material receiving mechanism, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the driving servomotor of the first material storage mechanism and the second material storage mechanism.

Further improve, also comprise the 3rd color mark sensor and the 4th color mark sensor, described the 3rd color mark sensor is located on the transfer passage of the first material fixed-length conveying mechanism, described the 4th color mark sensor is located on the transfer passage of the second material fixed-length conveying mechanism, and described the 3rd color mark sensor is all connected with PLC controller input with the 4th color mark sensor.

Further improve, also comprise the 3rd unreeling structure, the 4th unreeling structure, the 3rd acceleration transducer and the 4th acceleration transducer, described the 3rd acceleration transducer is located at the 3rd unreeling shaft one end of the 3rd unreeling structure and is detected the 3rd unreeling shaft rotating speed, described the 4th acceleration transducer is located at the 4th unreeling shaft one end of the 4th unreeling structure and is detected the second unreeling shaft rotating speed, described the 3rd unreeling structure is carried pre-docking material to the first material fixed-length conveying mechanism, described the first unreeling structure and the 3rd unreeling structure are for subsequent use each other, described the 4th unreeling structure is carried pre-docking material to the second material fixed-length conveying mechanism, described the second unreeling structure and the 4th unreeling structure are for subsequent use each other, described the 3rd acceleration transducer is all connected with PLC controller input with the 4th acceleration transducer, described PLC controller connects respectively and controls the driving servomotor of the 3rd unreeling structure and the 4th unreeling structure.

By adopting aforementioned techniques scheme, the beneficial effects of the utility model are: the rotary speed information of responding to the first unreeling structure and the second unreeling structure by the first acceleration transducer and the second acceleration transducer is sent to PLC controller, be located to change material receiving mechanism below and be positioned at the first material storage mechanism output top by the first color mark sensor simultaneously and detect material progress that the first material storage mechanism transfers out and the second color mark sensor and be located to change material receiving mechanism below and be positioned at the second material storage mechanism output top and detect the material progress that the second material storage mechanism transfers out, and the first color mark sensor and the second color mark sensor will be sent to PLC controller to material colour code captured information, native system is also carried the pre-docking material of regular length by PLC controller control the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism again, thereby add that in conjunction with the material colour code captured information of the first acceleration transducer and the second acceleration transducer induction information and the first color mark sensor and the second color mark sensor PLC controller self controlled the conveying of the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism and form triple guarantees and connected material by the contraposition of PLC controller total tune control bi-material by PLC controller, this material contraposition control system that connects material can realize that on the equipment of 300 ms/min of on-line velocity, to reach the contraposition effect error that connects material be positive and negative 1 centimetre, and can realize locator material changing-over material substandard products is in 5, greatly improve equipment operating efficiency, reduce the percent defective of material splicing, reduce production costs, improve productivity effect. by further improvement, the 3rd color mark sensor is located on the transfer passage of the first material fixed-length conveying mechanism and the 4th color mark sensor is located on the transfer passage of the second material fixed-length conveying mechanism, further strengthen the movement schedule of PLC controller to the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism, further improved equipment operating efficiency.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment.

Detailed description of the invention

Now with detailed description of the invention, the utility model is further illustrated by reference to the accompanying drawings.

With reference to figure 1, the preferred material contraposition of the present utility model control system that connects material, it is characterized in that: comprise frame, the first unreeling structure 1, the second unreeling structure 2, change material receiving mechanism 3, the first material fixed-length conveying mechanism 4, the second material fixed-length conveying mechanism 5, the first material storage mechanism 6, the second material storage mechanism 7, the first acceleration transducer 8, the second acceleration transducer 9, the first color mark sensor 10, the second color mark sensor 11, the 3rd color mark sensor, the 4th color mark sensor, PLC controller and control panel, the described material receiving mechanism 3 that changes, the first material fixed-length conveying mechanism 4, the second material fixed-length conveying mechanism 5, the first material storage mechanism 6 and the second material storage mechanism 7 are all located in frame, described the first acceleration transducer 8 is located at first unreeling shaft one end of the first unreeling structure 1 and is detected the first unreeling shaft rotating speed, described the second acceleration transducer 9 is located at second unreeling shaft one end of the second unreeling structure 2 and is detected the second unreeling shaft rotating speed, described the first unreeling structure 1 is carried pre-docking material to the first material fixed-length conveying mechanism 4, described the first material fixed-length conveying mechanism 4 continues to carry the pre-docking material of regular length to be delivered to the first material receiving terminal that changes material receiving mechanism 3 through the first material storage mechanism 6, described the second unreeling structure 2 is carried pre-docking material to the second material fixed-length conveying mechanism 5, described the second material fixed-length conveying mechanism 5 continues to carry the pre-docking material of regular length to be delivered to the second material receiving terminal that changes material receiving mechanism 3 through the second material storage mechanism 7, the described material receiving mechanism 3 that changes receives bi-material and completes docking, described the first color mark sensor 10 is located to change material receiving mechanism 3 belows and be positioned at the first material storage mechanism 6 output tops and is detected the material that the first material storage mechanism 6 transfers out, described the second color mark sensor 11 is located to change material receiving mechanism 3 belows and be positioned at the second material storage mechanism 7 output tops and is detected the material that the second material storage mechanism 7 transfers out, described control panel, the first acceleration transducer 8, the second acceleration transducer 9, the first color mark sensor 10 is all connected with PLC controller input with the second color mark sensor 11, described PLC controls and connects respectively and control the first unreeling structure 1, the second unreeling structure 2, change material receiving mechanism 3, the first material fixed-length conveying mechanism 4, the second material fixed-length conveying mechanism 5, the driving servomotor of the first material storage mechanism 6 and the second material storage mechanism 7, described the 3rd color mark sensor is located on the transfer passage of the first material fixed-length conveying mechanism 4, described the 4th color mark sensor is located on the transfer passage of the second material fixed-length conveying mechanism 5, described the 3rd color mark sensor is all connected with PLC controller input with the 4th color mark sensor.

The material contraposition of the present utility model control system that connects material can also arrange the 3rd unreeling structure again, the 4th unreeling structure, the 3rd acceleration transducer and the 4th acceleration transducer, described the 3rd acceleration transducer is located at the 3rd unreeling shaft one end of the 3rd unreeling structure and is detected the 3rd unreeling shaft rotating speed, described the 4th acceleration transducer is located at the 4th unreeling shaft one end of the 4th unreeling structure and is detected the second unreeling shaft rotating speed, described the 3rd unreeling structure is carried pre-docking material to the first material fixed-length conveying mechanism, described the first unreeling structure and the 3rd unreeling structure are for subsequent use each other, described the 4th unreeling structure is carried pre-docking material to the second material fixed-length conveying mechanism, described the second unreeling structure and the 4th unreeling structure are for subsequent use each other, described the 3rd acceleration transducer is all connected with PLC controller input with the 4th acceleration transducer, described PLC controller connects respectively and controls the driving servomotor of the 3rd unreeling structure and the 4th unreeling structure. thereby make the material contraposition of the present utility model control system that connects material to realize uninterrupted operation while connecting material material changing two kinds of contrapositions, further enhance productivity.

The rotary speed information that the utility model is responded to the first unreeling structure and the second unreeling structure by the first acceleration transducer and the second acceleration transducer is sent to PLC controller, be located to change material receiving mechanism below and be positioned at the first material storage mechanism output top by the first color mark sensor simultaneously and detect material progress that the first material storage mechanism transfers out and the second color mark sensor and be located to change material receiving mechanism below and be positioned at the second material storage mechanism output top and detect the material progress that the second material storage mechanism transfers out, and the first color mark sensor and the second color mark sensor will be sent to PLC controller to material colour code captured information, native system is also carried the pre-docking material of regular length by PLC controller control the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism again, thereby add that in conjunction with the material colour code captured information of the first acceleration transducer and the second acceleration transducer induction information and the first color mark sensor and the second color mark sensor PLC controller self controlled the conveying of the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism and form triple guarantees and connected material by the contraposition of PLC controller total tune control bi-material by PLC controller, this material contraposition control system that connects material can realize that on the equipment of 300 ms/min of on-line velocity, to reach the contraposition effect error that connects material be positive and negative 1 centimetre, and can realize locator material changing-over material substandard products is in 5, greatly improve equipment operating efficiency, reduce the percent defective of material splicing, reduce production costs, improve productivity effect. by further improvement, the 3rd color mark sensor is located on the transfer passage of the first material fixed-length conveying mechanism and the 4th color mark sensor is located on the transfer passage of the second material fixed-length conveying mechanism, further strengthen the movement schedule of PLC controller to the first material fixed-length conveying mechanism and the second material fixed-length conveying mechanism, further improved equipment operating efficiency.

Although specifically show and introduced the utility model in conjunction with preferred embodiment; but those skilled in the art should be understood that; not departing from the spirit and scope of the present utility model that appended claims limits; can make a variety of changes the utility model in the form and details, be protection domain of the present utility model.

Claims (3)

1. the material contraposition control system that connects material, it is characterized in that: comprise frame, the first unreeling structure, the second unreeling structure, change material receiving mechanism, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the first material storage mechanism and the second material storage mechanism, the described material receiving mechanism that changes, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the first material storage mechanism and the second material storage mechanism are all located in frame, it is characterized in that: also comprise the first acceleration transducer, the second acceleration transducer, the first color mark sensor, the second color mark sensor, PLC controller and control panel, described the first acceleration transducer is located at first unreeling shaft one end of the first unreeling structure and is detected the first unreeling shaft rotating speed, described the second acceleration transducer is located at second unreeling shaft one end of the second unreeling structure and is detected the second unreeling shaft rotating speed, described the first unreeling structure is carried pre-docking material to the first material fixed-length conveying mechanism, described the first material fixed-length conveying mechanism continues to carry the pre-docking material of regular length to be delivered to the first material receiving terminal that changes material receiving mechanism through the first material storage mechanism, described the second unreeling structure is carried pre-docking material to the second material fixed-length conveying mechanism, described the second material fixed-length conveying mechanism continues to carry the pre-docking material of regular length to be delivered to the second material receiving terminal that changes material receiving mechanism through the second material storage mechanism, the described material receiving mechanism reception bi-material that changes completes docking, described the first color mark sensor is located to change material receiving mechanism below and be positioned at the first material storage mechanism output top and is detected the material that the first material storage mechanism transfers out, described the second color mark sensor is located to change material receiving mechanism below and be positioned at the second material storage mechanism output top and is detected the material that the second material storage mechanism transfers out, described control panel, the first acceleration transducer, the second acceleration transducer, the first color mark sensor is all connected with PLC controller input with the second color mark sensor, described PLC controls and connects respectively and control the first unreeling structure, the second unreeling structure, change material receiving mechanism, the first material fixed-length conveying mechanism, the second material fixed-length conveying mechanism, the driving servomotor of the first material storage mechanism and the second material storage mechanism.

2. the material contraposition according to claim 1 control system that connects material, it is characterized in that: also comprise the 3rd color mark sensor and the 4th color mark sensor, described the 3rd color mark sensor is located on the transfer passage of the first material fixed-length conveying mechanism, described the 4th color mark sensor is located on the transfer passage of the second material fixed-length conveying mechanism, and described the 3rd color mark sensor is all connected with PLC controller input with the 4th color mark sensor.

3. the material contraposition according to claim 1 control system that connects material, it is characterized in that: also comprise the 3rd unreeling structure, the 4th unreeling structure, the 3rd acceleration transducer and the 4th acceleration transducer, described the 3rd acceleration transducer is located at the 3rd unreeling shaft one end of the 3rd unreeling structure and is detected the 3rd unreeling shaft rotating speed, described the 4th acceleration transducer is located at the 4th unreeling shaft one end of the 4th unreeling structure and is detected the second unreeling shaft rotating speed, described the 3rd unreeling structure is carried pre-docking material to the first material fixed-length conveying mechanism, described the first unreeling structure and the 3rd unreeling structure are for subsequent use each other, described the 4th unreeling structure is carried pre-docking material to the second material fixed-length conveying mechanism, described the second unreeling structure and the 4th unreeling structure are for subsequent use each other, described the 3rd acceleration transducer is all connected with PLC controller input with the 4th acceleration transducer, described PLC controller connects respectively and controls the driving servomotor of the 3rd unreeling structure and the 4th unreeling structure.