CN204096732U - A kind of rear end feeding linkage device - Google Patents

Abstract

A kind of rear end of the utility model feeding linkage device, rear end feeding linkage device comprises the second feed mechanism, finished product output device and the second link gear; Second link gear drives finished product output device and the second feed mechanism simultaneously; Second link gear comprises the second motor, transition axis and transmission component; Second driven by motor transition axis rotates; Transition axis also connects described finished product output device; Transmission component comprises the first rotating shaft, the second rotating shaft, the 3rd rotating shaft and double cog wheel belt; Second rotating shaft is between the first rotating shaft and the 3rd rotating shaft; First rotating shaft and the 3rd rotating shaft are all set in inside double cog wheel belt; The outside of double cog wheel belt is walked around the second rotating shaft and is made the first rotating shaft and the second rotating shaft reverse turn mutually.By the way, provide a kind of rear end feeding linkage device, it uses synchronous linkage structure, can improve the work efficiency of device; Moreover the clear in structure of whole device, coordinates precision between unit with unit, can the crudy of intensifying device.

Description

A kind of rear end feeding linkage device

Technical field

The utility model relates to cloth processing unit (plant) field, particularly relates to a kind of rear end feeding linkage device.

Background technology

In light industry manufacture field, the course of processing of cloth products needs to be carried by pay-off, especially in production line balance operation process mostly.And pay-off is because its structure mostly is modularity, the transmission of different structure unit, linkage process are also different, and therefore the design of feeding linkage structure is also very important link in cloth processing unit (plant).As China patent of invention " a kind of feeding drive mechanism ", its application number is: 201310212304.X.Wherein relate to a kind of feeding drive mechanism, the leading screw comprise servomotor, being rotated by driven by servomotor, described leading screw is threaded a support, described support is vertical with leading screw, the two ends of support are connected with the slip card article of blistering machine both sides respectively, during described leading screw drive support motion, the slip card article at described support two ends is synchronized with the movement along slide rail.This mechanism makes the slip card article at support two ends be synchronized with the movement along slide rail, and transmission accuracy is high; Regulated the linear bearing supporting leading screw by adjusting bolt, convenient control and regulation, further increase transmission accuracy, improve the product design of plastics sucking moulding, and transmission device noise are little.But this structure has just processed the drive connection between corresponding feeding line, and the interlock of feeding structure can not get perfect.

Utility model content

The technical matters that the utility model mainly solves is to provide a kind of rear end feeding linkage device, and it is reasonable in design, and structure is simple, solves the arraign topic on cloth feeder equipment.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is to provide a kind of rear end feeding linkage device, and described rear end feeding linkage device comprises the second feed mechanism, finished product output device and the second link gear; Described second link gear drives described finished product output device and described second feed mechanism simultaneously; Described second link gear comprises the second motor, transition axis and transmission component; Transition axis described in described second driven by motor rotates; Described transition axis also connects described finished product output device; Described transmission component comprises the first rotating shaft, the second rotating shaft, the 3rd rotating shaft and double cog wheel belt; Described second rotating shaft is between the first rotating shaft and the 3rd rotating shaft; Described first rotating shaft and the 3rd rotating shaft are all set in inside described double cog wheel belt; The outside of described double cog wheel belt is walked around described second rotating shaft and is made the first rotating shaft and the second rotating shaft reverse turn mutually; Described first rotating shaft and described second rotating shaft drive described second feed mechanism work; Described second rotating shaft is connected with described transition axis by belt transmissioning mode.

Preferably, described second feed mechanism comprises two roller group and the auxiliary devices of scroll-up/down to pressure; Described two roller groups are respectively upper roller group and lower roller group; Described upper roller group is provided with lift cylinder can drive this upper roller group upstream or downstream; Described auxiliary device is positioned at inside described roller group; Described auxiliary device carries out compression location to the material through described second feed mechanism; Described upper roller group is driven by described first rotating shaft; Described lower roller group is then driven by described second rotating shaft.

Preferably, described auxiliary device comprises base plate and stitching unit; Described base plate is fixed on the inner side of described lower roller group; The height of described base plate is identical with the rolling surface height of described lower roller group; Described stitching unit comprises driving wheel, multiple flower wheel, roll extrusion belt and pressing plate; Described driving wheel obtains power by the mode of belt wheel transmission from described transmission component; Described roll extrusion belt sleeve is loaded on described driving wheel and described flower wheel; Described roll extrusion belt is pressed down by described pressing plate and fits on described base plate; Described driving wheel is driven by described first rotating shaft.

Preferably, described second rotating shaft compresses the side be mated in described double cog wheel belt both sides, and the double cog wheel belt of this side described is inwardly tightened; Described transmission component is also provided with an asessory shaft; Opposite side in described double cog wheel belt both sides outwards struts by described asessory shaft.

The beneficial effects of the utility model are: provide a kind of rear end feeding linkage device, it is based on feed mechanism, reduce the quantity of driving link as far as possible, use synchronous linkage structure, can improve the work efficiency of device; Moreover the clear in structure of whole device, coordinates precision between unit with unit, can the crudy of intensifying device.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of rear end of the utility model feeding linkage device;

Fig. 2 is the structural representation of transmission component;

Fig. 3 is the structural representation of auxiliary device;

In accompanying drawing, the mark of each parts is as follows: 1, finished product output device; 2, the second motor; 3, transition axis; 4, transmission component; 5, the first rotating shaft; 6, the second rotating shaft; 7, the 3rd rotating shaft; 8, double cog wheel belt; 9, asessory shaft; 10, auxiliary device; 11, upper roller group; 12, lower roller group; 13, lift cylinder; 14, base plate; 15, driving wheel; 16, flower wheel; 17, roll extrusion belt; 18, pressing plate.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, to make advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection domain of the present utility model.

Refer to accompanying drawing 1 to 3, the utility model embodiment comprises:

A kind of rear end feeding linkage device, rear end feeding linkage device comprises the second feed mechanism, finished product output device 1 and the second link gear; Second link gear drives finished product output device 1 and the second feed mechanism simultaneously, and the finished product output device 1 in the present embodiment is the structure for conveying that cylinder and feeding belt coordinate.Second link gear comprises the second motor 2, transition axis 3 and described transmission component 4; Second motor 2 drives transition axis 3 to rotate, and transition axis 3 also connects finished product output device 1.Transmission component 4 comprises the first rotating shaft 5, second rotating shaft 6, the 3rd rotating shaft 7 and double cog wheel belt 8; Second rotating shaft 6 is between the first rotating shaft 5 and the 3rd rotating shaft 7, and the first rotating shaft 5 and the 3rd rotating shaft 7 are all set in inside double cog wheel belt 8, and the outside of double cog wheel belt 8 is walked around the second rotating shaft 6 and made the first rotating shaft 5 and the second rotating shaft 6 reverse turn mutually.First turn 5 and the second rotating shaft 6 drive the second feed mechanism work, and the second rotating shaft 6 is connected with transition axis 3 by belt transmissioning mode.Second rotating shaft 6 compresses the side be mated in double cog wheel belt 8 both sides, and the double cog wheel belt 8 of this side is inwardly tightened; Transmission component 4 is also provided with an asessory shaft 9; Opposite side in double cog wheel belt 8 both sides outwards struts by asessory shaft 9.Use the link gear of this structure, can synchrodrive efficiently, and the extra consumption in transmission process can not be caused, improve the serviceability of equipment.

Second feed mechanism comprises scroll-up/down and is respectively upper roller group 11 and lower roller group 12 to two roller groups of pressure and auxiliary device 10, two roller group.Upper roller group 11 is provided with lift cylinder 13 can drive this upper roller group 11 upstream or downstream, and auxiliary device 10 is positioned at inside roller group, and auxiliary device 10 carries out compression location to the material through the second feed mechanism.Upper roller group 11 is driven by the first rotating shaft 5, and lower roller group 12 is driven by the second rotating shaft 6.Auxiliary device 10 comprises base plate 14 and stitching unit, and base plate 14 is fixed on the inner side of lower roller group 12; The height of base plate 14 is identical with the rolling surface height of lower roller group 12; Stitching unit comprises driving wheel 15, multiple flower wheel 16, roll extrusion belt 17 and pressing plate 18.Driving wheel 15 obtains power by the mode of belt wheel transmission from transmission structure 4; Roll extrusion belt 17 is set on driving wheel 15 and flower wheel 16; Roll extrusion belt 17 is pressed down by pressing plate 18 and fits on base plate 14; Driving wheel 15 is driven by the first rotating shaft 5.The work of feed mechanism and auxiliary device coordinates, and can improve the stability of feeding process, can ensure the reliability of the course of processing simultaneously, improves the quality of product.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (4)

1. a rear end feeding linkage device, is characterized in that: described rear end feeding linkage device comprises the second feed mechanism, finished product output device and the second link gear; Described second link gear drives described finished product output device and described second feed mechanism simultaneously; Described second link gear comprises the second motor, transition axis and transmission component; Transition axis described in described second driven by motor rotates; Described transition axis also connects described finished product output device; Described transmission component comprises the first rotating shaft, the second rotating shaft, the 3rd rotating shaft and double cog wheel belt; Described second rotating shaft is between the first rotating shaft and the 3rd rotating shaft; Described first rotating shaft and the 3rd rotating shaft are all set in inside described double cog wheel belt; The outside of described double cog wheel belt is walked around described second rotating shaft and is made the first rotating shaft and the second rotating shaft reverse turn mutually; Described first rotating shaft and described second rotating shaft drive described second feed mechanism work; Described second rotating shaft is connected with described transition axis by belt transmissioning mode.

2. a kind of rear end according to claim 1 feeding linkage device, is characterized in that: described second feed mechanism comprises two roller group and the auxiliary devices of scroll-up/down to pressure; Described two roller groups are respectively upper roller group and lower roller group; Described upper roller group is provided with lift cylinder can drive this upper roller group upstream or downstream; Described auxiliary device is positioned at inside described roller group; Described auxiliary device carries out compression location to the material through described second feed mechanism; Described upper roller group is driven by described first rotating shaft; Described lower roller group is then driven by described second rotating shaft.

3. a kind of rear end according to claim 2 feeding linkage device, is characterized in that: described auxiliary device comprises base plate and stitching unit; Described base plate is fixed on the inner side of described lower roller group; The height of described base plate is identical with the rolling surface height of described lower roller group; Described stitching unit comprises driving wheel, multiple flower wheel, roll extrusion belt and pressing plate; Described driving wheel obtains power by the mode of belt wheel transmission from described transmission component; Described roll extrusion belt sleeve is loaded on described driving wheel and described flower wheel; Described roll extrusion belt is pressed down by described pressing plate and fits on described base plate; Described driving wheel is driven by described first rotating shaft.

4. a kind of rear end according to claim 3 feeding linkage device, is characterized in that: described second rotating shaft compresses the side be mated in described double cog wheel belt both sides, and the double cog wheel belt of this side described is inwardly tightened; Described transmission component is also provided with an asessory shaft; Opposite side in described double cog wheel belt both sides outwards struts by described asessory shaft.