CN204751626U - Distributed balanced stress transmission system of fabric hot setting machine - Google Patents

Abstract

The utility model discloses a distributed balanced stress transmission system of fabric hot setting machine. The balanced stress transmission system of this distributing type mainly includes parts such as transmission shaft, servo motor or frequency conversion control motor, roll wheel, pinch roller, chain, tension sensor, central controller compares according to fabric, meshbelt, the zip fastener tension control benchmark numerical value set for, tension numerical value real -time and tension sensor to it adjusts tensile effect to reach through the rotational speed of adjusting servo motor or frequency conversion control motor. The utility model discloses an initiative rotation between the transmission shaft has compensatied the resistance that the bearing rotating in -process exists for fabric, meshbelt, zip fastener are in balanced stress all the time between each transmission shaft, the tension state of tension sensor real -time supervision fabric, meshbelt, zip fastener has been adopted to the real -time speed governing of accessible servo motor or frequency conversion control motor ensures that fabric, meshbelt, zip fastener tension accord with the tension benchmark of settlement.

Description

The distributed balanced stress driving system of fabric drying forming machine

Technical field

The utility model relates to dyeing machinery technical field, is specifically related to the distributed balanced stress driving system of a kind of fabric, ribbon, slide fastener drying and shaping handler.

Background technology

At present, fabric, ribbon, the slide fasteners such as all size slide fastener, ribbon, wrapped belt after dyeing, need to carry out drying and shaping process.In actual production, fabric, ribbon, the slide fastener shrinkage percentage at different temperatures such as slide fastener, ribbon, wrapped belt of different material character is different, if the tensile stress of ribbon does not obtain conservative control in drying course, make the Stress non-homogeneity between ribbon, easily cause ribbon to shrink the quality problems such as uneven, have a strong impact on the quality of fabric, ribbon, slide fastener production.Thus, the control of tensile stress is very important in fabric, ribbon, the process of slide fastener drying and shaping, but traditional fabric, ribbon, slide fastener drying and shaping handler seldom balancedly can control the tension force of fabric, ribbon, slide fastener, thus easily there is flaw in fabric, ribbon, slide fastener.Therefore, be necessary to develop a kind of balanced stress driving system and control method, make the tensile stress of fabric, ribbon, slide fastener can be precisely controlled.

Utility model content

In order to solve the problem, propose a kind of distributed weighing apparatus stress driving system, the tensile stress making fabric, ribbon, slide fastener remain balanced in transmittance process, improve the processing quality of fabric, ribbon, slide fastener oven dry.

The distributed balanced stress driving system of fabric drying forming machine, described fabric can replace with ribbon, slide fastener, described drying and setting machine comprises preheating cabinet and heating cabinet, it is characterized in that comprising multiple transmission shaft group, servomotor or variable frequency control motor, the axis of rolling, compression axis, chain, cylinder and tension pick-up

Wherein the first transmission shaft group and second driving shaft group form the pivot shaft of upper and lower two tissue substances, fabric between first transmission shaft group and second driving shaft group is arranged in heating cabinet, all drives in turn with before and after chain in each transmission shaft group between each transmission shaft and between two groups of transmission shaft groups; The power resources of the first transmission shaft group and second driving shaft group are in the first servomotor or variable frequency control motor; 3rd transmission group and the 4th transmission group also form upper and lower two tissue substance pivot shafts, and the fabric between the 3rd transmission group and the 4th transmission group is arranged in preheating cabinet, often to organize in transmission shaft group between each transmission shaft, all drive with before and after chain between two groups of transmission shaft groups; The power resources of the 3rd transmission group and the 4th transmission group are in the second servomotor or variable frequency control motor; On drive connection, first axis of rolling and the first compression axis are at the first servomotor or between variable frequency control motor and the first transmission shaft group, compress produced pressure between first axis of rolling and the first compression axis and produce initiatively pulling force to fabric, first axis of rolling is by the first servomotor or variable frequency control motor chain drive; Compress produced pressure between second axis of rolling and the second compression axis and the pulling force contrary with fabric working direction is produced to fabric; 3rd compression axis compresses the 3rd axis of rolling by the pressure of the first cylinder, and the thrust produced acts on fabric, and this thrust is by the axis of orientation of its axis the 3rd axis of rolling of the 3rd compression axis; 4th compression axis compresses the 4th axis of rolling by the pressure of the second cylinder, and the thrust produced acts on fabric, ribbon, slide fastener, and this thrust is by the axis of orientation of its axis the 4th axis of rolling of the 4th compression axis; The pressure of the first cylinder and the second cylinder is controlled automatically by master control system; Tension pick-up is between the first servomotor or variable frequency control motor and the second servomotor or variable frequency control motor, for responding to the tension state of fabric, ribbon, slide fastener between two servomotors or variable frequency control motor, and tension state is fed back to master control system.

Further optimally, transmission shaft in four transmission shaft groups has identical structure, transmission shaft includes fabric cylinder, clutch shaft bearing, roller, the second bearing, the first axle supporting base, the second axle supporting base, front driving wheel and rear drive sprocket, fabric cylinder two ends are separately installed with clutch shaft bearing and the second bearing, and two bearings are arranged on roller; Fabric cylinder can roll around roller, but there is resistance due to bearing, thus there is resistance between fabric cylinder and roller; Roller two ends are arranged on the first axle supporting base and the second axle supporting base respectively; One end of roller is also provided with front driving wheel and rear drive sprocket; Front driving wheel receives the driving of the rear drive sprocket of other similar transmission shaft by chain; Rear drive sprocket is then by the front driving wheel of other similar transmission shaft of chain drive.

Further optimally, the fabric cylinder in transmission shaft is identical with the rotation direction of roller, and the first transmission shaft group and second driving shaft group make the rotation of roller act in agreement under the driving of the first servomotor or variable frequency control motor; The active rotation of roller and the servo-actuated of fabric cylinder, ensure that fabric, ribbon, slide fastener transmittance process keep uniform tension in order.

The utility model can by fabric, ribbon, the slide fastener tension force control numerical benchmark of central controller according to setting, in real time compared with the tension values of tension pick-up, if overtension, then reduce the rotating speed of the first servomotor or improve the rotating speed of the second servomotor; On the contrary, if tension force is too small, then the rotating speed improving the first servomotor or the rotating speed reducing the second servomotor are relative to prior art, and the utility model has the following advantages:

The utility model compensate for the resistance existed in bearing rotary process by the active rotation between transmission shaft, make fabric, ribbon, slide fastener be in balanced stress all the time between each transmission shaft; Have employed the tension state of tension pick-up Real-Time Monitoring fabric, ribbon, slide fastener, and guarantee that fabric, ribbon, slide fastener tension force meet the tension force benchmark of setting by the real-time speed regulating of servomotor.

Accompanying drawing explanation

Fig. 1 is the overview (front elevation) of the distributed balanced stress driving system of fabric drying forming machine.

Fig. 2 is the right side partial view of the distributed balanced stress driving system of fabric drying forming machine.

Fig. 3 is the middle part partial view of the distributed balanced stress driving system of fabric drying forming machine.

Fig. 4 is the left side partial view of the distributed balanced stress driving system of fabric drying forming machine.

Fig. 5 is the tomograph of fabric cylinder and installation component thereof.

Fig. 6 is the axial cutaway view of Fig. 5.

Fig. 7 is the fragmentary three-dimensional view of first axis of rolling and neighbouring assembly.

Fig. 8 is the fragmentary three-dimensional view of the first transmission shaft group and neighbouring assembly.

Fig. 9 is the 3-D view of tension pick-up.

In figure: 1-first transmission shaft group; 2-second driving shaft group; 3-the 3rd transmission group; 4-the 4th transmission group; 5-framework; 6-first servomotor or variable frequency control motor; 7-first axis of rolling; 8-first compression axis; 9-chain; 10-second servomotor or variable frequency control motor; 11-second axis of rolling; 12-second compression axis; 13-the 3rd axis of rolling; 14-the 3rd compression axis; 15-first cylinder; 16-the 4th axis of rolling; 17-the 4th compression axis; 18-second cylinder; 19-tension pick-up; 21-fabric cylinder; 22-clutch shaft bearing; 23-roller; 24-first axle supporting base; 25-second axle supporting base; 26-front driving wheel; 27-rear drive sprocket; 28-second bearing, in figure, dotted portion all represents fabric, ribbon or slide fastener A.

Detailed description of the invention

Below in conjunction with specific embodiment, the utility model is described in further detail, but enforcement of the present utility model and protection are not limited thereto.If have below and do not describe part in detail especially, be all that those skilled in the art can refer to existing techniques in realizing.

As shown in Figure 1 to 4, the distributed balanced stress driving system of fabric drying forming machine comprises multiple transmission shaft group, servomotor or variable frequency control motor, the axis of rolling, compression axis, chain, cylinder and tension pick-up, wherein the first transmission shaft group 1 and second driving shaft group 2 form the pivot shaft of upper and lower two tissue substances, and the fabric between the first transmission shaft group 1 and second driving shaft group is arranged in heating cabinet.As Fig. 8, all drive in turn with before and after chain 9 between each transmission shaft and between two groups of transmission shaft groups in each transmission shaft group; As shown in Figure 2, the first transmission shaft group 1 and the power resources of second driving shaft group are in the first servomotor or variable frequency control motor 6; 3rd transmission group 3 and the 4th transmission group 4 also form upper and lower two tissue substance pivot shafts, fabric between 3rd transmission group 3 and the 4th transmission group 4 is arranged in preheating cabinet, as Fig. 3, often organize in transmission shaft group and all drive with before and after chain 9 between each transmission shaft, between two groups of transmission shaft groups; The power resources of the 3rd transmission group 3 and the 4th transmission group 4 are in the second servomotor or variable frequency control motor 10; As Fig. 2, on drive connection, first axis of rolling 7 and the first compression axis 8 are at the first servomotor or between variable frequency control motor 6 and the first transmission shaft group 1, as Fig. 7, compress the pressure produced between first axis of rolling 7 and the first compression axis 8 and produce initiatively pulling force to fabric, first axis of rolling 7 is by the first servomotor or variable frequency control motor 6 chain drive; As Fig. 4, compress the pressure produced between second axis of rolling 11 and the second compression axis 12 and the pulling force contrary with fabric working direction is produced to fabric; 3rd compression axis 14 compresses the 3rd axis of rolling 13 by the pressure of the first cylinder 15, and the thrust produced acts on fabric, and this thrust is by the axis of orientation of its axis the 3rd axis of rolling of the 3rd compression axis; 4th compression axis 17 compresses the 4th axis of rolling 16 by the pressure of the second cylinder 18, and the thrust produced acts on fabric, ribbon, slide fastener, and this thrust is by the axis of orientation of its axis the 4th axis of rolling of the 4th compression axis; The pressure of the first cylinder 15 and the second cylinder 18 is controlled automatically by master control system (omitting in figure); As Fig. 1 and Fig. 3, on drive connection, tension pick-up 19 is between the first servomotor or variable frequency control motor 6 and the second servomotor or variable frequency control motor 10, for responding to the tension state of fabric, ribbon, slide fastener between two servomotors or variable frequency control motor, and tension state is fed back to master control system.In Fig. 1, two dotted ellipse positions are respectively preheating cabinet and heating cabinet from left to right.As Fig. 9, tension pick-up 19 comprises two tension force sensing units 191, selvage guide roller 192, selvage guide roller 193, two bearings 194 and two mounting brackets 195.

As Fig. 5, Fig. 6, transmission shaft in four transmission shaft groups has identical structure, transmission shaft includes fabric cylinder 21, clutch shaft bearing 22, roller 23, second bearing 28, first axle supporting base 24, second axle supporting base 25, front driving wheel 26 and rear drive sprocket 27, fabric cylinder 21 two ends are separately installed with clutch shaft bearing 22 and the second bearing 28, two bearings are arranged on roller 23; Fabric cylinder 21 can roll around roller 23, but there is resistance due to bearing, thus there is resistance between fabric cylinder and roller; Roller 23 two ends are arranged on the first axle supporting base 24 and the second axle supporting base 25 respectively; One end of roller 23 is also provided with front driving wheel 26 and rear drive sprocket 27; Front driving wheel 26 receives the driving of the rear drive sprocket of other similar transmission shaft by chain; Rear drive sprocket 27 is by the front driving wheel of other similar transmission shaft of chain drive

Fabric cylinder in described transmission shaft is identical with the rotation direction of roller, and the first transmission shaft group and second driving shaft group make the rotation of roller act in agreement under the driving of the first servomotor or variable frequency control motor; The active rotation of roller and the servo-actuated of fabric cylinder, ensure that fabric, ribbon, slide fastener transmittance process keep uniform tension in order.

Central controller, according to fabric, ribbon, the slide fastener tension force control numerical benchmark of setting, in real time compared with the tension values of tension pick-up, if overtension, then reduces the rotating speed of the first servomotor or improves the rotating speed of the second servomotor; On the contrary, if tension force is too small, then improves the rotating speed of the first servomotor or reduce the rotating speed of the second servomotor, realizing balanced stress transmission.

The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change above-mentioned embodiment and revise.Therefore, the utility model is not limited to detailed description of the invention disclosed and described above, also should fall in the protection domain of claim of the present utility model modifications and changes more of the present utility model.

Claims (2)

1. the distributed balanced stress driving system of fabric drying forming machine, described fabric can replace with ribbon, slide fastener, described drying and setting machine comprises preheating cabinet and heating cabinet, it is characterized in that comprising multiple transmission shaft group, servomotor or variable frequency control motor, the axis of rolling, compression axis, chain, cylinder and tension pick-up

Wherein the first transmission shaft group (1) and second driving shaft group (2) form the pivot shaft of upper and lower two tissue substances, and the fabric between the first transmission shaft group (1) and second driving shaft group is arranged in heating cabinet ,all drive in turn with before and after chain between each transmission shaft and between two groups of transmission shaft groups in each transmission shaft group; The power resources of the first transmission shaft group and second driving shaft group are in the first servomotor or variable frequency control motor (6); 3rd transmission group (3) and the 4th transmission group (4) also form upper and lower two tissue substance pivot shafts, fabric between 3rd transmission group (3) and the 4th transmission group (4) is arranged in preheating cabinet, often to organize in transmission shaft group between each transmission shaft, all drives with before and after chain between two groups of transmission shaft groups; The power resources of the 3rd transmission group and the 4th transmission group are in the second servomotor or variable frequency control motor (10); On drive connection, first axis of rolling (7) and the first compression axis (8) are positioned at the first servomotor or between variable frequency control motor (6) and the first transmission shaft group (1), compress the pressure produced between first axis of rolling (7) and the first compression axis (8) and produce initiatively pulling force to fabric, first axis of rolling (7) is by the first servomotor or variable frequency control motor (6) chain drive; Compress the pressure produced between second axis of rolling (11) and the second compression axis (12) and the pulling force contrary with fabric working direction is produced to fabric; 3rd compression axis (14) compresses the 3rd axis of rolling (13) by the pressure of the first cylinder (15), and the thrust produced acts on fabric, and this thrust is by the axis of orientation of its axis the 3rd axis of rolling of the 3rd compression axis; 4th compression axis (17) compresses the 4th axis of rolling (16) by the pressure of the second cylinder (18), and the thrust produced acts on fabric, ribbon, slide fastener, and this thrust is by the axis of orientation of its axis the 4th axis of rolling of the 4th compression axis; The pressure of the first cylinder (15) and the second cylinder (18) is controlled automatically by master control system; Tension pick-up (19) is between the first servomotor or variable frequency control motor and the second servomotor or variable frequency control motor, for responding to the tension state of fabric, ribbon, slide fastener between two servomotors or variable frequency control motor, and tension state is fed back to master control system.

2. the distributed balanced stress driving system of fabric drying forming machine according to claim 1, it is characterized in that the transmission shaft in four transmission shaft groups has identical structure, transmission shaft includes fabric cylinder (21), clutch shaft bearing (22), roller (23), the second bearing (28), the first axle supporting base (24), the second axle supporting base (25), front driving wheel (26) and rear drive sprocket (27), fabric cylinder (21) two ends are separately installed with clutch shaft bearing (22) and the second bearing (28), and two bearings are arranged on roller (23); Fabric cylinder (21) can roll around roller (23), but there is resistance due to bearing, thus there is resistance between fabric cylinder and roller; Roller (23) two ends are arranged on the first axle supporting base (24) and the second axle supporting base (25) respectively; One end of roller (23) is also provided with front driving wheel (26) and rear drive sprocket (27); Front driving wheel (26) receives the driving of the rear drive sprocket of other similar transmission shaft by chain; Rear drive sprocket (27) is then by the front driving wheel of other similar transmission shaft of chain drive.