CN205170056U - Tension automatic regulating device - Google Patents

Abstract

The utility model discloses a tension automatic regulating device belongs to the optical cable manufacture equipment, the current tape unit tension control shakiness of putting, and system feedback is untimely, and equipment is slow in reacting, the utility model discloses a: put the tape unit, it has the tep reel and places position and this tep reel and place the position and have a stopper, the brake monitor, be located the guide pulley of putting the tape unit low reaches, it assembles on a crane, and the crane is connected on a tension holding device, the potentiometre, the machinery transmission mechanism, it is connected between potentiometre and crane, tension holding device makes the crane go up and down during tension change on the guide pulley, and the lift of crane turns into the gyration of potentiometre through mechanical transmission mechanism, and the gyration of potentiometre produces control signal and the brake monitor is given in the transmission, and the brake monitor produces tension control signal instruction stopper and adjusts the brake force of self. Through the continuous feedback regulation of brake monitor with the potentiometre, realize finally that the tension on the leading wheel tends to balance, reach the requirement of settlement.

Description

Tension automatic regulating device

Technical field

The utility model belongs to fiber optic cable manufacturing equipment, specifically puts steel (aluminium) tension automatic regulating device with operation in a kind of optical cable production process.

Background technology

In the production process of optical cable, have steel (aluminium) to be with put this operation of band machine, this operation effect is that the steel band of entire volume or aluminium strip are transported to manufacturing line with certain tension force.The domestic tension force putting band machine controls unstable at present, and the tension control method of use is speed, dish footpath two factor controls tension control assembly by particular algorithm output after superposing and controls to export tension force.Because whole system is fed back not in time, cause equipment reaction blunt, in production process, steel (aluminium) band is often in no-station pole canopy or the less phenomenon of tension force, cause the conveying of steel aluminium strip to stop or affect the quality of whole product, as belt machine place broken belt, bulge take place frequently, existing Production requirement cannot be met.

Utility model content

The technical assignment of the technical problems to be solved in the utility model and proposition overcomes existing band machine tension force of putting to control unstable, and not in time, the defects such as equipment reaction is blunt, provide a kind of tension automatic regulating device to system feedback.

For achieving the above object, tension automatic regulating device of the present utility model, is characterized in that comprising:

Put band machine, it has tep reel placement position and this tep reel placement position has drg;

Brake controller;

Put the guide wheel in band machine downstream described in being positioned at, it is assemblied on a crane, and described crane is connected on a tension force holding device;

Potential device;

Mechanical transfer mechanism, it is connected between described potential device and crane;

Tension force holding device described in during tension variation on described guide wheel impels described crane to be elevated, the lifting of described crane is the revolution of described potential device through described mechanical transfer organisation conversion, the revolution of described potential device produces control signal and passes to described brake controller, and described brake controller produces the braking force of the drg adjustment self described in tension control signal instruction.

As optimization technique means: described drg is sucked type drg.

As optimization technique means: described crane is assemblied on a support body by guide rod, described tension force holding device is connected between described crane and support body.

As optimization technique means: described mechanical transfer mechanism comprises a gear cluster, described gear cluster has one for the fork that drives described gear cluster to rotate and an output shaft, described crane is provided with the pulling part for stirring described fork, and described potential device connects the output shaft of described gear cluster.

As optimization technique means: described fork has long slot bore, described pulling part is positioned at described long slot bore.

As optimization technique means: described gear cluster is assemblied on described support body by erecting frame.

As optimization technique means: described tension force holding device is a cylinder, it comprises cylinder body, be positioned at the piston of cylinder body, the piston rod be connected on described piston, atmospheric pressure cavity is formed in the side of described piston, spring is equipped with in described cylinder body, the elastic force of described spring acts on described piston, and described piston rod, cylinder body are connected between described crane and support body.

As optimization technique means: described atmospheric pressure cavity is connected with pressure regulating valve.

Described brake controller is by signal wire (SW) or radio communication and described drg, potential device signal transmission.

The beneficial effects of the utility model are: by the tension flexible regulatory function of self, well have adjusted steel (aluminium) with input process in tension force instability problem, system feedback is timely, and equipment reaction is quick, achieves the stable input of identical tension of steel aluminium strip.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model tension automatic regulating device;

Fig. 2 is the assembling schematic diagram of the utility model guide wheel, crane, cylinder, mechanical transfer mechanism;

Fig. 3 is the axonometric drawing of Fig. 2;

Fig. 4 is the schematic diagram of the utility model mechanical transfer mechanism;

Fig. 5 is that the A-A of Fig. 4 is to cutaway view;

Fig. 6 is the structural representation of the utility model cylinder;

Number in the figure illustrates:

01-puts band machine, 11-drg;

02-brake controller;

03-guide wheel, 31-crane, 311-pulling part, 32-tension force holding device, 321-cylinder body, 322-piston, 323-piston rod, 324-atmospheric pressure cavity, 325-spring, 326-pressure regulating valve, 33-guide rod, 34-support body;

04-potential device;

05-mechanical transfer mechanism, 51-gear cluster (big gear wheel, miniature gears), 52-fork, 53-output shaft, 54-long slot bore, 55-erecting frame;

06-signal wire (SW);

The 07-roll coil of strip;

08-steel (aluminium) is with.

Detailed description of the invention

Below in conjunction with Figure of description, the utility model is described further.

Tension automatic regulating device of the present utility model, as shown in Figure 1, it comprises:

Put band machine 01, it has tep reel placement position and this tep reel placement position has drg 11; In order to enhance productivity, this puts band machine is that double plate puts band machine, it can place simultaneously a roll coil of strip 07;

Brake controller 02, diagram be positioned at put band machine 01 support body on, concrete also can be positioned at other position when implementing;

Be positioned at the guide wheel 03 putting band machine downstream, it is assemblied on a crane 31, crane 31 is connected on a tension force holding device 32, rely on tension force holding device downward tractive force is applied to guide wheel in case to around the steel (aluminium) on guide wheel with the comparatively constant tensile force of 08 maintenance; Described downstream is steel (aluminium) downstream with lead.

Potential device 04, for generation of electric potential signal;

Mechanical transfer mechanism 05, it is connected between potential device 04 and crane 31, for the lifting of crane 31 being converted to the revolution of potential device 04;

During tension variation on guide wheel 03, tension force holding device 32 impels crane 31 to be elevated, the lifting of crane 31 is converted into the revolution of potential device 04 through mechanical transfer mechanism 05, the revolution of potential device 04 produces control signal and passes to brake controller 02, and brake controller 02 produces the braking force that tension control signal instruction drg 11 regulates self.

Concrete, drg 11 is sucked type drg.

See Fig. 2-3, crane 31 is assemblied on a support body 34 by guide rod 33, and crane 31 is elevated flexibly, and tension force holding device 32 is connected between crane 31 and support body 34.

See Fig. 4-5, mechanical transfer mechanism 05 comprises a gear cluster 51(and is illustrated as a big gear wheel, a miniature gears, can adjust according to demand during concrete enforcement), gear cluster 51 have one for drive gear set rotate this fork of fork 52(and described big gear wheel assemble, fork swings with bull gear drive) and an output shaft 53(output shaft and miniature gears fix and assemble, during pinion rotation, output shaft together rotates), crane 31 is provided with pulling part 311(for stirring fork see 2-3), potential device 04 connects the output shaft of gear cluster 51 and can turn round along with output shaft.

Fork 52 has long slot bore 54, and pulling part 311 is positioned at long slot bore 54, thus fork is coordinated with pulling part flexibly.Graphic fork is made up of two poles be assemblied in big gear wheel, and described long slot bore is between two poles.

Gear cluster 51 is assemblied in (see Fig. 2-3) on support body 34 by erecting frame 55.

Tension force holding device 32 is a cylinder, it comprises cylinder body 321, be positioned at the piston 322 of cylinder body, the piston rod 323 be connected on piston, atmospheric pressure cavity 324 is formed in the side of piston 322, spring 325 is equipped with in cylinder body 321, the elastic force of spring 325 acts on piston 322, and piston rod 323, cylinder body 321 are connected between crane 31 and support body 34.During concrete enforcement, the position of spring, atmospheric pressure cavity can be changed.During work, this cylinder produces elastic force as same common spring, can be changed the deflection of spring by the pressure in adjustable pressure chamber, therefore, replaces means, can substitute cylinder as tension force holding device with spring or cluster spring as one.For the ease of regulating, atmospheric pressure cavity 324 is connected with pressure regulating valve 326.

Brake controller 02 is by signal wire (SW) 06 or radio communication and drg, potential device signal transmission.

During work, the roll coil of strip 07 is placed in and puts on band machine 01 and be limited by drg and be unlikely to free release steel (aluminium) band, be with 08 to walk around below guide wheel 03 steel (aluminium).When steel (aluminium) with tension stability time, steel (aluminium) with tension force and the tension balanced of tension force holding device, guide wheel can be in stress balance state, and idler positions is not done to change; When steel (aluminium) with tension force change time, guide wheel stress is unbalance, namely be elevated with crane, the lifting of crane is the revolution of potential device through mechanical transfer organisation conversion, the revolution of potential device produces control signal and passes to brake controller, and brake controller produces the braking force that tension control signal instruction drg regulates self.By the continuous feedback regulation of brake controller and potential device, the tension force finally realized in track adjusting wheel tends to balance, and reaches the requirement of setting.

Claims (9)

1. tension automatic regulating device, is characterized in that comprising:

Put band machine (01), it has tep reel placement position and this tep reel placement position has drg (11);

Brake controller (02);

Put the guide wheel (03) in band machine downstream described in being positioned at, it is assemblied on a crane (31), and described crane (31) is connected on a tension force holding device (32);

Potential device (04);

Mechanical transfer mechanism (05), it is connected between described potential device (04) and crane (31);

Tension force holding device (32) described in during tension variation on described guide wheel (03) impels described crane (31) to be elevated, the lifting of described crane (31) is converted into the revolution of described potential device (04) through described mechanical transfer mechanism (05), the revolution of described potential device (04) produces control signal and passes to described brake controller (02), and the described drg (11) described in the instruction of brake controller (02) generation tension control signal regulates the braking force of self.

2. tension automatic regulating device according to claim 1, is characterized in that: described drg (11) is sucked type drg.

3. tension automatic regulating device according to claim 1, it is characterized in that: described crane (31) is assemblied on a support body (34) by guide rod (33), described tension force holding device (32) is connected between described crane (31) and support body (34).

4. tension automatic regulating device according to claim 3, it is characterized in that: described mechanical transfer mechanism (05) comprises a gear cluster (51), described gear cluster (51) has one for the fork (52) that drives described gear cluster to rotate and an output shaft (53), described crane (31) is provided with the pulling part (311) for stirring described fork, and described potential device (04) connects the output shaft (53) of described gear cluster (51).

5. tension automatic regulating device according to claim 4, is characterized in that: described fork (52) has long slot bore (54), and described pulling part (311) is positioned at described long slot bore (54).

6. tension automatic regulating device according to claim 4, is characterized in that: described gear cluster (51) is assemblied on described support body (34) by erecting frame (55).

7. the tension automatic regulating device according to claim 1 or 3, it is characterized in that: described tension force holding device (32) is a cylinder, it comprises cylinder body (321), be positioned at the piston (322) of cylinder body, be connected to the piston rod (323) on described piston, atmospheric pressure cavity (324) is formed in the side of described piston (322), spring (325) is equipped with in described cylinder body (321), the elastic force of described spring (325) acts on described piston (322), described piston rod (323), cylinder body (321) is connected between described crane (31) and support body (34).

8. tension automatic regulating device according to claim 7, is characterized in that: described atmospheric pressure cavity (324) is connected with pressure regulating valve (326).

9. tension automatic regulating device according to claim 1, is characterized in that: described brake controller (02) is by signal wire (SW) (06) or radio communication and described drg (11), potential device (04) signal transmission.