CN210312869U - Thread roller positioning mechanism for stereoscopic cladding bunchy yarn - Google Patents

Abstract

The utility model provides a line roller positioning mechanism of third dimension cladding bunchy yarn belongs to mechanical technical field. It has solved the problem that the suitability is poor that prior art exists. This line roller positioning mechanism of third dimension cladding bunchy yarn includes base plate, location strip, connecting rod and spring, and above-mentioned base plate is long platelike, it has recessed spread groove to follow its length direction on the base plate, spread groove bottom department has the guiding hole that is rectangular form and runs through, and above-mentioned location strip links firmly in spread groove lateral wall department, has a plurality of recessed location mouths along its length direction on the location strip, and above-mentioned connecting rod middle part has convex location portion, and above-mentioned location portion inlays and locates the position department and the location size is greater than the guiding hole size, and the connecting rod inner is stretched out the base plate inboard by guiding hole department. This line roller positioning mechanism of third dimension cladding bunchy yarn is high.

Description

Thread roller positioning mechanism for stereoscopic cladding bunchy yarn

Technical Field

The utility model belongs to the technical field of machinery, a line roller positioning mechanism of third dimension cladding bunchy yarn is related to.

Background

The bamboo joint yarns wrapped by the superstrong stereoscopic impression are orderly wound and stored on the thread roller for positioning the thread roller. Usually, a frame of the twisting machine is fixedly connected with a support and a connecting rod for axially positioning the thread roller, and the connecting rod is arranged on the thread roller in a penetrating way.

It can be seen that, because the connecting rod directly links firmly with the support, such structure leads to the hookup location of line roller fixed, and to different occasion demands, its suitability is relatively poor.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide a high and compact structure's line roller positioning mechanism of third dimension cladding bunchy yarn of suitability.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a line roller positioning mechanism of third dimension cladding bunchy yarn, its characterized in that, includes base plate, location strip, connecting rod and spring, and above-mentioned base plate is long platelike, it has recessed spread groove to follow its length direction on the base plate, spread groove bottom department has and is rectangular form guiding hole that runs through, and above-mentioned location strip links firmly in spread groove lateral wall department, has a plurality of recessed location mouths along its length direction on the location strip, and above-mentioned connecting rod middle part has convex location portion, and above-mentioned location portion inlays in location mouth department and location portion size is greater than the guiding hole size, and the base plate is inboard stretched out by guiding hole department in the connecting rod inner, and the base plate outside is stretched out to the connecting rod outer end, and the both ends of above-mentioned spring are connected respectively on connecting rod inner and.

In this positioning mechanism of line roller, because the connecting rod inlays in the guiding hole department of base plate to the size of connecting portion is greater than the guiding hole size, stable the inlaying in the locating point department of location strip of location portion under the spring action of spring, location portion supports and leans on in spread groove bottom department simultaneously.

Because the positioning part is stably embedded in the positioning opening, the structure finally enables the connecting rod to be stably connected to the base plate. Because the location mouth on the location strip is connected with location portion cooperation, at this moment, the connecting rod can not be for the guiding hole translation of base plate.

When the position of the connecting rod needs to be adjusted, external force is applied to push the connecting rod, and once the connecting rod is separated from the positioning opening of the positioning strip, the connecting rod can translate along the guide hole of the substrate. Once the position of the connecting rod is determined, the external force is stopped to be applied, the positioning part is embedded at the positioning opening of the positioning strip again, and the connecting strip is positioned on the base plate again.

Of course, the number of the positioning openings on the positioning strip is multiple, so that the structure can ensure that the adjusting positions of the connecting rods are also multiple.

In the thread roller positioning mechanism for stereoscopic cladding bunchy yarns, the outer end of the connecting rod is provided with the convex blocking edge, the spring is sleeved on the connecting rod, and two ends of the spring respectively abut against the blocking edge and the inner side of the base plate.

The spring can be limited through the blocking edge, and the spring can be stably connected to the connecting rod.

In the thread roller positioning mechanism for stereoscopic cladding bunchy yarns, the positioning part is rectangular, the positioning opening is matched with the side part of the positioning part, and the positioning part is embedded in the positioning opening.

Because the positioning opening is matched with the side part of the positioning part, and the positioning part is in a cuboid shape, the structure can ensure that the positioning part can not rotate relative to the positioning strip when the positioning part is connected with the positioning strip.

In the thread roller positioning mechanism for stereoscopic cladding bunchy yarns, the outer end of the connecting rod is provided with the connecting section which is bent upwards.

The connecting section is arranged on the wire roller in a penetrating mode, the lower end of the wire roller is abutted to the connecting rod, and the wire roller can be axially fixed at the outer end of the connecting rod stably through the structure.

In the thread roller positioning mechanism for stereoscopic impression cladding bunchy yarns, the number of the positioning strips is two, and the two positioning strips are respectively and fixedly connected with the corresponding side walls of the base plate connecting grooves.

In the thread roller positioning mechanism for stereoscopic impression coating bunchy yarn, the positioning openings on the two positioning strips are arranged in a one-to-one correspondence manner, and the two sides of the positioning part are respectively embedded in the corresponding positioning openings.

Such a structure can stably position both sides of the positioning portion, and can improve connection stability.

In the thread roller positioning mechanism for stereoscopic impression coating bunchy yarns, the positioning strip is fixedly connected on the base plate through the fastener.

In the thread roller positioning mechanism for stereoscopic impression coating bunchy yarns, the substrate is made of plastic material.

In the thread roller positioning mechanism for stereoscopic impression coating bunchy yarns, the positioning strips are made of metal materials.

Such a structure can appropriately reduce the cost of the mechanism.

In the thread roller positioning mechanism for stereoscopic cladding bunchy yarns, the connecting rod and the connecting part are of an integrated structure.

Compared with the prior art, this line roller positioning mechanism of third dimension cladding bunchy yarn because the connecting rod can fix a position in the different positions on the base plate, consequently, changes the position of connecting rod according to actual demand, can effectively improve its suitability through this positioning mechanism.

Meanwhile, the positioning strip is fixedly connected in the connecting groove of the base plate, so that the structure compactness of the positioning strip is properly improved, and the positioning strip has high practical value.

Drawings

Fig. 1 is a schematic structural view of a line roller positioning mechanism of the stereoscopic sense cladding bunchy yarn.

Fig. 2 is a schematic side view structure view of the thread roller positioning mechanism for stereoscopic covering bunchy yarn.

Fig. 3 is a schematic structural view of the line roller positioning mechanism for stereoscopic covering bunchy yarn.

In the figure, 1, a substrate; 1a, connecting grooves; 1b, a guide hole; 2. a positioning bar; 2a, a positioning opening; 3. a connecting rod; 3a, a positioning part; 3b, blocking edges; 3c, a connecting section; 4. a spring.

Detailed Description

As shown in fig. 1, 2 and 3, the thread roller positioning mechanism for stereoscopic covered bunchy yarn comprises a base plate 1, a positioning strip 2, a connecting rod 3 and a spring 4, wherein the base plate 1 is in a long plate shape, a concave connecting groove 1a is arranged on the base plate 1 along the length direction of the base plate, a guide hole 1b which is penetrated through in a long strip shape is arranged at the bottom of the connecting groove 1a, the positioning strip 2 is fixedly connected at the side wall of the connecting groove 1a, a plurality of concave positioning openings 2a are arranged on the positioning strip 2 along the length direction of the positioning strip, a convex positioning part 3a is arranged in the middle of the connecting rod 3, the positioning part 3a is embedded at the positioning opening 2a, the size of the positioning part 3a is larger than that of the guide hole 1b, the inner end of the connecting rod 3 extends out of the inner side of the base plate 1 from the position of the guide hole 1b, the positioning portion 3a tends to be fitted into the positioning hole 2a by the elastic force of the spring 4.

The outer end of the connecting rod 3 is provided with a convex blocking edge 3b, the spring 4 is sleeved on the connecting rod 3, and two ends of the spring 4 are respectively abutted against the blocking edge 3b and the inner side of the base plate 1.

The positioning part 3a is rectangular, the positioning opening 2a is matched with the side part of the positioning part 3a, and the positioning part 3a is embedded in the positioning opening 2 a.

The outer end of the connecting rod 3 is provided with a connecting section 3c bent upwards.

The number of the positioning strips 2 is two, and the two positioning strips 2 are respectively and fixedly connected with the corresponding side walls of the connecting grooves 1a of the base plate 1.

The positioning openings 2a on the two positioning strips 2 are arranged in a one-to-one correspondence manner, and the two sides of the positioning portion 3a are respectively embedded in the corresponding positioning openings 2 a.

The positioning strip 2 is fixedly connected on the base plate 1 through a fastener.

The substrate 1 is a plastic material.

The positioning strip 2 is made of metal material.

The connecting rod 3 and the connecting part 3a are of an integrated structure.

In this positioning mechanism of line roller, because the connecting rod inlays in the guiding hole department of base plate to the size of connecting portion is greater than the guiding hole size, stable the inlaying in the locating point department of location strip of location portion under the spring action of spring, location portion supports and leans on in spread groove bottom department simultaneously.

Because the positioning part is stably embedded in the positioning opening, the structure finally enables the connecting rod to be stably connected to the base plate. Because the location mouth on the location strip is connected with location portion cooperation, at this moment, the connecting rod can not be for the guiding hole translation of base plate.

When the position of the connecting rod needs to be adjusted, external force is applied to push the connecting rod, and once the connecting rod is separated from the positioning opening of the positioning strip, the connecting rod can translate along the guide hole of the substrate. Once the position of the connecting rod is determined, the external force is stopped to be applied, the positioning part is embedded at the positioning opening of the positioning strip again, and the connecting strip is positioned on the base plate again.

Of course, the number of the positioning openings on the positioning strip is multiple, so that the structure can ensure that the adjusting positions of the connecting rods are also multiple.

Claims (10)

1. The utility model provides a line roller positioning mechanism of third dimension cladding bunchy yarn, its characterized in that, includes base plate, location strip, connecting rod and spring, and above-mentioned base plate is long platelike, it has recessed spread groove to follow its length direction on the base plate, spread groove bottom department has and is rectangular form guiding hole that runs through, and above-mentioned location strip links firmly in spread groove lateral wall department, has a plurality of recessed location mouths along its length direction on the location strip, and above-mentioned connecting rod middle part has convex location portion, and above-mentioned location portion inlays in location mouth department and location portion size is greater than the guiding hole size, and the base plate is inboard stretched out by guiding hole department in the connecting rod inner, and the base plate outside is stretched out to the connecting rod outer end, and the both ends of above-mentioned spring are connected respectively on connecting rod inner and.

2. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 1, wherein the outer end of the connecting rod is provided with a convex blocking edge, the spring is sleeved on the connecting rod, and two ends of the spring respectively abut against the blocking edge and the inner side of the base plate.

3. The thread roll positioning mechanism for stereoscopic covering bunchy yarn of claim 2, wherein the positioning part is rectangular, the positioning opening is matched with the side part of the positioning part, and the positioning part is embedded in the positioning opening.

4. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 3, wherein the outer end of the connecting rod is provided with an upward bent connecting section.

5. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 4, wherein the number of the positioning strips is two, and the two positioning strips are respectively fixedly connected to corresponding side walls of the base plate connecting groove.

6. The thread roll positioning mechanism for stereoscopic impression covering bunchy yarns according to claim 5, wherein the positioning openings on the two positioning strips are arranged in a one-to-one correspondence manner, and two sides of the positioning portion are respectively embedded in the corresponding positioning openings.

7. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 6, wherein the positioning strip is fixedly connected to the base plate through a fastener.

8. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 7, wherein the substrate is made of plastic material.

9. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 8, wherein the positioning strips are made of metal material.

10. The thread roll positioning mechanism for stereoscopic covering bunchy yarns according to claim 9, wherein the connecting rod and the connecting part are of an integrated structure.

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