CN210596403U - Detection mechanism for detecting yarn tension in yarn twisting machine - Google Patents

Abstract

The utility model provides a twist yarn machine in be used for detecting tensile detection mechanism of yarn belongs to mechanical technical field. It has solved prior art and has had the poor problem of stability. The detection mechanism for detecting yarn tension in the yarn twisting machine comprises a fixed plate, a connecting shell and a sensor, wherein the fixed plate is flat-plate-shaped, the lower end of the fixed plate is fixedly connected to a frame of the yarn twisting machine, a through connecting hole is formed in the upper end of the fixed plate, the connecting shell is cylindrical and is provided with an opening at the outer end, a blocking edge protruding towards the lateral part of the connecting shell is arranged at the inner end of the connecting shell, the connecting shell is arranged at the connecting hole of the fixed plate in a penetrating mode and abuts against the inner side of the fixed plate, and a positioning structure capable of positioning the outer end of the connecting shell and the outer side of the. The detection mechanism for detecting the yarn tension in the yarn twisting machine has high stability.

Description

Detection mechanism for detecting yarn tension in yarn twisting machine

Technical Field

The utility model belongs to the technical field of machinery, a be used for detecting tensile detection mechanism of yarn in twisting machine is related to.

Background

The yarn twisting machine needs to tension the yarn in the operation process. The degree of tension of the yarn is generally checked by the operator and the yarn does not reach the correct set tension.

That is, the tension of the yarn is completely dependent on the operator to see whether the yarn is in a collapsed state, thereby judging whether the yarn is in a stable tension state. This operational subjective factor is too strong, resulting in poor stability.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide a convenient and high detection mechanism who is used for detecting yarn tension in the yarn twisting machine of stability of loading and unloading.

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

the utility model provides a be used for detecting tensile detection mechanism of yarn in yarn twisting machine, a serial communication port, including fixed plate, connection shell and sensor, above-mentioned fixed plate is flat and the fixed plate lower extreme is used for linking firmly in yarn twisting machine's frame, above-mentioned fixed plate upper end department has the connecting hole that runs through, above-mentioned connection shell is cylindric and its outer end opening, above-mentioned connection shell inner has to its lateral part convex fender edge, above-mentioned connection shell wears to establish the connecting hole department of fixed plate and keeps off the edge and lean on at the fixed plate inboard, have between above-mentioned connection shell outer end and the fixed plate outside and enable the location structure of both location, above-mentioned sensor inlays in the connection shell and both close fit connects, the outer end of sensor stretches out the connection shell.

The detection mechanism is creatively used for detecting the tension of the yarn.

Specifically, a sensing portion of the sensor is in contact with the yarn, and the magnitude of the tension value of the yarn is accurately detected by the sensor. Because the sensor is connected with the processor through a data line or a wireless signal, the processor can intuitively inform an operator of the tension value data of the current yarn after receiving the tension value signal.

The connecting shell is stably connected with the connecting hole of the fixing plate under the action of the positioning structure and the blocking edge. Because the sensor tight fit is connected in connecting the shell, finally with the stable connection of sensor to guarantee that the sensor can be stable detect the tension value of yarn.

In the detection mechanism for detecting yarn tension in the yarn twisting machine, the blocking edge and the connecting shell are of an integrated structure.

In the detecting mechanism for detecting yarn tension in the yarn twisting machine, a first flexible gasket is arranged between the blocking edge and the fixing plate, and the first gasket is tightly pressed between the blocking edge and the fixing plate.

In the detection mechanism for detecting yarn tension in the yarn twisting machine, the first gasket is made of rubber material.

Under the action of the first gasket, the blocking edge can be prevented from being in rigid contact with the fixing plate.

In the yarn twisting machine, the positioning structure comprises an annular positioning ring, the positioning ring is sleeved on the connecting shell and is in threaded connection with the connecting shell, and the fixing plate is tightly pressed between the blocking edge and the positioning ring.

In the detecting mechanism for detecting yarn tension in the yarn twisting machine, a second flexible gasket is arranged between the positioning ring and the fixing plate, and the second gasket is tightly pressed between the positioning ring and the fixing plate.

In the detection mechanism for detecting yarn tension in the yarn twisting machine, the second gasket is made of rubber material.

And the positioning ring can be prevented from being in rigid contact with the fixing plate under the action of the second gasket.

The yarn twisting machine comprises a yarn twisting machine body, wherein the yarn twisting machine body is provided with a yarn tension detecting mechanism, the yarn tension detecting mechanism comprises a connecting cylinder and a sensor, the connecting cylinder is connected with the connecting cylinder in a tight fit mode, the sensor is embedded in the connecting cylinder, and the sensor is connected with the connecting cylinder in a tight fit mode.

Under the effect of connecting the section of thick bamboo can not only be with stable the connection of sensor in the connection shell, but also can suitably cushion the vibration effect that the sensor received.

In the detection mechanism for detecting yarn tension in the yarn twisting machine, the inner end of the connecting shell is provided with a through dismounting hole.

The rod-shaped tool can stably push the sensor out of the connecting shell after being inserted into the dismounting hole.

In the above detection mechanism for detecting yarn tension in the yarn twisting machine, the connecting cylinder is made of rubber material.

Compared with the prior art, the detection mechanism for detecting the yarn tension in the yarn twisting machine can be indirectly and stably connected to the fixing plate through the connecting cylinder and the connecting shell, so that the tension value of the yarn can be accurately detected, and the stability is higher.

Because the positioning ring is in threaded connection with the connecting shell, the whole detection mechanism can be conveniently assembled and disassembled, and the detection mechanism is convenient to assemble and disassemble and compact in structure.

Drawings

Fig. 1 is a schematic sectional view of a detection mechanism for detecting yarn tension in the present yarn twisting machine.

In the figure, 1, fixing plate; 1a, connecting holes; 2. a connecting shell; 2a, blocking edges; 2b, disassembling the hole; 3. a sensor; 4. a first gasket; 5. a positioning ring; 6. a second gasket; 7. a connecting cylinder.

Detailed Description

As shown in fig. 1, the detection mechanism for detecting yarn tension in the yarn twisting machine includes a fixing plate 1, a connecting shell 2 and a sensor 3, wherein the fixing plate 1 is flat and the lower end of the fixing plate 1 is used for being fixedly connected to a frame of the yarn twisting machine, a through connecting hole 1a is formed in the upper end of the fixing plate 1, the connecting shell 2 is cylindrical and has an opening at the outer end thereof, a blocking edge 2a protruding toward the side portion of the connecting shell 2 is formed in the inner end of the connecting shell 2, the connecting shell 2 is arranged at the connecting hole 1a of the fixing plate 1 in a penetrating manner and the blocking edge 2a abuts against the inner side of the fixing plate 1, a positioning structure capable of positioning the connecting shell 2 and the fixing plate 1 is arranged between the outer end of the connecting shell 2 and the outer side of the fixing plate 1, the sensor 3 is embedded in the connecting.

The blocking edge 2a and the connecting shell 2 are of an integrated structure.

The retaining edge 2a and the fixing plate 1 are provided with a flexible gasket one 4, and the gasket one 4 is tightly pressed between the retaining edge 2a and the fixing plate 1.

The first gasket 4 is made of rubber materials.

The positioning structure comprises an annular positioning ring 5, the positioning ring 5 is sleeved on the connecting shell 2 and is in threaded connection with the connecting shell, and the fixing plate 1 is tightly pressed between the retaining edge 2a and the positioning ring 5.

A flexible gasket II 6 is arranged between the positioning ring 5 and the fixed plate 1, and the gasket II 6 is tightly pressed between the positioning ring 5 and the fixed plate 1.

The second gasket 6 is made of rubber materials.

Still include a flexible connecting cylinder 7, connecting cylinder 7 close fit is connected in connecting shell 2, and above-mentioned sensor 3 inlays in connecting cylinder 7 and sensor 3 is connected with connecting cylinder 7 close fit.

The inner end of the connecting shell 2 is provided with a through dismounting hole 2 b.

The connecting cylinder 7 is made of rubber materials.

The detection mechanism is creatively used for detecting the tension of the yarn.

Specifically, a sensing portion of the sensor is in contact with the yarn, and the magnitude of the tension value of the yarn is accurately detected by the sensor. Because the sensor is connected with the processor through a data line or a wireless signal, the processor can intuitively inform an operator of the tension value data of the current yarn after receiving the tension value signal.

The connecting shell is stably connected with the connecting hole of the fixing plate under the action of the positioning structure and the blocking edge. Because the sensor tight fit is connected in connecting the shell, finally with the stable connection of sensor to guarantee that the sensor can be stable detect the tension value of yarn.

Claims (10)

1. The utility model provides a be used for detecting tensile detection mechanism of yarn in yarn twisting machine, a serial communication port, including fixed plate, connection shell and sensor, above-mentioned fixed plate is flat and the fixed plate lower extreme is used for linking firmly in yarn twisting machine's frame, above-mentioned fixed plate upper end department has the connecting hole that runs through, above-mentioned connection shell is cylindric and its outer end opening, above-mentioned connection shell inner has to its lateral part convex fender edge, above-mentioned connection shell wears to establish the connecting hole department of fixed plate and keeps off the edge and lean on at the fixed plate inboard, have between above-mentioned connection shell outer end and the fixed plate outside and enable the location structure of both location, above-mentioned sensor inlays in the connection shell and both close fit connects, the outer end of sensor stretches out the connection shell.

2. The yarn twisting machine detecting mechanism for detecting yarn tension according to claim 1, wherein the blocking edge and the connecting shell are of an integral structure.

3. The yarn tension detecting mechanism for a yarn twisting machine according to claim 2, wherein a first flexible washer is provided between the edge and the fixing plate, and the first washer is pressed between the edge and the fixing plate.

4. The yarn twisting machine as claimed in claim 3, wherein said first washer is made of rubber.

5. The yarn twisting machine detecting mechanism for detecting yarn tension as claimed in claim 4, wherein said positioning structure comprises a ring-shaped positioning ring, said positioning ring is sleeved on the connecting shell and is screwed to the connecting shell, and said fixing plate is tightly pressed between the retaining edge and the positioning ring.

6. The yarn twisting machine detecting mechanism according to claim 5, wherein a second flexible washer is provided between the positioning ring and the fixing plate, and the second washer is pressed between the positioning ring and the fixing plate.

7. The yarn twisting machine detecting mechanism for detecting yarn tension according to claim 6, wherein the second washer is made of rubber material.

8. The yarn tension detecting mechanism of claim 7, further comprising a flexible connecting cylinder, wherein the connecting cylinder is tightly fitted and connected in the connecting shell, the sensor is embedded in the connecting cylinder, and the sensor is tightly fitted and connected with the connecting cylinder.

9. The yarn twisting machine detecting mechanism according to claim 8, wherein the connecting shell has a through-hole at its inner end.

10. The yarn twisting machine as claimed in claim 9, wherein said connecting cylinder is made of rubber material.

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