CN219799025U - Textile yarn toughness detection equipment - Google Patents

Abstract

The utility model belongs to the technical field of textile processing, and discloses textile yarn toughness detection equipment, which is technically characterized in that: including the workstation, workstation surface fixed mounting has the mount, two sets of relatively distributed dwang is installed in the mutual rotation of the both sides wall that the mount is relative, dwang surface fixed mounting has the roll-up roller, the winding has the yarn between the roll-up roller, a set of the one end of dwang extends the mount and is connected with driving motor, the mount inner chamber is provided with the measuring rod that is located the yarn top, the mount is provided with the control mechanism that mutually supports with the measuring rod, control mechanism is including installation component and detection component, the installation component is located between the mount lateral wall and is connected with the measuring rod, detection component is including impact portion and elevating system, impact portion is connected with the installation component, the elevating system is located the mount inner chamber and is connected with the impact portion.

Description

Textile yarn toughness detection equipment

Technical Field

The utility model relates to the technical field of textile processing, in particular to textile yarn toughness detection equipment.

Background

Spinning is a generic term for spinning and weaving, ancient spinning and dyeing technology in China has very long history, early in the original society, ancient people have been aware of local materials, natural resources are utilized as raw materials for spinning and dyeing, and simple spinning tools are manufactured, so that daily clothes, certain living goods and artworks of people are products of the spinning and dyeing technology until today.

The existing textile product production is often directly stretched by manpower when detecting the toughness of the textile product, the detection mode cannot detect the toughness of the textile yarn in full length, a large amount of manpower is also consumed, and the detection efficiency of the textile yarn is seriously affected.

Disclosure of Invention

The utility model aims to provide textile yarn toughness detection equipment for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a textile yarn toughness check out test set, includes the workstation, workstation surface fixed mounting has the mount, the mount is the type structure of falling U, two sets of relatively distributed dwang are installed in the mutual rotation of the both sides wall of mount, dwang surface fixed mounting has the roll-up roller, the winding has the yarn between the roll-up roller, a set of the one end of dwang extends the mount and is connected with driving motor, the mount inner chamber is provided with the measuring rod that is located the yarn top, the mount is provided with the control mechanism mutually supporting with the measuring rod, control mechanism is including installation component and detection component, the installation component is located between the mount lateral wall and is connected with the measuring rod, the detection component is including impact portion and elevating system, impact portion is connected with the installation component, the elevating system is located the mount inner chamber and is connected with the impact portion.

As a further scheme of the utility model: the installation component is including the perpendicular groove that the opposite both sides wall of mount offered respectively, perpendicular inslot fixed mounting has the gag lever post, gag lever post surface sliding connection has the sliding block, two sets of the sliding block extends perpendicular groove and common fixedly connected with counter weight board, counter weight board bottom wall fixed mounting has the connecting rod, connecting rod bottom and measuring rod fixed connection.

As a further scheme of the utility model: the lifting part comprises a bottom plate fixedly installed on two opposite side walls of the fixing frame, a threaded rod is rotatably installed between the bottom plate and the inner top wall of the fixing frame, a control plate in threaded connection with the side wall of the fixing frame is in threaded connection with the surface of the threaded rod, the side wall of the control plate is connected with the impact part, and the top end of the threaded rod penetrates through the fixing frame and is connected with a motor.

As a further scheme of the utility model: the impact part comprises a fixed plate fixedly mounted on the side wall of the control plate, the counterweight plate is made of magnetic materials, a magnetic block matched with the counterweight plate is fixedly mounted in the fixed plate, a through hole positioned right above the counterweight plate is formed in the surface of the fixed plate, and an extrusion rod matched with the through hole is fixedly mounted on the inner top wall of the fixed frame.

As a further scheme of the utility model: and a sealing cover is sleeved on the outer side of the motor.

As still further aspects of the utility model: and a buffer spring matched with the sliding block is fixedly arranged on the bottom wall of the vertical groove.

Compared with the prior art, the utility model has the beneficial effects that: through setting up the control mechanism and the measuring rod mutually supporting that comprise installation component, impact portion, elevating system, can carry out the toughness detection of full length to the yarn, solved current detecting means and can't carry out the toughness detection of full length to the textile yarn to still can consume a large amount of manpowers, seriously influence the problem of textile yarn detection efficiency.

Drawings

Fig. 1 is a schematic structural view of a textile yarn toughness detection device.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is a schematic view of a weight plate and a connection structure thereof in a textile yarn toughness detection device.

Wherein: the yarn feeding device comprises a workbench 1, a fixing frame 2, a rotating rod 3, a winding roller 4, a yarn 5, a detecting rod 6, a control mechanism 7, a mounting assembly 71, a vertical groove 711, a limiting rod 712, a sliding block 713, a counterweight plate 714, a connecting rod 715, a detecting assembly 72, an impact part 721, a fixing plate 7211, a through hole 7212, a magnetic block 7213, a pressing rod 7214, a lifting part 722, a bottom plate 7221, a threaded rod 7222, a control plate 7223, a motor 7224, a sealing cover 8 and a buffer spring 9.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1 and 2, a structure diagram of a textile yarn toughness detection device provided by an embodiment of the utility model comprises a workbench 1, a fixing frame 2 is fixedly arranged on the surface of the workbench 1, the fixing frame 2 is of an inverted U-shaped structure, two groups of rotating rods 3 which are distributed oppositely are arranged on two opposite side walls of the fixing frame 2 in a co-rotation manner, a winding roller 4 is fixedly arranged on the surface of the rotating rods 3, yarns 5 are wound between the winding rollers 4, one ends of one group of rotating rods 3 extend out of the fixing frame 2 and are connected with a driving motor, a detection rod 6 positioned above the yarns 5 is arranged in an inner cavity of the fixing frame 2, a control mechanism 7 matched with the detection rod 6 is arranged on the fixing frame 2, the control mechanism 7 comprises a mounting component 71 and a detection component 72, the mounting component 71 is positioned between the side walls of the fixing frame 2 and is connected with the detection rod 6, the detecting component 72 comprises an impact part 721 and a lifting part 722, the impact part 721 is connected with the mounting component 71, the lifting part 722 is positioned in the inner cavity of the fixing frame 2 and is connected with the impact part 721, the mounting component 71 is used for positioning the detecting rod 6, in an initial state, the impact part 721 is mutually matched with the mounting component 71 and is connected with the detecting rod 6, the lifting part 722 and the impact part 721 mutually cooperate to drive the detecting rod 6 to move upwards in the vertical direction, when the detecting rod 6 and the impact part 721 move upwards to the highest position, the impact part 721 controls the detecting rod 6 to move downwards in a free falling mode, the detecting rod 6 can punch the yarn 5 to deform the yarn 5, the toughness of the yarn 5 can be accurately detected, when the toughness of the yarn 5 is disqualified, the yarn 5 breaks under the impact of the detecting rod 6, the lifting part 722 and the impact part 721 are matched with each other, so that the detection rod 6 can be controlled to perform free falling motion repeatedly, and further the full-length toughness detection of the yarn 5 can be performed.

As shown in fig. 1, 2 and 3, as a preferred embodiment of the present utility model, the mounting assembly 71 includes vertical slots 711 formed on two opposite side walls of the fixing frame 2, a limiting rod 712 is fixedly mounted in the vertical slots 711, sliding blocks 713 are slidably connected to the surfaces of the limiting rods 712, two groups of sliding blocks 713 extend out of the vertical slots 711 and are fixedly connected with a weight plate 714 together, a connecting rod 715 is fixedly mounted on the bottom wall of the weight plate 714, and the bottom end of the connecting rod 715 is fixedly connected with the detecting rod 6.

As shown in fig. 1, as a preferred embodiment of the present utility model, the lifting portion 722 includes a base plate 7221 fixedly installed on two opposite side walls of the fixing frame 2, a threaded rod 7222 is rotatably installed between the base plate 7221 and an inner top wall of the fixing frame 2, a control plate 7223 slidably connected to a side wall of the fixing frame 2 is screwed on a surface of the threaded rod 7222, a side wall of the control plate 7223 is connected to the impact portion 721, a top end of the threaded rod 7222 passes through the fixing frame 2 and is connected to a motor 7224, in use, the motor 7224 is started to drive the threaded rod 7222 to rotate and drive the control plate 7223 to move along an axial direction of the threaded rod 7222, and the control plate 7223 cooperates with the impact portion 721 to drive the detection rod 6 to move in a vertical direction.

As shown in fig. 1 and 2, as a preferred embodiment of the present utility model, the impact portion 721 includes a fixing plate 7211 fixedly mounted on a side wall of the control plate 7223, the weight plate 714 is made of a magnetic material, a magnetic block 7213 matched with the weight plate 714 is fixedly mounted in the fixing plate 7211, a through hole 7212 located right above the weight plate 714 is formed on the surface of the fixing plate 7211, a pressing rod 7214 matched with the through hole 7212 is fixedly mounted on an inner top wall of the fixing frame 2, in use, the weight plate 714 can be conveniently fixed at a bottom wall of the fixing plate 7211 by magnetic attraction, when the fixing plate 7211 rises to the highest position, the pressing rod 7214 presses the weight plate 714 through the through hole 7212, and the weight plate 714 is separated from the fixing plate 7211 so as to perform free falling motion downwards.

As shown in fig. 1, as a preferred embodiment of the present utility model, the outer side of the motor 7224 is sleeved with a sealing cover 8.

As shown in fig. 1 and 2, as a preferred embodiment of the present utility model, the bottom wall of the vertical groove 711 is fixedly provided with a buffer spring 9 which is matched with the sliding block 713.

The working principle of the utility model is as follows: when in use, the mounting assembly 71 locates the detecting rod 6, in an initial state, the impact part 721 is mutually matched with the mounting assembly 71 and connected with the detecting rod 6, the lifting part 722 is mutually matched with the impact part 721 to drive the detecting rod 6 to move upwards in the vertical direction, when the detecting rod 6 and the impact part 721 move upwards to the highest position, the impact part 721 controls the detecting rod 6 to move downwards in a free falling mode, the detecting rod 6 can punch the yarn 5 to deform the yarn 5, the toughness of the yarn 5 can be accurately detected, when the toughness of the yarn 5 is unqualified, the yarn 5 breaks under the impact of the detecting rod 6, and the lifting part 722 is mutually matched with the impact part 721 to control the detecting rod 6 to move in a free falling mode for a plurality of times so as to detect the toughness of the yarn 5 in a full length.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. The utility model provides a textile yarn toughness check out test set, includes the workstation, workstation surface fixed mounting has the mount, the mount is the type structure of falling U, two sets of relatively distributed dwang are installed in the mutual rotation of the both sides wall that the mount is relative, dwang surface fixed mounting has the roll-up roller, the winding has the yarn between the roll-up roller, a set of the one end of dwang extends the mount and is connected with driving motor, its characterized in that, the mount inner chamber is provided with the measuring rod that is located the yarn top, the mount is provided with the control mechanism that mutually supports with the measuring rod, control mechanism is including installation component and detection component, the installation component is located between the mount lateral wall and is connected with the measuring rod, detection component is including impact portion and elevating system, impact portion is connected with installation component, elevating system is located the mount inner chamber and is connected with impact portion.

2. The textile yarn toughness detection device according to claim 1, wherein the installation component comprises vertical grooves formed in two opposite side walls of the fixing frame, a limiting rod is fixedly installed in the vertical grooves, sliding blocks are slidably connected to the surfaces of the limiting rods, two groups of sliding blocks extend out of the vertical grooves and are fixedly connected with weight plates together, a connecting rod is fixedly installed on the bottom wall of the weight plates, and the bottom ends of the connecting rod are fixedly connected with the detection rod.

3. The textile yarn toughness detection device according to claim 2, wherein the lifting part comprises a bottom plate fixedly installed together by two opposite side walls of the fixing frame, a threaded rod is rotatably installed between the bottom plate and the inner top wall of the fixing frame, a control plate in sliding connection with the side wall of the fixing frame is connected with the surface of the threaded rod in a threaded manner, the side wall of the control plate is connected with the impact part, and the top end of the threaded rod penetrates through the fixing frame and is connected with a motor.

4. The textile yarn toughness detection device according to claim 3, wherein the impact part comprises a fixed plate fixedly installed on the side wall of the control plate, the counterweight plate is made of magnetic materials, a magnetic block matched with the counterweight plate is fixedly installed in the fixed plate, a through hole positioned right above the counterweight plate is formed in the surface of the fixed plate, and an extrusion rod matched with the through hole is fixedly installed on the inner top wall of the fixed frame.

5. A textile yarn toughness testing device according to claim 3, wherein a sealing cover is sleeved on the outer side of the motor.

6. A textile yarn toughness detection apparatus according to claim 2 wherein a buffer spring is fixedly mounted on the bottom wall of the vertical groove and is in cooperation with the slider.