CN220626004U - Textile material intensity detection equipment - Google Patents

Abstract

The utility model relates to the technical field related to textile material detection and discloses textile material strength detection equipment, which comprises a detection base and a detection chamber arranged in the detection base, wherein two tensioning rollers for tensioning a material to be detected are horizontally arranged in the detection chamber at intervals, fixing pieces are respectively arranged on the lower sides of the two tensioning rollers, and the fixing pieces comprise fixing plates. According to the utility model, a stable detection environment is provided for the material to be detected through the arrangement of the detection base and the detection chamber, the aim of tensioning and fixing the material to be detected can be achieved through the cooperation of the tensioning roller and the fixing piece, and the aim of enabling the detection result to be more accurate when the follow-up detection piece detects the material to be detected by driving the clamping groove to slide until the material to be detected is fixed when the fixing plate slides downwards and the lock catch abuts against the bottom of the detection chamber.

Description

Textile material intensity detection equipment

Technical Field

The utility model relates to the technical field related to textile material detection, in particular to textile material strength detection equipment.

Background

Textile materials are widely used in apparel and other fields, which can be converted into specific products with various properties, such as deformation resistance and the like, through processing.

Before textile materials are processed, in order to ensure that processed products can meet the requirement of deformation resistance strength, strength detection is required to be carried out on the textile materials before processing, in most existing textile material detection processes, whether the strength meets the requirement is judged by manually pulling the textile materials, the strength of the textile materials is inaccurate in test processing in the mode, and the problem of false detection is easy to occur.

Disclosure of Invention

The utility model aims to solve the technical problems that: the problem that the existing detection of deformation resistance strength of the textile material is mostly insufficient in detection precision due to manual pulling is solved; in order to overcome the problems presented above, a textile material strength detection apparatus is provided which solves the problems presented above.

The utility model solves the technical problems by adopting the following technical scheme:

the utility model provides a textile material intensity check out test set, includes the detection base with set up in detect the room in the base, detect indoor horizontal interval and be equipped with two tensioning rollers that are used for tensioning the material of waiting to examine, two the downside of tensioning roller is equipped with the mounting respectively, the mounting includes the fixed plate, be equipped with the hasp of sliding from top to bottom in the fixed plate, set up the draw-in groove that supplies the material of waiting to examine to pass in the hasp, the draw-in groove is in the change of position in the fixed plate makes the material of waiting to examine form two kinds of states, and under the first state, the draw-in groove is in the downside of fixed plate, and the material of waiting to examine is not fixed this moment, and under the second state, the hasp upwards slides and drives the draw-in groove and be in the fixed plate, and the material of waiting to examine this moment is fixed, two the top of tensioning roller is equipped with the detection piece that is used for waiting to examine the material and carries out intensity detection.

Preferably, two one surfaces of the fixing plates, which are close to each other, are upwards protruded to form a limiting arc plate, and the limiting arc plate is positioned below the tensioning roller and is used for ensuring that the material to be detected is vertically arranged on the periphery of the tensioning roller.

Preferably, the upside of fixed plate is equipped with and is used for driving the fixed plate and is in the gliding driving piece from top to bottom in the detection chamber, the driving piece includes flexible cylinder, flexible cylinder is located in the detection chamber, just flexible cylinder's output is located the top of fixed plate.

Preferably, a plurality of limit rods are arranged in the fixing plate in a vertical sliding mode, and the bottoms of the limit rods are arranged on the bottom wall of the detection chamber.

Preferably, the detecting piece comprises a detecting sliding block arranged above the two tensioning rollers, and a hydraulic cylinder for driving the detecting sliding block to slide close to or far away from the material to be detected is arranged above the detecting sliding block.

Preferably, a pressure sensor for detecting strength is arranged in the bottom of the detection sliding block.

The utility model has the advantages and positive effects that: the setting through detecting base and detection room has reached and has treated the material and provide a stable detection environment, can reach the material of treating and carry out the fixed purpose of tensioning through the cooperation of tensioning roller and mounting, can reach when the fixed plate slides down through the setting of fixed plate and hasp, when the hasp supports the bottom at the detection room, the draw-in groove is driven the material of treating and is examined this moment and slides until the material of treating and examine fixedly, and then guarantees when the material of treating of follow-up detection spare detects, its testing result more accurate purpose.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of A-A in FIG. 1;

the index marks in the drawings are as follows:

detecting a base; 11. a detection chamber; 12. detecting a sliding block; 121. a pressure sensor; 122. a hydraulic cylinder; 13. a tension roller;

a fixing member; 21. a fixing plate; 22. a limit rod; 23. a telescopic cylinder; 24. locking; 241. a clamping groove; 25. limiting arc blocks;

and (5) detecting the material to be detected.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiments of the utility model are described in further detail below with reference to the attached drawing figures:

referring to fig. 1 and 2, as shown in fig. 1 and 2, the textile material is widely used in the clothing field, it can be changed into products with different properties by processing, such as anti-deformation property, before the textile material is processed, in order to ensure that the processed products can meet the anti-deformation strength requirement, before the processing, the strength of the textile material needs to be detected, most of the existing textile material detection processes are to judge whether the strength of the textile material meets the requirement by manually pulling the textile material, the strength of the test process is inaccurate, and the problem of false detection easily occurs, in order to solve the problem, a textile material strength detection device is proposed, which comprises a detection base 1 and a detection chamber 11 opened in the detection base 1, two tensioning rollers 13 for tensioning the material 3 to be detected are horizontally arranged in the detection chamber 11 at intervals, the lower sides of the two tensioning rollers 13 are respectively provided with a fixing piece 2, the fixing piece 2 comprises a fixing plate 21, a lock catch 24 sliding up and down is arranged in the fixing plate 21, a clamping groove 241 for allowing the material 3 to be detected to pass through is formed in the lock catch 24, the clamping groove 241 is formed in the fixing plate 21, the two sides of the fixing plate 3 are in the state that the fixing plate 3 is in the state that the two clamping grooves 3 are in the fixing state that the fixing the clamping groove is in the fixing state that the two sides of the fixing plate 3 are in the fixing state that the fixing plate 3 is in the state that the fixing plate is in the fixing state of being fixed in the two sides of the fixing plate 3; the setting through detecting base 1 and detecting room 11 has reached and has offered a stable detection environment to wait to examine material 3, can reach the fixed purpose of tensioning through the cooperation of tensioning roller 13 and mounting 2 to wait to examine material 3, can reach when fixed plate 21 slides downwards through the setting of fixed plate 21 and hasp 24, when hasp 24 supports the bottom in detecting room 11, draw-in groove 241 drives to wait to examine material 3 and slides until waiting to examine material 3 fixed this moment, and then guarantees when the follow-up piece is treated examining material 3 and examine, its purpose that testing result is more accurate.

It should be noted that, the material to be tested 3 needs to be tensioned and set on the tensioning roller 13 before testing, and the fixing manner in the fixing member 2 can ensure that the material to be tested 3 is in a normal state before testing, but not in an overstretched or untensioned state, because both the above states affect the subsequent testing result of the deformation resistance of the material to be tested 3.

Further, in the first state, the clamping groove 241 in the lock catch 24 is located at the lower side of the fixed plate 21, after the material 3 to be detected passes through the clamping groove 241, the fixed plate 21 starts to slide downwards at this moment, so that the first state is changed to the second state until the material 3 to be detected attached to the bottom of the fixed plate 21 is attached to the bottom of the detection chamber 11, at this moment, the lock catch 24 and the clamping groove 241 slide upwards in the fixed plate 21, so that a limiting effect is formed between the material 3 to be detected in the clamping groove 241 and the fixed plate 21, and the purpose of fixing and limiting the material 3 to be detected is achieved.

It should be further noted that, in this embodiment, the two tensioning rollers 13 are at the same horizontal level, and the material 3 to be detected may be a textile fabric in this embodiment, the textile fabric is on the upper peripheries of the two tensioning rollers 13, and in order to ensure that two sides of the textile fabric are not affected by external forces, the placement part is preferably placed in a vertical state on two ends of the tensioning rollers 13, that is, in fig. 1, the material 3 to be detected is placed in a state, in addition, in this embodiment, in order to ensure that a section of the textile fabric between the fixing plate 21 and the tensioning rollers 13 is in a vertical state, one surface, close to each other, of the two fixing plates 21 protrudes upwards to form a limiting arc plate 25, and the limiting arc plate 25 is located below the tensioning rollers 13 to ensure that the material 3 to be detected is placed in a vertical state on the peripheries of the tensioning rollers 13; the influence of external pulling force on the material 3 to be detected can be eliminated through the arrangement of the limiting arc plates 25, and the purpose that the subsequent detection result of the material 3 to be detected is more accurate is further ensured.

Referring to fig. 1 and 2, it is mentioned that after the material 3 to be inspected extends into the clamping groove 241, the fixing plate 21 needs to be adjusted in one position, specifically, in this embodiment, a driving member for driving the fixing plate 21 to slide up and down in the detecting chamber 11 is disposed on the upper side of the fixing plate 21, the driving member includes a telescopic cylinder 23, the telescopic cylinder 23 is disposed in the detecting chamber 11, and an output end of the telescopic cylinder 23 is disposed at the top of the fixing plate 21; the purpose of sliding the fixing plate 21 up and down can be achieved by the operation of the telescopic cylinder 23, and when the fixing plate 21 is attached to the detection chamber 11, the material 3 to be detected can slide horizontally in the clamping groove 241 at this time, so that the state of normal setting of the material can be adjusted.

It should be noted that, in order to ensure that the fixing plate 21 is relatively stable in the vertical sliding process, in this embodiment, a plurality of limiting rods 22 are slidably disposed in the fixing plate 21, and the bottom of each limiting rod 22 is disposed on the bottom wall of the detection chamber 11; the purpose of orderly sliding the fixing plate 21 up and down can be achieved through the arrangement of the limiting rod 22.

Further, the specific structure of the detecting member is as follows: the detection piece comprises detection sliding blocks 12 arranged above the two tensioning rollers 13, and a hydraulic cylinder 122 for driving the detection sliding blocks 12 to slide close to or far away from the material 3 to be detected is arranged above the detection sliding blocks 12; the purpose of enabling the detection sliding block 12 to slide up and down can be achieved through the operation of the hydraulic cylinder 122, the purpose of enabling the detection sliding block 12 to continuously abut against and push the material 3 to be detected is achieved, and the purpose of detecting the deformation resistance of the material 3 to be detected is achieved through the pushing force of the detection sliding block.

It should be further noted that, in order to ensure that the thrust can be orderly obtained, a pressure sensor 121 is further disposed at the bottom of the detecting slider 12, and the force of the detecting force can be intuitively obtained through the setting of the pressure sensor 121, so as to determine whether the material 3 to be detected meets the strength requirement.

It should be emphasized that the examples described herein are illustrative rather than limiting, and therefore the utility model is not limited to the examples described in the detailed description, but rather falls within the scope of the utility model as defined by other embodiments derived from the technical solutions of the utility model by those skilled in the art.

Claims (6)

1. Textile material intensity check out test set, including detecting base (1) and set up in detect detection room (11) in base (1), its characterized in that: the utility model provides a material is tested to detection room (11), horizontal interval is equipped with two tensioning rollers (13) that are used for tensioning material (3) to be tested, two the downside of tensioning rollers (13) is equipped with mounting (2) respectively, mounting (2) are including fixed plate (21), be equipped with gliding hasp (24) from top to bottom in fixed plate (21), set up draw-in groove (241) that supply material (3) to be tested to pass in hasp (24), draw-in groove (241) are in the change of position in fixed plate (21) makes material (3) to be tested form two kinds of states, and under the first state, draw-in groove (241) are in the downside of fixed plate (21), and material (3) to be tested is not fixed this moment, and under the second state, hasp (24) upwards slide drive draw-in groove (241) are in fixed plate (21), and material (3) to be tested this moment is fixed, and the top of two tensioning rollers (13) is equipped with the detection piece that is used for treating material (3) to carry out intensity detection.

2. A textile material strength testing apparatus according to claim 1, wherein: two the one side that fixed plate (21) are close to each other upwards protrudes and forms spacing arc board (25), spacing arc board (25) are located the below of tensioning roller (13) is used for guaranteeing to wait to examine material (3) and be the setting of vertical form in the periphery of tensioning roller (13).

3. A textile material strength testing apparatus according to claim 1, wherein: the upper side of fixed plate (21) is equipped with and is used for driving fixed plate (21) in the drive piece of detecting chamber (11) internal upper and lower slip, the drive piece includes flexible cylinder (23), flexible cylinder (23) are located in detecting chamber (11), just the output of flexible cylinder (23) is located the top of fixed plate (21).

4. A textile material strength testing apparatus according to claim 3, wherein: a plurality of limit rods (22) are arranged in the fixing plate (21) in a vertical sliding mode, and the bottoms of the limit rods (22) are arranged on the bottom wall of the detection chamber (11).

5. A textile material strength testing apparatus according to claim 1, wherein: the detection piece comprises detection sliding blocks (12) arranged above the two tensioning rollers (13), and a hydraulic cylinder (122) used for driving the detection sliding blocks (12) to slide close to or far away from the material (3) to be detected is arranged above the detection sliding blocks (12).

6. A textile material strength testing apparatus in accordance with claim 5, wherein: a pressure sensor (121) for detecting strength is arranged in the bottom of the detection sliding block (12).