CN219915253U - Cloth wear resistance test equipment - Google Patents

Abstract

The utility model discloses cloth wear resistance testing equipment, which comprises a main body assembly, wherein the main body assembly comprises a machine body, a bracket, a grinding wheel, weights, a sucker and a cloth sample, wherein one side of the bracket is fixed with the machine body, one side of the grinding wheel is fixed with the bracket, one side of the weights is fixed with the bracket, the sucker is arranged on one side of the weights, and the cloth sample is positioned below the grinding wheel; the auxiliary assembly is arranged below the grinding wheel and comprises a transmission part, a fixing part, a locking part and a stretching part, wherein the transmission part is positioned below the grinding wheel, the fixing part is arranged on one side of the transmission part, and the locking part is positioned below the fixing part. The utility model has the beneficial effects that: through auxiliary assembly's setting, make cloth wearability test equipment both can test the anti abrasion strength of cloth, also can test the tensile strength of cloth, through the wearing and tearing under the different service conditions of simulation cloth, make the test result of cloth laminate reality more.

Description

Cloth wear resistance test equipment

Technical Field

The utility model relates to the technical field of cloth wear resistance testing equipment, in particular to cloth wear resistance testing equipment.

Background

The cloth wear resistance testing device is an instrument for testing the wear resistance of materials such as fabrics, leather, rubber and the like, and can simulate the wear condition of the materials in daily use through friction and wear experiments so as to evaluate the quality and service life of the materials.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

The present utility model has been made in view of the above-mentioned and/or existing problems in cloth wear testing apparatuses.

Therefore, the problem to be solved by the utility model is that most of the existing cloth wear resistance testing equipment mainly simulates simple linear wear, and the complex conditions such as stretching and the like can be involved in the actual use condition, so that the testing result of the existing cloth wear resistance testing equipment is single, and the actual use condition of the cloth can be difficult to reflect.

In order to solve the technical problems, the utility model provides the following technical scheme: the cloth wear resistance testing equipment comprises a main body assembly, wherein the main body assembly comprises a machine body, a bracket, a grinding wheel, weights, a sucker and a cloth sample, one side of the bracket is fixed with the machine body, one side of the grinding wheel is fixed with the bracket, one side of the weights is fixed with the bracket, the sucker is arranged on one side of the weights, and the cloth sample is positioned below the grinding wheel;

the auxiliary assembly is arranged below the grinding wheel and comprises a transmission part, a fixing part, a locking part and a stretching part, wherein the transmission part is positioned below the grinding wheel, the fixing part is arranged on one side of the transmission part, the locking part is positioned below the fixing part, and the stretching part is arranged on one side of the locking part.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the transmission piece comprises a first rotating disc and a second rotating disc, the first rotating disc is located below the grinding wheel, and the second rotating disc is arranged on one side of the first rotating disc.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the transmission piece still includes fixed plate, spliced pole and motor, the fixed plate set up in second carousel below, spliced pole one end with the fixed plate is fixed, the motor output shaft with the spliced pole is fixed.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the mounting includes supporting shoe, grip block, bolt and first atress handle, supporting shoe one side with first rotating disk is fixed, the grip block set up in the supporting shoe top, bolt one end with the grip block is fixed, first atress is fixed one side with the bolt.

As a preferable scheme of the cloth wear resistance testing device, the locking piece comprises a clamping block and a movable block, wherein the clamping block is arranged below the first rotating disc, and the movable block is rotatably connected with the clamping block.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the locking piece further comprises a supporting plate, and the supporting plate is rotationally connected with the clamping block.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the locking piece further comprises a push rod and a second stress handle, one side of the push rod is fixed by the movable block, and one side of the second stress handle is fixed with the push rod.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the locking piece further comprises an auxiliary ejector rod, and one side of the auxiliary ejector rod is fixed with the supporting plate.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the stretching piece comprises a connecting rod and a fixing column, wherein the connecting rod is arranged below the fixing plate, and one end of the fixing column is fixed with the connecting rod.

As a preferable scheme of the cloth wear resistance testing device of the utility model, wherein: the body assembly further comprises a support column, and one end of the support column is fixed with the machine body.

The utility model has the beneficial effects that: through auxiliary assembly's setting, make cloth wearability test equipment both can test the anti abrasion strength of cloth, also can test the tensile strength of cloth, through the wearing and tearing under the different service conditions of simulation cloth, make the test result of cloth laminate reality more.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is an overall structural view of cloth abrasion resistance testing equipment.

Fig. 2 is a structural view of a fixing member of the cloth wear resistance testing apparatus.

Fig. 3 is a diagram of the structure of the motor, the connecting column and the fixing plate of the cloth wear resistance testing device.

Fig. 4 is a sectional view of a fixing plate of the cloth wear resistance testing apparatus.

Fig. 5 is a block diagram of a locking member of the cloth wear resistance testing apparatus.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 5, in a first embodiment of the present utility model, there is provided a cloth wear resistance testing apparatus including a main body assembly 100 and an auxiliary assembly 200, by which the cloth wear resistance testing apparatus can test both the wear resistance and tensile strength of a cloth, and the test result of the cloth is more fit to reality by simulating the wear of the cloth in different use conditions.

The main body assembly 100 comprises a machine body 101, a bracket 102, a grinding wheel 103, a weight 104, a sucker 105 and a cloth sample 106, wherein one side of the bracket 102 is fixed with the machine body 101, one side of the grinding wheel 103 is fixed with the bracket 102, one side of the weight 104 is fixed with the bracket 102, the sucker 105 is arranged on one side of the weight 104, and the cloth sample 106 is positioned below the grinding wheel 103.

Through setting up of support 102, play the supporting role to emery wheel 103 and weight 104, make emery wheel 103 and cloth sample 106 remain contact throughout, through the rotation of cloth sample 106 constantly, produce friction with the emery wheel 103 to test the anti abrasion resistance of cloth sample 106, the weight is mainly used for exerting pressure and frictional force to a certain extent, in order to simulate the wearing and tearing condition under the in-service use condition, sucking disc 105 mainly plays support cloth sample 106 and provides stable strength and friction surface when repeatedly rubbing the motion.

The auxiliary assembly 200 is arranged below the grinding wheel 103 and comprises a transmission piece 201, a fixing piece 202, a locking piece 203 and a stretching piece 204, wherein the transmission piece 201 is arranged below the grinding wheel 103, the fixing piece 202 is arranged on one side of the transmission piece 201, the locking piece 203 is arranged below the fixing piece 202, and the stretching piece 204 is arranged on one side of the locking piece 203.

When the cloth sample 106 needs to be tested, the cloth sample 106 is fixed on the transmission member 201 through the fixing member 202, friction between the cloth sample 106 and the grinding wheel 103 is ensured not to be released from the transmission member 201 when the cloth sample 106 rotates, when the cloth sample 106 needs to be tested for the anti-abrasion strength, the stretching member 204 needs to be locked with the transmission member 201 through the locking member 203, at the moment, the cloth sample 106 is driven to rotate through the transmission member 201, and meanwhile, the stretching member 204 rotates along with the rotation of the cloth sample 106, so that friction between the cloth sample 106 and the grinding wheel 103 is generated, and a result of the anti-abrasion strength test is achieved.

Example 2

Referring to fig. 1 to 5, this embodiment is based on the previous embodiment, which is a second embodiment of the present utility model.

Specifically, the transmission member 201 includes a first rotating disc 201a and a second rotating disc 201b, the first rotating disc 201a is located below the grinding wheel 103, and the second rotating disc 201b is disposed on one side of the first rotating disc 201 a.

The cloth sample 106 is fixed with the first rotating disc 201a and the second rotating disc 201b, and then friction is generated between the cloth sample 106 and the grinding wheel 103 through rotation of the first rotating disc 201a and the second rotating disc 201b, so that the wear resistance of the cloth sample 106 is tested.

Specifically, the transmission member 201 further includes a fixing plate 201c, a connecting column 201d, and a motor 201e, where the fixing plate 201c is disposed below the second turntable 201b, one end of the connecting column 201d is fixed to the fixing plate 201c, and an output shaft of the motor 201e is fixed to the connecting column 201 d.

When the first rotating disc 201a and the second rotating disc 201b need to be rotated simultaneously, the fixing plate is fixed with the first rotating disc 201a and the second rotating disc 201b, the connecting column 201d plays a role of connecting and supporting the fixing plate 201c and the motor 201e, the connecting column 201d is driven to rotate through the motor 201e, and accordingly the first rotating disc 201a and the second rotating disc 201b are driven to rotate, friction is generated between the cloth sample 106 and the grinding wheel 103, and abrasion of the cloth in a real situation is simulated.

Specifically, the fixing member 202 includes a support block 202a, a clamping block 202b, a bolt 202c, and a first force-bearing handle 202d, where one side of the support block 202a is fixed to the first rotating disk 201a, the clamping block 202b is disposed above the support block 202a, one end of the bolt 202c is fixed to the clamping block 202b, and one side of the first force-bearing handle 202d is fixed to the bolt 202 c.

The number of the supporting blocks 202a, the clamping blocks 202b, the bolts 202c and the first stress handles 202d are two, the two first stress handles 202d are respectively distributed on one side of the first turntable 201a and one side of the second turntable 201b, the supporting blocks 202a are in threaded connection with the bolts 202c, the supporting blocks 202a play a supporting role on the clamping blocks 202b and the bolts 202c, the screw teeth are fully distributed on one side of the clamping blocks 202b, so that friction force between the clamping blocks 202b and the cloth sample 106 is increased, the effect of the clamping blocks 202b is better, when the cloth sample 106 is fixed, the bolts 202c are rotated by applying external force to the first stress handles 202d at first, so that the clamping blocks 202b are driven to move upwards, the distance between the clamping blocks and the first turntable 201a and the second turntable 201b is increased, the cloth sample 106 is convenient to be placed, after the cloth sample 106 is placed, the bolts 202c are reversely rotated, the clamping blocks 202b are driven to move downwards, the cloth sample 106 is fixed, and the cloth sample 106 is prevented from being separated from the first turntable 201a and the second turntable 201b when the cloth sample 106 is rubbed.

Specifically, the locking member 203 includes a latch 203a and a movable block 203b, the latch 203a is disposed below the first rotating disc 201a, and the movable block 203b is rotatably connected to the latch 203 a.

The clamping grooves are formed in the first rotating disc 201a and the second rotating disc 201b and are clamped with the clamping blocks 203a, when the fixed plate 201c, the first rotating disc 201a and the second rotating disc 201b are required to be locked, and when the movable block 203b is pushed to move upwards, one end, connected with the movable block 203a, of the clamping blocks 203a moves upwards along with the upward movement of the movable block 203b, meanwhile, the other end of the clamping blocks 203a moves downwards until the movable block 203b can not move any more, at the moment, the clamping blocks 203a are clamped with the clamping grooves, so that the first rotating disc 201a and the second rotating disc 201b are locked with the fixed plate 201c, and when the fixed plate 201c rotates, the first rotating disc 201a and the second rotating disc 201b are driven to rotate simultaneously, and therefore abrasion resistance strength testing is conducted on the cloth samples 106.

Specifically, the locking member 203 further includes a support plate 203c, and the support plate 203c is rotatably connected to the latch 203 a.

When the movable block 203b moves upwards, the clamping block 203a can only be fixed in place to rotate through the arrangement of the supporting plate 203c, so that the clamping block 203a can move upwards along with the movable block 203b, the other end moves downwards, and the situation that the clamping block 203a cannot be perfectly clamped with the clamping groove due to the fact that the clamping block 203b moves along with the movable block is avoided, and the locking effect between the first rotating disc 201a and the second rotating disc 201b and the fixed plate 201c is affected.

Specifically, the locking member 203 further includes a push rod 203d and a second force-bearing grip 203e, wherein the movable block 203b on one side of the push rod 203d is fixed, and one side of the second force-bearing grip 203e is fixed to the push rod 203 d.

The fixed plate 201c is provided with a movable groove, the clamping block 203a, the movable block 203b and the supporting plate 203c slide in the movable groove, the lower end part of the ejector rod 203d is provided with threads, the fixed plate 201c is provided with a threaded groove, the supporting plate 203c is movably connected with the ejector rod 203d, when the supporting plate 203c moves upwards, the clamping block 203a and the movable block 203b are driven to move upwards until being blocked from moving any more, at this time, the ejector rod 203d is contacted with the threaded part of the fixed plate 201c, then the second stressing handle 203e is rotated, the ejector rod 203d moves upwards through the cooperation of the clamping block 203a and the threaded groove until the clamping block 203a is clamped with the clamping groove, at this time, the first rotating disc 201a and the second rotating disc 201b are in a locking state with the fixed plate 201c, and the state between the first rotating disc 201a and the second rotating disc 201b and the fixed plate 201c can be controlled through the cooperation of the ejector rod 203d and the second stressing handle 203e, and the state of the switching device can be conveniently tested for the anti-wear resistance strength and the tensile strength.

Example 3

Referring to fig. 1 to 5, a third embodiment of the present utility model is based on the first two embodiments.

Specifically, the locking member 203 further includes an auxiliary push rod 203f, and one side of the auxiliary push rod 203f is fixed to the support plate 203 c.

When the fixing plate needs to be fixed with the first rotating disc 201a and the second rotating disc 201b, the auxiliary ejector rod 203f is pushed upwards to enable the supporting plate 203c to move upwards, the clamping block 203a and the movable block 203b are driven to move upwards until being blocked and cannot move any more, at this time, the ejector rod 203d is in contact with the threaded part of the fixing plate 201c, then the second stressing handle 203e is rotated, the ejector rod 203d moves upwards through the cooperation of the second stressing handle and the threaded groove until the clamping block 203a is clamped with the clamping groove, and the supporting plate 203c is convenient to move through the arrangement of the auxiliary ejector rod 203 f.

Specifically, the stretching member 204 includes a connecting rod 204a and a fixing column 204b, the connecting rod 204a is disposed below the fixing plate 201c, and one end of the fixing column 204b is fixed to the connecting rod 204 a.

The number of the connecting rods 204a is two, the fixed columns 204b are rotationally connected with the fixed plate 201c, the two connecting rods 204a are respectively rotationally connected with the first rotating disc 201a and the second rotating disc 201b, when the fixed plate 201c and the first rotating disc 201a and the second rotating disc 201b are in an unlocking state, the fixed plate 201c rotates to enable the two connecting rods 204a to move in opposite directions, and at the moment, the first rotating disc 201a and the second rotating disc 201b are driven to move in opposite directions, so that the cloth sample 106 is stretched, and the tensile test of the cloth sample 106 is achieved.

Specifically, the body assembly 100 further includes a support post 107, and one end of the support post 107 is fixed to the body 101.

Because different testing standards generally require different pressures and friction forces, the weight of the weight 104 can also be adjusted as required, and stacking of weights 104 of different weights is facilitated and replacement of the weights 104 is facilitated by the arrangement of the support posts 107.

In use, when the cloth sample 106 is to be tested, the auxiliary ejector 203f is pushed upward to move the support plate 203c upward, the clamping block 203a and the movable block 203b are driven to move upward until the movement is blocked, at this time, the ejector 203d is contacted with the threaded part of the fixed plate 201c, then the second stressing handle 203e is rotated, through the cooperation of the second stressing handle and the threaded groove, the ejector 203d is moved upward, the movable block 203b is moved upward, one end of the clamping block 203a connected with the movable block 203b is moved upward along with the upward movement of the movable block 203b, the other end of the clamping block 203a is moved downward until the movable block 203b can not move any more, at this time, the clamping block 203a is clamped with the clamping groove, the first rotating disc 201a and the second rotating disc 201b are locked with the fixed plate 201c, then an external force is applied to the first stressing handle 202d, the bolt 202c is rotated, and the clamping block 202b is driven to move upward, the distance between the clamp block and the first rotating disc 201a and the second rotating disc 201b is increased, the placing of the cloth sample 106 is facilitated, after the placing of the cloth sample 106 is completed, the bolt 202c is reversely rotated, the clamping block 202b is moved downwards, the cloth sample 106 is extruded, the clamp block is fixed, the grinding wheel 103, the weight 104 and the suction disc 105 are placed at the same position, then a motor is started, the motor 201e drives the connecting column 201d to rotate, the first rotating disc 201a and the second rotating disc 201b are driven to rotate, friction is generated between the cloth sample 106 and the grinding wheel 103, the wear resistance of the cloth sample 106 is tested, when the tensile strength of the cloth sample 106 is required, the second stressed handle 203e is reversely rotated, the ejector rod 203d is moved downwards, the movable block 203b is driven to move downwards, one end of the clamping block 203a, clamped with the clamping groove, is moved upwards, and separated from the clamping groove, until the ejector rod 203d is completely separated from the thread groove, the clamping block 203a, the movable block 203b and the supporting plate 203c drop down into the movable groove due to self weight, at this time, the motor 201e is started to drive the fixed plate 201c to rotate, so that the two connecting rods 204a move in opposite directions, at this time, the first rotating disc 201a and the second rotating disc 201b are driven to move in opposite directions, and thus the cloth sample 106 is stretched, and the stretch resistance test of the cloth on the cloth sample 106 is achieved.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. Cloth abrasion resistance test equipment, its characterized in that: comprising the steps of (a) a step of,

the body assembly (100) comprises a machine body (101), a support (102), a grinding wheel (103), a weight (104), a sucker (105) and a cloth sample (106), wherein one side of the support (102) is fixed with the machine body (101), one side of the grinding wheel (103) is fixed with the support (102), one side of the weight (104) is fixed with the support (102), the sucker (105) is arranged on one side of the weight (104), and the cloth sample (106) is positioned below the grinding wheel (103);

auxiliary assembly (200) set up in emery wheel (103) below, including driving medium (201), mounting (202), locking piece (203) and tensile piece (204), driving medium (201) are located emery wheel (103) below, mounting (202) set up in driving medium (201) one side, locking piece (203) are located mounting (202) below, tensile piece (204) set up in locking piece (203) one side.

2. The cloth wear resistance testing apparatus of claim 1, wherein: the transmission piece (201) comprises a first rotary table (201 a) and a second rotary table (201 b), the first rotary table (201 a) is located below the grinding wheel (103), and the second rotary table (201 b) is arranged on one side of the first rotary table (201 a).

3. The cloth wear resistance testing apparatus according to claim 2, wherein: the transmission piece (201) further comprises a fixing plate (201 c), a connecting column (201 d) and a motor (201 e), wherein the fixing plate (201 c) is arranged below the second rotary table (201 b), one end of the connecting column (201 d) is fixed with the fixing plate (201 c), and an output shaft of the motor (201 e) is fixed with the connecting column (201 d).

4. A cloth wear resistance testing apparatus in accordance with claim 3, wherein: the fixing piece (202) comprises a supporting block (202 a), a clamping block (202 b), a bolt (202 c) and a first stress handle (202 d), wherein one side of the supporting block (202 a) is fixed with the first rotating disc (201 a), the clamping block (202 b) is arranged above the supporting block (202 a), one end of the bolt (202 c) is fixed with the clamping block (202 b), and one side of the first stress handle (202 d) is fixed with the bolt (202 c).

5. The cloth wear resistance testing apparatus according to claim 3 or 4, wherein: the locking piece (203) comprises a clamping block (203 a) and a movable block (203 b), the clamping block (203 a) is arranged below the first rotary table (201 a), and the movable block (203 b) is rotationally connected with the clamping block (203 a).

6. The cloth wear resistance testing apparatus of claim 5, wherein: the locking piece (203) further comprises a supporting plate (203 c), and the supporting plate (203 c) is rotatably connected with the clamping block (203 a).

7. The cloth wear resistance testing apparatus of claim 6, wherein: the locking piece (203) further comprises a push rod (203 d) and a second stress handle (203 e), wherein one side of the push rod (203 d) is fixed by the movable block (203 b), and one side of the second stress handle (203 e) is fixed by the push rod (203 d).

8. The cloth wear resistance testing apparatus according to claim 6 or 7, wherein: the locking piece (203) further comprises an auxiliary ejector rod (203 f), and one side of the auxiliary ejector rod (203 f) is fixed with the supporting plate (203 c).

9. The cloth wear resistance testing apparatus of claim 8, wherein: the stretching piece (204) comprises a connecting rod (204 a) and a fixing column (204 b), wherein the connecting rod (204 a) is arranged below the fixing plate (201 c), and one end of the fixing column (204 b) is fixed with the connecting rod (204 a).

10. The cloth wear resistance testing apparatus of claim 9, wherein: the body assembly (100) further comprises a support post (107), and one end of the support post (107) is fixed with the machine body (101).