CN111122079A - Fabric elasticity recovery tester based on strut reinforcement data dual test - Google Patents

Abstract

The invention discloses a fabric elasticity recovery tester based on double tests of strut reinforcement data, which comprises a winding structure, a motor and a base structure, wherein the winding structure is connected with a motor shaft and is electrically connected with the motor shaft, the motor is locked with the base structure, the base structure consists of a main seat, a fixed plate and a bottom frame, the main seat is locked with the fixed plate, the main seat and the fixed plate are embedded on the bottom frame, the winding structure comprises a disc structure, a ring structure and a rod structure, the disc structure is locked with the ring structure, the ring structure is connected with the rod structure in an installing way, the disc structure comprises a measuring auxiliary device, a disc body and a connecting shaft, the invention is used for testing woven strips with creases, the ring structure drives a winding rod to change the thickness of the structure according to the thickness, the toughness and the elasticity of the fabric, the firmness for fixing the fabric is enhanced, the smooth laying among the woven strips is facilitated, the measuring auxiliary device clamps the woven strips with the creases locally into the cable structure for further, the double data test is more accurate, and repeated tests are not needed.

Description

Fabric elasticity recovery tester based on strut reinforcement data dual test

Technical Field

The invention relates to the field of textile elasticity testers, in particular to a fabric elasticity recovery tester based on double testing of strut reinforcement data.

Background

The elastic fabric is an elastic fabric with a certain tension effect, the fabric is stretched on a tester according to a certain tension, the fabric is stretched to a specified stretching amount, the fabric is removed from tension recovery, and the fabric elastic recovery data is tested.

The prior art is rubbed and bent during fabric processing, a small amount of woven strips are easy to form irregular creases, so that the fabric is not firmly fixed, the woven strips are not well adjusted, errors are easy to occur during data testing, and repeated testing is needed.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a fabric elastic recovery tester based on strut reinforcement data dual test, so as to solve the problems that a small number of woven strips are easy to form irregular creases when the fabric is rubbed and bent during processing, the fabric is not firmly fixed, the woven strips are not well adjusted, errors are easy to occur during data test, and repeated tests are needed.

The invention is realized by adopting the following technical scheme: the utility model provides a fabric elasticity replies tester based on strut reinforced data dual test, its structure includes winding structure, motor, base structure, winding structure left end is connected and the two electricity is connected with the motor shaft, the motor bottom locks with the base structure, the base structure comprises main tributary seat, solid board, underframe, the main tributary seat right-hand member with gu the board locking, the main tributary seat inlays the dress on the underframe with solid board bottom.

Further preferably, the winding structure comprises a disc structure, a ring structure and a rod structure, the disc structure and the ring structure are locked and are positioned at the same axis, and the ring structure is connected with the left end of the rod structure in an installing mode.

Further preferably, the disc structure comprises a measuring auxiliary device, a disc body and a spindle, wherein the measuring auxiliary device is arranged on the ring part of the disc body, and the middle part of the disc body is connected with the spindle.

Further preferably, the ring structure is including the installation abaculus ring, links up spiale, inside dish structure, it installs inside the installation abaculus ring to link up spiale and inside dish structure, it connects spiale and inside dish structure central axis to link up, the pole structure is including shape changer, wire winding rod, pole dish, the shape changer is installed at the wire winding rod left end, the wire winding rod right-hand member is with the locking of pole dish.

Further preferably, the internal plate structure comprises a buckling circle, a covering buckling circle, a fixed circle, an arc plate and an installation plate, the upper end and the lower end of the buckling circle and the installation plate are welded, the upper end and the lower end of the covering buckling circle and the arc plate are locked, and the fixed circle penetrates through the arc plate and is connected with the installation plate through a track.

Further preferred, the deformation ware includes tensile drum, push rod, bullet rope, structure cover, deformation shooting rod, tensile drum welds with the push rod left end, push rod right-hand member and structure cover rail connection, structure cover and deformation shooting rod left end lock joint, bullet rope left end is established on tensile drum and the two is glued and is connected, bullet rope right-hand member winding is on the wire winding pole.

Preferably, the measurement auxiliary device comprises an auxiliary device mounting shaft, a mounting square plate, a device cylinder and a cable structure, the auxiliary device mounting shaft is connected with the middle shaft of the mounting square plate, the mounting square plate is connected with the left end of the device cylinder through a rail, and the device cylinder is embedded at the left end of the cable structure.

Further preferably, the cable structure comprises a cable frame, a pressing plate, a buffering strip and a concave-convex wheel, the cable frame is connected with the pressing plate right end through a track, the buffering strip and the concave-convex wheel are installed at the left end of the pressing plate, and the left end of the buffering strip is connected with the concave-convex wheel through glue.

Advantageous effects

The motor is arranged on the main seat, the main seat has heavier gravity and plays a role in gravity reinforcement, more textile fabrics detected at the position of a textile winding structure are inclined during testing, and the fixing plate reinforces the main seat and keeps the gravity balance of the tester; the motor drives the winding structure to transmit, the fabric is wound on the winding structure, the ring structure drives the rod structure to rotate so as to realize the tension and the return of the fabric, and the elasticity data is tested; if the fabric strip with crease appears, the structure of the winding rod is changed according to the thickness, the toughness and the elasticity of the fabric, namely, the arc plate moves along the fixed circle in an arc shape to ensure that the covering buckling circle is buckled with the buckling circle, so that the internal disc structure pushes the deformer to be emitted, the stretching wire coil is pushed to be separated from the push rod during transmission, the push rod is pushed by being pulled under the elasticity of the elastic rope, the pushed push rod moves in the structure cover and pushes the deformation shooting rod to the rod disc, the transmission distance between the inner disc structure and the rod structure can be automatically adjusted in the installation embedded ring during the transmission of the inner disc structure, the impact force of the deformation shooting rod is adjusted, the inner disc structure moves left and right in the installation embedded ring, impact force is controlled according to fabric characteristics, the deformation shooting rod is pushed by strong force to move to the rod disc along the winding rod, the diameter of the winding rod is expanded by the deformation shooting rod in the movement process, namely the winding rod becomes thicker or thickened after being deformed; the measuring auxiliary device clamps the weaving strips with local creases into the cable structure in a targeted manner, the measuring auxiliary device is moved rightwards at the disk body when the measuring auxiliary device is driven (the weaving strips are positioned at the left part so that the weaving strips are not wound by the measuring auxiliary device), then the device cylinder moves downwards on the mounting square plate, the weaving sections are clamped into the cable structure through the cable structure to test the elasticity of the weaving strips, and the device cylinder returns after the test is finished; the pole structure realizes double test with taking the line structure, and data are more accurate, when taking the transmission of line structure, the clamp plate presss from both sides the line, and the buffering strip buffering, concave-convex structure of concave cam has avoided pressing from both sides to get in with the fastener crack.

Compared with the prior art, the invention has the beneficial effects that: the knit strip of crease appears during the test, and the transmission of loop structure drives the winding rod and changes self structure thickness according to the thickness and toughness and the elasticity of fabric, has strengthened the fastness that the fabric is fixed, also is convenient for knit the level and smooth laying between the strip, measures and assists the ware and presss from both sides the knit strip of local crease and take the elasticity test in the line structure further, and the double data test is more accurate, need not to test repeatedly.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of a fabric elastic recovery tester based on a strut reinforcement data double test according to the invention.

Fig. 2 shows a schematic structural diagram of the winding structure of the present invention.

Fig. 3 shows a front cut structural schematic diagram of the winding structure of the invention.

Fig. 4 shows a schematic structural view of the side view of the internal disk structure of the present invention.

Fig. 5 shows a schematic diagram of the configuration of the mutator of the present invention.

FIG. 6 is a schematic diagram of the measurement aid of the present invention.

Fig. 7 shows a schematic of the structure of a of the present invention 6.

In the figure: the device comprises a winding structure 1, a motor 2, a base structure 3, a main seat 30, a fixed plate 31, a bottom frame 32, a disc structure 10, a ring structure 11, a rod structure 12, a measurement auxiliary device 100, a disc body 101, a spindle 102, a mounting embedded ring 110, a connecting shaft 111, an internal disc structure 112, a deformer 120, a winding rod 121, a rod disc 122, a buckling circle 1120, a buckling circle 1121, a fixed circle 1122, an arc plate 1123, a mounting disc 1124, a stretching wire disc 1200, a push rod 1201, a spring rope 1202, a structure cover 1203, a deformation shooting rod 1204, an auxiliary device mounting shaft 1000, a mounting square plate 1001, a device cylinder 1002, a wire pulling structure 1003, a wire pulling frame 400, a pressing plate 401, a buffer strip 402 and a concave-convex wheel 403.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1 referring to fig. 1 to 5, the present invention provides a technical solution of a fabric elastic recovery tester based on a strut reinforcement data double test: the structure of the tester comprises a winding structure 1, a motor 2 and a base structure 3, wherein the winding structure 1 is connected with the motor 2 through a shaft and is electrically connected with the motor 2, the motor 2 is locked with the base structure 3, the base structure 3 consists of a main seat 30, a fixed plate 31 and a bottom frame 32, the gravity of the main seat 30 is heavier to play a role in gravity reinforcement, the main seat 30 is locked with the fixed plate 31, the main seat 30 and the fixed plate 31 are embedded on the bottom frame 32, more textile fabrics detected at the winding structure 1 are easy to incline, the fixed plate 31 acts on the main seat 30 to reinforce the main seat 30 and keep the gravity balance of the tester, the winding structure 1 comprises a disc structure 10, a ring structure 11 and a rod structure 12, the ring structure 11 drives the rod structure 12 to rotate to realize the tension and the recovery of the textile fabrics, the elastic data is tested, the disc structure 10 is locked with the ring structure 11, and the ring structure 11, the disc structure 10 includes a measuring aid 100, a disc body 101, a spindle 102, the measuring aid 100 is installed on the disc body 101, the disc body 101 is connected with the spindle 102 by a shaft, the ring structure 11 includes an installation embedded ring 110, a connecting shaft 111, an internal disc structure 112, the connecting shaft 111 is installed on the installation embedded ring 110 with the internal disc structure 112, the connecting shaft 111 is connected with the internal disc structure 112 by a shaft, the rod structure 12 includes a shape changer 120, a wire winding rod 121, and a rod disc 122, the internal disc structure 112 pushes the shape changer 120 to emit the shape changer, so as to drive the deformation of the wire winding rod 121, the transmission is flexible, the impact force of the shape changer 120 can be controlled by the internal disc structure 112 moving left and right in the installation embedded ring 110, the shape changer 120 is installed on the wire winding rod 121, the wire winding rod 121 is locked with the rod disc 122, the internal disc structure 112 includes a buckling circle 1120, a covering buckling circle 1121, a fixing circle 1122, a buckling, The shape changer 120 comprises a stretching wire coil 1200, a push rod 1201, a spring rope 1202, a structure cover 1203 and a deformation shooting rod 1204, the stretching wire coil 1200 is welded with the push rod 1201, the push rod 1201 is connected with a structure cover 1203 rail, the structure cover 1203 is buckled with the deformation shooting rod 1204, the spring rope 1202 is arranged on the stretching wire coil 1200 and is in glue connection with the stretching wire coil, the spring rope 1202 is wound on the winding rod 121, the transmission distance between the inner disk structure 112 and the rod structure 12 can be automatically adjusted in the installation embedded ring 110 during transmission, and the impact strength of the deformation shooting rod 1204 can be adjusted.

The motor 2 is arranged on the main seat 30, the main seat 30 has heavier gravity and plays a role in gravity reinforcement, more textile fabrics detected at the position of the textile winding structure 1 are inclined during testing, and the fixing plate 31 reinforces the main seat 30 and keeps the gravity balance of the tester; the motor 2 drives the winding structure 1 to transmit, the fabric is wound on the winding structure 1, the ring structure 11 drives the rod structure 12 to rotate so as to realize the tension and the recovery of the fabric, and elasticity data are tested; if a folded woven strip appears, the structure of the winding rod 121 changes according to the thickness, toughness and elasticity of the fabric, that is, the arc plate 1123 moves in an arc shape along the fixed circle 1122 to fasten the covering and fastening circle 1121 and the fastening circle 1120, so that the internal disk structure 112 pushes the shape changer 120 to be shot, the drawing wire coil 1200 receives the push to be disassembled from the push rod 1201 during transmission, and is pulled under the elasticity of the elastic rope 1202 to push the push rod 1201, the pushed push rod 1201 moves in the structure cover 1203 and pushes the shape-changing shooting rod 1204 to the rod disk 122, the transmission distance between the internal disk structure 112 and the rod structure 12 can be automatically adjusted in the installation embedded ring 110 during transmission, so that the impact force of the shape-changing shooting rod 1204 is adjusted, that the internal disk structure 112 moves left and right in the installation embedded ring 110 to control the impact force according to the fabric characteristics, the shape-changing shooting rod 1204 is pushed by a strong force to move to the rod disk 122 along the winding rod 121, and the diameter of the shape-, that is, the winding rod 121 becomes thicker or thicker itself after being deformed.

Embodiment 2 please refer to fig. 6-7, the invention provides a technical scheme of a fabric elastic recovery tester based on a strut reinforcement data double test, which comprises: the measurement auxiliary device 100 structurally comprises an auxiliary device mounting shaft 1000, a mounting square plate 1001, a device cylinder 1002 and a cable structure 1003, wherein the auxiliary device mounting shaft 1000 is connected with the mounting square plate 1001 in a shaft mode, the mounting square plate 1001 is in rail connection with the device cylinder 1002, the device cylinder 1002 is embedded with the cable structure 1003, the rod structure 12 and the cable structure 1003 achieve double data testing on weaving strips, the testing result is more accurate, the cable structure 1003 comprises a cable frame 400, a pressing plate 401, a buffering strip 402 and a concave-convex wheel 403, the cable frame 400 is in rail connection with the pressing plate 401, the pressing plate 401 is provided with the buffering strip 402 and the concave-convex wheel 403, the buffering strip 402 is in adhesive connection with the concave-convex wheel 403, when the cable structure 1003 transmits, the pressing plate 401 clamps a cable, the buffering strip 402 buffers, and the concave-convex structure of the concave-convex wheel 403 avoids the weaving strip from being cracked in clamping.

The measuring auxiliary device 100 clamps the weaving strips with local creases into the cable structure 1003 in a targeted manner, the measuring auxiliary device 100 is moved rightwards at the plate body 101 when the measuring auxiliary device 100 is driven (the weaving strips are positioned at the left position so that the weaving strips are not wound by the measuring auxiliary device 100), then the device cylinder 1002 moves downwards on the mounting square plate 1001, the weaving sections are clamped into the cable structure 1003 through the cable structure 1003 to test the elasticity of the weaving strips, and the weaving strips return after the test is finished; the pole structure 12 realizes double test with taking line structure 1003, and data is more accurate, and when taking line structure 1003 transmission, the clamp plate 401 presss from both sides the line, and buffering strip 402 buffering, concave-convex structure of concave-convex wheel 403 has avoided pressing from both sides to press from both sides the interior with the fastener crack.

Compared with the prior art, the invention has the technical progress that: the knit strip of crease appears during the test, and 11 transmission drive wire winding rods 121 of ring structure have strengthened the fastness that the fabric is fixed according to thickness and toughness and the elasticity change self structure thickness of fabric, also are convenient for knit the level and smooth laying between the strip, measure and assist ware 100 and take the structure 1003 with the knit strip sandwich of local crease and further do the elasticity test in, the double data test is more accurate, need not to test repeatedly.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides a fabric elasticity replies tester based on strut reinforced data dual test, its structure includes winding structure (1), motor (2), base structure (3), winding structure (1) is connected and the two electricity is connected with motor (2) hub connection, motor (2) and base structure (3) locking, its characterized in that:

the base structure (3) is composed of a main seat (30), a fixing plate (31) and a bottom frame (32), the main seat (30) and the fixing plate (31) are locked, and the main seat (30) and the fixing plate (31) are embedded on the bottom frame (32).

2. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 1, wherein: the winding structure (1) comprises a disc structure (10), a ring structure (11) and a rod structure (12), wherein the disc structure (10) is locked with the ring structure (11), and the ring structure (11) is connected with the rod structure (12) in an installing mode.

3. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 2, wherein: the disc structure (10) comprises a measuring auxiliary device (100), a disc body (101) and a connecting shaft (102), wherein the measuring auxiliary device (100) is installed on the disc body (101), and the disc body (101) is connected with the connecting shaft (102) in a shaft mode.

4. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 2, wherein: the ring structure (11) is including installation caulking ring (110), link shaft (111), inside dish structure (112), link shaft (111) and inside dish structure (112) are installed on installation caulking ring (110), link shaft (111) and inside dish structure (112) hub connection, pole structure (12) are including shape changing ware (120), wire winding pole (121), pole dish (122), shape changing ware (120) are installed on wire winding pole (121), wire winding pole (121) and pole dish (122) locking.

5. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 4, wherein: the inner disc structure (112) comprises a buckling circle (1120), a covering buckling circle (1121), a fixed circle (1122), an arc plate (1123) and an installation disc (1124), wherein the buckling circle (1120) is welded with the installation disc (1124), the covering buckling circle (1121) is locked with the arc plate (1123), and the fixed circle (1122), the arc plate (1123) and the installation disc (1124) are in track connection.

6. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 4, wherein: the shape changer (120) comprises a stretching wire coil (1200), a push rod (1201), an elastic rope (1202), a structure cover (1203) and a shape-changing shooting rod (1204), wherein the stretching wire coil (1200) is welded with the push rod (1201), the push rod (1201) is in track connection with the structure cover (1203), the structure cover (1203) is buckled with the shape-changing shooting rod (1204), the elastic rope (1202) is arranged on the stretching wire coil (1200) and is in glue connection with the stretching wire coil and the shape-changing shooting rod, and the elastic rope (1202) is wound on the winding rod (121).

7. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 3, wherein: the measurement auxiliary device (100) comprises an auxiliary device mounting shaft (1000), a mounting square plate (1001), a device cylinder (1002) and a cable structure (1003), wherein the auxiliary device mounting shaft (1000) is connected with the mounting square plate (1001) in a shaft mode, the mounting square plate (1001) is connected with the device cylinder (1002) in a rail mode, and the device cylinder (1002) is embedded in the cable structure (1003).

8. The fabric elastic recovery tester based on the strut reinforcement data dual test as claimed in claim 7, wherein: the cable structure (1003) comprises a cable frame (400), a pressing plate (401), a buffering strip (402) and a concave-convex wheel (403), the cable frame (400) is connected with the pressing plate (401) through a rail, the pressing plate (401) is provided with the buffering strip (402) and the concave-convex wheel (403), and the buffering strip (402) is connected with the concave cam (403) in a gluing mode.

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