CN116539411A - Detection device of special force value checking fixture for spinning - Google Patents

Abstract

The invention discloses a detection device of a special force value detection tool for spinning, which comprises a support plate provided with a sliding groove and an electric hydraulic cylinder arranged on the side wall of the support plate, wherein a lifting plate slides on the support plate and slides on the sliding groove through a sliding block, the lifting plate slides up and down on the support plate through the action of the output end of the electric hydraulic cylinder, a clamping fixture for clamping textiles to be detected is arranged at the bottom of the lifting plate, and a tension meter for detecting pressure is arranged at the bottom of the support plate. The invention adopts the same effect that the magnetic poles are generated on the annular magnet and the electromagnetic generator arranged in the sliding block, can ensure that the sliding block can not mutually contact with the electromagnetic generator to generate sliding friction under the action of repulsive force, can effectively eliminate errors caused by friction when the lifting plate drives the sliding block to slide in the sliding groove on the supporting plate, and can ensure that the lifting plate is lifted in the vertical direction.

Description

Detection device of special force value checking fixture for spinning

Technical Field

The invention relates to the technical field of force value detection, in particular to a detection device of a force value detection tool special for spinning.

Background

At present, in the use process of the force value gauge, especially in the textile field, various testing processes are generally required, the indexes directly reflect the product quality, in the detection processes, namely before formal detection, the detection precision of the special force value gauge for textile needs to be verified, but errors often exist, and the following problems exist in the prior art by referring to the reference document with the application number of CN 201921579939.2:

in the prior art, in the process of rotating or moving the objects, friction is generated due to the fact that the two objects relatively move, the friction is only generated between the two objects which are in contact with each other and have relative movement trend, the friction generated by the contact can bring detection errors, and no matter the surfaces of the objects are smooth as far as possible, the friction can bring errors as long as the relative movement occurs.

Therefore, a detection device of a special force value detection tool for spinning is designed.

Disclosure of Invention

The invention aims to solve the problem that friction is caused by relative movement of two objects so as to generate measurement errors, and provides a detection device of a special force value detection tool for spinning.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a detection device of utensil is examined to special power value of weaving, includes the backup pad of seting up the sliding tray and installs the electric hydraulic cylinder at the backup pad lateral wall, it has the lifting board to slide in the backup pad, the lifting board passes through the slider and slides on the sliding tray, the lifting board passes through electric hydraulic cylinder output effect and slides from top to bottom in the backup pad, electric hydraulic cylinder output rotates with the slider and is connected, the lifting board bottom is provided with the centre gripping anchor clamps that are used for the centre gripping fabrics that await measuring, the backup pad bottom is provided with the tensiometer that is used for detecting pressure, the tensiometer tip is provided with the light anchor clamps that are used for the centre gripping fabrics, the sliding tray inside wall is provided with the electromagnetic generator that is used for the circular telegram to produce the magnetic field, be provided with the ring magnet that repels with electromagnetic generator in the slider, the slider lateral wall is provided with the second metal plate, electromagnetic generator is provided with first metal plate relative slider one side, the second metal plate is through connecting wire and first metal plate intercommunication.

Preferably, the ring magnet is disposed within the slider with the outer side wall of the ring magnet having opposite poles to the inner side wall.

Preferably, the electromagnetic generator is internally composed of a plurality of energized solenoids, and the magnetic poles generated by the energized solenoids towards the annular magnet are identical to the magnetic poles of the outer side wall of the annular magnet.

Preferably, the second metal plate is arranged at the edge of the sliding block, the first metal plate is arranged on the side wall of the electromagnetic generator, and the sliding block and the electromagnetic generator are not contacted with each other.

Preferably, a connecting column is arranged in the sliding block, the connecting column is connected with the second metal plate through a connecting wire, the first metal plate is connected with the connecting column through a connecting wire, and a direct current power supply is arranged in the connecting column.

Preferably, the clamping fixture comprises a sliding top plate, two opposite sliding frames, a hydraulic stretcher, a first irregular clamping block, a second irregular clamping block and a plurality of compression springs, wherein the two opposite sliding frames slide on the sliding top plate through sliding holes, the first irregular clamping block and the second irregular clamping block are respectively arranged on opposite sides of the two opposite sliding frames, the first irregular clamping block and the second irregular clamping block are both connected with the sliding frames through the compression springs, and two ends of the hydraulic stretcher are respectively connected with side walls of the two opposite sliding frames.

Preferably, the first irregular clamping block is fixedly connected with the top of the inner side wall of one sliding frame through a compression spring, and the second irregular clamping block is fixedly connected with the bottom of the inner side wall of the other sliding frame through a compression spring.

The beneficial effects of the invention are as follows:

1. the invention adopts the same effect that the magnetic poles are generated on the annular magnet and the electromagnetic generator arranged in the sliding block, can ensure that the sliding block can not mutually contact with the electromagnetic generator to generate sliding friction under the action of repulsive force, can effectively eliminate errors caused by friction when the lifting plate drives the sliding block to slide in the sliding groove on the supporting plate, and can ensure that the lifting plate is lifted in the vertical direction.

2. According to the invention, the first metal plate is in contact with the second metal plate, a closed loop is formed under the action of connection of the connecting wires, so that the magnetic field of the inclined surface of the sliding block is reinforced, the repulsive force generated by winding on the electrified solenoid is further reinforced, and once the sliding block obliquely contacts the side wall to generate sliding friction, the reinforced repulsive force is generated to reset the sliding block, so that the sliding friction generated in the lifting process of the sliding block is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a detection device of a force value detection tool for textile special use according to the present invention;

fig. 2 is a front view of a detection device of a spinning dedicated force value gauge according to the present invention;

FIG. 3 is a schematic view of a clamping fixture according to the present invention;

FIG. 4 is a partial exploded view of the clamping fixture of the present invention;

FIG. 5 is a schematic view of a sliding block and a sliding groove in the present invention;

FIG. 6 is a top view of the slider and the sliding groove of the present invention in a sliding fit;

FIG. 7 is a schematic view of the internal structure of the slider according to the present invention.

In the figure: 1 supporting plate, 2 sliding grooves, 3 lifting plates, 4 electric hydraulic cylinders, 5 clamping clamps, 51 sliding top plates, 52 sliding frames, 53 hydraulic stretchers, 54 first irregular clamping blocks, 55 second irregular clamping blocks, 56 compression springs, 6 tension meters, 7 light clamps, 8 sliding blocks, 9 electromagnetic generators, 10 first metal plates, 11 second metal plates, 12 ring magnets, 13 connecting wires and 14 connecting columns.

Detailed Description

Example 1

Referring to fig. 1-7, a detection device of a special force value detection tool for spinning comprises a support plate 1 provided with a sliding groove 2 and an electric hydraulic cylinder 4 arranged on the side wall of the support plate 1, wherein a lifting plate 3 slides on the support plate 1, the lifting plate 3 slides on the sliding groove 2 through a sliding block 8, the output end of the electric hydraulic cylinder 4 acts on the support plate 1 to slide up and down, the output end of the electric hydraulic cylinder 4 is rotationally connected with the sliding block 8, and the force acting on the support plate 1 at the output end of the electric hydraulic cylinder 4 is the detection force provided by the special force value detection tool for spinning, so that the support plate 1 can be driven to lift, the provided detection force is converted into the tensile force acting on corresponding textile cloth by the lifting of the support plate 1, thereby the detection effect is achieved conveniently.

The lifting plate 3 bottom is provided with the centre gripping anchor clamps 5 that are used for the centre gripping fabrics that awaits measuring, backup pad 1 bottom is provided with the tensiometer 6 that is used for detecting pressure, the tensiometer 6 tip is provided with the light anchor clamps 7 that are used for the centre gripping fabrics, wherein design like this is in order to with the fabrics both ends centre gripping that await measuring between centre gripping anchor clamps 5 and light anchor clamps 7, then can drag corresponding fabrics under the effect of backup pad 1 lifting, then according to the demonstration that tensiometer 6 shows and the measuring force that the special force value of weaving examines the utensil provides compare just can play the effect of verifying the measuring accuracy of the special force of weaving examine utensil, the setting of light anchor clamps 7 is in order to reduce the weight of light anchor clamps 7 simultaneously, avoid the in-process of lifting need examine the force and additionally overcome the gravity of light anchor clamps 7, thereby cause too much error.

The inner side wall of the sliding groove 2 is provided with an electromagnetic generator 9 for generating a magnetic field by energizing, wherein the electromagnetic generator 9 is internally provided with a plurality of energizing solenoids which face the center point position, so that the magnetic fields generated on the inner surface of the electromagnetic generator 9 are all the same magnetic pole, and the technology is the prior art and is not described too much.

Referring to fig. 7, a ring magnet 12 is provided in the slider 8 so as to repel the electromagnetic generator 9, the ring magnet 12 is provided in the slider 8, and the outer side wall and the inner side wall of the ring magnet 12 are opposite in magnetic polarity, so that the magnetic fields of the outer side wall of the slider 8 are all the same.

Wherein the magnetic poles of the energized solenoid facing the ring magnet 12 are the same as the magnetic poles of the outer side wall of the ring magnet 12, and the slider 8 and the electromagnetic generator 9 are not in contact with each other, so that the slider 8 can be ensured to slide on the electromagnetic generator 9 without contact, wherein the magnetic poles of the energized solenoid facing the ring magnet 12 are the same as the magnetic poles of the outer side wall of the ring magnet 12, so that the slider 8 can be ensured to bear repulsive forces from the surroundings on the electromagnetic generator 9, and the repulsive forces are the same, a balance is formed, so that the slider 8 is ensured not to contact with the electromagnetic generator 9.

Referring to fig. 5-6, the outer side wall of the sliding block 8 is provided with a second metal plate 11, the second metal plate 11 is arranged at the edge of the sliding block 8, and the first metal plate 10 is arranged on the side wall of the electromagnetic generator 9, it is to be noted that the edge of the second metal plate 11, which is arranged at the edge of the sliding block 8, is the edge on the horizontal plane, that is, the second metal plate 11 is arranged at the side edges of the top surface and the bottom surface of the sliding block 8, and the first metal plate 10 is arranged on the side wall of the electromagnetic generator 9, wherein the first metal plate 10 is arranged on the inner side wall of the electromagnetic generator 9 through a mounting groove on the inner side wall of the electromagnetic generator 9, so that the sliding of the sliding block 8 in the electromagnetic generator 9 can not be affected.

It should be noted that, during the sliding process of the slider 8, the slider 8 is not always in contact with the side wall of the electromagnetic generator 9, and during the lifting process, the slider 8 is deflected due to various externally applied tiny forces, so that the side edge of the slider 8 collides with the side wall of the electromagnetic generator 9, and the first metal plate 10 is brought into contact with the second metal plate 11, thereby forming a complete loop.

Further, a first metal plate 10 is disposed on one side of the electromagnetic generator 9 opposite to the slider 8, a second metal plate 11 is connected with the first metal plate 10 through a connecting wire 13, a connecting post 14 is disposed in the slider 8, the connecting post 14 is connected with the second metal plate 11 through the connecting wire 13, the first metal plate 10 is connected with the connecting post 14 through the connecting wire 13, and therefore when the slider 8 is inclined and deflected, the first metal plate 10 is in contact with the second metal plate 11, and a closed loop is formed under the action of connection of the connecting wire 13.

The connecting column 14 is internally provided with a direct current power supply for providing power for the electromagnetic generator 9, and it is to be noted that the direct current power supply at this time forms a closed loop on the connecting wire 13, the connecting wire 13 is wound around an energized solenoid in the electromagnetic generator 9, and the current flowing through the connecting wire can strengthen the magnetic field on the energized solenoid originally, so that the magnetic field on the inclined side of the sliding block 8 can be strengthened, the original repulsive force can be increased, the sliding block 8 which is inclined originally can be reset under the action of the strong repulsive force, and the effect that the sliding block 8 is reset due to the strong repulsive force once the sliding block 8 is inclined to touch the side wall to generate sliding friction is realized, so that the sliding friction generated in the lifting process of the sliding block 8 is avoided.

The working principle of the invention is as follows: firstly, the textile to be detected is clamped by the clamping fixture 5 and the light fixture 7, and then the textile to be detected is pulled under the action of the electro-hydraulic cylinder 4, wherein the sliding block 8 bears the repulsive force from the surrounding on the electromagnetic generator 9, and the repulsive forces are the same, so that balance is formed, the sliding block 8 is ensured not to be contacted with the electromagnetic generator 9, the sliding block 8 occasionally touches the electromagnetic generator 9 on the sliding groove 2 in the stretching and lifting process, then reinforced repulsive force is generated, and the originally inclined sliding block 8 is reset under the action of the reinforced repulsive force, so that sliding friction generated by the sliding block 8 in the lifting process is avoided.

Example two

Referring to fig. 3 to 4, the clamping jig 5 includes a sliding top plate 51, two oppositely disposed sliding frames 52, a hydraulic stretcher 53, a first irregular clamping block 54, a second irregular clamping block 55, and a plurality of compression springs 56, the two oppositely disposed sliding frames 52 slide on the sliding top plate 51 through sliding holes, and both ends of the hydraulic stretcher 53 are respectively connected with the side walls of the two oppositely disposed sliding frames 52, so that the two sliding frames 52 can be pulled in by the hydraulic stretcher 53 to thereby have an effect of clamping textiles to be detected placed between the two sliding frames 52.

The first irregular clamping block 54 and the second irregular clamping block 55 are respectively arranged on opposite sides of the two oppositely arranged sliding frames 52, and the first irregular clamping block 54 and the second irregular clamping block 55 are connected with the sliding frames 52 through the compression springs 56, so that the first irregular clamping block 54 and the second irregular clamping block 55 can move up and down in the sliding frames 52, and corresponding textiles can be better clamped.

Referring to fig. 4, the first irregular clamping block 54 is fixedly connected to the top of the inner side wall of one of the sliding frames 52 through the compression spring 56, the second irregular clamping block 55 is fixedly connected to the bottom of the inner side wall of the other sliding frame 52 through the compression spring 56, the opposite sides of the first irregular clamping block 54 and the second irregular clamping block 55 are matched, when the first irregular clamping block 54 and the second irregular clamping block 55 are close to each other and are pressed mutually, the first irregular clamping block 54 is pressed and lifted, and conversely, the second irregular clamping block 55 is pressed and lowered, so that the first irregular clamping block 54 and the second irregular clamping block 55 can firmly clamp the textile between the first irregular clamping block 54 and the second irregular clamping block 55, and the phenomenon of skidding is avoided.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides a detection device of utensil is examined to special power value of weaving, includes backup pad (1) of seting up sliding tray (2) and installs electronic pneumatic cylinder (4) at backup pad (1) lateral wall, a serial communication port, it has lifting board (3) to slide on backup pad (1), lifting board (3) are passed through slider (8) and are slided on sliding tray (2), lifting board (3) are passed through electronic pneumatic cylinder (4) output and are acted on backup pad (1) and slide from top to bottom, electronic pneumatic cylinder (4) output and slider (8) rotate to be connected, lifting board (3) bottom is provided with centre gripping anchor clamps (5) that are used for the centre gripping textile to be measured, backup pad (1) bottom is provided with and is used for detecting tension gauge (6) of pressure, tension gauge (6) tip is provided with light anchor clamps (7) that are used for the centre gripping textile, inside wall (2) are provided with electromagnetic generator (9) that are used for the circular telegram to produce the magnetic field, be provided with in slider (8) with annular magnet (12) that repel electromagnetic generator (9), second metal sheet (8) are provided with one side (8) relative electromagnetic generator (10), the second metal plate (11) is in communication with the first metal plate (10) through a connecting wire (13).

2. The detection device of the spinning special force value detection tool according to claim 1, wherein the annular magnet (12) is arranged in the sliding block (8), and the magnetic poles of the outer side wall and the inner side wall of the annular magnet (12) are opposite.

3. The detection device of the spinning special force value detection tool according to claim 2, wherein the electromagnetic generator (9) is internally composed of a plurality of energized solenoids, and the magnetic poles generated by the energized solenoids facing the annular magnet (12) are the same as the magnetic poles of the outer side wall of the annular magnet (12).

4. The detection device of the spinning special force value detection tool according to claim 1, wherein the second metal plate (11) is arranged at the edge of the sliding block (8), the first metal plate (10) is arranged on the side wall of the electromagnetic generator (9), and the sliding block (8) and the electromagnetic generator (9) are not contacted with each other.

5. The detection device of the spinning special force value detection tool according to claim 4, wherein a connecting column (14) is arranged in the sliding block (8), the connecting column (14) is connected with the second metal plate (11) through a connecting wire (13), the first metal plate (10) is connected with the connecting column (14) through the connecting wire (13), and a direct-current power supply is arranged in the connecting column (14).

6. The detection device of the spinning special force value detection tool according to claim 1, wherein the clamping fixture (5) comprises a sliding top plate (51), two opposite sliding frames (52), a hydraulic stretcher (53), a first irregular clamping block (54), a second irregular clamping block (55) and a plurality of compression springs (56), the two opposite sliding frames (52) slide on the sliding top plate (51) through sliding holes, the first irregular clamping block (54) and the second irregular clamping block (55) are respectively arranged on opposite sides of the two opposite sliding frames (52), the first irregular clamping block (54) and the second irregular clamping block (55) are connected with the sliding frames (52) through the compression springs (56), and two ends of the hydraulic stretcher (53) are respectively connected with side walls of the two opposite sliding frames (52).

7. The detection device of the spinning special force value detection tool according to claim 6, wherein the first irregular clamping block (54) is fixedly connected with the top of the inner side wall of one sliding frame (52) through a compression spring (56), and the second irregular clamping block (55) is fixedly connected with the bottom of the inner side wall of the other sliding frame (52) through the compression spring (56).