CN113102271A - System for detecting external surface integrating degree and rigidity of fluency strip roller - Google Patents

Abstract

The invention relates to the field of hardware, and discloses a system for detecting the integrating degree and the rigidity of the outer surface of a fluency strip roller, which comprises a work box, a working cavity with openings at the front side and the upper side is arranged in the working box, the inner wall of the working cavity is abutted with a support rod, the upper side of the supporting rod is rotationally connected with two fluency strips which are symmetrical left and right, a cavity which penetrates through the fluency strips is arranged in the fluency strips, a replacing mechanism for replacing the roller is arranged in the cavity of the fluency strip and at the rear side of the fluency strip, the upper side of the fluency strip is provided with a sliding groove positioned in the inner wall of the working cavity, the upper side of the sliding groove is provided with a sliding rail, the inner walls of the left sliding rail and the right sliding rail are connected with an electromagnetic slide block in a sliding way, the lower side of the electromagnetic slide block is provided with a detection mechanism for detecting the idler wheel, the device has the function of detecting whether cracks exist on the surface of the fluent strip roller and whether the roller shaft is broken.

Description

System for detecting external surface integrating degree and rigidity of fluency strip roller

Technical Field

The invention relates to the field of hardware, in particular to a system for detecting the integrating degree and rigidity of the outer surface of a fluency strip roller.

Background

Fluent strip is an aluminum alloy slide rail, the transportation of the material of being convenient for, because the gyro wheel of current fluent strip can't carry out the function that detects to the gyro wheel in the equipment process, can lead to producing the transportation error in the course of the work of fluent strip, even cause the injury, can go wrong owing to the installation between two spaced fluent strips, the material that the non-parallel can lead to carrying is not gone toward one direction, and gyro wheel and roller shaft mostly are plastic products, easy fracture and fracture, gyro wheel fracture and fracture then make the material blocked or carry the production deviation easily.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a device for detecting whether the surface of a fluency strip roller has cracks or not and whether a roller shaft is broken or not in the installation process.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a system for detect surface degree of agreeing with, rigidity of fluent strip gyro wheel, includes the work box, be equipped with front side and upside open-ended working chamber in the work box, the inner wall butt of working chamber has the bracing piece, the upside of bracing piece is rotated and is connected with two fluent strips of bilateral symmetry, the cavity that runs through around being equipped with in the fluent strip, in the cavity of fluent strip and fluent strip rear side is equipped with the change mechanism that is used for changing the gyro wheel, the upside of fluent strip is equipped with and is located sliding tray in the inner wall of working chamber, the upside of sliding tray is equipped with the slide rail, controls two the inner wall sliding connection of slide rail has electromagnetic sliding block, electromagnetic sliding block's downside is equipped with the detection mechanism who is used for detecting the gyro wheel.

Preferably, the replacing mechanism includes a plurality of sets of sliding parts abutting against the inner wall of the cavity of the fluency strip, one set of the sliding parts includes two moving blocks which are connected to the inner wall of the cavity of the fluency strip in a sliding manner and are bilaterally symmetrical, a connecting shaft is rotatably connected between the two moving blocks, a roller is fixed on the outer peripheral side of the connecting shaft, two fixing boxes which are fixedly connected to the inner wall of the rear side of the working chamber and are bilaterally symmetrical are arranged on the rear sides of the two fluency strips, a cavity is arranged in each fixing box, an upward extending electromagnetic track is fixed on the upper side of each fixing box, the electromagnetic track can convey the moving blocks, the connecting shaft and the roller, for the prior art, a groove is arranged in the vertical section of the rear side of the working box, and an electric push rod which extends to the left side into the cavity of each fixing box is fixedly connected to the inner, the front side of the fluency strip is provided with a screening component for screening the roller.

Preferably, the screening member comprises a butt plate which is slidably connected to the inner wall of the lower side of the working cavity, the rear side of the butt plate abuts against the front sides of the two fluency strips, an electric rod fixedly connected to the inner wall of the lower side of the working cavity is fixed to the left front side of the butt plate, a collecting box positioned on the upper side of the electric rod is fixed to the front side of the butt plate, a right-angle rod is fixed to the front side of the collecting box, a concave box is fixedly connected to the upper side of the vertical section of the right-angle rod, the left side of the concave box is connected to the electromagnetic track, a cavity penetrating through the horizontal section of the upper side of the concave box and the left and right sides of the concave box is arranged in the concave box, a quadrilateral block is slidably connected to the inclined inner wall of the cavity of the concave box, a groove penetrating through the left and right sides of the, the slide pin is fixedly connected with a slide rod extending downwards, a fixed spring is arranged between the lower side of the slide rod and the lower side inner wall of the cavity of the concave box, a spring piece located on the upper side of the fixed spring is fixed on the slide rod, a hollow groove is formed in the rear side of the spring piece, a baffle abutted against the front side of the fluency strip is rotatably connected to the inner wall of the hollow groove, and a coil spring is arranged between the baffle and the inner wall of the hollow groove.

Preferably, the detection mechanism comprises two electric pull rods which are fixedly connected to the lower side of the electromagnetic slider and are bilaterally symmetrical, a connecting box is fixedly connected to the lower side of each electric pull rod, a sliding right-angle rod which abuts against the fluency strip is fixed to one side, close to the symmetry center of the working box, of the connecting box, a connecting cavity with a downward opening is arranged in the connecting box, a rack is slidably connected to the inner wall of one side, away from the symmetry center of the working box, of the connecting cavity, the rack is slidably connected to the inner wall of the sliding groove, two rotating shafts which are rotationally connected to the inner wall of one side, away from the symmetry center of the working box, of the connecting cavity and are symmetrical front and back are fixed to the rotating shafts, meshed with connecting gears connected to the rack, and transmission shafts which are rotationally connected to the left inner wall and the right inner wall of the connecting, the connecting gear is close to one side of the symmetry center of the working box is provided with a connecting belt for connecting the transmission shaft with the rotating shaft, the driving belt is close to one side of the symmetry center of the working box is provided with a connecting box fixed on the inner wall of the upper side of the connecting cavity, the left side and the right side of the connecting box are provided with grooves located in the connecting box, and an auxiliary component for auxiliary detection is arranged in the connecting cavity.

Preferably, the auxiliary member includes two concave plates slidably connected to an inner wall of the groove of the connection box and symmetrical about the connection box, a through groove penetrating from left to right is formed in a vertical section of the concave plate, the front and rear transmission shafts are located in the through groove of the concave plate, one concave plate away from a center of symmetry of the working box is closer to the center of symmetry of the working box than the transmission belt, a compression spring is arranged between a lower side of a horizontal section of the concave plate and an inner wall of the groove of the connection box, the vertical section of the concave plate is rotatably connected with two connection shafts symmetrical from front to rear, a rotating wheel located between the vertical sections of the concave plate is fixed to an outer peripheral side of the connection shafts, a groove is formed in a side of the concave plate away from the center of symmetry of the working box, one side of the concave plate away from the center of symmetry of the working box, the inner wall of the groove of the concave plate is connected with a moving block in a sliding mode, a supporting spring is arranged between the front side of the moving block and the inner wall of the groove of the concave plate, the moving block is connected with a rotating shaft in a rotating mode, a transmission belt is connected between the rotating shaft and the transmission shaft and between the rotating shaft and the connecting shaft, and a stirring component used for stirring the idler wheels is arranged in the connecting box.

Preferably, the shifting member comprises two sliding rods rotatably connected to one side of the connecting shafts close to the symmetric center of the working box, the sliding rods are slidably connected to the front and rear inner walls of the connecting cavity, a connecting cavity is arranged in the connecting box, a butt rod is slidably connected to the lower inner wall of the connecting cavity and located between the two sliding rods, a compression spring is arranged between the upper side of the butt rod and the upper inner wall of the connecting cavity, an extending shaft is rotatably connected to the vertical section of the butt rod, a friction wheel located at the rear side of the butt rod is fixed to the extending shaft, the diameter of the friction wheel is equal to the distance between the two sliding rods, a transmission gear fixedly connected to the extending shaft is arranged at the rear side of the friction wheel, the left side and the right side of the transmission gear are abutted with a moving rack which is bilaterally symmetric and slidably connected to the lower inner wall of the connecting cavity, and an extension spring is arranged between the upper side of the movable rack and the inner wall of the upper side of the connecting cavity.

Has the advantages that: the invention relates to a system for detecting the engagement degree and rigidity of the outer surface of a roller of a fluency strip, which can push the roller, the fluency strip and a moving block into the inner wall of a cavity of the fluency strip when double rows of fluency strips are assembled, so that the moving blocks are mutually abutted and assembled in the cavity of the fluency strip.

This detecting system can be at the in-process that electromagnetic sliding block removed, it has pressure to rotate the wheel pair gyro wheel to make four through electric pull rod, and the meshing through rack and connecting gear, can make four rotate the wheel syntropy and rotate, it can not rotate to detect the gyro wheel, the upside of butt pole meeting butt pivoted gyro wheel, detect the periphery side of gyro wheel, if there is the crackle, the butt pole then can support this gyro wheel, if the connecting axle breaks, four rotate the wheel and will not be in a plane, removal rack and butt pole through the rear side can be released this connecting axle and gyro wheel.

Impaired gyro wheel and connecting axle can be pushed down by electric pull rod at the upside of spring leaf, and because the spring leaf elasticity, can push out the normal gyro wheel of the front side of impaired gyro wheel forward, prevent that normal gyro wheel from being rejected.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged internal structure view of the junction box of fig. 2.

Fig. 4 is a schematic diagram of the structure of B-B in fig. 3.

Fig. 5 is a schematic view of the structure of C-C in fig. 4.

Fig. 6 is an enlarged schematic view of D in fig. 2.

Fig. 7 is a schematic diagram of the structure of E-E in fig. 6.

In the figure, a work box 11, a work cavity 12, a sliding groove 13, a rack 14, an electromagnetic slider 15, a fixed box 16, an electromagnetic track 17, an electric pull rod 18, a connecting box 19, a sliding right-angle rod 20, a fluency strip 21, a moving block 22, a connecting shaft 23, a roller 24, a supporting rod 25, a butt plate 26, an electric rod 27, a collecting box 28, a right-angle rod 29, a concave box 30, a spring piece 31, a baffle plate 32, a sliding rail 33, an electric push rod 34, a connecting cavity 35, a compression spring 36, a concave plate 37, a connecting box 38, a connecting cavity 39, an extension spring 40, a moving rack 41, a transmission shaft 42, a transmission belt 43, a sliding rod 44, a connecting shaft 45, a transmission gear 46, a friction wheel 47, an extension shaft 48, a butt rod 49, a rotating wheel 50, a connecting belt 51, a rotating shaft 52, a connecting gear 53, a compression spring 54, a supporting spring 55, a rotating shaft, A hollow groove 61, a fixed spring 62 and a sliding rod 63.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to fig. 1-7, a system for detecting the degree of fit and rigidity of the outer surface of a fluent strip roller comprises a work box 11, a work chamber 12 with an opening at the front side and the upper side is arranged in the work box 11, a support rod 25 is abutted to the inner wall of the work chamber 12, two fluent strips 21 which are bilaterally symmetrical are rotatably connected to the upper side of the support rod 25, a cavity which runs through from front to back is arranged in the fluent strip 21, a replacing mechanism for replacing the roller is arranged in the cavity of the fluent strip 21 and at the rear side of the fluent strip 21, a sliding groove 13 which is arranged in the inner wall of the work chamber 12 is arranged on the upper side of the fluent strip 21, a sliding rail 33 is arranged on the upper side of the sliding groove 13, an electromagnetic slider 15 is slidably connected to the inner walls of the left and right sliding.

The replacement mechanism comprises a plurality of groups of sliders abutting against the inner wall of a cavity of the fluency strip 21, each group of sliders comprises two movable blocks 22 which are connected to the inner wall of the cavity of the fluency strip 21 in a sliding mode and are bilaterally symmetrical, a connecting shaft 23 is rotatably connected between the two movable blocks 22 on the left and the right, rollers 24 are fixed on the outer peripheral side of the connecting shaft 23, two fixed boxes 16 which are fixedly connected to the inner wall of the rear side of the working cavity 12 and are bilaterally symmetrical are arranged on the rear sides of the two fluency strips 21 on the left and the right, a cavity is formed in each fixed box 16, an electromagnetic track 17 extending upwards is fixed on the upper side of each fixed box 16, a groove is formed in the vertical section of the rear side of the working box 11, the inner wall of the rear side of the groove of the working box 11 is fixedly.

The screening component comprises a butt plate 26 which is connected with the lower inner wall of the working cavity 12 in a sliding way, the rear side of the butt plate 26 is butted against the front sides of the two flues 21, an electric rod 27 fixedly connected with the lower inner wall of the working cavity 12 is fixed on the left front side of the butt plate 26, a collecting box 28 positioned on the upper side of the electric rod 27 is fixed on the front side of the butt plate 26, a right-angle rod 29 is fixed on the front side of the collecting box 28, a concave box 30 is fixedly connected with the upper side of the vertical section of the right-angle rod 29, the left side of the concave box 30 is connected with the electromagnetic track 17, the electromagnetic track 17 can convey the moving block 22, the connecting shaft 23 and the idler wheels 24, for the prior art and not repeated description, a cavity which penetrates through the upper horizontal section and the left and right sides of the concave box 30 is arranged in the concave box 30, a quadrilateral block 59 is connected with, a sliding pin 60 is connected to the inner wall of the quadrangular block 59 in a sliding manner, a sliding rod 63 extending downwards is fixedly connected to the sliding pin 60, a fixed spring 62 is arranged between the lower side of the sliding rod 63 and the lower side inner wall of the cavity of the concave box 30, a spring piece 31 positioned on the upper side of the fixed spring 62 is fixed to the sliding rod 63, a hollow groove 61 is arranged on the rear side of the spring piece 31, a baffle 32 abutted against the front side of the fluency strip 21 is rotatably connected to the inner wall of the hollow groove 61, and a coil spring is arranged between the baffle 32 and the inner wall of the hollow groove 61.

The detection mechanism comprises two electric pull rods 18 which are fixedly connected to the lower side of an electromagnetic slider 15 and are bilaterally symmetrical, a connecting box 19 is fixedly connected to the lower side of each electric pull rod 18, a sliding right-angle rod 20 abutted to a fluency strip 21 is fixed to one side, close to the symmetry center of a working box 11, of each connecting box 19, a connecting cavity 35 with a downward opening is arranged in each connecting box 19, a rack 14 is connected to the inner wall, away from the symmetry center of the working box 11, of each connecting cavity 35 in a sliding mode, the rack 14 is connected to the inner wall, away from the symmetry center of the working box 11, of each connecting cavity 14 in a sliding mode, two rotating shafts 52 which are connected to the inner wall, away from the symmetry center of the working box 11, of each connecting cavity 35 in a rotating mode and are symmetrical front and back are arranged on the lower side of each rack 14, a connecting gear 53 which is meshed with the rack 14 is provided with transmission shafts 42 which are rotatably connected, one side of the transmission belt 43 close to the symmetry center of the working box 11 is provided with a connecting box 38 fixed on the inner wall of the upper side of the connecting cavity 35, the left side and the right side of the connecting box 38 are provided with grooves positioned in the connecting box 19, and an auxiliary component for auxiliary detection is arranged in the connecting cavity 35.

The auxiliary component comprises two concave plates 37 which are connected with the inner wall of the groove of the connecting box 19 in a sliding way and are symmetrical relative to the connecting box 38, a through groove which penetrates through left and right is arranged in the vertical section of the concave plates 37, a front transmission shaft 42 and a rear transmission shaft 42 are positioned in the through groove of the concave plates 37, one concave plate 37 of the concave plates 37, which is far away from the symmetry center of the working box 11, is closer to the symmetry center of the working box 11 than a transmission belt 43, a compression spring 54 is arranged between the lower side of the horizontal section of the concave plates 37 and the inner wall of the groove of the connecting box 19, the vertical section of the concave plates 37 is connected with two connecting shafts 45 which are symmetrical front and rear, a rotating wheel 50 which is positioned between the vertical sections of the concave plates 37 is fixed on the peripheral side of the connecting shafts 45, one side of the concave plate 37, which is far away from the symmetry center of the working box 11, a supporting spring 55 is arranged between the front side of the moving block 57 and the inner wall of the groove of the concave plate 37, the moving block 57 is rotatably connected with a rotating shaft 56, a transmission belt 43 is connected between the rotating shaft 56 and the transmission shaft 42 and between the rotating shaft 57 and the connecting shaft 45, and a shifting component for shifting the roller is arranged in the connecting box 38.

The toggle component comprises slide rods 44 which are rotatably connected to two connecting shafts 45 and are close to one side of the symmetry center of the working box 11, the slide rods 44 are slidably connected to the front inner wall and the rear inner wall of a connecting cavity 35, a connecting cavity 39 is arranged in the connecting box 38, a butting rod 49 is slidably connected to the lower inner wall of the connecting cavity 39, the butting rod 49 is positioned between the two slide rods 44, a compression spring 36 is arranged between the upper side of the butting rod 49 and the upper inner wall of the connecting cavity 39, an extending shaft 48 is rotatably connected to the vertical section of the butting rod 49, a friction wheel 47 positioned at the rear side of the butting rod 49 is fixed to the extending shaft 48, the diameter of the friction wheel 47 is equal to the distance between the two slide rods 44, a transmission gear 46 fixedly connected to the extending shaft 48 is arranged at the rear side of the friction wheel 47, moving racks 41 which are bilaterally symmetrical and slidably connected to the lower inner wall of the connecting cavity 39 are abutted to the left.

The working principle is as follows: initially, the electric pull rod 18, the electric rod 27 and the electromagnetic slider 15 are in a closed state, the compression spring 36 and the extension spring 40 are in an extended state, the compression spring 54, the support spring 55 and the fixing spring 62 are in a compressed state, the inner wall of the cavity of the fluency strip 21 is already provided with the plurality of pairs of moving blocks 22, and the electromagnetic slider 15 is in a position close to the two fixing boxes 16.

In operation, as shown in fig. 1, the support rod 25 for enhancing rigidity is placed on the upper side of the inner wall of the upper horizontal section of the working chamber 12, the double rows of flues 21 and the support rod 25 are connected in a rotating manner by screws, the electric pull rod 18 and the sliding right-angle rod 20 are controlled, the vertical section of the sliding right-angle rod 20 abuts against one side, close to the center of symmetry of the working chamber 11, of the two flues 21, as shown in fig. 2, the electric rod 27 is started, the abutting plate 26 abuts against the front sides of the two flues 21, the abutting plate 26 can enable the collection box 28 and the right-angle rod 29 to drive the concave box 30 to move right, at this moment, as shown in fig. 6, the baffle 32 just abuts against the front side of the moving block 22, because the rear sides of the two flues 21 abut against the front sides of the two fixed boxes 16 at this moment, the idler wheels 24 in the. The electromagnetic slider 15 is started, so that the electromagnetic slider 15 moves forward along the inner wall of the sliding rail 33, and at the same time, the electric pull rod 18 is started, so that the connecting box 19 drives the sliding right-angle rod 20 to move downward, the connecting box 19 drives the rack 14 to move downward along the inner wall of the sliding groove 13 until the lower sides of the four rotating wheels 50 are lower than the upper sides of the rollers 24, as shown in fig. 2, when the electromagnetic slider 15 moves forward along the inner wall of the sliding rail 33, the front side and the rear side of the rack 14 are supported by the inner wall of the sliding groove 13, as shown in fig. 4, at this time, due to the meshing of the rack 14 and the connecting gear 53, the left connecting gear 53 and the right connecting gear 53 rotate clockwise, the connecting gear 53 rotates to rotate together to rotate the rotating shaft 52, 5 through the connecting belt 51 to move the rack 41 to rotate clockwise as viewed from right, the transmission shaft 42 through, the support spring 55 can make the transmission belt 43 in a tensioned state, and the engaging shaft 45 can drive the rotating wheel 50 to rotate.

When the four rotating wheels 50 abut against the roller 24, as shown in fig. 3, the roller 24 pushes the four rotating wheels 50 upward, the two rotating wheels 50 move the concave plate 37 upward through the engaging shaft 45, the compression spring 54 is stretched, since the engaging shaft 45 is closer to the transmission shaft 42, under the action of the supporting springs 55, the moving block 57 slides to the rear side, keeping the drive belt 43 tensioned, when the roller 24 is caught between the four rotating wheels 50, since the four rotating wheels 50 are all rotating in the same direction, the jammed roller 24 is rotated in the opposite direction, meanwhile, the abutting rod 49 abuts against the upper side of the roller 24, the compression spring 36 is compressed, the abutting rod 49 abuts against the outer peripheral side of the roller 24, if there is a crack on the outer peripheral side of the roller 24, the abutting rod 49 is stuck in the crack, while the electromagnetic slider 15 continues to move, the contact rod 49 can block the roller 24 with cracks to push forward.

As shown in fig. 4, if the connecting shaft 23 inside the roller 24 abutted by the four rotating wheels 50 is broken, the roller 24 on the side is made to be higher and lower, and the abutting rod 49 at this time cannot detect the outer peripheral side of the roller 24, the abutting rod 49 cannot push the roller 24, at this time, if one side of one roller 24 far from the symmetry center of the work box 11 is high and one side near the symmetry center of the work box 11 is low, at this time, two rotating wheels 50 far from the symmetry center of the work box 11 are jacked up by the roller 24, and two rotating wheels 50 near the symmetry center of the work box 11 cannot be jacked up, the rotating wheel 50 far from the symmetry center of the work box 11 can make the sliding rod 44 on the side move up through the engaging shaft 45 on the side, the sliding rod 44 can slide up along the inner wall of the connecting cavity 35, and when the sliding rod 44 on the side abuts against the friction wheel 47, the friction wheel 47 can rotate, meanwhile, the friction wheel 47 drives the extension shaft 48 to rotate together, the extension shaft 48 enables the transmission gear 46 to rotate together, the transmission gear 46 is always abutted against the moving rack 41, the transmission gear 46 rotates to enable the moving rack 41 on one side far away from the symmetry center of the work box 11 to move upwards, the moving rack 41 on one side close to the symmetry center of the work box 11 moves downwards and is abutted against the lower rear side of the roller 24, and when the electromagnetic slider 15 moves forwards, the roller 24 is pushed out.

As shown in fig. 6, after the damaged roller 24 is detected, the front row is pushed forward without being detected, the moving block 22 pushes the baffle 32 to turn counterclockwise as seen from right, the baffle 32 turns into the empty groove 61, the moving block 22 moves forward along the upper side of the spring plate 31, when the roller 24 pushed by the four rotating wheels 50 moves to the upper side of the spring plate 31, the electric pull rod 18 pushes the connecting box 19 downward, the connecting box 19 pushes the roller 24 downward through the rotating wheels 50, the spring plate 31 turns downward due to the elasticity of the spring plate 31, the spring plate 31 simultaneously drives the sliding rod 63 to move downward together, so that the fixed spring 62 is compressed, the sliding rod 63 pushes the sliding pin 60 downward, the sliding pin 60 at this time makes the quadrilateral block 59 slide forward along the inclined side of the cavity of the concave box 30, and the damaged roller 24 can be pushed forward without being detected or the normal roller 24, damaged rollers 24, moving blocks 22 and connecting shafts 23 fall into the collecting box 28, the rollers 24 which are not detected or normal rollers 24 are conveyed into the cavity of the fixed box 16 by the electromagnetic track 17 and pushed into the cavity of the fluency strip 21 through the electric push rod 34, and the rollers 24 in the cavity of the fluency strip 21 are enabled to be in accordance with the regulations and the two fluency strips 21 are in a parallel state through multiple detections.

At the end, the device is returned to the original state, and the electric pull rod 18, the electric rod 27 and the electromagnetic slider 15 are turned off.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a detect system of surface degree of agreeing with, rigidity of fluency strip gyro wheel which characterized in that: including work box (11), be equipped with front side and upside open-ended working chamber (12) in work box (11), the inner wall butt of working chamber (12) has bracing piece (25), the upside of bracing piece (25) is rotated and is connected with two fluency strips (21) of bilateral symmetry, the cavity that runs through around being equipped with in fluency strip (21), in the cavity of fluency strip (21) and fluency strip (21) rear side is equipped with the change mechanism that is used for changing the gyro wheel, the upside of fluency strip (21) is equipped with and is located sliding tray (13) in the inner wall of working chamber (12), the upside of sliding tray (13) is equipped with slide rail (33), controls two the inner wall sliding connection of slide rail (33) has electromagnetic sliding block (15), the downside of electromagnetic sliding block (15) is equipped with the detection mechanism that is used for detecting the gyro wheel.

2. The system for detecting the degree of engagement and rigidity of the outer surface of the roller of the fluency strip as recited in claim 1, wherein: the replacing mechanism comprises a plurality of groups of sliding pieces which are abutted against the inner wall of the cavity of the fluency strip (21); a set of the sliding part comprises two moving blocks (22) which are connected with the inner wall of a cavity of the fluency strip (21) in a sliding mode and are bilaterally symmetrical, a connecting shaft (23) is connected between the two moving blocks (22) in a rotating mode, rollers (24) are fixed to the outer peripheral side of the connecting shaft (23), the two moving blocks (21) are connected with the rear side of the fluency strip in a rotating mode, two fixing boxes (16) which are fixedly connected with the inner wall of the rear side of the working cavity (12) and are bilaterally symmetrical are arranged on the rear side of the connecting shaft (21), a cavity is formed in each fixing box (16), an electromagnetic track (17) which extends upwards is fixed to the upper side of each fixing box (16), the electromagnetic tracks (17) can convey the moving blocks (22), the connecting shaft (23) and the rollers (24), and are not repeated in the prior art, grooves are formed in the vertical section of the rear side of the working box (11), and the inner wall of An electric push rod (34) in the cavity, and a screening component for screening rollers is arranged on the front side of the fluency strip (21).

3. The system for detecting the degree of engagement and rigidity of the outer surface of the roller of the fluency strip as recited in claim 2, wherein: the screening component comprises a butting plate (26) which is connected with the inner wall of the lower side of the working cavity (12) in a sliding manner, the rear side of the butting plate (26) is butted against the front sides of the two fluency strips (21), an electric rod (27) which is fixedly connected with the inner wall of the lower side of the working cavity (12) is fixed on the left front side of the butting plate (26), a collecting box (28) which is positioned on the upper side of the electric rod (27) is fixed on the front side of the collecting box (28), a right-angle rod (29) is fixed on the front side of the vertical section of the right-angle rod (29), a concave box (30) is fixedly connected on the upper side of the vertical section, the left side of the concave box (30) is connected with the electromagnetic track (17), a cavity which penetrates through the horizontal section of the upper side and the left and right sides of the concave box (30) is arranged in the concave box (30), the novel box type spring clamp is characterized in that grooves which penetrate through the left side and the right side of the quadrilateral block (59) are formed in the quadrilateral block (59), sliding pins (60) are connected to the inner wall of the quadrilateral block (59) in a sliding mode, sliding rods (63) which extend downwards are fixedly connected to the sliding pins (60), fixing springs (62) are arranged between the lower sides of the sliding rods (63) and the inner wall of the lower side of a cavity of the concave box (30), spring pieces (31) which are located on the upper sides of the fixing springs (62) are fixed to the sliding rods (63), empty grooves (61) are formed in the rear sides of the spring pieces (31), baffle plates (32) which abut against the front sides of the fluency strips (21) are rotatably connected to the inner walls of the empty grooves (61), and coil springs are arranged between the baffle plates (32) and the inner walls.

4. A system for detecting the degree of engagement and rigidity of the outer surface of a roller of a fluency strip as defined in claim 3, wherein: the detection mechanism comprises two electric pull rods (18) which are fixedly connected to the lower side of the electromagnetic sliding block (15) and are bilaterally symmetrical, a connecting box (19) is fixedly connected to the lower side of each electric pull rod (18), one side, close to the symmetry center of the working box (11), of the connecting box (19) is fixedly connected with a sliding right-angle rod (20) abutted to the fluency strip (21), a connecting cavity (35) with a downward opening is arranged in the connecting box (19), the inner wall, far away from the symmetry center of the working box (11), of the connecting cavity (35) is connected with a rack (14) in a sliding mode, the rack (14) is connected to the inner wall of the sliding groove (13) in a sliding mode, two rotating shafts (52) which are rotationally connected to the inner wall, far away from the symmetry center of the working box (11), of the connecting cavity (35) and are symmetrical in the front and back are arranged on the lower, rotation axis (52) be fixed with the meshing connect in connecting gear (53) of rack (14), the upside of rack (14) be equipped with rotate connect in transmission shaft (42) of the inner wall about connecting chamber (35), connecting gear (53) are close to one side of the centre of symmetry of work box (11) is equipped with the connection transmission shaft (42) with connecting belt (51) of rotation axis (52), being close to of transmission belt (43) one side of the centre of symmetry of work box (11) is equipped with and is fixed in link up case (38) of the upside inner wall of connecting chamber (35), the side is equipped with to be located about linking case (38) recess in connecting case (19), be equipped with the auxiliary member who is used for supplementary detection in connecting chamber (35).

5. The system for detecting the degree of engagement and rigidity of the outer surface of the roller of the fluency strip as recited in claim 4, wherein: the auxiliary component comprises two concave plates (37) which are connected with the inner wall of the groove of the connecting box (19) in a sliding manner and are symmetrical relative to the connecting box (38), a through groove which penetrates through the connecting box from left to right is formed in the vertical section of each concave plate (37), the transmission shaft (42) is positioned in the through groove of each concave plate (37), one concave plate (37) which is far away from the symmetry center of the working box (11) is closer to the symmetry center of the working box (11) than the transmission belt (43), a compression spring (54) is arranged between the lower side of the horizontal section of each concave plate (37) and the inner wall of the groove of the connecting box (19), two connecting shafts (45) which are symmetrical from front to back are connected with the vertical section of each concave plate (37) in a rotating manner, and rotating wheels (50) which are positioned between the vertical sections of the concave plates (37) are fixed on the outer peripheral side of each connecting shaft (45), keep away from one side of the symmetric center of work box (11) of gib block (37) keep away from the symmetric center of work box (11) is equipped with the recess, the inner wall sliding connection of the recess of gib block (37) has movable block (57), be equipped with supporting spring (55) between the front side of movable block (57) and the inner wall of the recess of gib block (37), movable block (57) rotate and are connected with pivot (56), be connected with driving belt (43) between pivot (56) and transmission shaft (42), join axle (45), be equipped with the toggle member that is used for stirring the gyro wheel in joining box (38).

6. The system for detecting the degree of engagement and rigidity of the outer surface of the roller of the fluency strip as recited in claim 5, wherein: the toggle member comprises two sliding rods (44) which are rotatably connected to the connecting shafts (45) and are close to one side of the symmetry center of the working box (11), the sliding rods (44) are slidably connected to the front inner wall and the rear inner wall of the connecting cavity (35), a connecting cavity (39) is arranged in the connecting box (38), a butting rod (49) is slidably connected to the inner wall of the lower side of the connecting cavity (39), the butting rod (49) is located between the two sliding rods (44), a compression spring (36) is arranged between the upper side of the butting rod (49) and the inner wall of the upper side of the connecting cavity (39), an extending shaft (48) is rotatably connected to the vertical section of the butting rod (49), a friction wheel (47) located at the rear side of the butting rod (49) is fixed to the extending shaft (48), and the diameter of the friction wheel (47) is equal to the distance between the two sliding rods (44), the rear side of friction pulley (47) is equipped with fixed connection in extend drive gear (46) of axle (48), the left and right sides butt joint of drive gear (46) has bilateral symmetry and sliding connection in link up removal rack (41) of the downside inner wall in chamber (39), the upside of removing rack (41) with be equipped with extension spring (40) between the upside inner wall in chamber (39).

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