CN216914087U - Asynchronous high-speed machine research and development precision waste discharge device - Google Patents

Abstract

The utility model discloses a precision waste discharging device for an asynchronous high-speed machine in the technical field of waste discharging devices, which comprises the asynchronous high-speed machine and a winding shaft, wherein the winding shaft is arranged at a discharge port of the asynchronous high-speed machine, a first side plate and a second side plate are arranged at opposite ends of two sides of the winding shaft, the first side plate and the second side plate are fixedly arranged at the discharge port of the asynchronous high-speed machine, a driving assembly is arranged at one end of the first side plate, one end of the driving assembly is arranged in the winding shaft in a sliding manner, a limiting mechanism is arranged in the second side plate and comprises a supporting assembly and a positioning assembly, the supporting assembly and the positioning assembly are both arranged in the second side plate in a sliding manner, one end of the positioning assembly is arranged in the supporting assembly in a sliding manner, and one end of the supporting assembly is arranged in the winding shaft in a sliding manner, the utility model can realize automatic collection of waste frames, reduce the amount of labor and reduce the labor cost, and the rolling shaft is simple to disassemble and assemble, the rolling frame waste of the rolling shaft is convenient to replace, and the practicability is high.

Description

Asynchronous high-speed machine research and development precision waste discharge device

Technical Field

The utility model relates to the technical field of waste discharge devices, in particular to a precise waste discharge device for research and development of an asynchronous high-speed machine.

Background

The asynchronous high-speed machine is an asynchronous high-speed die cutting machine as the name implies, and is mainly used for die cutting (full-break and half-break), indentation and gold stamping operation and attachment of corresponding nonmetal materials, non-setting adhesives, EVA (ethylene vinyl acetate), double faced adhesive tapes, electronics, mobile phone rubber mats and the like.

The existing asynchronous high-speed machine is not provided with a waste discharge device, frame waste materials generated by the asynchronous high-speed machine during working are generally manually processed at a discharge port by workers, the manual processing efficiency is low, the workload is large, and the labor cost is increased.

Therefore, the development of an asynchronous high-speed machine is needed to develop a precise waste discharge device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a precise waste discharge device for an asynchronous high-speed machine, which aims to solve the problems that the prior asynchronous high-speed machine in the background art does not have a waste discharge device, frame waste generated during the operation of the asynchronous high-speed machine is usually manually treated at a discharge port by manpower, the manual treatment efficiency is low, the workload is high, and the labor cost is increased.

In order to achieve the purpose, the utility model provides the following technical scheme: the asynchronous high-speed machine research and development precision waste discharge device comprises an asynchronous high-speed machine and a winding shaft, wherein the winding shaft is arranged at a discharge port of the asynchronous high-speed machine, a first side plate and a second side plate are arranged at opposite ends of two sides of the winding shaft, the first side plate and the second side plate are both fixedly arranged at the discharge port of the asynchronous high-speed machine, a driving assembly is arranged at one end, close to the winding shaft, of the first side plate, one end, close to the winding shaft, of the driving assembly is arranged in the winding shaft in a sliding mode, and a limiting mechanism is arranged in the second side plate;

stop gear includes supporting component and locating component, supporting component and locating component all slide the setting in the second curb plate, the one end that locating component is close to supporting component slides and sets up in supporting component, the one end that supporting component is close to the rolling axle slides and sets up in the rolling axle.

Preferably, the both ends of rolling axle are provided with square groove and circular slot respectively, the one end that drive assembly is close to the rolling axle slides and sets up in the square groove, the one end that support assembly is close to the rolling axle slides and sets up in the circular slot, the interval size that the one end that the rolling axle is close to between second curb plate and the second curb plate is greater than the length in square groove.

Preferably, drive assembly includes the pivot, the pivot is rotated and is installed in the one end that first curb plate is close to the rolling axle, one of pivot is close to the rolling axle serves fixed mounting and has the square, the square slides and sets up in the square groove, the one end fixedly connected with motor of square is kept away from in the pivot.

Preferably, the motor is fixedly installed on one side of the first side plate far away from the winding shaft, the output end of the motor is fixedly connected with one end of the rotating shaft far away from the square block, the motor is electrically connected with the asynchronous high-speed motor, and the side edge of the square block is in sliding fit with the inner wall of the square groove.

Preferably, the supporting component comprises a sliding block, the sliding block is arranged in one end, close to the winding shaft, of the second side plate in a sliding mode, a round pin is fixedly arranged on one side, close to the winding shaft, of the second side plate, one end, far away from the second side plate, of the round pin is arranged in a round groove in a sliding mode, a pull pin is fixedly arranged on one side, far away from the round pin, of the sliding block, a limiting groove is formed in the upper portion of the sliding block, and the limiting groove is matched with the positioning component.

Preferably, a sliding groove is formed in one end, close to the winding shaft, of the second side plate, the sliding block is arranged in one end, close to the winding shaft, of the sliding groove in a sliding mode, the side edge of the sliding block is in sliding fit with the inner wall of the sliding groove, and one end, far away from the sliding block, of the pull pin is arranged outside the second side plate.

Preferably, the locating component includes the square plate, the square plate slides and sets up in the one end that the second side plate is close to the rolling axle, one side symmetry fixed mounting that the square plate is close to the slider has the spacer pin, and the spacer pin that sets up on being close to the slider one end on the square plate slides and sets up at the spacing inslot, one side middle part fixedly connected with pull rod of spacer pin is kept away from to the square plate, the square plate is close to one side both ends symmetry fixedly connected with spring of pull rod.

Preferably, one of the second side plate close to the winding shaft is provided with a square groove, the square plate is arranged in one side of the square groove close to the sliding block in a sliding mode, the side edge of the square plate is attached to the inner wall of the square groove in a sliding mode, the two ends of the spring are fixedly connected with the inner wall of one side of the square plate and the inner wall of the square groove in a sliding mode, the inner wall of one side of the square plate is fixedly connected with the square plate and the inner wall of one side of the square groove, and the sliding block is arranged outside the second side plate in one end of the pull rod.

Compared with the prior art, the utility model has the beneficial effects that: can realize that automatic collect frame waste material rolling, avoided artifical manual clearance frame waste material, reduce the amount of manual labor, reduce the human cost, and the dismouting of rolling axle is simple, is convenient for change rolling axle rolling frame waste material, and the practicality is strong.

Drawings

FIG. 1 is a main view of an asynchronous high-speed engine of the present invention;

FIG. 2 is a structural diagram of an arrangement for avoiding rejects in accordance with the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2 according to the present invention;

FIG. 4 is a view showing the construction of a take-up reel according to the present invention;

FIG. 5 is a perspective view showing the connection between the shaft and the block according to the present invention.

In the figure: 1-asynchronous high-speed machine, 2-first side plate, 3-motor, 4-rotating shaft, 5-square block, 6-winding shaft, 7-square groove, 8-round groove, 9-sliding block, 10-pull pin, 11-sliding groove, 12-limiting pin, 13-limiting groove, 14-spring, 15-pull rod, 16-square groove, 17-square plate, 18-second side plate and 19-round pin.

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.

The utility model provides the following technical scheme: the asynchronous high-speed machine research and development precision waste discharging device can effectively realize automatic winding and collection of frame waste in the using process, avoids manual frame waste cleaning, reduces the amount of manual labor, reduces the labor cost, is simple in dismounting and mounting of the winding shaft 6, is convenient for replacing the winding frame waste of the winding shaft 6, is additionally provided with the first side plate 2, the winding shaft 6, the second side plate 18, the driving assembly, the supporting assembly and the positioning assembly, please refer to figures 1-5, comprises the asynchronous high-speed machine 1 and the winding shaft 6, the winding shaft 6 is arranged at the discharge port of the asynchronous high-speed machine 1, the first side plate 2 and the second side plate 18 are arranged at the opposite ends of the winding shaft 6, the first side plate 2 and the second side plate 18 are fixedly arranged at the discharge port of the asynchronous high-speed machine 1, the driving assembly is arranged at one end of the first side plate 2 close to the winding shaft 6, one end of the driving assembly close to the winding shaft 6 is arranged in the winding shaft 6 in a sliding manner, be provided with stop gear in the second curb plate 18, stop gear includes supporting component and locating component, supporting component and locating component all slide and set up in second curb plate 18, the one end that locating component is close to supporting component slides and sets up in supporting component, the one end that supporting component is close to rolling axle 6 slides and sets up in rolling axle 6, the both ends of rolling axle 6 are provided with square groove 7 and circular slot 8 respectively, the one end that driving component is close to rolling axle 6 slides and sets up in square groove 7, the one end that supporting component is close to rolling axle 6 slides and sets up in circular slot 8, the interval size that rolling axle 6 is close to between one end of second curb plate 18 and the second curb plate 18 is greater than the length of square groove 7, when can realize that rolling axle 6 is close to the one end of second curb plate 18 and the laminating of second curb plate 18, rolling axle 6 still has certain distance with driving component on rolling axle 6 axis.

Drive assembly includes pivot 4, pivot 4 rotates and installs in the one end that first curb plate 2 is close to rolling axle 6, pivot 4 is close to one of rolling axle 6 and serves fixed mounting have square 5, square 5 slides and sets up in square groove 7, it is spacing with rolling axle 6 and pivot 4 through square 5, thereby realize that pivot 4 drives rolling axle 6 through square 5 and rotates, the one end fixedly connected with motor 3 of square 5 is kept away from to pivot 4, motor 3 fixed mounting is in one side that rolling axle 6 was kept away from to first curb plate 2, the one end fixed connection of square 5 is kept away from to motor 3's output and pivot 4, motor 3 and asynchronous high-speed machine 1 electric connection, the side of square 5 and the inner wall of square groove 7 are laminated in a sliding way, avoid square 5 to appear pivoted phenomenon in square groove 7.

The supporting component comprises a sliding block 9, the sliding block 9 is arranged in one end, close to the winding shaft 6, of the second side plate 18 in a sliding mode, a round pin 19 is fixedly installed on one side, close to the winding shaft 6, of the second side plate 18, the sliding block 9 is used for limiting the round pin 19 in the horizontal direction, one end, far away from the second side plate 18, of the round pin 19 is arranged in the round groove 8 in a sliding mode, the round pin 19 supports one end, far away from the square 5, of the winding shaft 6, a pull pin 10 is fixedly installed on one side, far away from the round pin 19, of the sliding block 9, the pull pin 10 facilitates pulling the round pin 19 to move and slide out of the round groove 8, a limiting groove 13 is formed in the upper portion of the sliding block 9, the limiting groove 13 is matched with the positioning component, one end, close to the limiting groove 13, of the positioning component slides into the limiting groove 13 to fix the sliding block 9 and the round pin 19, a sliding groove 11 is formed in one end, close to the winding shaft 6, of the second side plate 18, the sliding block 9 is arranged in one end, close to the winding shaft 6, of the sliding groove 11, the side edge of the sliding block 9 is in sliding fit with the inner wall of the sliding groove 11, and one end, far away from the sliding block 9, of the pull pin 10 is arranged outside the second side plate 18.

The positioning component comprises a square plate 17, the square plate 17 is arranged in one end, close to the winding shaft 6, of a second side plate 18 in a sliding mode, limiting pins 12 are symmetrically and fixedly arranged on one side, close to the sliding block 9, of the square plate 17, the square plate 17 is used for limiting the limiting pins 12, the limiting pins 12 arranged on one end, close to the sliding block 9, of the square plate 17 are arranged in limiting grooves 13 in a sliding mode, the limiting pins 12 slide into the limiting grooves 13 to position and fix the sliding block 9, a pull rod 15 is fixedly connected to the middle portion of one side, far away from the limiting pins 12, of the square plate 17, two ends of one side, close to the pull rod 15, of the square plate 17 are symmetrically and fixedly connected with springs 14, the springs 14 are used for enabling the limiting pins 12 to stably slide into the limiting grooves 13, the limiting pins 12 are prevented from sliding out of the limiting grooves 13 due to vibration, a square groove 16 is arranged on one end, close to the winding shaft 6, of the second side plate 18, the square plate 17 is arranged in one side, close to the sliding block 9, of the square groove 16, and the side of square plate 17 and the inner wall of square groove 16 slide and laminate, the both ends of spring 14 respectively with square plate 17 and square groove 16 keep away from one side inner wall fixed connection of square plate 17, the one end setting in second side plate 18 that slider 9 was kept away from to pull rod 15.

The working principle is as follows: when the asynchronous high-speed machine 1 is started, the asynchronous high-speed machine 1 starts the motor 3 to synchronously work, one end of the frame waste is stuck on the winding shaft 6, the waste is continuously discharged from the discharge port of the asynchronous high-speed machine 1, the motor 3 works, namely the rotating shaft 4 and the square 5 rotate, as the square 5 and the square groove 7 are square, the rotating shaft 4 can be driven by the rotation of the square 5, namely the winding shaft 6 rotates, the frame waste can be wound on the winding shaft 6 by the rotation of the winding shaft 6, the frame waste can be automatically wound and collected, the frame waste is prevented from being manually cleaned, the manual labor amount is reduced, the labor cost is reduced, when the frame waste on the winding shaft 6 and the winding shaft 6 needs to be dismounted, the asynchronous high-speed machine 1 is closed, namely the motor 3 is closed to stop rotating, then the pull rod 15 is pulled to move to the side far away from the second side plate 18, namely, the spring 14 is in a compression state, the limiting pin 12 slides out of the limiting groove 13, then the pull pin 10 moves towards one side far away from the second side plate 18, at the moment, the round pin 19 slides out of the round groove 8, the round pin 19 completely contracts into the second side plate 18, then the pull rod 15 is loosened, the square plate 17 and the limiting pin 12 reset under the action force of the two groups of springs 14, namely, one group of limiting pins 12 close to the sliding block 9 on the square plate 17 slide into the limiting groove 13, the sliding block 9 and the round pin 19 are limited, then the winding shaft 6 is pulled to move towards one side far away from the first side plate 2, even if the square block 5 completely slides out of the square groove 7, the winding shaft 6 and frame waste materials can be taken down for replacement, great convenience is brought to people for replacing the winding shaft 6, and the dismounting are simple.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The asynchronous high-speed machine research and development precision waste discharge device comprises an asynchronous high-speed machine (1) and is characterized by further comprising a winding shaft (6), wherein the winding shaft (6) is arranged at a discharge outlet of the asynchronous high-speed machine (1), a first side plate (2) and a second side plate (18) are arranged at opposite ends of two sides of the winding shaft (6), the first side plate (2) and the second side plate (18) are fixedly arranged at the discharge outlet of the asynchronous high-speed machine (1), a driving assembly is arranged at one end, close to the winding shaft (6), of the first side plate (2), one end, close to the winding shaft (6), of the driving assembly is arranged in the winding shaft (6) in a sliding mode, and a limiting mechanism is arranged in the second side plate (18);

stop gear includes supporting component and locating component, supporting component and locating component all slide to set up in second curb plate (18), the locating component slides to set up in supporting component near the one end of supporting component, the one end that the supporting component is close to rolling axle (6) slides to set up in rolling axle (6).

2. The asynchronous high-speed machine development precision waste discharge device according to claim 1, characterized in that: the both ends of rolling axle (6) are provided with square groove (7) and circular slot (8) respectively, the one end that drive assembly is close to rolling axle (6) slides and sets up in square groove (7), the one end that support assembly is close to rolling axle (6) slides and sets up in circular slot (8), the one end that rolling axle (6) are close to second curb plate (18) and the interval between second curb plate (18) are greater than the length of square groove (7).

3. The asynchronous high-speed machine development precision waste discharge device according to claim 2, characterized in that: drive assembly includes pivot (4), pivot (4) rotate install in first curb plate (2) is close to the one end of rolling axle (6), pivot (4) are close to one of rolling axle (6) and serve fixed mounting have square (5), square (5) slide and set up in square groove (7), the one end fixedly connected with motor (3) of square (5) are kept away from in pivot (4).

4. The asynchronous high-speed machine development precision waste discharge device according to claim 2, characterized in that: the supporting component comprises a sliding block (9), the sliding block (9) is arranged in one end, close to the winding shaft (6), of the second side plate (18) in a sliding mode, a round pin (19) is fixedly mounted on one side, close to the winding shaft (6), of the second side plate (18) of the second side plate (19) in a sliding mode, the round pin (8) is arranged in one end of the round pin in a sliding mode, a pull pin (10) is fixedly mounted on one side, far away from the round pin (19), of the sliding block (9), a limiting groove (13) is formed in the upper portion of the sliding block (9), and the limiting groove (13) is matched with the positioning component.

5. The development and precision waste discharge device of the asynchronous high-speed machine according to claim 3, characterized in that: motor (3) fixed mounting keeps away from one side of rolling axle (6) in first curb plate (2), the one end fixed connection of square (5) is kept away from with pivot (4) to the output of motor (3), motor (3) and asynchronous high speed machine (1) electric connection, the side of square (5) and the inner wall of square groove (7) slide the laminating.

6. The development and precision waste discharge device of the asynchronous high-speed machine according to claim 4, characterized in that: one end of the second side plate (18) close to the winding shaft (6) is internally provided with a sliding groove (11), the sliding block (9) is arranged in one end of the sliding groove (11) close to the winding shaft (6) in a sliding mode, the side edge of the sliding block (9) is attached to the inner wall of the sliding groove (11) in a sliding mode, and one end, far away from the sliding block (9), of the pull pin (10) is arranged outside the second side plate (18).

7. The development and precision waste discharge device of the asynchronous high-speed machine according to claim 4, characterized in that: locating component includes square plate (17), square plate (17) slide and set up in second curb plate (18) is close to the one end of rolling axle (6), square plate (17) are close to one side symmetry fixed mounting of slider (9) and have spacer pin (12), and square plate (17) go up and are close to one side symmetry fixed mounting of slider (9) and serve spacer pin (12) that set up and slide and set up in spacing groove (13), one side middle part fixedly connected with pull rod (15) of spacer pin (12) are kept away from in square plate (17), one side both ends symmetry fixedly connected with spring (14) that square plate (17) are close to pull rod (15).

8. The development and precision waste discharge device of the asynchronous high-speed machine according to claim 7, characterized in that: one of the second side plate (18) close to the winding shaft (6) is provided with a square groove (16), the square plate (17) is slidably arranged in one side of the square groove (16) close to the sliding block (9), the side edge of the square plate (17) is slidably attached to the inner wall of the square groove (16), two ends of the spring (14) are fixedly connected with the inner wall of one side of the square plate (17) away from the square plate (17) and the square groove (16), and one end of the pull rod (15) away from the sliding block (9) is arranged outside the second side plate (18).

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