CN215434971U - Waste collecting device of plastic suction forming machine - Google Patents

Abstract

The application relates to a waste collecting device of a plastic suction forming machine, which comprises a device body, wherein a winding roller for collecting waste is rotatably arranged on the device body, and the winding roller is connected with a driving motor for driving the winding roller to rotate; a movable mechanism movably connected to the device body is arranged below the winding roller, and the waste is connected to the winding roller after bypassing the lower part of the movable mechanism; the movable mechanism is connected with an induction assembly used for controlling the driving motor, and the driving motor is intermittently started and stopped under the control of the induction assembly. The utility model provides a plastic uptake forming machine garbage collection device can reduce the dragging of plastics in the process of the front in the rolling waste material, improves the problem that the production yield of the process of the front reduces.

Description

Waste collecting device of plastic suction forming machine

Technical Field

The utility model relates to a plastic uptake equipment technical field especially relates to a plastic uptake make-up machine garbage collection device.

Background

After the plastic is blanked by a plastic suction forming machine, continuous waste materials are formed at the corners of the plastic; the waste collecting device is used for collecting the waste of plastics so as to facilitate the subsequent treatment and recycling of the waste.

Present garbage collection device generally includes the wind-up roll and is used for ordering about wind-up roll pivoted drive assembly, and through being fixed in the wind-up roll with the waste material, the wind-up roll can be gradually with waste material winding lapping when drive assembly orders about the wind-up roll rotation.

In view of the above-mentioned related art, the inventors consider that the following drawbacks exist:

the driving assembly of the winding roller is driven to rotate continuously, and the plastic in the previous plastic suction molding process can be pulled, so that the production yield of the previous process is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the production yield of the preceding process reduces, this application provides a plastic uptake forming machine garbage collection device.

The application provides a plastic uptake forming machine garbage collection device adopts following technical scheme:

a waste collecting device of a plastic suction forming machine comprises a device body, wherein a winding roller for collecting waste is rotatably arranged on the device body, and the winding roller is connected with a driving motor for driving the winding roller to rotate; a movable mechanism movably connected to the device body is arranged below the winding roller, and the waste is connected to the winding roller after bypassing the lower part of the movable mechanism; the movable mechanism is connected with an induction assembly used for controlling the driving motor, and the driving motor is intermittently started and stopped under the control of the induction assembly.

By adopting the technical scheme, the waste is connected to the winding roller after bypassing the lower part of the movable mechanism, and when the driving motor drives the winding roller to rotate and winds the waste into a coil, the waste is in a tight state and can drive the movable mechanism to move upwards; after the plastic is blanked in the previous process, the length of the waste is increased and the waste is in a loose state, and at the moment, the movable mechanism can move downwards and re-compress the waste. The moving mechanism can enable the induction assembly to receive signals in the moving process, the induction assembly controls the driving motor to intermittently start and stop, the possibility that plastic in a previous process is continuously pulled when the winding roller winds waste materials can be reduced, and the problem that the production yield of the previous process is reduced is solved.

In addition, the waste material is rolled on the periphery of the winding roller, the tidiness of the surrounding environment of a production area can be improved, and the rolled waste material can be conveniently recycled, so that the effects of energy conservation and environmental protection are achieved.

Optionally, the movable mechanism comprises a rotating roller, a swinging roller and a connecting rod, and the rotating roller is rotatably connected to the device body; the swing roller is parallel to the rotating roller and is fixedly connected to the rotating roller through a connecting rod; the waste material bypasses the lower part of the swing roller and is connected to the winding roller.

By adopting the technical scheme, the waste bypasses the lower part of the swing roller and is connected with the winding roller, and when the driving motor drives the winding roller to rotate and wind the waste into a coil, the waste is in a tight state and can drive the swing roller and the rotating roller to rotate upwards around the central axis of the rotating roller; after plastics are blanked in the previous process, the length of the waste is increased and the waste is in a loose state, and the swing roller can rotate downwards under the action of self gravity and compress the waste again, so that the reciprocating rotation of the rotating roller is realized.

Optionally, the rotating roller is provided with a rotating disc in a circumferential linkage manner, and a magnetic block is fixed on the outer circumferential side of the rotating disc; the induction assembly comprises two induction switches, the two induction switches are arranged on the outer peripheral side of the rotary table at intervals, and when the rotary table rotates to a position where the induction switches are opposite to the magnetic blocks, the induction switches enable the state of the driving motor to be changed.

By adopting the technical scheme, the waste drives the rotating roller to rotate, so that the magnetic block disc can move to the position opposite to the two rotating discs in a reciprocating manner, the working state of the driving motor is changed, and the intermittent start and stop of the driving motor are realized.

Optionally, the device body is provided with a chute for the movable mechanism to move; the movable mechanism comprises a lifting roller movably arranged in the sliding groove and two limiting discs fixed on the lifting roller, and the two limiting discs are respectively positioned on two sides of the sliding groove; the waste material rounds the lower part of the lifting roller and is connected to the winding roller.

By adopting the technical scheme, the limiting disc is arranged for positioning the position of the lifting roller, so that the situation that the lifting roller is accidentally separated from the sliding groove is reduced; the winding roller bypasses the lower part of the lifting roller and is connected with the winding roller, and when the driving motor drives the winding roller to rotate and wind the waste into a coil, the waste is in a tense state and can drive the lifting roller to ascend along the sliding groove; after the plastic is blanked in the previous process, the length of the waste is increased and the waste is in a loose state, and the lifting roller can rotate downwards under the action of self gravity and compress the waste again, so that reciprocating lifting of the lifting roller is realized.

Optionally, the sensing assembly includes two sensing switches, and the two sensing switches are respectively located at two sides of the extension direction of the lifting slot; the inductive switches are electrically connected to the driving motor; when the lifting roller moves to the position where the inductive switch is just opposite to the limiting disc, the inductive switch enables the state of the driving motor to be changed.

By adopting the technical scheme, the limiting disc can also move to the position opposite to the two induction switches in the lifting process of the lifting roller, so that the working state of the driving motor is changed, and the intermittent start and stop of the driving motor are realized.

Optionally, a buffer cushion layer is arranged on the side wall of the lifting groove close to one side of the ground.

Through adopting foretell technical scheme, when the waste material is in the lax state, the lift roller receives self action of gravity to move down, the lift roller finally can support by in the cushion layer to weaken the impact between lift roller and the lift groove lateral wall, improve the stability that the lift roller removed in the spout.

Optionally, a material rolling assembly is arranged on the outer side of the winding roller in a circumferential linkage manner, and the material rolling assembly comprises two material blocking plates and a plurality of support rods for connecting the two material blocking plates; the center department of keeping off the charging tray is equipped with the socket that supplies the wind-up roll to pass, bracing piece and socket dislocation set.

By adopting the technical scheme, when the winding roller is driven to rotate by the driving motor, the waste can be wound on the outer side of the supporting rod; after the waste material rolling is completed, the coil stock assembly and the waste material of the coil can be detached from the winding roller together, the waste material of the coil in the detaching process can not interfere with the winding roller, the waste material is convenient to recycle, and therefore the effects of energy conservation and environmental protection are achieved.

Optionally, the wind-up roll is provided with an elastic sleeve for positioning the coil assembly.

By adopting the technical scheme, after the coil assembly is arranged on the winding roller, the elastic sleeve is sleeved on the winding roller and abuts against the coil assembly, so that the effect of positioning the coil assembly can be achieved; after the waste material rolling is completed, the elastic sleeve can be conveniently detached out of the rolling roller, so that the coil assembly is more conveniently detached, and the waste material collection speed and the replacement speed of the coil assembly are improved.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the movable mechanism, the movable mechanism can be driven to move when the driving motor winds up the waste materials, and the movable mechanism can control the induction assembly to receive signals and change the working state of the driving motor when moving, so that the intermittent starting and stopping of the driving motor are realized, the possibility that the plastic in the previous process is continuously pulled when the winding roller winds up the waste materials is reduced, and the problem of reduction of the production yield of the previous process is solved;

the waste material bypasses the lower part of the swing roller and is connected to the winding roller, so that the swing roller can be driven by the waste material to rotate upwards around the central axis of the rotating roller when the winding roller winds the waste material; the length of the waste materials for blanking the plastic is increased in the previous process, the plastic is in a loose state, the swing roller rotates downwards under the action of gravity and compresses the waste materials again, and therefore reciprocating rotation of the swing roller is achieved.

Through setting up the coil stock subassembly, can twine in the outside of bracing piece during the waste material rolling to can dismantle the waste material intercommunication coil stock subassembly of lapping together conveniently after the waste material rolling is accomplished, the recovery and the recycle of the waste material of being convenient for.

Drawings

FIG. 1 is an overall structural view of embodiment 1 of the present application;

FIG. 2 is a view showing an internal structure of a control box in embodiment 1 of the present application;

FIG. 3 is an exploded view of the coil assembly and the elastic sleeve in example 1 of the present application;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is an overall structural view of embodiment 2 of the present application;

fig. 6 is an internal configuration diagram of a control box in embodiment 2 of the present application.

Description of reference numerals: 1. a device body; 11. a control box; 111. a box door; 112. a chute; 12. A chassis; 2. a wind-up roll; 21. a positioning part; 22. a limiting groove; 23. an elastic sleeve; 3. a drive motor; 4. a movable mechanism; 41. a rotating roller; 411. a turntable; 412. a magnetic block; 4121. a first magnetic block; 4122. a second magnetic block; 42. swinging the roller; 43. a connecting rod; 44. a lifting roller; 441. a limiting disc; 5. an inductive switch; 51. a first inductive switch; 52. a second inductive switch; 6. a coil assembly; 61. a material blocking disc; 611. a socket; 6111. a limiting block; 612. constructing a groove; 62. a support bar; 7. and a controller.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Example 1:

the embodiment of the application discloses a waste material collecting device of a plastic uptake forming machine.

Referring to fig. 1 and 2, the waste collecting device of the plastic suction forming machine comprises a device body 1, wherein the device body 1 comprises a bottom frame 12 and a control box 11 fixed on the upper surface of the bottom frame 12; the control box 11 is a hollow shell, and a door 111 which can be opened and closed is arranged on the outer side of the control box 11 and is used for opening and closing the control box 11.

Referring to fig. 1 and 2, a winding roller 2 is installed on one side of the control box 11, which is away from the box door 111, the winding roller 2 is connected with a driving motor 3, and the driving motor 3 is fixed inside the control box 11; the driving motor 3 can drive the winding roller 2 to rotate when operating, thereby winding the waste into a coil.

Referring to fig. 1 and 3, the winding roller 2 is provided with a coil assembly 6 for winding waste materials, and the coil assembly 6 comprises two material blocking plates 61 and a plurality of support rods 62; wherein, socket 611 is seted up at the middle part of material blocking disc 61, and wind-up roll 2 can match and pass socket 611 to make material blocking disc 61 install in the periphery side of wind-up roll 2.

Referring to fig. 3 and 4, the inside of the socket 611 is provided with a limit block 6111, the peripheral side of the winding roller 2 is provided with a limit groove 22 matched with the limit block 6111, and the limit block 6111 is inserted into the limit groove 22 in a matching manner, so that circumferential linkage between the material blocking plate 61 and the winding roller 2 can be realized, and the material blocking plate 61 can be driven to rotate together when the winding roller 2 rotates. The material blocking disc 61 is further provided with a plurality of structural grooves 612, and the structural grooves 612 are positioned on the outer side of the socket 611; the structural groove 612 is used for reducing the overall weight of the material blocking disc 61, and the material blocking disc 61 is conveniently driven to rotate by the winding roller 2.

Referring to fig. 3, the support rods 62 are vertically fixed between the two material blocking trays 61, the number of the support rods 62 may be two, three, or four, but the support rods can play a role in stably connecting the two material blocking trays 61; the quantity of bracing piece 62 is set up to four for this embodiment, and four bracing pieces 62 set up around the equidistant setting of the axis that keeps off material dish 61, and the junction of each bracing piece 62 and keeping off material dish 61 all is located the outside of socket 611.

Referring to fig. 3, after coil stock subassembly 6 was pegged graft and is fixed in the periphery side of wind-up roll 2, wind-up roll 2 is located between four spinal branch vaulting poles 62, can twine in the week side of four spinal branch vaulting poles 62 during the waste material rolling this moment, reduces the possibility of the appearance interference between waste material and the wind-up roll 2 to can extract wind-up roll 2 together with the waste material of lapping after garbage collection accomplishes, be convenient for the recovery and the reuse of waste material.

Referring to fig. 3, the outer side of the wind-up roll 2 is provided with a positioning part 21 which is integrally formed, and when the coil assembly 6 is fixedly inserted into the wind-up roll 2, the material blocking disc 61 close to the control box 11 in the two material blocking discs 61 is abutted against the positioning part 21; an elastic sleeve 23 is further sleeved on the outer side of the winding roller 2, and the elastic sleeve 23 abuts against a material blocking disc 61 far away from the control box 11; the elastic sleeve 23 has the function of positioning the coil assembly 6, so that the possibility that the coil assembly 6 is accidentally separated from the winding roller 2 is reduced; in addition, after the waste material is completely coiled, the elastic sleeve 23 can be conveniently detached from the coiling roller 2, so that the coiling assembly 6 and coiled waste material can be conveniently pulled out of the coiling roller 2.

Referring to fig. 1, a movable mechanism 4 is installed below a wind-up roll 2, and the movable mechanism 4 is connected with an induction assembly for controlling the start and stop of a driving motor 3; twine in bracing piece 62 again after the below through bypassing movable mechanism 4 with the waste material, can make the waste material drive movable mechanism 4 and remove when the winding of wind-up roll 2 waste material, and then make response component sense the signal and change driving motor 3's operating condition to make driving motor 3 intermittent type formula open and stop.

Referring to fig. 1, the movable mechanism 4 in this embodiment includes a rotating roller 41, a swinging roller 42 and a connecting rod 43, wherein the rotating roller 41 is rotatably connected to the control box 11, and the rotating roller 41 and the control box 11 are vertically disposed; the number of the connecting rods 43 is two, the two connecting rods 43 are respectively and vertically connected to the rotating roller 41, and the two connecting rods 43 are arranged at intervals along the axial direction of the rotating roller 41; the oscillating roller 42 is vertically connected to two connecting rods 43. When the waste materials are rolled, the waste materials bypass the lower portion of the swing roller 42 and then pass through the area between the swing roller 42 and the rotating roller 41, at the moment, the two connecting rods 43 can play a limiting role together, and the possibility that the waste materials are separated from the area between the swing roller 42 and the rotating roller 41 is reduced.

Referring to fig. 1 and 2, the rotating roller 41 is connected with a turntable 411, and the turntable 411 is located inside the control box 11; the rotary table 411 in this embodiment is fixedly connected to one end of the rotating roller 41 by a bolt, so that circumferential linkage between the rotating roller 41 and the rotary table 411 is realized. Two magnetic blocks 412 are installed on the outer peripheral side of the rotating roller 41, the induction assembly comprises two induction switches 5, the two induction switches 5 are respectively fixed on the inner side wall of the control box 11, and the two induction switches 5 are respectively opposite to the outer peripheral side of the rotating disc 411; each inductive switch 5 is electrically connected with the driving motor 3 through a controller 7; the inductive switch 5 in this embodiment is configured as a hall switch, and when the magnetic block 412 rotates to a position close to the inductive switch 5, the state of the inductive switch 5 can be changed.

Referring to fig. 1 and 2, in the present embodiment, two inductive switches 5 are respectively configured as a first inductive switch 51 and a second inductive switch 52, and the first inductive switch 51 is located above the second inductive switch 52; meanwhile, the magnetic block 412 adjacent to the first inductive switch 51 is set as a first magnetic block 4121, and the magnetic block 412 adjacent to the second inductive switch 52 is set as a second magnetic block 4122; when the driving motor 3 works and drives the supporting rod 62 to wind the waste, the waste can drive the swing roller 42 and the rotating roller 41 to rotate upwards, so that the rotating disc 411 rotates to a position where the first magnetic block 4121 is opposite to the first inductive switch 51; at this time, the state of the first inductive switch 51 is changed, and the controller 7 can send a control signal to stop the operation of the driving motor 3 after receiving the state change of the first inductive switch 51.

After the driving motor 3 stops, the previous process continuously conveys the waste material, so that the length of the waste material is increased and the waste material is gradually in a loose state, at this time, the swing roller 42 rotates downwards under the action of gravity, and simultaneously, the rotating disc 411 is driven to rotate to a position where the second magnetic block 4122 is right opposite to the second inductive switch 52; at this time, the state of the second inductive switch 52 is changed, and the controller 7 can send a control signal to operate the driving motor 3 again after receiving the state change of the second inductive switch 52.

The implementation principle of the embodiment 1 of the application is as follows:

open through 3 intermittent type formulas of response subassembly control driving motor to make coil stock subassembly 6 coiling waste material intermittently, coil stock subassembly 6 pulls plastics in the process of the preceding road when reducing the waste material coiling, improves the problem that the production yield of the process of the preceding road reduces. In addition, the wound waste can be conveniently recycled and reused, and the energy-saving and environment-friendly effects are achieved.

Example 2:

the embodiment of the application discloses a waste material collecting device of a plastic uptake forming machine.

Referring to fig. 5, the difference between the waste collecting device of the plastic suction forming machine disclosed in the embodiment of the present application and embodiment 1 is:

a chute 112 is formed in one side, close to the winding roller 2, of the control box 11, and the extending direction of the chute 112 is arranged in the same direction as the vertical direction; the movable mechanism 4 in this embodiment includes a lifting roller 44, and the lifting roller 44 is movably mounted in the chute 112; two limiting discs 441 are installed on the outer peripheral side of the lifting roller 44, and the two limiting discs 441 are respectively positioned on two sides of the sliding chute 112; the two stopper plates 441 can position the lifting roller 44 together, and reduce the possibility that the lifting roller 44 is separated from the chute 112. When rolling up the waste material, twine the bracing piece 62 around the below of lift roller 44 with the waste material again for the waste material can drive lift roller 44 and go up and down in spout 112.

Referring to fig. 6, in the present embodiment, the first inductive switch 51 and the second inductive switch 52 are respectively disposed at two sides of the sliding slot 112 in the extending direction, and the first inductive switch 51 is located above the second inductive switch 52; when the driving motor 3 works and drives the supporting rod 62 to roll up the waste, the waste can drive the lifting roller 44 to move upwards, so that the limiting disc 441 positioned inside the control box 11 gradually approaches to the first inductive switch 51; when the first inductive switch 51 detects the limiting disc 441, the state of the first inductive switch 51 is changed, and the controller 7 can send a control signal to stop the driving motor 3 after receiving the state change of the first inductive switch 51.

Referring to fig. 5 and 6, after the driving motor 3 stops, the previous process continuously conveys the waste material, so that the length of the waste material is increased and the waste material is gradually in a loose state, at this time, the lifting roller 44 moves downwards under the action of gravity, and simultaneously drives the limiting disc 441 to gradually approach the second inductive switch 52; when the second inductive switch 52 detects the limiting disc 441, the state of the second inductive switch 52 is changed, and the controller 7 can send a control signal to enable the driving motor 3 to operate again after receiving the state change of the second inductive switch 52, so that the intermittent start and stop of the driving motor 3 are realized.

This application is close to the lateral wall bonding of ground one side in spout 112 and has the cushion layer, and the cushion layer adopts the processing of sponge material to make for reduce lift roller 44 when the downstream with the impact force of spout 112 lateral wall, improve lift roller 44 stability of removing in spout 112.

The above is a preferred embodiment of the present application, and the scope of protection of the present application is not limited by the above, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a plastic uptake forming machine garbage collection device which characterized in that: the waste material collecting device comprises a device body (1), wherein a winding roller (2) used for collecting waste materials is rotatably arranged on the device body (1), and the winding roller (2) is connected with a driving motor (3) used for driving the winding roller (2) to rotate; a movable mechanism (4) movably connected to the device body (1) is arranged below the winding roller (2), and the waste is connected to the winding roller (2) after bypassing the lower part of the movable mechanism (4); the movable mechanism (4) is connected with an induction assembly used for controlling the driving motor (3), and the driving motor (3) is intermittently started and stopped under the control of the induction assembly.

2. The plastic suction molding machine waste collection device of claim 1, wherein: the movable mechanism (4) comprises a rotating roller (41), a swinging roller (42) and a connecting rod (43), and the rotating roller (41) is rotatably connected to the device body (1); the swing roller (42) and the rotating roller (41) are arranged in parallel, and the swing roller (42) is fixedly connected to the rotating roller (41) through a connecting rod (43); the waste material bypasses the lower part of the oscillating roller (42) and is connected with the winding roller (2).

3. The plastic suction molding machine waste collection device of claim 2, wherein: the rotating roller (41) is provided with a rotating disc (411) in a circumferential linkage manner, and a magnetic block (412) is fixed on the outer circumferential side of the rotating disc (411); the induction assembly comprises two induction switches (5), the two induction switches (5) are arranged on the outer peripheral side of the rotary table (411) at intervals, and when the rotary table (411) rotates to a position where the induction switches (5) are opposite to the magnetic blocks (412), the induction switches (5) enable the state of the driving motor (3) to be changed.

4. The plastic suction molding machine waste collection device of claim 1, wherein: the device body (1) is provided with a sliding chute (112); the movable mechanism (4) comprises a lifting roller (44) movably arranged on the sliding chute (112) and two limiting discs (441) fixed on the lifting roller (44), and the two limiting discs (441) are respectively positioned on two sides of the sliding chute (112); the waste material bypasses the lower part of the lifting roller (44) and is connected to the winding roller (2).

5. The waste collection device of the plastic molding machine of claim 4, wherein: the induction assembly comprises two induction switches (5), and the two induction switches (5) are respectively positioned on two sides of the extension direction of the sliding groove (112); the induction switches (5) are electrically connected to the driving motor (3); when the lifting roller (44) moves to the position where the inductive switch (5) is opposite to the limiting disc (441), the inductive switch (5) enables the state of the driving motor (3) to be changed.

6. The waste collection device of the plastic molding machine of claim 4, wherein: and a buffer cushion layer is arranged on the side wall of the sliding groove (112) close to one side of the ground.

7. The plastic suction molding machine waste collection device of claim 1, wherein: a coil assembly (6) is arranged on the outer side of the winding roller (2) in a circumferential linkage manner, and the coil assembly (6) comprises two material blocking plates (61) and a plurality of support rods (62) for connecting the two material blocking plates (61); the center of the material blocking plate (61) is provided with a socket (611) for the winding roller (2) to pass through, and the support rod (62) and the socket (611) are arranged in a staggered mode.

8. The plastic suction molding machine waste collection device of claim 7, wherein: and the winding roller (2) is provided with an elastic sleeve (23) for positioning the coil assembly (6).

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