CN108408453B - Time-delay foil throwing equipment for foil connection of formation groove - Google Patents

Abstract

The invention relates to a time-delay foil feeding device for foil receiving of a formation groove, which comprises a feeding roller, a foil receiving table, a first guide roller, a second guide roller, a third guide roller, a fourth guide roller, a driving roller and a first time-delay device, wherein the first time-delay device comprises a locking roller, a rocker assembly and a first time-delay roller, the locking roller is an eccentric roller, a through shaft is arranged on the axis of the locking roller, the rocker assembly comprises a lantern ring, a first connecting rod, a second connecting rod and a pull rod, the lantern ring is sleeved on the outer wall of the through shaft of the locking roller, the lantern ring is fixedly connected with the through shaft, one end of the first connecting rod is fixedly connected with the lantern ring, the other end of the first connecting rod is connected with one end of the second connecting rod, the other end of the second connecting rod is connected with the pull rod shaft, the pull rod is an L-shaped connecting rod, the first time-delay roller is adopted to realize the conveying of surplus aluminum foil, and the locking and the releasing of the aluminum foil are realized by adopting the locking roller and the rocker assembly, so that the foil receiving is realized, and continuous uninterrupted conveying of a follow-up aluminum foil is ensured.

Description

Time-delay foil throwing equipment for foil connection of formation groove

Technical Field

The invention relates to the technical field of aluminum foil production equipment, in particular to time-delay foil throwing equipment for foil connection of a formation groove.

Background

When the formation groove is used for corrosion production of the aluminum foil, the foil throwing device is required to provide continuous aluminum foil for the formation groove, and after the last aluminum foil is used, the next aluminum foil and the last aluminum foil are required to be connected, so that continuous corrosion production of the aluminum foil is maintained.

In the patent of application number 2012203005654, a foil feeding time delay structure is disclosed, the replenishment of the residual aluminum foil is realized by adopting the downward movement of the upper conveying roller 110, and the operation time is reserved for foil receiving, but the continuous uninterrupted conveying of the subsequent aluminum foil can be ensured while the aluminum foil is fixed by adopting the foil pressing structure is not disclosed in the patent.

Disclosure of Invention

It is necessary to provide a time-delay foil throwing device for foil connection of a formation groove.

The utility model provides a change into groove and connect time delay to throw paper tinsel equipment for paper tinsel, including the material loading roller, connect the paper tinsel platform, first guide roller, second guide roller, third guide roller, fourth guide roller, drive roller, first time delay device, the material loading roller is used for laying the aluminium foil reel that waits to corrode, connect the paper tinsel platform to be a platform, set up between material loading roller and first guide roller, second guide roller, third guide roller, fourth guide roller are fixed in proper order along aluminium foil S type delivery route and are set up, the drive roller is used for carrying the aluminium foil to change into inslot, first time delay device sets up on aluminium foil delivery route, first time delay device includes the locking roller, rocker subassembly, first time delay roller, the locking roller is first eccentric roller, set up the logical axle on the axis of locking roller, with locking roller and outside frame fixed connection through logical axle, the rocker subassembly includes the lantern ring, first connecting rod, second connecting rod, pull rod, the lantern ring cover is established on the outer wall of the axle of locking roller, and the logical axle fixed connection lantern ring and the logical axle between the logical axle and the logical axle, and the second connecting rod is the second connecting rod, the second end is connected with the second connecting rod, the second end is the second end, the second end is connected with the frame, the second end is connected with the other end, the second end is the first end is connected with the frame, the second end is the first end is connected with the other end, the L, the other end is connected with the frame, the other end is connected with the first end, the other end, the L end and the other end and the L end and the fourth end and the roller.

Preferably, the gears are respectively arranged at two ends of the first delay roller, the gears are rotationally connected with the shafts of the first delay roller, racks are further arranged on the side walls of the frame to provide tracks for the gears to move up and down, heavy weights, buffer plates and springs are further arranged at two ends of the first delay roller, the heavy weights are connected with the upper ends of the buffer plates through connecting ropes, the buffer plates are fixedly connected with the shafts of the first delay roller, the lower ends of the buffer plates are used for being in contact with the springs, and the springs are arranged on the frame below the first delay roller to buffer and limit the first delay roller.

Preferably, a positioning ring and an inserting rod are further arranged below the first delay roller, the positioning ring is fixedly connected with the buffer plate, one end of the inserting rod penetrates through the positioning ring, and the other end of the inserting rod is connected with the frame so as to limit the first delay roller to the bottom of the frame through the positioning ring.

Preferably, the foil receiving device of the formation groove further comprises an auxiliary delay device, the auxiliary delay device comprises a second delay roller, a fifth guide roller and a delay control mechanism, the fifth guide roller is arranged between the third guide roller and the fourth guide roller, the fifth guide roller is fixedly connected with the frame, the second delay roller is arranged behind the first delay roller and the fifth guide roller, the second delay roller can move up and down relative to the frame, the delay control mechanism comprises a controller, a motor and an ultrasonic detection sensor, the motor is in transmission connection with the second delay roller, the motor drives the second delay roller to move up and down through the motor, the controller is connected with the motor and the ultrasonic detection sensor, the ultrasonic detection sensor is arranged right above the first delay roller and used for detecting the real-time position of the first delay roller, the real-time position is provided to the controller, and the controller compares the real-time position with a pre-stored reference position and controls the action of the motor according to a comparison result.

Preferably, the time delay control mechanism further comprises a loop-shaped transmission chain, an upper transmission gear and a lower transmission gear, the upper transmission gear and the lower transmission gear are respectively arranged at the upper end and the lower end of the frame, two ends of the loop-shaped transmission chain are sleeved on the upper transmission gear and the lower transmission gear so as to realize transmission, the lower transmission gear is connected with the output end of the motor so as to drive the lower transmission gear to rotate through the motor, the end part of the second time delay roller is also provided with a gear, the gear is connected with the shaft of the second time delay roller in a rotating way, and the gear of the second time delay roller is further meshed with the loop-shaped transmission chain so as to drive the second time delay roller to move up and down.

According to the invention, the first delay roller is adopted to realize the conveying of the residual aluminum foil, and the locking roller and the rocker assembly are adopted to realize the locking and releasing of the aluminum foil, so that the continuous uninterrupted conveying of the subsequent aluminum foil is ensured while the foil connection is realized.

Drawings

Fig. 1 is a schematic structural diagram of a delayed foil throwing device for forming a slot foil. In this figure, the locking roller is shown in a relaxed state.

Fig. 2 is a schematic structural diagram of a delayed foil throwing device for forming a slot foil. In this figure, the locking roller is shown in a locked state.

Fig. 3 is a front view of the first delay roller mounted to the frame.

Fig. 4 is a right side view of the first delay roller mounted to the frame.

Fig. 5 is a schematic structural diagram of a delayed foil throwing device for forming a slot foil according to another embodiment.

Fig. 6 is a front view of the second delay roller mounted to the frame.

In the figure: the feeding roller 10, the foil receiving table 20, the first guide roller 30, the second guide roller 40, the third guide roller 50, the fourth guide roller 60, the driving roller 70, the locking roller 81, the first delay roller 82, the rack 821, the weight 822, the buffer plate 823, the spring 824, the positioning ring 825, the plunger 826, the collar 83, the first connecting rod 84, the second connecting rod 85, the pull rod 86, the holding end 861, the fixed end 862, the second delay roller 91, the fifth guide roller 92, the controller 93, the motor 94, the ultrasonic detection sensor 95, the loop-shaped transmission chain 96, the upper transmission gear 97, the lower transmission gear 98 and the aluminum foil 100.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Referring to fig. 1 to 4, the embodiment of the invention provides a delayed foil feeding device for foil receiving of a formation groove, which comprises a feeding roller 10, a foil receiving platform 20, a first guide roller 30, a second guide roller 40, a third guide roller 50, a fourth guide roller 60, a driving roller 70 and a first delay device, wherein the feeding roller 10 is used for placing an aluminum foil roll to be corroded, the foil receiving platform 20 is a platform and is arranged between the feeding roller 10 and the first guide roller 30, the second guide roller 40, the third guide roller 50 and the fourth guide roller 60 are sequentially and fixedly arranged along an aluminum foil S-shaped conveying route, the driving roller 70 is used for conveying an aluminum foil 100 into the formation groove, the first delay device is arranged on the aluminum foil conveying route and comprises a locking roller 81, a rocker assembly and a first delay roller 82, the locking roller 81 is an eccentric roller, a through shaft is arranged on the axis of the locking roller 81, the locking roller 81 is fixedly connected with an external frame through a through shaft, the rocker assembly comprises a lantern ring 83, a first connecting rod 84, a second connecting rod 85 and a pull rod 86, the lantern ring 83 is sleeved on the outer wall of the through shaft of the locking roller 81, the lantern ring 83 is fixedly connected with the through shaft, one end of the first connecting rod 84 is fixedly connected with the lantern ring 83, the other end is connected with one end of the second connecting rod 85 shaft, the other end of the second connecting rod 85 is connected with the pull rod 86 shaft, the pull rod 86 is an L-shaped connecting rod, the pull rod 86 comprises a holding end 861 and a fixed end 862, the holding end 861 of the pull rod 86 is used as an operation end, the fixed end 862 of the pull rod 86 is hinged with the external frame, the bending part of the pull rod 86 is connected with the other end shaft of the second connecting rod 85 so that the second connecting rod 85 and the pull rod 86 can relatively rotate, the first delay roller 82 is arranged between the third guide roller 50 and the fourth guide roller 60, the first delay roller 82 is arranged in a sliding manner with the external frame, so that the first delay roller 82 moves up and down relative to the frame.

The first delay means controls normal or stop of the conveyance of the aluminum foil 100 when the apparatus of the present invention is used.

For example, when the pull rod 86 is pulled clockwise to drive the locking roller 81 to rotate anticlockwise, the locking roller 81 and the first guide roller 30 are separated, so that the aluminum foil 100 on the feeding roller 10 continues to be conveyed backwards, and the locking roller 81 is in a loose state; at this time, the first delay roller 82 is located at the lowest end of the frame;

the pull rod 86 is rotated anticlockwise, the locking roller 81 is rotated clockwise, the eccentric end of the distal end of the locking roller 81 is contacted with the first guide roller 30 to clamp the aluminum foil 100, the aluminum foil 100 on the feeding roller 10 is prevented from being continuously conveyed, and the locking roller 81 is in a locking state; at this time, the aluminum foil 100 is driven by the driving roller 70 to continue to be conveyed backward, and the first delay roller 82 moves upward along the frame.

The pull rod 86 is arranged in front of the foil receiving platform 20, so that the operation of an operator is facilitated, the locking roller 81 is arranged as an eccentric roller, and in a loosening state, the locking roller 81 keeps a natural state under the gravity action of the gravity of the locking roller under the gravity of the locking roller, namely, the far-end eccentric end is vertically upwards, and in the state, the loosening can be realized without applying limiting acting force externally; and in the locking state, the pull rod 86 is pulled, and the locking roller 81 rotates clockwise by more than 90 degrees, so that the eccentric end of the eccentric roller is displaced below the right horizontal direction, the eccentric roller is clamped between the self weight and the first feeding roller 10, the locking can be realized without applying limiting acting force outside, the operation is convenient and simple, and the resource is saved.

Further, set up the gear respectively at the both ends of first delay roller 82, rotate between the axle of gear and first delay roller 82 and be connected, still set up rack 821 on the lateral wall of frame, in order to provide the track that the gear reciprocated, still set up weight 822 at the both ends of first delay roller 82, buffer plate 823, spring 824, weight 822 is connected with the upper end of buffer plate 823 through connecting the rope, buffer plate 823 and the axle fixed connection of first delay roller 82, the lower extreme of buffer plate 823 is used for contacting with spring 824, spring 824 sets up in the frame of first delay roller 82 below, in order to cushion spacing to first delay roller 82.

When an operator receives foil, the driving roller 70 drives the aluminum foil 100 to move towards the formation groove, the moving aluminum foil 100 lifts the first delay roller 82, the first delay roller 82 is slowly lifted to be close to the upper side of the frame, after the foil receiving is completed, the pull rod 86 is placed in a loosening state, at the moment, the first delay roller 82 moves downwards under the action of dead weight and the counterweight of the heavy hammer 822, at the moment, the aluminum foil 100 on the feeding roller 10 is pulled to be in the loosening state, when the first delay roller 82 moves downwards to the lowest position, namely, after the buffer plate 823 contacts with the bottom of the frame, the first delay roller 82 stops moving, at the moment, the buffer plate 823 collides with the frame rigidly, the first delay roller 82 vibrates, and then the aluminum foil 100 is torn, so that the buffer plate 823 is arranged, and the problem of tearing of the aluminum foil 100 caused by rigid collision is avoided.

Further, a positioning ring 825 and an inserting rod 826 are also arranged below the first delay roller 82, the positioning ring 825 is fixedly connected with the buffer plate 823, one end of the inserting rod 826 penetrates through the positioning ring 825, and the other end of the inserting rod 826 is connected with the frame, so that the first delay roller 82 is limited at the bottom of the frame through the positioning ring 825.

Referring to fig. 5 and 6, further, the foil casting device for foil receiving in the formation tank further includes an auxiliary delay device, the auxiliary delay device includes a second delay roller 91, a fifth guide roller 92, and a delay control mechanism, the fifth guide roller 92 is disposed between the third guide roller 50 and the fourth guide roller 60, the fifth guide roller 92 is fixedly connected with the frame, the second delay roller 91 is disposed behind the first delay roller 82 and the fifth guide roller 92, the second delay roller 91 can move up and down relative to the frame, the delay control mechanism includes a controller 93, a motor 94, an ultrasonic detection sensor 95, the motor 94 is in transmission connection with the second delay roller 91, so that the motor 94 drives the second delay roller 91 to move up and down through the motor 94, the controller 93 is connected with the motor 94, the ultrasonic detection sensor 95 is disposed right above the first delay roller 82, and is used for detecting the real-time position of the first delay roller 82, the real-time position is provided to the controller 93, the controller is compared with the reference position of the motor 93, and the real-time position is compared with the reference position.

The reference position includes a high position and a low position, when the real-time position is higher than the high position, the controller 93 controls the motor 94 to rotate clockwise to move the second delay roller 91 upward to supply the stored surplus aluminum foil to the driving roller 70, and when the real-time position is lower than the low position, the controller 93 controls the motor 94 to rotate counterclockwise to move the second delay roller 91 downward to wind the aluminum foil supplied from the feeding roller 10 on the second delay roller 91 as the stored surplus aluminum foil to be used for the replenishment after the surplus on the first delay roller 82 is used up.

The setting of the first delay device, when the operator receives the foil, the requirement that the rear driving roller 70 is continuously and continuously stopped for forming a groove to supply the foil is supplemented by the residual aluminum foil stored on the first delay roller 82, however, normally, the residual aluminum foil on the first delay roller 82 can be continuously operated by the driving roller 70 for 5 minutes, which requires that the operator receives the foil quickly and at least completes the foil within 5 minutes, but for the skilled worker, the invention also provides an auxiliary delay device which stores the residual aluminum foil by the second delay roller 91 and adopts an automatic detection technology, thereby further preventing the manual start of the rough operation of the second delay roller 91, realizing the fine operation and reserving sufficient time for the operator to receive the foil.

Further, the time delay control mechanism further comprises a loop-shaped transmission chain 96, an upper transmission gear 97 and a lower transmission gear 98, wherein the upper transmission gear 97 and the lower transmission gear 98 are respectively arranged at the upper end and the lower end of the frame, two ends of the loop-shaped transmission chain 96 are sleeved on the upper transmission gear 97 and the lower transmission gear 98 so as to realize transmission, the lower transmission gear 98 is connected with the output end of the motor 94 so as to drive the lower transmission gear 98 to rotate through the motor 94, the end part of the second time delay roller 91 is also provided with a gear, the gear is in rotational connection with the shaft of the second time delay roller 91, the gear of the second time delay roller 91 is also in meshed connection with the loop-shaped transmission chain 96, at least one side of the loop-shaped transmission chain 96 is in meshed connection, and the loop-shaped transmission chain 96 drives the second time delay roller 91 to move up and down.

The modules or units in the device of the embodiment of the invention can be combined, divided and deleted according to actual needs.

The foregoing disclosure is illustrative of the preferred embodiments of the present invention, and is not to be construed as limiting the scope of the invention, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalents thereof, which fall within the scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides a formation groove connects time delay to throw paper tinsel equipment for paper tinsel which characterized in that: including the material loading roller, connect the paper tinsel platform, first guide roller, the second guide roller, the third guide roller, the fourth guide roller, the drive roller, first time delay device, the material loading roller is used for laying the aluminium foil reel of waiting to corrode, connect the paper tinsel platform to a platform, set up between material loading roller and first guide roller, the second guide roller, the third guide roller, the fourth guide roller is fixed in proper order along aluminium foil S type delivery route setting, the drive roller is used for carrying the aluminium foil to the formation inslot, first time delay device sets up on aluminium foil delivery route, first time delay device includes the locking roller, the rocker subassembly, first time delay roller, the locking roller is an eccentric roller, set up the dead axle on the axis of locking roller, with locking roller and external frame fixed connection through the dead axle, the rocker subassembly includes the lantern ring, first connecting rod, the second connecting rod, the pull rod, the lantern ring cover is established on the outer wall of the dead axle of locking roller, and fixed connection between lantern ring and the dead axle, the other end and the lantern ring fixed connection, the other end and the second connecting rod are connected to the second connecting rod, the end is connected to the second connecting rod, the end is the second connecting rod is connected to the outside, the opposite to the frame, the end is made to the second connecting rod is connected to the second end, the end is the outside, the end is connected to the frame, the end is connected to the second connecting rod is made to the opposite to the outside, the end is connected to the second end, the outside, the frame is made to the opposite to the end, and is connected to the end.

2. The delayed foil throwing device for formation slot foil throwing according to claim 1, wherein: the gear is arranged at two ends of the first delay roller respectively, the gear is rotationally connected with the shaft of the first delay roller, a rack is arranged on the side wall of the frame to provide a track for the gear to move up and down, a heavy hammer, a buffer plate and a spring are arranged at two ends of the first delay roller, the heavy hammer is connected with the upper end of the buffer plate through a connecting rope, the buffer plate is fixedly connected with the shaft of the first delay roller, the lower end of the buffer plate is used for being in contact with the spring, and the spring is arranged on the frame below the first delay roller to buffer and limit the first delay roller.

3. The delayed foil throwing device for formation slot foil throwing according to claim 2, wherein: and a positioning ring and an inserting rod are arranged below the first delay roller, the positioning ring is fixedly connected with the buffer plate, one end of the inserting rod penetrates through the positioning ring, and the other end of the inserting rod is connected with the frame so as to limit the first delay roller to the bottom of the frame through the positioning ring.

4. The delayed foil throwing device for formation slot foil throwing according to claim 1, wherein: the foil feeding device comprises a first delay roller, a second delay roller, a third delay roller, a fourth delay roller, a third delay roller, a fourth delay roller, a delay control mechanism, a controller, a motor, an ultrasonic detection sensor, a controller and a control mechanism, wherein the first delay roller, the fifth delay roller and the third delay roller are fixedly connected with a frame, the second delay roller is arranged behind the first delay roller and the fifth delay roller, the second delay roller can move up and down relative to the frame, the delay control mechanism comprises the controller, the motor and the ultrasonic detection sensor, the motor is in transmission connection with the second delay roller, the motor drives the second delay roller to move up and down through the motor, the ultrasonic detection sensor is connected with the controller, the ultrasonic detection sensor is arranged right above the first delay roller and used for detecting the real-time position of the first delay roller, the real-time position is provided to the controller, and the controller compares the real-time position with a reference position in advance, and controls the action of the motor according to a comparison result.

5. The delayed foil throwing device for formation slot foil throwing according to claim 4, wherein: the time delay control mechanism further comprises a loop-shaped transmission chain, an upper transmission gear and a lower transmission gear, the upper transmission gear and the lower transmission gear are respectively arranged at the upper end and the lower end of the frame, the two ends of the loop-shaped transmission chain are sleeved on the upper transmission gear and the lower transmission gear so as to realize transmission, the lower transmission gear is connected with the output end of the motor so as to drive the lower transmission gear to rotate through the motor, the end part of the second time delay roller is also provided with a gear, the gear is connected with the shaft of the second time delay roller in a rotating way, and the gear of the second time delay roller is further meshed with the loop-shaped transmission chain so as to drive the second time delay roller to move up and down.