CN220299727U - Can turning device - Google Patents

Abstract

The application discloses turn over a jar ware relates to a jar ware technical field, including first transmission device and the second transmission device of syntropy transmission, install the support that two symmetries set up between first transmission device and the second transmission device. This application sets up through the cooperation between structures such as drive arrangement, the transmission shaft, telescopic link, magnetic path and baffle, thereby the jar body is through first transmission device transmission to be close to the magnetic path and by the magnetic path absorption after, thereby drive arrangement starts and drives the transmission shaft and rotate and drive the magnetic path and rotate one hundred eighty degrees and place the jar body behind the turn-over in second transmission device top, and make jar body and magnetic path separation after through the barrier effect of baffle continue the transmission through second transmission device, turn over the jar body through the mode of upset after the magnetic path adsorbs, do not receive jar body shape and size's restriction, avoided current jar ware to turn over the work only to the jar body of adaptation model as far as possible, lead to the poor problem of current jar ware practicality.

Description

Can turning device

Technical Field

The application relates to the technical field of can turners, in particular to a can turner.

Background

The tank turner is equipment for turning over the tank body, and is convenient for cleaning or filling the tank body subsequently.

The utility model patent with the publication number of CN2605237Y provides a can turner, which comprises a conveyor belt and a can turner body arranged above the conveyor belt, wherein a spiral inner cavity is arranged in the can turner body.

Above-mentioned turn over jar device through set up spiral inner chamber in the turn over jar ware body inside, can turn over the jar body through the guide effect of spiral inner chamber when making jar body pass through spiral inner chamber, because the size and the shape of spiral inner chamber are fixed, can only turn over the work to the jar body of adaptation model, lead to current jar ware practicality relatively poor turns over.

Disclosure of Invention

The utility model aims to solve or at least relieve the problem that the existing can turner is poor in practicability because the existing can turner can only turn over a can body with an adaptive model.

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

the utility model provides a jar turner, includes first transmission device and the second transmission device of syntropy transmission, install two symmetrically set up's support between first transmission device and the second transmission device, two rotate between the support top and be connected with the transmission shaft, drive arrangement is installed on the support lateral wall of one of them end of transmission shaft, drive arrangement's output with transmission shaft tip fixed connection, the intermediate section fixedly connected with of transmission shaft a plurality of flexible pipes, a plurality of flexible pipes encircle transmission shaft surface equidistance distributes, a plurality of flexible pipe is kept away from fixedly connected with magnet on the one end of transmission shaft, first transmission device and second transmission device adjacent end top all are equipped with the baffle, the baffle with support fixed connection.

Through adopting above technical scheme, during the use, the user at first places the jar body that the metal material was made on first transmission device, through first transmission device with jar body to the transmission of second transmission device direction, until jar body remove to with be close to first transmission device's magnet laminating, the jar body adsorbs on the magnet under the magnetic field effect this moment, the user can start drive arrangement and drive the transmission shaft rotation, thereby it is turned over to the jar body to drive flexible pipe and magnet around the rotatory hundred eighty degrees of transmission shaft through the transmission shaft, jar body after the turn over just falls the baffle left side above second transmission device, the jar body receives the blocking effect of baffle this moment, and the magnet that adsorbs on this jar body can continue to rotate under drive arrangement's drive, make jar body drop from the magnet under the blocking effect of baffle, and continue to transmit along second transmission device, and the magnet then continue to rotate to carry out the turn over operation of once more to first transmission device left side, turn over the jar body through the mode of upset after the magnet absorption, the restriction of shape and size of jar body, the current model that can only avoid the jar body to turn over to the poor practicality of the current adapter of the jar that has avoided the best.

Optionally, the first transmission device includes first conveyer belt and two first pivots, first conveyer belt cover is located two on the first pivot surface and with first pivot transmission is connected, the second transmission device includes second conveyer belt and two second pivots, the second conveyer belt cover is located two on the second pivot surface and with second pivot transmission is connected.

Through adopting above technical scheme, set up first conveyer belt and second conveyer belt, make the user can be through the jar body that first conveyer belt and second conveyer belt will need turn over and transmit to form the assembly line, improved the efficiency of turning over.

Optionally, the connecting holes are all seted up at the both ends of support, the both ends of support are respectively through the connecting hole cover locate adjacent second pivot with first pivot tip and with the second pivot with first pivot rotates to be connected.

Through adopting above technical scheme, rotate the support through connecting hole and first pivot and second pivot and be connected, can not cause the interference to the support when making first pivot drive first conveyer belt and second pivot drive the second conveyer belt and rotate.

Optionally, the driving device is a motor, a mounting seat is fixedly connected to the motor, a bolt is arranged on the mounting seat in a penetrating manner, and the bolt penetrates through the mounting seat and then is in threaded connection with the support.

Through adopting above technical scheme, set up the motor and be used for driving the transmission shaft and rotate, adopt the connected mode of bolt spiro union to connect, not only the installation is firm, and convenience of customers installs and dismantles the motor moreover.

Optionally, the motor output end runs through behind the support with transmission shaft tip fixed connection, the motor output end with the junction cover of support is equipped with the bearing, the inner circle of bearing with motor output end fixed connection, the outer lane of bearing inlay in inside the support and with support fixed connection.

Through adopting above technical scheme, set up the bearing in the junction of motor output and support for reduce the resistance when motor output rotates, the energy saving.

Optionally, the telescopic link include fixed connection in slide on the transmission shaft, slide keep away from sliding connection has the slide bar in the one end inner chamber of transmission shaft, the slide bar is located fixedly connected with spring on the one end of slide inside, the spring keep away from the one end of slide with slide inner wall fixed connection, magnetic path fixed connection in the slide bar is located on the one end of slide outside.

Through adopting above technical scheme, set up slide pipe and slide bar, make the magnetic path rotate to the clearance between first conveyer belt and the second conveyer belt inside, the slide bar can slide in to the slide pipe inner chamber under the effect of blockking of first conveyer belt and second conveyer belt, reduces the length of whole telescopic link, avoids first conveyer belt and second conveyer belt adjacent end because interval is not enough influences telescopic link pivoted problem.

Optionally, the baffle is U-shaped structure, the both ends of baffle all with support fixed connection, two the adjacent one side top of baffle is equipped with the fillet.

Through adopting above technical scheme, set up the baffle in first conveyer belt top and be used for blockking the jar body, avoid jar body transmission to drop from first conveyer belt too fast, set up the fillet at the top of two baffles, conveniently extrude the slide bar through the fillet and slide to sliding tube inner chamber in, change the overall length of telescopic link.

Optionally, the transmission shaft intermediate section cover is equipped with the stiffening ring, the slip tube keep away from the one end of transmission shaft runs through the stiffening ring and with stiffening ring fixed connection.

Through adopting above technical scheme, set up the stiffening ring and be used for carrying out the reinforcement effect to the flexible pipe of transmission shaft side, improve flexible pipe's supportability.

In summary, the beneficial effects of the application are as follows:

this application sets up through the cooperation between structures such as drive arrangement, the transmission shaft, telescopic link, magnetic path and baffle, thereby the jar body is through first transmission device transmission to be close to the magnetic path and by the magnetic path absorption after, thereby drive arrangement starts and drives the transmission shaft and rotate and drive the magnetic path and rotate one hundred eighty degrees and place the jar body behind the turn-over in second transmission device top, and make jar body and magnetic path separation after through the barrier effect of baffle continue the transmission through second transmission device, turn over the jar body through the mode of upset after the magnetic path adsorbs, do not receive jar body shape and size's restriction, avoided current jar ware to turn over the work only to the jar body of adaptation model as far as possible, lead to the poor problem of current jar ware practicality.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present application;

FIG. 2 is a schematic view of the connection structure of the bracket, drive shaft, motor and telescopic rod of the present application;

FIG. 3 is a schematic cross-sectional view of the telescopic rod of the present application;

fig. 4 is a schematic diagram of a connection structure of the bracket and the baffle.

Reference numerals illustrate: 1. a first conveyor belt; 2. a first rotating shaft; 3. a second conveyor belt; 4. a second rotating shaft; 5. a bracket; 6. a transmission shaft; 7. a motor; 8. a slide tube; 9. a slide bar; 10. a spring; 11. a magnetic block; 12. a reinforcing ring; 13. and a baffle.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

Referring to fig. 1-3, a can turner includes a first conveying device and a second conveying device for conveying in the same direction. When in use, a user can place the metal tank on the first transmission device and transmit the metal tank through the first transmission device and the second transmission device.

Two symmetrically arranged brackets 5 are arranged between the first transmission device and the second transmission device, a transmission shaft 6 is rotatably connected between the tops of the two brackets 5, a driving device for driving the transmission shaft 6 to rotate is arranged on the outer side wall of one bracket 5 at one end of the transmission shaft 6, and the output end of the driving device is fixedly connected with the end part of the transmission shaft 6.

The middle section fixedly connected with a plurality of flexible pipes of transmission shaft 6, a plurality of flexible pipes encircle transmission shaft 6 surface equidistance and distribute, fixedly connected with is used for adsorbing the magnet 11 (magnet 11 is made for neodymium iron boron magnet) of jar body that the metal material was made on the one end that a plurality of flexible pipes kept away from transmission shaft 6, after the jar body that the user made the metal material was placed on first transmission device, transmit jar body to the second transmission device direction through first transmission device, until the jar body remove to the laminating with the magnet 11 that is close to first transmission device, the jar body adsorbs on magnet 11 under the magnetic field force effect this moment, the user can start drive arrangement and drive transmission shaft 6 and rotate, thereby drive flexible pipe and magnet 11 through transmission shaft 6 and encircle transmission shaft 6 rotatory hundred eighty degrees, realize the turn-over work to the jar body.

The tops of the adjacent ends of the first transmission device and the second transmission device are respectively provided with a baffle 13, and the baffle 13 is fixedly connected with the bracket 5. When the tank body rotates to the upper side of the second transmission device, the tank body just falls on the left side of the baffle 13 above the second transmission device, at this time, the tank body is blocked by the baffle 13, and the magnetic block 11 adsorbed on the tank body can continue to rotate under the drive of the driving device, so that the tank body falls off from the magnetic block 11 under the blocking effect of the baffle 13 and is continuously transmitted along the second transmission device, and the magnetic block 11 continues to rotate to the left side of the first transmission device to perform the tank turning operation again.

When the jar body that the user made with the metal material is placed on first transmission device at first, the jar body is transmitted to the second transmission device direction through first transmission device, until the jar body remove to with be close to first transmission device's magnet 11 laminating, the jar body is adsorbed on magnet 11 under the magnetic field effect this moment, the user can start drive arrangement and drive transmission shaft 6 rotation, thereby it turns over the jar body to drive flexible pipe and magnet 11 to encircle transmission shaft 6 rotatory one hundred eighty degrees through transmission shaft 6, jar body after the turn over just falls on the baffle 13 left side of second transmission device, the jar body receives baffle 13's effect that blocks this moment, and the magnet 11 that adsorbs on this jar body can continue to rotate under the drive arrangement's drive, make jar body drop from magnet 11 under baffle 13's effect, and continue to transmit along second transmission device, and magnet 11 then continue to rotate to carry out the turn over jar work of once more to first transmission device left side, turn over the jar body through the mode of turning over after magnet 11 adsorption, the jar body form and big or small size can not cause the poor practicality problem of the current jar body of turning over the jar that has been avoided to the jar body shape and big or small size to the contrary, the problem of the existing jar that can be practical to the realization of turning over the problem of the jar to the prior art has been avoided.

Referring to fig. 1, the first transmission device comprises a first conveyor belt 1 and two first rotating shafts 2, the first conveyor belt 1 is sleeved on the outer surfaces of the two first rotating shafts 2 and is in transmission connection with the first rotating shafts 2, the second transmission device comprises a second conveyor belt 3 and two second rotating shafts 4, and the second conveyor belt 3 is sleeved on the outer surfaces of the two second rotating shafts 4 and is in transmission connection with the second rotating shafts 4. The first conveyor belt 1 and the second conveyor belt 3 are arranged, so that a user can transmit a tank body to be turned over through the first conveyor belt 1 and the second conveyor belt 3, a production line is formed, and the turning over efficiency is improved.

Referring to fig. 1, connecting holes are formed at both ends of the bracket 5, and both ends of the bracket 5 are respectively sleeved at the ends of the adjacent second rotating shaft 4 and the first rotating shaft 2 through the connecting holes and are rotationally connected with the second rotating shaft 4 and the first rotating shaft 2. The bracket 5 is rotationally connected with the first rotating shaft 2 and the second rotating shaft 4 through the connecting holes, so that the bracket 5 cannot be interfered when the first rotating shaft 2 drives the first conveyor belt 1 and the second rotating shaft 4 drives the second conveyor belt 3 to rotate.

Referring to fig. 2, the driving device is a motor 7, a mounting seat is fixedly connected to the motor 7, a bolt is arranged on the mounting seat in a penetrating manner, and the bolt penetrates through the mounting seat and is in threaded connection with the bracket 5. The motor 7 is arranged to drive the transmission shaft 6 to rotate, and the connection mode of bolt spiro union is adopted to connect, so that not only is the installation stable, but also the motor 7 can be conveniently installed and disassembled by a user.

Referring to fig. 3, the output end of the motor 7 is fixedly connected with the end of the transmission shaft 6 after penetrating through the bracket 5, a bearing is sleeved at the joint of the output end of the motor 7 and the bracket 5, the inner ring of the bearing is fixedly connected with the output end of the motor 7, and the outer ring of the bearing is embedded in the bracket 5 and is fixedly connected with the bracket 5. And a bearing is arranged at the joint of the output end of the motor 7 and the bracket 5, so that the resistance of the output end of the motor 7 in rotation is reduced, and the energy is saved.

Referring to fig. 3, the telescopic rod includes a sliding tube 8 fixedly connected to the transmission shaft 6, a sliding rod 9 is slidably connected in an inner cavity of one end of the sliding tube 8 far away from the transmission shaft 6, a spring 10 is fixedly connected to one end of the sliding rod 9 located inside the sliding tube 8, one end of the spring 10 far away from the sliding rod 9 is fixedly connected with an inner wall of the sliding tube 8, and a magnetic block 11 is fixedly connected to one end of the sliding rod 9 located outside the sliding tube 8. The sliding tube 8 and the sliding rod 9 are arranged, so that when the magnetic block 11 rotates to the inside of a gap between the adjacent ends of the first conveyor belt 1 and the second conveyor belt 3, the sliding rod 9 can slide into the inner cavity of the sliding tube 8 under the blocking effect of the first conveyor belt 1 and the second conveyor belt 3, the length of the whole telescopic rod is reduced, and the problem that the adjacent ends of the first conveyor belt 1 and the second conveyor belt 3 influence the rotation of the telescopic rod due to insufficient space is avoided.

Referring to fig. 4, the baffle 13 has a U-shaped structure, two ends of the baffle 13 are fixedly connected with the bracket 5, and rounded corners are arranged at the tops of two adjacent sides of the baffle 13. Set up baffle 13 in first conveyer belt 1 top and be used for blockking the jar body, avoid jar body transmission to drop from first conveyer belt 1 too fast, set up the fillet at the top of two baffles 13, conveniently extrude slide bar 9 through the fillet and slide to slide in 8 inner chambers of slide tube, change the overall length of telescopic link.

Referring to fig. 2, a reinforcing ring 12 is sleeved on the middle section of the transmission shaft 6, and one end of the sliding tube 8, which is far away from the transmission shaft 6, penetrates through the reinforcing ring 12 and is fixedly connected with the reinforcing ring 12. The reinforcing ring 12 is provided for reinforcing the telescopic tube on the shaft side of the transmission shaft 6, and improving the supporting performance of the telescopic tube.

The implementation principle of the application is as follows: when the jar body that the user made with the metal material is placed on first transmission device at first, the jar body is transmitted to the second transmission device direction through first transmission device, until the jar body remove to with be close to first transmission device's magnet 11 laminating, the jar body is adsorbed on magnet 11 under the magnetic field effect this moment, the user can start drive arrangement and drive transmission shaft 6 rotation, thereby it turns over the jar body to drive flexible pipe and magnet 11 to encircle transmission shaft 6 rotatory one hundred eighty degrees through transmission shaft 6, jar body after the turn over just falls on the baffle 13 left side of second transmission device, the jar body receives baffle 13's effect that blocks this moment, and the magnet 11 that adsorbs on this jar body can continue to rotate under the drive arrangement's drive, make jar body drop from magnet 11 under baffle 13's effect, and continue to transmit along second transmission device, and magnet 11 then continue to rotate to carry out the turn over jar work of once more to first transmission device left side, turn over the jar body through the mode of turning over after magnet 11 adsorption, the jar body form and big or small size can not cause the poor practicality problem of the current jar body of turning over the jar that has been avoided to the jar body shape and big or small size to the contrary, the problem of the existing jar that can be practical to the realization of turning over the problem of the jar to the prior art has been avoided.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a jar ware turns over, includes first transmission device and the second transmission device of syntropy transmission, its characterized in that: install support (5) that two symmetries set up between first transmission device and the second transmission device, two rotate between support (5) top and be connected with transmission shaft (6), drive arrangement is installed on support (5) lateral wall to transmission shaft (6) one of them end, drive arrangement's output with transmission shaft (6) tip fixed connection, the interlude fixedly connected with of transmission shaft (6) a plurality of telescopic links, a plurality of the telescopic link encircles transmission shaft (6) surface equidistance distributes, a plurality of the telescopic link is kept away from on the one end of transmission shaft (6) fixedly connected with magnet (11), first transmission device and second transmission device adjacent end top all are equipped with baffle (13), baffle (13) with support (5) fixed connection.

2. A can turner as in claim 1 wherein: the first transmission device comprises a first conveyor belt (1) and two first rotating shafts (2), the first conveyor belt (1) is sleeved on the outer surfaces of the two first rotating shafts (2) and is in transmission connection with the first rotating shafts (2), the second transmission device comprises a second conveyor belt (3) and two second rotating shafts (4), and the second conveyor belt (3) is sleeved on the outer surfaces of the two second rotating shafts (4) and is in transmission connection with the second rotating shafts (4).

3. A can turner as in claim 2 wherein: connecting holes are formed in two ends of the support (5), and two ends of the support (5) are sleeved on the ends of the second rotating shaft (4) and the first rotating shaft (2) which are adjacent to each other through the connecting holes respectively and are connected with the second rotating shaft (4) and the first rotating shaft (2) in a rotating mode.

4. A can turner as in claim 1 wherein: the driving device is a motor (7), an installation seat is fixedly connected to the motor (7), a bolt penetrates through the installation seat and then is in threaded connection with the support (5).

5. A can turner as in claim 4 wherein: the output end of the motor (7) penetrates through the support (5) and then is fixedly connected with the end part of the transmission shaft (6), a bearing is sleeved at the joint of the output end of the motor (7) and the support (5), the inner ring of the bearing is fixedly connected with the output end of the motor (7), and the outer ring of the bearing is embedded in the support (5) and is fixedly connected with the support (5).

6. A can turner as in claim 1 wherein: the telescopic rod comprises a sliding tube (8) fixedly connected to the transmission shaft (6), a sliding rod (9) is slidably connected in an inner cavity of one end of the transmission shaft (6) away from the sliding tube (8), a spring (10) is fixedly connected to one end of the sliding tube (8) inside, one end of the spring (10) away from the sliding rod (9) is fixedly connected with the inner wall of the sliding tube (8), and a magnetic block (11) is fixedly connected to one end of the sliding tube (8) outside.

7. A can turner as in claim 1 wherein: the baffle (13) is of a U-shaped structure, two ends of the baffle (13) are fixedly connected with the support (5), and round corners are arranged at the tops of two adjacent sides of the baffle (13).

8. A can turner as in claim 6 wherein: the middle section of the transmission shaft (6) is sleeved with a reinforcing ring (12), and one end of the sliding tube (8), which is far away from the transmission shaft (6), penetrates through the reinforcing ring (12) and is fixedly connected with the reinforcing ring (12).