CN218930682U - Adsorption conveying device for conveying aluminum plates - Google Patents

Abstract

An adsorption conveying device for conveying aluminum plates comprises a flower stand conveying mechanism, an aluminum plate collecting box and an H-shaped bellows arranged between the flower stand conveying mechanism and the aluminum plate collecting box; the H-shaped bellows are arranged along the conveying direction of the aluminum plate, and air suction openings are formed in the edges of two sides of the H-shaped bellows, which are mutually parallel; the end, close to the flower stand conveying mechanism, of the H-shaped air box is provided with a driven rotating shaft, the end, close to the aluminum plate collecting box, of the H-shaped air box is provided with a driving rotating shaft, and the driving rotating shaft is connected with a driving mechanism for driving the driving rotating shaft to rotate through a toothed belt; a conveying belt for bearing and conveying the aluminum plates is sleeved between the driving rotating shaft and the driven rotating shaft, a belt hole is formed in the conveying belt, and the H-shaped bellows with the belt hole is used for sucking air from the air suction inlet so as to adsorb the aluminum plates on the conveying belt and stably and smoothly convey the aluminum plates into the aluminum plate collecting box from the conveying belt; two sides of the H-shaped bellows are provided with auxiliary conveying mechanisms. The utility model can smoothly and stably convey the aluminum plate into the aluminum plate collecting box.

Description

Adsorption conveying device for conveying aluminum plates

Technical Field

The utility model relates to the technical equipment field of aluminum plate conveying, in particular to an adsorption conveying device for conveying aluminum plates.

Background

In an aluminum plate printing enterprise, an aluminum plate with printed ink clamped by a flower stand conveying mechanism is baked and colored through a drying room. Then, the aluminum plate after the drying room is conveyed to a conveying mechanism under the clamping of a flower stand conveying mechanism, and finally the aluminum plate is conveyed into an aluminum plate collecting box through the conveying mechanism. The conveying mechanism in the prior art comprises a rotating shaft and a driving shaft, and a conveying belt for bearing and conveying the aluminum plate is arranged between the rotating shaft and the driving shaft. In order to timely convey the aluminum plate conveyed by the flower stand conveying mechanism into the aluminum plate collecting box, the conveying belt is always in a rotating state.

However, the aluminum plate is easy to deflect when being rotatably placed on the conveying mechanism under the bearing of the flower stand, the deflected aluminum plate or the aluminum plate collecting box is blocked, and workers are required to nurse in real time and right the deflected aluminum plate in time, so that manpower waste is caused.

Disclosure of Invention

The utility model aims to provide an adsorption conveying device for conveying an aluminum plate, which can smoothly and stably convey the aluminum plate into an aluminum plate collecting box.

In order to solve the technical problems, the utility model adopts a specific scheme that an adsorption conveying device for conveying an aluminum plate is as follows: the device comprises a flower stand conveying mechanism, an aluminum plate collecting box and an H-shaped bellows arranged between the flower stand conveying mechanism and the aluminum plate collecting box; the H-shaped bellows are arranged along the conveying direction of the aluminum plate, and air suction openings are formed in the edges of two sides of the H-shaped bellows, which are mutually parallel; the end, close to the flower stand conveying mechanism, of the H-shaped air box is provided with a driven rotating shaft, the end, close to the aluminum plate collecting box, of the H-shaped air box is provided with a driving rotating shaft, and the driving rotating shaft is connected with a driving mechanism for driving the driving rotating shaft to rotate through a toothed belt; a conveying belt is sleeved between the driving rotating shaft and the driven rotating shaft and is used for bearing and conveying the aluminum plate conveyed to the H-shaped bellows by the flower stand conveying mechanism; holes are uniformly formed in the conveyor belt at intervals, and the holes are used for sucking air from the air suction inlet by the H-shaped bellows so as to adsorb the aluminum plate on the conveyor belt and stably and smoothly convey the aluminum plate from the conveyor belt into the aluminum plate collecting box; two sides of the H-shaped bellows are provided with auxiliary conveying mechanisms for assisting the conveying belt to convey the aluminum plate.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: and a proximity switch is arranged between two side edges of the H-shaped bellows which are distributed in parallel, and the proximity switch is connected with the driving mechanism through a controller in a signal way.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: the H-shaped bellows, the driving rotating shaft, the driving mechanism and the auxiliary conveying mechanism are all arranged in the U-shaped conveying groove, and a bracket for supporting the H-shaped bellows is arranged below the H-shaped bellows in the conveying groove.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: a fixing frame parallel to the driving rotating shaft is arranged in the conveying groove, a plurality of groups of conveying rotating wheels are arranged on the fixing frame, and each group of conveying rotating wheels consists of two conveying rotating wheels which are oppositely arranged.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: the two sides of the H-shaped bellows in the conveying groove are provided with supporting frames for bearing auxiliary conveying mechanisms.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: the auxiliary conveying mechanism comprises a bearing arranged on the supporting frame and a supporting shaft which is rotatably arranged in the bearing and is parallel to the driving rotating shaft, and auxiliary belts which are used for synchronously carrying and conveying the aluminum plates along with the conveying belt are sleeved between the supporting shaft and the driving rotating shaft.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: the driving mechanism comprises a motor, a driving belt wheel for meshing and matching of the toothed belt is arranged on an output shaft of the motor, and a driven belt wheel for meshing and matching of the toothed belt is correspondingly arranged on the driving rotating shaft.

Further optimization of the adsorption transfer device for transferring aluminum plates as one of the present utility model: the air suction openings on the H-shaped bellows are distributed along the conveying direction of the aluminum plate.

Advantageous effects

According to the H-shaped bellows, the air suction port and the holes on the conveyor belt are used for sucking air, so that the aluminum plate clamped and conveyed onto the conveyor belt by the flower stand conveying mechanism can be adsorbed on the conveyor belt, and the phenomenon that the aluminum plate on the conveyor belt deflects and is inclined to influence the aluminum plate to enter the aluminum plate collecting box is avoided.

In the prior art, when the color or the model of the aluminum plate needs to be replaced, the aluminum plate is not clamped on the flower stand conveying mechanism in the period of time, the driving shaft of the conveying mechanism is still in a continuous rotating state in the period of time, and in actual production, the color or the model of the aluminum plate needs to be replaced frequently, and the driving shaft in the rotating state always consumes more energy. Compared with the prior art, the proximity switch is arranged between the two parallel side edges of the H-shaped bellows, when the flower shelf conveying mechanism clamps and conveys the aluminum plate to the conveying belt, the proximity switch can transmit signals to the controller, the controller controls the motor to drive the driving rotating shaft to rotate, and then the conveying belt conveys the aluminum plate positioned on the conveying belt into the aluminum plate collecting box along with the rotation of the rotating shaft. And when the flower stand conveying mechanism which does not clamp and convey the aluminum plate passes through the adsorption conveying device and the auxiliary conveying mechanism in the period of changing the color or the model of the aluminum plate, the proximity switch senses that the aluminum plate cannot be sensed, and the driving rotating shaft does not rotate. The initiative pivot can carry out intermittent type rotation according to whether centre gripping transport aluminum plate carries on the pergola conveying mechanism, very big reduction the energy consumption.

The auxiliary conveying mechanisms are positioned on two sides of the adsorption conveying device, can assist the conveying belt to support and convey the aluminum plates, maintain the stability of the aluminum plates placed on the conveying belt by the flower stand conveying mechanism, and can quickly convey the aluminum plates into the aluminum plate collecting box.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of an aluminum plate transferred to an H-shaped bellows;

reference numerals: 1. the device comprises a conveying groove, 2, an adsorption conveying device, 201, an H-shaped bellows, 202, a proximity switch, 203, a conveying belt, 204, a belt hole, 205, a driven rotating shaft, 206, a driving rotating shaft, 3, a secondary conveying mechanism, 301, an auxiliary belt, 302, a supporting shaft, 303, a bearing, 4, a driving mechanism, 401, a driven belt pulley, 402, a toothed belt, 5, a fixing frame, 6, a conveying rotating wheel, 7, a supporting frame, 8, a flower frame conveying mechanism, 9 and an aluminum plate.

Detailed Description

As shown in fig. 1, an adsorption conveying apparatus for conveying an aluminum sheet of the present utility model includes a flower stand conveying mechanism 8 provided in a conveying tank 1, an aluminum sheet collecting tank (not shown in the drawing), an H-shaped bellows 201 provided between the flower stand conveying mechanism 8 and the aluminum sheet collecting tank, and sub-conveying mechanisms 3 provided on both sides of the H-shaped bellows 201. Flower stand conveying mechanism 8 sets up in the right side of H shape bellows 201, and flower stand conveying mechanism 8 is by adjacent two flower stand centre gripping aluminum plate 9, can avoid aluminum plate 9 to take place the condition of buckling through the centre gripping of flower stand. And an aluminum plate collection tank is located on the left side of the H-shaped bellows 201 for collecting the aluminum plate 9. It can be seen that the direction from right to left in fig. 1 is the conveyance direction of the aluminum sheet 9.

As shown in fig. 1, the H-shaped bellows 201 is distributed along the conveying direction of the aluminum sheet 9 and is located at the middle position of the conveying groove 1 between the flower stand conveying mechanism 8 and the aluminum sheet collecting box. The bottom of the H-shaped bellows 201 in the conveying groove 1 is provided with a bracket for supporting the H-shaped bellows 201, and the upper edge of the H-shaped bellows 201 supported by the bracket is leveled with a flower shelf in the flower shelf conveying mechanism 8 in a horizontal state, so that the H-shaped bellows 201 can timely support the aluminum plate 9 conveyed by the flower shelf conveying mechanism 8.

The two side edges of the H-shaped bellows 201 which are distributed in parallel are provided with air suction openings, and the air suction openings are distributed along the length direction of the two side edges of the H-shaped bellows which are distributed in parallel. The right end of the H-shaped bellows 201, which is close to the flower stand conveying mechanism 8, is provided with a driven rotating shaft 205, two flat belt wheels are arranged on the driven rotating shaft 205, and the flat belt wheels are respectively positioned at the right ends of the two sides of the H-shaped bellows 201. The left end that H shape bellows 201 is close to aluminum plate collecting box is provided with initiative pivot 206, and the middle part of initiative pivot 206 is provided with two flat pulleys, and the flat pulley on initiative pivot 206 sets up with the flat pulley on driven shaft 205 respectively relatively.

A conveyor belt 203 is respectively sleeved between the flat belt wheel of the driving rotating shaft 206 and the flat belt wheel of the corresponding driven rotating shaft 205, and the conveyor belt 203 is used for bearing and conveying the aluminum plate 9 conveyed to the H-shaped bellows 201 by the flower stand conveying mechanism 8. Holes 204 are uniformly arranged on the conveyor belt 203 at intervals, and the holes 204 are communicated with the air suction openings on the H-shaped bellows 201 so that the H-shaped bellows 201 can suck air from the air suction openings, and the aluminum plate 9 is adsorbed on the conveyor belt 203 as shown in fig. 2. The aluminum plate 9 conveyed to the conveying belt 203 by the flower stand conveying mechanism 8 can be prevented from deflecting and skewing through the adsorption effect of the H-shaped bellows 201, the flatness and stability of the aluminum plate 9 on the conveying belt 203 are maintained, and further the follow-up process of conveying the aluminum plate 9 into the aluminum plate collecting box is not affected.

A driving mechanism 4 for driving the driving shaft 206 to rotate is disposed below the driving shaft 206 in the transmission groove, and the driving mechanism 4 includes a motor and a driving pulley (not shown) disposed on an output shaft of the motor. Driven pulleys 401 are arranged at two ends of the driving rotating shaft 206, and toothed belts 402 for transmission engagement fit are sleeved between the driven pulleys 401 and the driving pulleys. The driven pulley 401 rotates under the drive of the toothed belt 402 to drive the driving rotating shaft 206 to rotate, and the driving belt rotates along with the rotation of the driving rotating shaft 206, so that the aluminum plate 9 adsorbed on the conveying belt 203 is stably conveyed into the aluminum plate collecting box by the conveying belt 203.

A proximity switch 202 is arranged between two side edges of the H-shaped bellows 201 which are distributed in parallel, and the proximity switch 202 is electrically connected with a motor of the driving mechanism 4 through a controller, so that the proximity switch 202 transmits signals to the controller to control the starting motor. When the flower stand conveying mechanism 8 clamps the aluminum plate 9 and places the aluminum plate 9 on the conveying belt 203, the proximity switch 202 receives a signal and transmits the signal to the controller, the controller controls the motor to start, and the driving rotating shaft 206 drives the conveying belt 203 to rotate along with the starting of the motor, so that the aluminum plate 9 on the conveying belt 203 is conveyed into the aluminum plate collecting box of the next stage.

While the flower stand conveying mechanism 8 continues to rotate during the period of time when the color or model of the aluminum plate 9 is changed, the proximity switch 202 does not receive the signal of the aluminum plate 9. So that the driving rotary shaft 206 does not continuously rotate when the flower stand conveying mechanism 8 which does not clamp the aluminum plate 9 passes through the two sides of the H-shaped bellows 201 in the period of changing the color or the model of the aluminum plate 9, and only rotates when the flower stand conveying mechanism 8 clamps the aluminum plate 9 and places the aluminum plate 9 on the conveyor belt 203, thereby saving the energy consumption for rotating the driving rotary shaft 206.

The two sides of the H-shaped bellows 201 in the conveying groove 1 are provided with supporting frames 7 distributed along the conveying direction of the aluminum plate 9, and the supporting frames 7 are used for bearing the auxiliary conveying mechanism 3. The auxiliary conveying mechanism 3 can assist the conveying belt 203 to support two sides of the aluminum plate 9 so as to assist the conveying belt 203 to convey the aluminum plate 9 on the conveying belt 203 into the aluminum plate collecting box smoothly and stably. The secondary transmission mechanism includes a bearing 303 provided on the upper edge of the support frame 7 and a fulcrum 302 rotatably provided in the bearing 303, the fulcrum 302 being parallel to the driving rotation shaft 206. One end of the fulcrum 302 is in rotational engagement with the bearing 303, and the other end is distributed toward the conveyor belt 203.

The supporting shaft 302 and the driving rotating shaft 206 on the corresponding side are respectively provided with flat belt wheels which are distributed oppositely, an auxiliary belt 301 is sleeved between the supporting shaft 302 and the flat belt wheels on the driving rotating shaft 206, and the auxiliary belt 301 is used for synchronously carrying and conveying the aluminum plate 9 along with the conveying belt 203. A gap is provided between the auxiliary belt 301 and the conveyor belt 203 on the corresponding side for passing through the flower stand on the flower stand conveying mechanism 8 after the aluminum plate 9 is placed on the conveyor belt 203.

A fixing frame 5 parallel to the driving rotating shaft 206 is arranged in the conveying groove 1, two groups of conveying rotating wheels 6 are arranged on the fixing frame 5 along the conveying direction of the aluminum plate 9, and each group of conveying rotating wheels 6 consists of two conveying rotating wheels 6 which are oppositely arranged. The conveying rotating wheel 6 is rotatably arranged on the fixing frame 5, and the conveying rotating wheel 6 is made of rubber capable of preventing the aluminum plate 9 from being scratched.

The specific embodiments of the present utility model are as follows: when the flower stand transporting mechanism 8 holds the aluminum sheet 9 and transports the aluminum sheet 9 to the vicinity of the conveyor belt 203, the aluminum sheet 9 is inclined with the rotation of the flower stand transporting mechanism 8 until the aluminum sheet 9 is placed on the conveyor belt 203 and the auxiliary belt 301 as shown in fig. 2, at which time the H-shaped bellows 201 and the aluminum sheet 9 are adsorbed on the conveyor belt 203. At the same time, the proximity switch 202 receives the signal from the aluminum plate 9 and transmits the signal to the controller, which controls the start motor. The driving rotation shaft 206 rotates with the rotation of the motor output shaft, and the conveyor belt 203 and the auxiliary belt 301 rotate with the rotation of the driving rotation shaft 206, so that the aluminum plates 9 on the conveyor belt 203 and the auxiliary belt 301 can be smoothly conveyed into the aluminum plate collecting box through the conveying wheels.

Claims (8)

1. A adsorb conveyer for conveying aluminum plate, includes pergola conveying mechanism (8) and aluminum plate collecting box, its characterized in that: the device also comprises an H-shaped bellows (201) arranged between the flower stand conveying mechanism (8) and the aluminum plate collecting box; the H-shaped bellows (201) is arranged along the conveying direction of the aluminum plate (9), and air suction openings are formed in the edges of two sides of the H-shaped bellows (201) which are mutually parallel; one end of the H-shaped bellows (201) close to the flower stand conveying mechanism (8) is provided with a driven rotating shaft (205), one end of the H-shaped bellows (201) close to the aluminum plate collecting box is provided with a driving rotating shaft (206), and the driving rotating shaft (206) is connected with a driving mechanism (4) for driving the driving rotating shaft (206) to rotate through a toothed belt (402); a conveyor belt (203) is sleeved between the driving rotating shaft (206) and the driven rotating shaft (205), and the conveyor belt (203) is used for bearing and conveying an aluminum plate (9) conveyed to the H-shaped bellows (201) by the flower stand conveying mechanism (8); holes (204) are uniformly arranged on the conveyor belt (203) at intervals, the holes (204) are used for sucking air from the H-shaped bellows (201) through an air suction inlet so as to absorb the aluminum plate (9) on the conveyor belt (203) and stably and flatly convey the aluminum plate (9) into the aluminum plate collecting box through the conveyor belt (203); the two sides of the H-shaped bellows (201) are provided with auxiliary conveying mechanisms (3) for assisting the conveying belt (203) in conveying the aluminum plates (9).

2. An adsorption transfer device for transferring aluminum sheets as claimed in claim 1, wherein: a proximity switch (202) is arranged between two side edges of the H-shaped bellows (201) which are distributed in parallel, and the proximity switch (202) is connected with a driving mechanism (4) through a controller in a signal way.

3. An adsorption transfer device for transferring aluminum sheets as claimed in claim 1, wherein: the H-shaped bellows (201), the driving rotating shaft (206), the driving mechanism (4) and the auxiliary conveying mechanism (3) are all arranged in the U-shaped conveying groove (1), and a bracket for supporting the H-shaped bellows (201) is arranged below the H-shaped bellows (201) in the conveying groove (1).

4. A suction conveying apparatus for conveying an aluminum sheet as claimed in claim 3, wherein: a fixing frame (5) parallel to the driving rotating shaft (206) is arranged in the conveying groove (1), a plurality of groups of conveying rotating wheels (6) are arranged on the fixing frame (5), and each group of conveying rotating wheels (6) consists of two conveying rotating wheels (6) which are oppositely arranged.

5. A suction conveying apparatus for conveying an aluminum sheet as claimed in claim 3, wherein: the two sides of the H-shaped bellows (201) in the conveying groove (1) are provided with supporting frames (7) for bearing the auxiliary conveying mechanism (3).

6. An adsorption transfer device for transferring aluminum sheets as recited in claim 5, wherein: the auxiliary conveying mechanism (3) comprises a bearing (303) arranged on the supporting frame (7) and a supporting shaft (302) which is rotatably arranged in the bearing (303) and is parallel to the driving rotating shaft (206), and auxiliary belts (301) used for synchronously carrying and conveying the aluminum plates (9) along with the conveying belt (203) are sleeved between the supporting shaft (302) and the driving rotating shaft (206).

7. An adsorption transfer device for transferring aluminum sheets as claimed in claim 1, wherein: the driving mechanism (4) comprises a motor, a driving belt wheel for meshing and matching of the toothed belt (402) is arranged on an output shaft of the motor, and a driven belt wheel (401) for meshing and matching of the toothed belt (402) is correspondingly arranged on the driving rotating shaft (206).

8. An adsorption transfer device for transferring aluminum sheets as claimed in claim 1, wherein: the air suction openings on the H-shaped bellows (201) are distributed along the conveying direction of the aluminum plate (9).

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