CN220541770U - Passageway cooling device for ceramic tile production area - Google Patents

Abstract

The utility model provides a cooling device for a passage of a ceramic tile production area, which comprises a transmission frame, wherein a plurality of feeding rollers are arranged in the transmission frame, an upper air deflector is arranged at the upper end of the transmission frame, a second plate frame is fixed on one side of the upper air deflector, a second fan plate is arranged in the second plate frame, a lower air deflector is arranged at the lower end of the transmission frame, a first plate frame is fixed on one side of the lower air deflector, and a first fan plate is arranged in the first plate frame. The utility model is different from the traditional cooling device in that two pairs of air guide plates are enclosed at the upper end and the lower end of the transmission frame to form two air channels, one fan plate is respectively arranged in the frame body at one end of the upper air guide plate and one fan plate at one end of the lower air guide plate, and the two fan plates can blow the ceramic tile from the front and the upper and the lower sides of the ceramic tile when the ceramic tile is conveyed.

Description

Passageway cooling device for ceramic tile production area

Technical Field

The utility model relates to the technical field of ceramic tile processing equipment, in particular to a passageway cooling device in a ceramic tile production area.

Background

With the increase of urban building areas in China, the living quality of families is greatly improved, and more ceramic tiles are applied to our daily lives. After the tile is fired and formed, it is necessary to cool the tile and then transport the tile to a designated location for installation.

The chinese patent of application number 202121316036.2 discloses a cooling device for ceramic tile production, including it includes frame, transport mechanism, top cooling mechanism and bottom cooling mechanism, and top cooling mechanism is used for carrying out cooling treatment to the top of ceramic tile, and bottom cooling mechanism is located the below setting of transfer roller, and bottom cooling mechanism is used for carrying out cooling treatment to the bottom of ceramic tile. The cooling mechanism is arranged up and down to improve the cooling effect. Because in the device, two cooling mechanism install perpendicularly in the top of driving roller and the bottom of driving roller, when cooling down, need make the ceramic tile remove to cool off between two cooling mechanism, in order to make the ceramic tile can fully cool off, the staff need stop driving roller and carry, makes the ceramic tile stay between two cooling mechanism for a long time, consequently the reduction in the work efficiency that causes. Therefore, the utility model provides a cooling device for a passageway of a ceramic tile production area, which solves the problems in the prior art.

Disclosure of Invention

Aiming at the problems, the utility model provides a cooling device for a passageway of a ceramic tile production area, which is used for solving the related difficult problem of low working efficiency when the ceramic tile is cooled by an upper cooling mechanism and a lower cooling mechanism.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the aisle cooling device for the ceramic tile production area comprises a transmission frame, wherein a plurality of feeding rollers are arranged in the transmission frame, and each feeding roller is connected with a driving mechanism arranged on the outer side of the transmission frame;

the upper air deflector is arranged at the upper end of the transmission frame, one side of the upper air deflector is fixed with a second plate frame, a second fan plate is assembled in the second plate frame, and the second fan plate is connected with lifting mechanisms arranged at two sides of the transmission frame and is in movable fit with the second plate frame;

the lower air deflector is arranged at the lower end of the transmission frame, one side of the lower air deflector is fixed with a first plate frame, a first fan plate is assembled in the first plate frame, and the first fan plate is connected with lifting mechanisms positioned at two sides of the transmission frame and is movably matched with the first plate frame.

The further improvement is that: the lifting mechanism comprises screw rod pieces arranged on two sides of the transmission frame, the two screw rod pieces are respectively corresponding to adjusting grooves formed in two sides of the second plate frame and the first plate frame, two matching blocks are arranged in the adjusting grooves, one end of each matching block is sleeved outside a rod body of each screw rod piece and matched with the screw rod piece, the other ends of the two matching blocks are respectively fixed on two sides of the second fan plate and the first fan plate, and the two screw rod pieces are connected with a transmission mechanism arranged at the upper end of the second plate frame.

The further improvement is that: the screw rod piece is including establishing first screw rod and the second screw rod in transmission frame both sides, and first screw rod top links to each other with the second driving piece, first screw rod bottom and second screw rod fixed connection, and the second screw rod bottom rotates with the mount pad of establishing the first bezel both sides in lower aviation baffle both sides to be connected, and the second screw rod is opposite with first screw rod screw thread direction.

The further improvement is that: the transmission mechanism comprises a first belt wheel and a second belt wheel which are mutually connected at the upper end of a second plate frame, the first belt wheel and the second belt wheel are respectively fixedly connected with the upper ends of two screw rods through connecting shafts, a motor frame is arranged on one side of the first belt wheel at the upper end of the second plate frame, a transmission motor is fixed at the upper end of the motor frame, and the output end of the transmission motor is fixedly connected with the upper end of the first belt wheel.

The further improvement is that: the driving mechanism comprises a plurality of driven pulleys arranged on one side of the transmission frame, the driven pulleys are connected with each other through a transmission belt, the driven pulleys are fixedly connected with the feeding rollers through rotating shafts, one side of one driven pulley is provided with a driving pulley, the driving pulley is connected with a driving pulley arranged on one side of the lower air deflector through the transmission belt, and the driving pulley is fixedly connected with the output end of a driving motor arranged in the lower air deflector.

The further improvement is that: the lower end face of the lower air deflector is provided with a plurality of rubber blocks, and each rubber block is fixed at each corner of the lower end of the lower air deflector and fixedly connected with the lower air deflector.

The beneficial effects of the utility model are as follows: the two pairs of air guide plates are enclosed at the upper end and the lower end of the transmission frame to form two air channels, one fan plate is respectively arranged in the frame body at one end of the upper air guide plate and one end of the lower air guide plate, the two fan plates can blow the ceramic tile from the front and the upper and the lower sides of the ceramic tile when the ceramic tile is conveyed, and the ceramic tile is not cooled from the upper and the lower sides of the ceramic tile, so that the blowing time of the ceramic tile can be obviously increased, the cooling effect is better, and the working efficiency is high;

in addition, the structural design of the second fan plate and the first fan plate in a lifting mode can be suitable for tiles of different types and sizes, and the application range is wide.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Fig. 2 is a structural view of the lower deflector of the present utility model.

Fig. 3 is a structural view of the driving motor of the present utility model.

Fig. 4 is a structural view of the transmission motor of the present utility model.

Wherein: 1. a transmission rack; 2. a lower air deflector; 3. an upper air deflector; 4. a feed roller; 5. a second plate frame; 6. a first fan plate; 7. a second plate frame; 8. a second fan plate; 9. a screw member; 10. a mating block; 11. an adjustment tank; 12. a driving pulley; 13. a driven pulley; 14. a driving belt wheel; 15. a driving motor; 16. a motor frame; 17. a drive motor; 18. a first pulley; 19. and a second pulley.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1, 2, 3 and 4, the embodiment provides a cooling device for a passageway of a tile production area, which comprises a transmission frame 1, wherein a plurality of feeding rollers 4 are arranged in the transmission frame 1, and each feeding roller 4 is connected with a driving mechanism arranged on the outer side of the transmission frame 1;

the air conditioner further comprises an upper air deflector 3 arranged at the upper end of the transmission frame 1, a second plate frame 7 is fixed on one side of the upper air deflector 3, a second fan plate 8 is assembled in the second plate frame 7, and the second fan plate 8 is connected with lifting mechanisms arranged at two sides of the transmission frame 1 and is in movable fit with the second plate frame 7; the ceramic tile to be cooled is placed on the feeding roller 4 from the port of the side, far away from the second plate frame 7, of the upper air deflector 3, the feeding roller 4 conveys the ceramic tile, and the second fan plate 8 is assembled in front of the ceramic tile, so that the ceramic tile can be continuously blown in the ceramic tile advancing process.

The lower air deflector 2 is arranged at the lower end of the transmission frame 1, a first plate frame 5 is fixed on one side of the lower air deflector 2, a first fan plate 6 is assembled in the first plate frame 5, and the first fan plate 6 is connected with lifting mechanisms positioned on two sides of the transmission frame 1 and is in movable fit with the first plate frame 5. The tiles to be cooled are placed on the feeding rollers 4 from the port of the upper air deflector 3 on the side far away from the second plate frame 7, the feeding rollers 4 are used for conveying the tiles, the first fan plate 6 is assembled in front of the upper side of the tiles, the lower end faces of the tiles can be cooled for a long time when the tiles are conveyed, and gaps are reserved among the feeding rollers 4, and the gaps can support air flow to flow below the tiles.

Specifically, elevating system is including setting up the screw rod spare 9 in transmission frame 1 both sides, two screw rod spare 9 respectively with set up in the second bezel 7 and the adjustment tank 11 of first bezel 5 both sides corresponding, be equipped with two cooperation pieces 10 in the adjustment tank 11, two cooperation pieces 10 one end cover is established outside the shaft of screw rod spare 9 and is cooperated with screw rod spare 9, two cooperation pieces 10 other end is fixed respectively in the both sides of second fan board 8 and first fan board 6, two screw rod spare 9 are connected with the drive mechanism who establishes in second bezel 7 upper end. The elevating system installs in the both sides of transmission frame 1 for adjust the height of second fan board 8 and first fan board 6, be located the second fan board 8 in the aviation baffle 3 and cool off the ceramic tile from ceramic tile place ahead and top, be located the first fan board 6 in the first bezel 5 and be used for cooling down the ceramic tile from ceramic tile place ahead and below.

During operation, the second driving piece drives the two screw rod pieces 9 to rotate, the screw rod pieces 9 are matched with the two matching blocks 10 in rotation, the two matching blocks 10 are driven to slide along the two adjusting grooves 11 respectively, the adjusting grooves 11 limit the matching blocks 10, and the second fan plate 8 and the first fan plate 6 assembled in the second plate frame 7 and the first plate frame 5 can also follow actions, such as approaching to the direction of the feeding roller 4 or moving to the direction away from the feeding roller 4, so that tiles of different types and sizes can be suitable for. The advantage of the double screw drive is that both ends of the first fan plate 6 and the second fan plate 8 can be stressed, the lifting drive is stable, and the positions of the first fan plate 6 and the second fan plate 8 can not deviate after the height adjustment due to the self-locking property of the screw drive.

More specifically, the screw rod piece 9 includes the first screw rod and the second screw rod of establishing in transmission frame 1 both sides, and first screw rod top links to each other with the second driving piece, and first screw rod bottom and second screw rod fixed connection, second screw rod bottom rotate with the mount pad of establishing the first bezel 5 both sides in lower aviation baffle 2 both sides to be connected, and the second screw rod is opposite with first screw rod screw thread direction. The matching blocks 10 matched with the first screw are fixed on two sides of the second fan plate 8, the matching blocks 10 matched with the second screw are fixed on two sides of the first fan plate 6, and when the first screw and the second screw rotate, the second fan plate 8 and the first fan plate 6 are driven to respectively lift in the second plate frame 7 and the first plate frame 5 through the matching with the matching blocks 10.

Because the screw thread directions of the first screw rod and the second screw rod are opposite, the two matching blocks 10 sleeved on the two screw rods can act along opposite directions when moving, namely, when the second fan plate 8 falls down, the first fan plate 6 is also close to the feeding roller 4, the second fan plate 8 rises, and the first fan plate 6 falls down.

More specifically, the transmission mechanism comprises a first belt pulley 18 and a second belt pulley 19 which are arranged at the upper end of the second plate frame 7 and are mutually connected, the first belt pulley 18 and the second belt pulley 19 are respectively fixedly connected with the upper ends of the two screw rods 9 through connecting shafts, a motor frame 16 is arranged at one side of the upper end of the second plate frame 7, a transmission motor 17 is fixed at the upper end of the motor frame 16, and the output end of the transmission motor 17 is fixedly connected with the upper end of the first belt pulley 18. When the lifting adjustment is performed, the transmission motor 17 is started, the transmission motor drives the first belt wheel 18 to rotate, the first belt wheel 18 drives the second belt wheel 19 to synchronously rotate through the transmission belt, and the first belt wheel 18 and the second belt wheel 19 control the two screw rod pieces 9 to rotate in the action. The two screw members 9 are controlled by one driving source, and have the advantages of convenient maintenance and easy control.

Specifically, the driving mechanism comprises a plurality of driven pulleys 13 arranged on one side of the transmission frame 1, the driven pulleys 13 are mutually connected through transmission belts, the driven pulleys 13 are fixedly connected with the feeding rollers 4 through rotating shafts, one driven pulley 13 is provided with a driving pulley 12, the driving pulley 12 is connected with a driving pulley 14 arranged on one side of the lower air deflector 2 through the transmission belts, and the driving pulley 14 is fixedly connected with the output end of a driving motor 15 arranged in the lower air deflector 2. The driving mechanism is arranged on one side of the transmission frame 1 and used for controlling the rotation of each feeding roller 4 to convey the ceramic tiles.

During operation, the driving motor 15 is started to drive the driving belt pulley 14 to rotate, the driving belt pulley 14 drives the driving belt pulley 12 to rotate through the transmission belt, the driving belt pulley 12 drives the driven belt pulleys 13 connected with the driving belt pulley 12 to rotate, and as the driven belt pulleys 13 are connected with each other through the transmission belt, the driven belt pulleys also rotate along with the transmission belt, and the feeding roller 4 conveys ceramic tiles in the rotation process. Since the belt transmission may slip during the transmission, a chain transmission may be used instead, and is not limited to one of the above descriptions.

In the preferred embodiment, a plurality of rubber blocks are arranged on the lower end face of the lower air deflector 2, and each rubber block is fixed at each corner of the lower end of the lower air deflector 2 and fixedly connected with the lower air deflector 2. The rubber block has the advantages that slipping can be prevented when the lower air deflector 2 is placed on the horizontal plane, and the stability of the aisle cooling device during operation is improved.

The aisle cooling device for the tile production area is different from the traditional cooling device in that an upper air guide plate 3 and a lower air guide plate 2 are respectively arranged at the upper end and the lower end of a transmission frame 1, a second fan plate 8 is assembled in a second plate frame 7 arranged on one side of the upper air guide plate 3, a first fan plate 6 is assembled in a first plate frame 5 arranged on one side of the lower air guide plate 2, the second fan plate 8 and the first fan plate 6 can blow tiles from the front of the tiles when the tiles are conveyed, and the time of the tiles blown by the tiles can be obviously increased because the tiles are not cooled from the upper side and the lower side of the tiles, the cooling effect is better, the working efficiency is high-efficient, and in addition, the lifting structural design of the second fan plate 8 and the first fan plate 6 can be suitable for the tiles with different types and sizes, and the application range is wide.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a ceramic tile production area passageway heat sink, includes transmission frame (1), be equipped with a plurality of feed rolls (4) in transmission frame (1), each feed roll (4) are connected its characterized in that with the actuating mechanism who establishes in transmission frame (1) outside:

the air conditioner further comprises an upper air deflector (3) arranged at the upper end of the transmission frame (1), a second plate frame (7) is fixed on one side of the upper air deflector (3), a second fan plate (8) is assembled in the second plate frame (7), and the second fan plate (8) is connected with lifting mechanisms arranged on two sides of the transmission frame (1) and is in movable fit with the second plate frame (7);

the novel air conditioner is characterized by further comprising a lower air deflector (2) arranged at the lower end of the transmission frame (1), a first plate frame (5) is fixed on one side of the lower air deflector (2), a first fan plate (6) is assembled in the first plate frame (5), and the first fan plate (6) is connected with lifting mechanisms positioned on two sides of the transmission frame (1) and is in movable fit with the first plate frame (5).

2. The tile production zone aisle cooling device of claim 1, where: the lifting mechanism comprises screw rod pieces (9) arranged on two sides of the transmission frame (1), the two screw rod pieces (9) are respectively corresponding to adjusting grooves (11) formed in two sides of the second plate frame (7) and the first plate frame (5), two matching blocks (10) are arranged in the adjusting grooves (11), one end of each matching block (10) is sleeved outside a rod body of each screw rod piece (9) and matched with each screw rod piece (9), the other ends of the two matching blocks (10) are respectively fixed on two sides of the second fan plate (8) and two sides of the first fan plate (6), and the two screw rod pieces (9) are connected with a transmission mechanism arranged at the upper end of the second plate frame (7).

3. A tile production zone aisle cooling device as claimed in claim 2, wherein: the screw rod piece (9) is including establishing first screw rod and the second screw rod in transmission frame (1) both sides, first screw rod top links to each other with the second driving piece, first screw rod bottom and second screw rod fixed connection, the second screw rod bottom rotates with the mount pad of establishing the first bezel (5) both sides in lower aviation baffle (2) both sides to be connected, the second screw rod is opposite with first screw rod screw thread direction.

4. A tile production zone aisle cooling device as claimed in claim 2, wherein: the transmission mechanism comprises a first belt wheel (18) and a second belt wheel (19) which are mutually connected at the upper end of a second plate frame (7), the first belt wheel (18) and the second belt wheel (19) are fixedly connected with the upper ends of two screw rod pieces (9) through connecting shafts respectively, a motor frame (16) is arranged on one side of the first belt wheel (18) at the upper end of the second plate frame (7), a transmission motor (17) is fixed at the upper end of the motor frame (16), and the output end of the transmission motor (17) is fixedly connected with the upper end of the first belt wheel (18).

5. The tile production zone aisle cooling device of claim 1, where: the driving mechanism comprises a plurality of driven pulleys (13) arranged on one side of the transmission frame (1), the driven pulleys (13) are connected with each other through transmission belts, the driven pulleys (13) are fixedly connected with the feeding rollers (4) through rotating shafts respectively, one driven pulley (13) is provided with a driving pulley (12) on one side, the driving pulley (12) is connected with a driving pulley (14) arranged on one side of the lower air deflector (2) through transmission belts, and the driving pulley (14) is fixedly connected with the output end of a driving motor (15) arranged in the lower air deflector (2).

6. The tile production zone aisle cooling device of claim 1, where: the lower end face of the lower air deflector (2) is provided with a plurality of rubber blocks, and each rubber block is fixed at each corner of the lower end of the lower air deflector (2) and fixedly connected with the lower air deflector (2).