CN221092442U

CN221092442U - Glass bottle annealing conveying device

Info

Publication number: CN221092442U
Application number: CN202322876229.9U
Authority: CN
Inventors: 安凤龄; 桂国强
Original assignee: Chongqing Zhou Qing Yuankang Glass Co ltd
Current assignee: Chongqing Zhou Qing Yuankang Glass Co ltd
Priority date: 2023-10-25
Filing date: 2023-10-25
Publication date: 2024-06-07
Anticipated expiration: 2033-10-25

Abstract

The utility model provides a glass bottle annealing and conveying device, which comprises an annealing box, wherein conveying arms are arranged on two sides of the annealing box, and through grooves are formed in the two conveying arms; the conveying assembly comprises a conveying piece arranged in the annealing box and a gap rotating piece arranged on the conveying piece, the conveying piece is used for conveying glass bottles to move in the annealing box, and the gap rotating piece is used for controlling the conveying piece to do gap motion; the conveying components are respectively positioned at the feeding end and the discharging end of the annealing box and are respectively arranged on the corresponding conveying arms, and the conveying components are used for conveying glass bottles; conveying the glass bottle into the annealing box through the conveying assembly for annealing treatment, the problem that the surface of a mesh belt structure woven by stainless steel wires is uneven, so that a glass bottle blank is overturned, broken and crushed is effectively solved, and the bottom of the glass bottle blank cannot be heated due to insufficient heating caused by the fact that the glass bottle is placed on the mesh belt, so that the problem of effective annealing treatment cannot be solved.

Description

Glass bottle annealing conveying device

Technical Field

The utility model relates to the technical field of glass bottle processing, in particular to a glass bottle annealing and conveying device.

Background

The glass bottle after the glass bottle production is finished needs to be annealed by an annealing device to eliminate the stress in the glass bottle.

In the annealing treatment, the glass bottle to be annealed is usually conveyed into the annealing device by using a continuously running mesh belt, the continuously running mesh belt adopts a mesh belt woven by high-strength stainless steel wires, the glass bottle is placed on the mesh belt, and the mesh belt is provided with a temperature-controlled heating zone, so that the aim of annealing a workpiece is fulfilled, but the phenomenon that the glass bottle blank is overturned and broken due to uneven surface of the mesh belt structure woven by the stainless steel wires occurs, and the bottom of the glass bottle blank is insufficiently heated due to the fact that the glass bottle is placed on the mesh belt, and the bottom of the glass bottle blank is insufficiently heated, so that the effective annealing treatment cannot be performed.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model provides a glass bottle annealing conveying device, which solves the problems that the traditional conveying device in the prior art adopts a mesh belt woven by high-strength stainless steel wires, but the glass bottle blank is overturned, broken and crushed due to the uneven surface of the mesh belt structure woven by the stainless steel wires, and the bottom of the glass bottle blank is insufficiently heated due to the fact that the glass bottle is placed on the mesh belt, and the bottom of the glass bottle blank is insufficiently heated, so that effective annealing treatment cannot be carried out.

According to the embodiment of the utility model, the glass bottle annealing and conveying device comprises an annealing box, wherein conveying arms are arranged on two sides of the annealing box, and through grooves are formed in the two conveying arms; the conveying assembly comprises a conveying piece arranged in the annealing box and a gap rotating piece arranged on the conveying piece, the conveying piece is used for conveying glass bottles to move in the annealing box, and the gap rotating piece is used for controlling the conveying piece to do gap motion; the conveying components are two groups, are respectively positioned at the feeding end and the discharging end of the annealing box and are respectively arranged on the corresponding conveying arms, and are used for conveying glass bottles.

Compared with the prior art, the utility model has the following beneficial effects: the glass bottle is conveyed to the conveying assembly through the feeding end conveying assembly, the glass bottle is conveyed to the annealing box through the conveying assembly for annealing treatment, after the annealing treatment is finished, the glass bottle is conveyed to the next procedure through the discharging end conveying assembly, the gap rotating piece can control the conveying assembly to do gap motion, the feeding end conveying assembly can smoothly convey the glass bottle to the conveying assembly, the discharging end conveying assembly smoothly conveys the glass bottle on the conveying assembly away, the glass bottle blank is prevented from overturning, falling and crushing during annealing through the arrangement of the conveying assembly, the glass bottle is heated uniformly and sufficiently, and the annealing effect is improved.

Preferably, the transportation piece comprises two groups of gears which are rotatably arranged in the annealing box and chains which are sleeved on the two gears, the chains are meshed with the two gears for transmission, the two gears are respectively close to the two conveying arms, a plurality of groups of transportation columns are uniformly distributed on the chains, and the transportation columns pass through the through grooves when moving.

Preferably, the gap rotating piece comprises a flange plate and a gap plate, the gear is arranged on the flange plate in a rotating mode through a rotating shaft, the flange plate is located outside the annealing box, a power source is arranged outside the annealing box, the gap plate is arranged on an output shaft of the power source, a plurality of groups of gap grooves are uniformly distributed on the flange plate, stand columns are arranged on the gap plate, and the flange plate and the gap plate are in gap engagement transmission under the action of the stand columns.

Preferably, the discharging end conveying assembly comprises two first conveying belts, and the two first conveying belts are arranged on one conveying arm and are positioned on two sides of the through groove.

Preferably, the feeding end conveying assembly comprises a second conveying belt, the second conveying belt is arranged on a conveying arm far away from the first conveying belt and positioned at one end of the through groove, and a guide plate is arranged on the conveying arm provided with the second conveying belt.

Preferably, the heat insulation image rubber sleeves are arranged on the plurality of groups of the transportation columns.

Preferably, a protective cover is arranged outside the annealing box, and the flange plate and the clearance plate are both positioned in the protective cover.

Preferably, the annealing box is provided with four sets of support legs.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present utility model.

Fig. 2 is a schematic view of an internal structure of an annealing box according to an embodiment of the present utility model.

Fig. 3 is an enlarged schematic view of the area a in fig. 2.

Fig. 4 is a schematic structural view of a transporting member according to an embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of a first conveyor belt according to an embodiment of the present utility model.

Fig. 6 is a schematic structural diagram of a second conveyor belt according to an embodiment of the present utility model.

In the above figures: 1. an annealing box; 101. a transfer arm; 102. a through groove; 2. a protective cover; 3. support legs; 4. a first conveyor belt; 5. a gear; 501. a flange plate; 502. a clearance groove; 503. a power source; 504. a clearance disc; 505. a column; 6. a chain; 601. a transport column; 602. a heat-insulating rubber sleeve; 7. a guide plate; 8. and a second conveyor belt.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 6, an embodiment of the present utility model provides a glass bottle annealing and conveying device, which comprises an annealing box 1, wherein conveying arms 101 are arranged at two sides of the annealing box, and through grooves 102 are formed on the two conveying arms 101; the conveying assembly comprises a conveying piece arranged in the annealing box 1 and a gap rotating piece arranged on the conveying piece, wherein the conveying piece is used for conveying glass bottles to move in the annealing box 1, and the gap rotating piece is used for controlling the conveying piece to perform gap motion; the conveying components are two groups, are respectively positioned at the feeding end and the discharging end of the annealing box 1 and are respectively arranged on the corresponding conveying arms 101, and are used for conveying glass bottles.

The detailed working procedure of this embodiment is: conveying the glass bottle to the conveying assembly through the feeding end conveying assembly, conveying the glass bottle to the annealing box 1 through the conveying assembly for annealing treatment, conveying the glass bottle to the next procedure through the discharging end conveying assembly after the annealing treatment is finished, and enabling the gap rotating piece to control the conveying assembly to perform gap movement, so that the feeding end conveying assembly can smoothly convey the glass bottle to the conveying assembly, and the discharging end conveying assembly smoothly conveys the glass bottle on the conveying assembly away, the glass bottle blank is prevented from being overturned and broken during annealing through the arrangement of the conveying assembly, the glass bottle is heated uniformly and sufficiently, and the annealing effect is improved.

As shown in fig. 4 and 5, the transporting member includes two sets of gears 5 rotatably disposed in the annealing box 1 and a chain 6 sleeved on the two gears 5, the chain 6 is meshed with the two gears 5, the two gears 5 are respectively close to two conveying arms 101, multiple sets of transporting columns 601 are uniformly distributed on the chain 6, and the transporting columns 601 pass through the through grooves 102 when moving.

The detailed working procedure of this embodiment is: the function of the transport column 601 is to pick up the glass bottles, the chain 6 is meshed with the two gears 5, and the gears 5 rotate to drive the chain 6 to move in the annealing box 1, so that the glass bottles are sent from one conveying arm 101 to the other conveying arm 101 at one end through the annealing box 1, and annealing treatment is completed.

As shown in fig. 2 and 3, the gap rotating member includes a flange 501 and a gap disc 504, the gear 5 is rotatably disposed on the flange 501 through a rotating shaft, the flange 501 is located outside the annealing box 1, a power source 503 is disposed outside the annealing box 1, the gap disc 504 is disposed on an output shaft of the power source 503, multiple groups of gap grooves 502 are uniformly distributed on the flange 501, columns 505 are disposed on the gap disc 504, and the flange 501 and the gap disc 504 are in gap engagement transmission under the action of the columns 505.

The detailed working procedure of this embodiment is: the gap disc 504 drives the flange 501 to drive the gear 5 to perform gap rotation, so as to drive the chain 6 to perform gap motion, and the function of the gap motion is to smoothly place the glass bottles on the conveying arm 101 on the conveying column 601, and to smoothly convey the glass bottles away through the conveying member after annealing treatment.

The power source 503 in this embodiment is a motor.

As shown in fig. 5, the delivery end conveying assembly includes two first conveyor belts 4, and the two first conveyor belts 4 are disposed on one conveying arm 101 and located at two sides of the through slot 102.

The detailed working procedure of this embodiment is: the effect of first conveyer belt 4 is to take off and send away the glass bottle after the annealing treatment from transport post 601, during operation, two first conveyer belts 4 rotate in succession, when chain 6 drives transport post 601 and rotates to first conveyer belt 4 top, the clearance is stopped, the glass bottle on transport post 601 can be contacted with two sets of first conveyer belts 4 in this interval, the glass bottle on with transport post 601 is taken away from transport post 601 through the frictional force of first conveyer belt 4 and glass bottle, then chain 6 drives transport post 601 and continues the clearance rotation, and transport post 601 passes through conveying arm 101 through the rotation of logical groove 102, circulation in proper order.

As shown in fig. 6, the feeding end conveying assembly comprises a second conveyor belt 8, the second conveyor belt 8 is arranged on a conveying arm 101 far away from the first conveyor belt 4 and positioned at one end of a through groove 102, and a guide plate 7 is arranged on the conveying arm 101 provided with the second conveyor belt 8.

The detailed working procedure of this embodiment is: the second conveyor belt 8 is used for conveying glass bottles to the conveying column 601, the guide plate 7 is used for ensuring that the bottle mouth of the glass bottle and the axis of the conveying column 601 are on the same straight line, so that the bottle mouth of the glass bottle smoothly passes through the conveying column 601, the second conveyor belt 8 continuously rotates to convey the glass bottle to the conveying column 601 when working, under the action of the guide plate 7, when the conveying column 601 rotates to be on the same axis with the glass bottle on the second conveyor belt 8, intermittent (each time the conveying column 601 rotates to stop, a group of conveying columns 601 and the glass bottle on the second conveyor belt 8 are coaxial), at the moment, the glass bottle is conveyed to the conveying column 601 under the friction force of the second conveyor belt 8, when the chain 6 moves, the conveying column 601 conveys the glass bottle away from the second conveyor belt 8 and into the annealing box 1, so that annealing treatment is carried out,

As shown in fig. 4, the plurality of groups of transport columns 601 are each provided with a heat-insulating image rubber sleeve 602.

The detailed working procedure of this embodiment is: the function of the insulating rubber sleeve 602 is to avoid the glass bottle from directly and rigidly contacting the transport column 601 and from directly colliding during the gap movement.

As shown in fig. 2, the annealing box 1 is externally provided with a protective cover 2, and the flange 501 and the clearance plate 504 are both positioned in the protective cover 2.

The detailed working procedure of this embodiment is: the function of the shield 2 is to protect the flange 501 and the clearance disc 504 from corrosion.

As shown in fig. 1, four sets of support legs 3 are provided on the annealing box 1.

The detailed working procedure of this embodiment is: the four sets of support legs 3 function to support the annealing chamber 1.

The implementation principle of the embodiment of the application is as follows: during operation, the second conveyor belt 8 continuously rotates to convey glass bottles to the conveying column 601, under the action of the guide plate 7, when the conveying column 601 rotates to be in the same axis with glass bottles on the second conveyor belt 8, the glass bottles are intermittently stopped, at the moment, the glass bottles can be conveyed to the conveying column 601 under the friction force of the second conveyor belt 8, when the chain 6 moves, the conveying column 601 can convey the glass bottles away from the second conveyor belt 8 and into the annealing box 1, annealing treatment is performed, after the glass bottles are conveyed out of the annealing box 1, the chain 6 can drive the conveying column 601 to rotate above the first conveyor belt 4, gaps are stopped, the glass bottles on the conveying column 601 in the interruption can be contacted with the two groups of first conveyor belts 4, the glass bottles on the conveying column 601 are conveyed away from the conveying column 601 through the friction force of the first conveyor belt 4 and the glass bottles, then the chain 6 drives the conveying column 601 to continuously rotate in the gaps, and the conveying column 601 sequentially circulates through the conveying arms 101 through the through grooves 102.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims

1. A glass bottle annealing conveyor, comprising:

The annealing box (1) is provided with conveying arms (101) on two sides, and through grooves (102) are formed in the two conveying arms (101);

The conveying assembly comprises a conveying piece and a gap rotating piece, wherein the conveying piece is arranged in the annealing box (1), the gap rotating piece is arranged on the conveying piece and is used for conveying glass bottles to move in the annealing box (1), and the gap rotating piece is used for controlling the conveying piece to do gap motion;

The conveying components are two groups, are respectively positioned at the feeding end and the discharging end of the annealing box (1), and are respectively arranged on the corresponding conveying arms (101), and are used for conveying glass bottles.

2. A carafe annealing conveyor as claimed in claim 1, wherein: the conveying part comprises two groups of gears (5) which are rotatably arranged in the annealing box (1) and chains (6) which are sleeved on the two gears (5), the chains (6) are in meshed transmission with the two gears (5), the two gears (5) are respectively close to two conveying arms (101), a plurality of groups of conveying columns (601) are uniformly distributed on the chains (6), and the conveying columns (601) pass through the through grooves (102) when moving.

3. A carafe annealing conveyor as claimed in claim 2, wherein: the gap rotating piece comprises a flange plate (501) and a gap plate (504), the gear (5) is rotatably arranged on the flange plate (501) through a rotating shaft, the flange plate (501) is positioned outside the annealing box (1), a power source (503) is arranged outside the annealing box (1), the gap plate (504) is arranged on an output shaft of the power source (503), a plurality of groups of gap grooves (502) are uniformly distributed on the flange plate (501), stand columns (505) are arranged on the gap plate (504), and the flange plate (501) and the gap plate (504) are in gap engagement transmission under the action of the stand columns (505).

4. A carafe annealing conveyor as claimed in claim 1, wherein: the discharging end conveying assembly comprises two first conveying belts (4), wherein the two first conveying belts (4) are arranged on one conveying arm (101) and are positioned on two sides of the through groove (102).

5. A carafe annealing conveyor as claimed in claim 4 wherein: the feeding end conveying assembly comprises a second conveying belt (8), the second conveying belt (8) is arranged on a conveying arm (101) far away from the first conveying belt (4), is located at one end of the through groove (102), and is provided with a guide plate (7) on the conveying arm (101) of the second conveying belt (8).

6. A carafe annealing conveyor as claimed in claim 2, wherein: and a plurality of groups of the transportation columns (601) are provided with heat insulation image rubber sleeves (602).

7. A carafe annealing conveyor according to claim 3, wherein: the annealing box (1) is externally provided with a protective cover (2), and the flange plate (501) and the clearance plate (504) are both positioned in the protective cover (2).

8. A carafe annealing conveyor according to claim 3, wherein: four groups of supporting legs (3) are arranged on the annealing box (1).