CN106517735B - Feed device for glass production - Google Patents

Abstract

This patent discloses the feed devices for glass production, including raw material belt conveyor, the raw material belt conveyor includes rack and conveyer belt, the raw material belt conveyor includes the stepper motor for driving conveyer belt rotation, the top of the conveyer belt is equipped with system for compacting, the system for compacting includes support frame, evacuator, extensible member and binder part, support frame as described above is fixedly connected with rack, the evacuator is fixedly mounted on the support frame, the binder part is located at the surface of conveyer belt, the binder part includes connection framework and fexible film, the fexible film is tightly connected with framework is connect, the extensible member is located between support frame and connection framework, conduit is connected between the evacuator and fexible film；Solve the problems, such as that conveyer belt is easily damaged by biggish mechanical pressure in the prior art, extends the service life of conveyer belt.

Description

Feed device for glass production

Technical field

The present invention relates to the transporting equipment of glass production, specially a kind of feed device for glass production.

Background technique

Glass raw material is formed by various ingredients mixed preparing, is then transferred to furnace hopper by belt conveyor, then It is carried out into glass melter melted.Upon mixing, the gap between each component is larger for glass raw material, exists so as to cause glass raw material Heat conduction velocity in melting furnaces between each component is slow, and then causes burn-off rate slower, increases the energy of glass raw material fusing Consumption.

Existing Publication No. CN102372415B, patent name are a kind of transmitting device of glass mixture, disclose packet Mixture belt conveyor is included, one group of flat carrier roller is provided with below the conveyer belt on mixture belt conveyor, is being conveyed The top and flat carrier roller corresponding position of band are provided with idler wheel.Glass mixture transports on transmitting device, mixed by pair of rollers glass It closes material to be rolled, reduces gap between glass mixture, the bed of material becomes more closely knit, keeps glass mixture former in melting furnaces Heat transfer between material is quicker, accelerates mixture fusing, more energy-efficient effect to reach.

Flat carrier roller is set below conveyer belt, idler wheel is set in the top of conveyer belt, it is mixed to roll glass downwards using idler wheel Material is closed, the pressure of idler wheel and the gravity of glass mixture all act on the conveyor belt, flat carrier roller are then passed to, to make to convey Band is by biggish extruding force, and since the contact surface of flat carrier roller and conveyer belt is smaller, the pressure for being subject to conveyer belt is larger, leads It causes the structure of conveyer belt to be more easily damaged, shortens the service life of conveyer belt.

Summary of the invention

The invention is intended to provide a kind of feed device for glass production, with solve in the prior art conveyer belt by compared with Big mechanical pressure and the problem of be easily damaged.

The feed device for glass production in this programme, including raw material belt conveyor, the raw material belt conveying Machine includes rack and conveyer belt, and the raw material belt conveyor includes the stepper motor for driving conveyer belt rotation, the conveyer belt Top be equipped with system for compacting, the system for compacting includes support frame, evacuator, extensible member and binder part, support frame as described above It is fixedly connected with rack, the evacuator is fixedly mounted on the support frame, and the binder part is located at the surface of conveyer belt, institute Stating binder part includes connection framework and fexible film, and the fexible film is tightly connected with framework is connect, and the extensible member is located at Between support frame and connection framework, conduit is connected between the evacuator and fexible film.

Rack is set, conveyer belt and system for compacting are used to support.Stepper motor is set, for driving conveying band gap fortune It is dynamic.Support frame is set, evacuator and extensible member are used to support.Evacuator is set, for extracting the sky below fexible film Gas.Extensible member is set, it is vertically movable for controlling binder part.Setting connection framework, contacts for the upper surface with conveyer belt.If Fexible film is set, for being covered on glass raw material.Conduit is set, for being connected to evacuator and fexible film.

Working principle: glass raw material is placed on the conveyor belt, and control stepper motor driving conveying belt is mobile, when glass original When material moves to the lower section of system for compacting, control extensible member drives binder part to move down, and makes the bottom and the conveying that connect framework The upper surface of band offsets, and the glass raw material that be located at fexible film will on the inside of connection framework together with connection framework be surrounded, At this point, fexible film, connection framework and conveyer belt form the cavity of a sealing, evacuator work is then controlled, makes to take out true Empty machine is extracted out the air below fexible film by conduit, so that fexible film be made to squeeze glass original under atmospheric pressure Material, so that glass raw material be made to be compacted.

Compared with prior art, it is the advantages of this programme: glass raw material is taken out by binder part and evacuator Air makes atmospheric pressure that fexible film be pushed to be compacted glass raw material, since the compacting of glass raw material is realized by atmospheric pressure , rather than it is in the prior art mechanically roll, to reduce the mechanical pressure that conveyer belt lower part is subject to, be conducive to conveyer belt Stable structure, extend the service life of conveyer belt.

Further, the connection framework is in rectangle.Connection framework is designed as rectangle, is covered on connection framework preferably On conveyer belt, meanwhile, make connection framework be compacted preferably to overlap twice in succession, to keep the glass raw material on conveyer belt complete Portion can be compacted.

Further, the lower section of conveyer belt position corresponding with binder part is equipped with one group of flat carrier roller.It is lifted by setting Roller forms flat carrier roller to conveyer belt and supports, when the upper surface for connecting framework and conveyer belt offsets, make to connect framework with Conveyer belt contacts more closely.

Further, the connection framework is equipped with baffle, and the baffle is located at the charging in connection framework close to conveyer belt The position at end.Be not when glass raw material is stacked on the conveyor belt it is very smooth, some positions is high, and some positions are low, pass through gear Plate strikes off glass raw material, more smooth after facilitating glass raw material to be compacted.

Further, the extensible member is pneumatic cylinder.Pneumatic cylinder is set by extensible member, facilitates realization automation control, from And improve working efficiency.

Further, the bottom of the connection framework is embedded with rubber strip.By the way that rubber strip is arranged, make to connect framework and conveying Rigid contact between band becomes flexible contact, so that connection framework be avoided to destroy conveyer belt.Meanwhile rubber strip can also make to connect Sealing effect when framework is contacted with conveyer belt is more preferable, facilitates vacuum pumping.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the present invention for the feed device embodiment of glass production；

Fig. 2 is the structural schematic diagram of binder part in Fig. 1.

Specific embodiment

Below by specific embodiment, the present invention is described in further detail:

Appended drawing reference in Figure of description includes: support frame 21, extensible member 22, binder part 23, evacuator 24, conduit 25, baffle 26, fexible film 27, glass raw material 3, conveyer belt 11, flat carrier roller 12.

Feed device for glass production as shown in Figure 1, including raw material belt conveyor, raw material belt conveyor packet Including rack is equipped with several supporting carrier rollers in rack, and supporting carrier roller is equipped with conveyer belt 11, and the right end of conveyer belt 11 is charging End, the left end of conveyer belt 11 are discharge end.Conveyer belt 11 has drive roll and reversing drum.Stepping electricity is installed in rack Machine, stepper motor are connect with drive roll by chain transminssion mechanism, and stepper motor drives drive roll to do intermittent rotation, from And conveyer belt 11 is made to do intermittent movement.The top of conveyer belt 11 is equipped with system for compacting, and system for compacting includes support frame 21, vacuumizes Machine 24, extensible member 22 and binder part 23, support frame 21 are fixedly connected with rack.Evacuator 24 is fixedly mounted on support frame 21 Top.Binder part 23 is located at the lower section of support frame 21, and close to conveyer belt 11.Extensible member 22 is located at support frame 21 and binder part 23 Between, extensible member 22 is pneumatic cylinder, and the upper end of pneumatic cylinder is fixedly connected with support frame 21, and the lower end of pneumatic cylinder and binder part 23 are solid Fixed connection.Conduit 25 is connected between evacuator 24 and binder part 23.The lower section of conveyer belt 11 position corresponding with binder part 23 One group of flat carrier roller 12 is installed, flat carrier roller 12 is connect with gantry rotation.

As shown in Fig. 2, binder part 23 includes connection framework and fexible film 27, connection framework is in rectangle, fexible film 27 Positioned at the inside of connection framework, the edge of fexible film 27 is tightly connected with framework is connect.The right end of connection framework is fixedly connected There is the baffle 26 of arc, baffle 26 is located at the top of connection framework.The middle part of fexible film 27 and conduit 25 are tightly connected.Connection The bottom of framework is embedded with rubber strip.

In use, glass raw material 3 is placed on conveyer belt 11, control stepper motor driving conveying belt 11 is mobile, works as glass When glass raw material 3 moves to the lower section of system for compacting, control extensible member 22 drives binder part 23 to move down, and makes the bottom for connecting frame It offsets with the upper surface of conveyer belt 11, makes fexible film 27 that will be located at the glass raw material on the inside of connection framework together with connection framework 3 are surrounded, at this point, fexible film 27, connection framework and conveyer belt 11 form the cavity of a sealing, then control is vacuumized Machine 24 works, and extracts evacuator 24 by the air of 27 lower section of fexible film out by conduit 25, so that fexible film 27 be made to exist Glass raw material 3 is squeezed under the action of atmospheric pressure, so that glass raw material 3 be made to be compacted.

Claims (6)

1. be used for the feed device of glass production, including raw material belt conveyor, the raw material belt conveyor include rack and Conveyer belt, it is characterised in that: the raw material belt conveyor includes the stepper motor for driving conveyer belt rotation, the conveyer belt Top is equipped with system for compacting, and the system for compacting includes support frame, evacuator, extensible member and binder part, support frame as described above with Rack is fixedly connected, and the evacuator is fixedly mounted on the support frame, and the binder part is located at the surface of conveyer belt, described Binder part includes connection framework and fexible film, and the fexible film is tightly connected with framework is connect, and the extensible member is located at branch Between support and connection framework, conduit is connected between the evacuator and fexible film.

2. the feed device according to claim 1 for glass production, it is characterised in that: the connection framework is in square Shape.

3. the feed device according to claim 2 for glass production, it is characterised in that: the lower section of the conveyer belt with The corresponding position of binder part is equipped with one group of flat carrier roller.

4. the feed device according to claim 3 for glass production, it is characterised in that: the connection framework is equipped with Baffle, the baffle are located in connection framework close to the position of the feed end of conveyer belt.

5. the feed device according to claim 4 for glass production, it is characterised in that: the extensible member is air pressure Cylinder.

6. the feed device according to claim 5 for glass production, it is characterised in that: the bottom of the connection framework It is embedded with rubber strip.