CN112340963A - Batching system for glass production - Google Patents

Abstract

The invention relates to the technical field of glass manufacturing equipment, and discloses a batching system for glass production, which comprises a rack and a feeding conveyor belt connected to the rack, wherein a stirring mechanism is connected to the feeding conveyor belt, the stirring mechanism comprises two stirring units, and an adjusting mechanism used for adjusting the intermittent connection of the feeding conveyor belt and one of the stirring units is arranged on the feeding conveyor belt; the stirring unit is connected with a high-temperature air inlet part and a water inlet part. Through setting up two stirring unit and adjustment mechanism in this application for the feeding conveyer belt can be in succession and feed steadily, has solved the extravagant serious problem of kiln head energy among the feed proportioning system for prior art glass production.

Description

Batching system for glass production

Technical Field

The invention relates to the technical field of glass manufacturing equipment, in particular to a batching system for glass production.

Background

The glass is amorphous solid mainly containing silicon dioxide formed by melting raw materials such as quartz sand, soda ash and the like, and the production process of the glass generally comprises the working procedures of raw material storage, conveying, mixing, firing, cooling and the like. Because the used raw and other materials kind of glass production is more, consequently when the raw materials is stored, can utilize different holding vessel with various raw materials classified storage, when production, just weigh the different raw materials in the different holding vessel, then stir the mixture in conveying the raw materials to rabbling mechanism through the feeding conveyer belt. For large-scale glass production enterprises, the energy consumption of the kiln head for firing glass is huge, and the adjustment of the temperature of the kiln head is very troublesome, so that the kiln head is in a stable high-temperature state as much as possible in the glass production process, but in the actual production process, the insufficient supply of the mixed raw materials is inevitably caused by the stirring mechanism when the raw materials are mixed, so that the energy waste of the kiln head is caused; simultaneously because glass raw materials is powdered among the prior art, lead to glass raw materials to enter into behind the rabbling mechanism by the feeding conveyer belt and splash everywhere, cause the inhomogeneous and lower problem of compounding speed of compounding easily.

Disclosure of Invention

The invention aims to provide a batching system for glass production, and solves the problem of serious kiln head energy waste in the batching system for glass production in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the batching system for glass production comprises a rack and a feeding conveyor belt connected to the rack, wherein the feeding conveyor belt is connected with a stirring mechanism, the stirring mechanism comprises two stirring units, and the feeding conveyor belt is provided with an adjusting mechanism for adjusting the feeding conveyor belt to be intermittently connected with one stirring unit; the stirring unit is connected with a high-temperature air inlet part and a water inlet part.

The principle of the scheme is as follows: the feeding conveyor belt is used for conveying various raw materials into the stirring unit, and the stirring unit is used for mixing the raw materials in the stirring unit; the stirring mechanism comprises two stirring units, so in the glass raw material mixing process, through the regulating action of the regulating mechanism, one of at least two stirring units is connected with the feeding conveyor belt, the feeding conveyor belt conveys various weighed glass raw materials to the stirring units, after a preset amount of glass raw materials are conveyed into one stirring unit, the feeding conveyor belt is regulated by the regulating mechanism to be communicated with the other stirring unit, and at the moment, the stirring units conveyed into the glass raw materials stir and mix the glass raw materials.

When the glass raw materials in one stirring unit are stirred and mixed well, the stirred and mixed glass raw materials are discharged out of the stirring units, and the glass raw materials in the other stirring unit are conveyed into a preset amount by the feeding conveyor belt, the feeding conveyor belt can be adjusted to the stirring unit after the glass mixture is discharged by the adjusting mechanism, so that the feeding conveyor belt can stably and continuously complete feeding; when the stirring unit stirs and mixes the glass raw materials, the water inlet part introduces water into the stirring unit, on one hand, the water is mixed with the glass raw materials, so that the glass raw materials can be rapidly mixed, and on the other hand, the introduced water can effectively reduce the powder splashing degree of the glass raw materials in the stirring unit; high temperature gas is let in to the stirring unit in the high temperature portion of admitting air, utilizes high temperature gas to preheat glass raw materials, and high temperature gas accelerates the evaporation of moisture simultaneously, effectively promotes the humidity in the stirring unit to further reduce the powder degree of splashing of glass raw materials in the stirring unit.

The beneficial effect of this scheme lies in:

1. can effectively promote glass raw materials's mixing efficiency: compared with the prior art, the glass raw material mixing device can not continuously convey the raw materials when the glass raw materials are mixed, so that the mixing efficiency of the glass raw materials is influenced. In this application, utilize two stirring unit and adjustment mechanism, when one of them stirring unit carries out the stirring of glass raw materials and mixes, convey the glass raw materials on the feeding conveyer belt to another stirring unit in to make the feeding conveyer belt can the continuous feeding, thereby make the stirring of glass raw materials mix and go on in succession, can stably and the capacity ground provide glass raw materials to the kiln head, thereby make the kiln head can operate steadily high-efficiently, reduce the loss of kiln head invalid energy.

2. Has good stirring working environment: utilize in this application portion of intaking and high temperature portion of admitting air to add moisture and high-temperature gas in the stirring unit respectively, utilize moisture can reduce the degree of splashing of powder in the stirring unit, and high-temperature gas's letting in has further strengthened the humidity in the stirring unit to promote the effect that moisture reduced the powder degree.

3. Can preheat glass raw materials: the glass raw materials are preheated by high-temperature gas, so that the glass raw materials can be conveniently and rapidly heated and fired subsequently.

Preferably, as an improvement, the adjusting mechanism comprises a feeding pipe and a control unit connected to the feeding pipe, the feeding pipe comprises a main material pipe and two material distributing pipes communicated with the same end of the main material pipe, the main material pipe is connected with the feeding conveyor belt, and the two material distributing pipes are respectively connected with the two stirring units; the control unit comprises a blocking part which is rotatably connected in the main material pipe, a first driving part which drives the blocking part to rotate is connected to the rack, and when the blocking part rotates, one of the material distributing pipes is communicated with the main material pipe.

In this scheme, utilize pivoted stop part to change the flow direction of glass raw materials in the main material pipe to control glass raw materials flow direction different branch material pipe in, simple structure and control are convenient.

Preferably, as an improvement, first drive division includes first drive actuating cylinder and the pivot of fixed connection on first drive actuating cylinder, first drive actuating cylinder rotates and connects in the frame, the pivot rotates and connects on the trunk line, the blocking part is connected in the pivot.

In this scheme, utilize the cylinder to provide the kilometer to the rotation of pivot, cylinder itself rotates to be connected in the frame for the pivot rotates the in-process, and the cylinder can provide stable and great output torque to the pivot, thereby makes the pivot can drive the stop part and rotate steadily, thereby realizes stabilizing the regulation to the main material pipe and the intercommunication of branch material pipe.

Preferably, as an improvement, the blocking part comprises a plurality of fixed plates and movable plates which are alternately arranged, the movable plates are slidably connected to the fixed plates, and the fixed plates are fixedly connected to the rotating shaft; and a second driving part for driving the movable plate to slide relative to the fixed plate is arranged on the rotating shaft.

In the scheme, by arranging the plurality of fixed plates and the plurality of movable plates which are alternately arranged, when the movable plates slide to cover the gap between two adjacent fixed plates, all the fixed plates and the movable plates form a complete baffle, so that the glass raw materials can be prevented from passing through the blocking part; and when needs rotate and block the version and change the main material pipe and divide the intercommunication of expecting the pipe, utilize the second drive division drive fly leaf to slide along the fixed plate to make the clearance appear between the adjacent fixed plate, thereby effectively reduce the fixed plate and rotate the resistance that the in-process received glass raw materials, thereby effectively reduce the resistance that the pivot received, reduce the wearing and tearing of pivot, the life of extension pivot reduces the energy consumption who rotates the in-process simultaneously.

Preferably, as an improvement, the second driving portion includes a second driving cylinder and a slider fixedly connected to the second driving cylinder, the second driving cylinder is fixedly connected to one end of the rotating shaft, the slider is connected to the rotating shaft in a sliding manner along an axial direction of the rotating shaft, and the movable plate is fixedly connected to the slider.

In this scheme, utilize the second to drive actuating cylinder and promote the slide and slide to make the slide drive the fly leaf and slide relative fixed plate, stable in structure and slip accuracy.

Preferably, as an improvement, the stirring unit includes that the top is equipped with the open-ended agitator, and the bottom of agitator is equipped with the discharge gate, the below of discharge gate is equipped with exit conveyor, be equipped with the surge bin between exit conveyor and the discharge gate.

In this scheme, through setting up the surge bin, make by the agitator stirring mixed glass raw materials at first by arranging into the surge bin fast, then enter into ejection of compact conveyer belt by the surge bin gradually on, on the one hand can be fast with the glass raw materials rapid discharge agitator after the stirring is mixed in the agitator, on the other hand can avoid the glass raw materials in the agitator directly to drop in a large number on ejection of compact conveyer belt and cause too big impact to ejection of compact conveyer belt, and simultaneously, glass raw materials in the surge bin falls into on ejection of compact conveyer belt gradually, make ejection of compact conveyer belt can be stably and evenly with glass raw materials conveying kiln head department, make things convenient for glass raw materials to be added gradually and fire in the kiln head, be favorable to guaranteeing the quality of firing of glass raw materials.

Preferably, as an improvement, the high temperature air inlet part includes a high temperature air pipe, and the water inlet part includes a water inlet pipe spirally wound on the high temperature air pipe.

In this scheme, with inlet tube spiral winding in the high temperature intake pipe, can reduce thermal scattering and disappearing in the high temperature intake pipe, utilize the high temperature intake pipe to heat the water in the inlet tube simultaneously to can have higher temperature when making water get into the agitator, make the evaporation that moisture can be more abundant and promote the humidity in the agitator.

Drawings

FIG. 1 is a front view of a glass manufacturing batch system according to an embodiment of the present invention.

Fig. 2 is a schematic view illustrating a connection between the rotating shaft and the blocking portion according to an embodiment of the invention.

Fig. 3 is a schematic view illustrating a connection between the rotating shaft and the blocking portion according to a second embodiment of the present invention.

3 fig. 3 4 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 a 3- 3 a 3 in 3 fig. 3 3 3. 3

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a rack 1, a feeding conveyor belt 2, a stirring barrel 3, a discharge port 4, a discharging conveyor belt 5, a buffer bin 6, a main material pipe 7, a material distributing pipe 8, a first driving cylinder 9, a connecting rod 10, a rotating shaft 11, a rotating plate 12, a high-temperature air inlet pipe 13, a water inlet pipe 14, a fixed plate 15, a movable plate 16, a second driving cylinder 17 and a sliding block 18.

The embodiment is basically as shown in the attached figures 1 and 2: batching system for glass production, including frame 1 and transverse connection in the feeding conveyer belt 2 in frame 1, the direction of transfer of feeding conveyer belt 2 is from left to right, and the right-hand member below of feeding conveyer belt 2 is connected with rabbling mechanism, and rabbling mechanism includes two stirring unit that set up side by side. In this embodiment, the stirring unit includes upper end open-ended agitator 3, be equipped with the stirring vane who is used for stirring the glass raw materials in the agitator 3, open the bottom of agitator 3 has discharge gate 4, discharge gate 4's below is equipped with the exit conveyor 5 of horizontal setting, simultaneously through bolt fixedly connected with surge bin 6 in the frame 1, surge bin 6 is located between discharge gate 4 and the exit conveyor 5, utilize surge bin 6 to cushion the glass raw materials after the mixture that discharge gate 4 fell, avoid the glass raw materials directly to fall on exit conveyor 5 and cause too big impact to exit conveyor 5.

As shown in fig. 1, an adjusting mechanism for adjusting the intermittent connection of the feeding conveyor belt 2 with one of the mixing tanks 3 is arranged on the feeding conveyor belt 2, in this embodiment, the adjusting mechanism includes a feeding pipe and a control unit connected to the feeding pipe, the feeding pipe includes a main material pipe 7 vertically arranged and two branch material pipes 8 connected to the bottom ends of the main material pipe 7, the top end of the main material pipe 7 is located below the right end of the feeding conveyor belt 2, the top ends of the two branch material pipes 8 are simultaneously communicated with the bottom ends of the main material pipe 7, and the bottom ends of the two branch material pipes 8 are respectively communicated with the feeding ports of the mixing tanks 3; the control unit comprises a blocking part which is rotatably connected in the main material pipe 7, a first driving part which is used for driving the blocking part to rotate is connected to the rack 1, and when the blocking part rotates, one of the material distributing pipes 8 is communicated with the main material pipe 7.

With reference to fig. 1 and 2, in this embodiment, the first driving portion includes a first driving cylinder 9, a connecting rod 10 and a rotating shaft 11, one end of a piston cylinder of the first driving cylinder 9 is hinged to the frame 1, the connecting rod 10 is Z-shaped, one end of the connecting rod 10 is fixedly connected to the first driving cylinder 9 through a screw, the other end of the connecting rod is hinged to the rotating shaft 11, and the rotating shaft 11 is rotatably connected to the inside of the main material pipe 7 through a bearing; the blocking part is including being located the commentaries on classics board 12 of main material pipe 7, the bottom welding of commentaries on classics board 12 is on pivot 11, promote connecting rod 10 through first drive actuating cylinder 9 and rotate, can make connecting rod 10 drive pivot 11 and commentaries on classics board 12 rotate, when the top of commentaries on classics board 12 rotates to the left side inner wall contact with main material pipe 7, main material pipe 7 feeds through with the branch material pipe 8 on right side, and when the top of commentaries on classics board 12 rotates to the right side inner wall contact with main material pipe 7, main material pipe 7 feeds through with left branch material pipe 8.

As shown in fig. 1, the outer wall of the stirring barrel 3 is connected with a high-temperature air inlet part and a water inlet part, the high-temperature air inlet part comprises a high-temperature air inlet pipe 13 communicated with the kiln head for firing glass, and an air pump is mounted on the high-temperature air inlet pipe 13, so that the high-temperature air inlet pipe 13 can guide high-temperature gas in the kiln head into the stirring barrel 3; meanwhile, the water inlet part comprises a water inlet pipe 14 spirally wound on the high-temperature air inlet pipe 13, the water inlet pipe 14 is wound on the outer side of the high-temperature air inlet pipe 13, the heat of the high-temperature air inlet pipe 13 can be prevented from being dissipated quickly, meanwhile, the high-temperature air inlet pipe 13 can heat water in the water inlet pipe 14, so that after the water in the water inlet pipe 14 is added into the stirring barrel 3, the glass raw material in the stirring barrel 3 can be preheated by utilizing the heat of the high-temperature air inlet pipe 13 and the heat of the water in the water inlet pipe 14, and the subsequently mixed glass raw material can be heated and fired quickly after being conveyed to a kiln; in order to conveniently control the on-off of the high-temperature air inlet pipe 13 and the water inlet pipe 14, in this embodiment, on-off switches are installed on both the high-temperature air inlet pipe 13 and the water inlet pipe 14, and are not described herein again.

The specific implementation process is as follows:

when glass raw materials are required to be mixed and stirred, firstly, weighed various glass raw materials are put on a feeding conveyor belt 2, the various glass raw materials are conveyed to a main material pipe 7 through the feeding conveyor belt 2, then a first driving cylinder 9 is utilized to push a rotating plate 12 to rotate, the top end of the rotating plate 12 rotates to be in contact with the inner wall of the left side of the main material pipe 7, the main material pipe 7 is communicated with a material distributing pipe 8 on the right side, the various glass raw materials in the main material pipe 7 fall into a stirring barrel 3 on the right side through the material distributing pipe 8 on the right side, then switches of a high-temperature air inlet pipe 13 and a water inlet pipe 14 are opened, and heating gas and high-temperature water are introduced into the stirring barrel 3, so that the glass raw materials are stirred, mixed and preheated in; after a predetermined amount of glass raw materials are added into the right-side stirring barrel 3, the rotating plate 12 is pushed to rotate through the first driving cylinder 9, the top end of the rotating plate 12 rotates to be in contact with the inner wall of the right side of the main material pipe 7, the main material pipe 7 is communicated with the left material distributing pipe 8 at the moment, therefore, the glass raw materials in the main material pipe 7 enter the left-side stirring barrel 3 through the left material distributing pipe 8, and similarly, the switches of the high-temperature air inlet pipe 13 and the water inlet pipe 14 on the left-side stirring barrel 3 are opened, so that the glass raw materials entering the left-side stirring barrel 3 are stirred, mixed and preheated.

Because when making glass raw materials enter into left side agitator 3 with main material pipe 7 and left side branch material pipe 8 intercommunication, need to pass through certain time and can throw into the glass raw materials of predetermined amount in left agitator 3 completely, in this period (the period that the left side agitator 3 drops into glass raw materials promptly), after the glass raw materials in the agitator 3 of right side was mixed the stirring and is preheated, open the discharge gate 4 of agitator 3 bottom for the glass raw materials that mix falls into in the surge bin 6 downwards, and fall into discharging conveyor 5 gradually downwards by surge bin 6, and be conveyed kiln head department by discharging conveyor 5 and fire. After the glass raw materials after having mixed in right side agitator 3 are discharged, close discharge gate 4, after being put into the glass raw materials of predetermined amount in the agitator 3 of left side, promote through first drive actuating cylinder 9 and change board 12 and rotate the state of top and the contact of main material pipe 7 right side inner wall once more to make main material pipe 7 again with the branch material pipe 8 intercommunication on right side, so that glass raw materials enters into agitator 3 on right side, thereby accomplish the continuous stirring of glass raw materials and mix.

Example two

The difference between the second embodiment and the first embodiment is that: the blocking portion in this embodiment is different from the blocking portion in the first embodiment in structure, as shown in fig. 3 and 4, in this embodiment, the blocking portion includes a fixed plate 15 and a movable plate 16 alternately arranged, a movable groove transversely arranged is formed on a side wall of the fixed plate 15, the movable plate 16 is transversely slidably connected in the movable groove, and one end of the fixed plate 15 is welded on an outer wall of the rotating shaft 11.

Be equipped with on the pivot 11 and be used for driving the gliding second drive division of movable plate 16 relative fixed plate 15, the second drive division includes that the second drives actuating cylinder 17 and drives the slider 18 on actuating cylinder 17 through screw fixed connection in the second, the second drives actuating cylinder 17 through the tip of screw fixed connection in pivot 11, the hollow setting in inside of pivot 11, slider 18 is located the hollow department in inside of pivot 11, and slider 18 can slide along the axis direction of pivot 11, it has the spout with the hollow intercommunication in inside to open on the outer wall of pivot 11, weld on slider 18 after the spout is passed to the one end of movable plate 16, make slider 18 can drive movable plate 16 and slide along the axis of pivot 11.

Before the first driving cylinder 9 in the embodiment is used for pushing the rotating shaft 11 to rotate, the second driving cylinder 17 is used for pulling the sliding block 18 to slide along the axial direction of the rotating shaft 11, so that the movable plate 16 slides into the movable groove of the fixed plate 15, and a gap exists between the adjacent fixed plates 15, at this time, when the rotating shaft 11 is rotated, because the size of the area swept in the rotating process of the blocking part is obviously reduced, the blocking acting force of the glass raw material positioned on the upper side of the blocking part on the blocking plate is obviously reduced, when the rotating shaft 11 is driven to rotate by using the first driving cylinder 9, labor can be saved, the stress in the rotating process of the blocking part can be reduced, so that the service life of the blocking part is prolonged, and after the blocking part is rotated, the second driving cylinder 17 pushes the sliding block 18 to slide along the axial direction of the rotating shaft 11, so that the movable plate 16 is far away from the side wall, so that all the fixed plates 15 and the movable plates 16 form one plate to function as the same as the transfer plate 12 of the first embodiment.

Simultaneously, in this embodiment, in order to further reduce the resistance that the pivot 11 received in the rotation process, all set up the both sides of fixed plate 15 and be most advanced form tip portion, thereby when the fly leaf 16 slides to the movable groove of fixed plate 15, under the guiding action of tip portion, glass raw materials can more smoothly and easily pass through the clearance between the adjacent fixed plate 15, thereby make the resistance that fixed plate 15 received reduce, and then make the resistance that pivot 11 received reduce, effectively reduce because of the too big unable pivoted condition of resistance.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. Batching system for glass production includes the frame and connects the feeding conveyer belt in the frame, is connected with rabbling mechanism, its characterized in that on the feeding conveyer belt: the stirring mechanism comprises at least two stirring units, and the feeding conveyor belt is provided with an adjusting mechanism for adjusting the feeding conveyor belt to be intermittently connected with one stirring unit; the stirring unit is connected with a high-temperature air inlet part and a water inlet part.

2. The batching system for glass production according to claim 1, wherein: the adjusting mechanism comprises a feeding pipe and a control unit connected to the feeding pipe, the feeding pipe comprises a main material pipe and two material distributing pipes communicated with the same end of the main material pipe, the main material pipe is connected with the feeding conveyor belt, and the two material distributing pipes are respectively connected with the two stirring units; the control unit comprises a blocking part which is rotatably connected in the main material pipe, a first driving part which drives the blocking part to rotate is connected to the rack, and when the blocking part rotates, one of the material distributing pipes is communicated with the main material pipe.

3. The batching system for glass production according to claim 2, wherein: first drive division includes first drive actuating cylinder and the first pivot of driving on actuating cylinder of fixed connection, first drive actuating cylinder rotates and connects in the frame, the pivot rotates and connects on the trunk line, the stop part is connected in the pivot.

4. The batching system for glass production according to claim 3, wherein: the blocking part comprises a plurality of fixed plates and movable plates which are alternately arranged, the movable plates are connected to the fixed plates in a sliding mode, and the fixed plates are fixedly connected to the rotating shaft; and a second driving part for driving the movable plate to slide relative to the fixed plate is arranged on the rotating shaft.

5. The batching system for glass production according to claim 4, wherein: the second drive portion includes that the second drives actuating cylinder and fixed connection drives the slider on the actuating cylinder in the second, the second drives actuating cylinder fixed connection in the one end of pivot, the slider is along the axial sliding connection of pivot, fly leaf fixed connection is on the slider.

6. The batching system for glass production according to any one of claims 1 to 5, wherein: the stirring unit comprises a stirring barrel with an opening at the top, a discharge port is arranged at the bottom of the stirring barrel, a discharging conveyor belt is arranged below the discharge port, and a buffer bin is arranged between the discharging conveyor belt and the discharge port.

7. The batching system for glass production according to claim 6, wherein: the high-temperature air inlet part comprises a high-temperature air pipe, and the water inlet part comprises a water inlet pipe spirally wound on the high-temperature air pipe.

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