CN210001759U

CN210001759U - glass melting furnace feeding device

Info

Publication number: CN210001759U
Application number: CN201920460009.9U
Authority: CN
Inventors: 肖新华
Original assignee: Changsha Haofa Renewable Resources Co Ltd
Current assignee: Changsha Haofa Renewable Resources Co Ltd
Priority date: 2019-04-08
Filing date: 2019-04-08
Publication date: 2020-01-31
Anticipated expiration: 2029-04-08

Abstract

The utility model relates to an kind of glass smelting pot loading attachment, including base, the screw conveyer of setting on the base, the proportioning device of setting on screw conveyer, the angularly adjustable conveyer belt of setting under the proportioning device, this glass smelting pot loading attachment has not only replaced artifical material loading, still is provided with proportioning device and makes the material loading more even to confirm the quality that glass melted, and the angularly adjustable conveyer belt that is used for the pay-off can adapt to different heights, makes this glass smelting pot loading attachment adaptability stronger.

Description

glass melting furnace feeding device

Technical Field

The utility model relates to a feeding device of glass melting furnaces.

Background

In order to ensure the yield of glass products, the temperature of the glass water discharged by the glass melting furnace needs to be strictly controlled, which is realized by controlling the feeding of the glass particles, in the process of melting the glass particles by the glass melting furnace, uniform feeding needs to be controlled, and if the feeding amount of the glass particles is not uniform and is too large or too small, the discharging temperature of the glass melting furnace can be influenced.

Disclosure of Invention

The utility model aims to improve and innovate the defects and problems existing in the background art and provides glass melting furnace feeding devices.

The technical scheme of the utility model be structure kind kind glass smelting pot loading attachment, including base, screw conveyer, the proportioning device of setting on screw conveyer, the angularly adjustable conveyer belt of setting under the proportioning device of setting on the base, the proportioning device includes casing, ration roller, feeder hopper, ration chamber, the casing passes through the connecting rod and is connected with screw conveyer, ration roller activity sets up in the casing, and the size cooperatees with the casing inner chamber, be provided with motor a outside the casing, motor a transmission shaft passes casing ration roller bottom center and is connected, ration chamber evenly encircles and establishes on the ration roller, the feeder hopper sets up at the casing top and is located screw conveyer's discharging pipe below, the casing bottom is provided with the discharge gate, angularly adjustable conveyer belt includes link, action wheel, follows driving wheel, conveyer belt, lifter, branch, I-shaped component, action wheel, follows the driving wheel and rotates the left and right-hand member that sets up at the link respectively, conveyer belt connects action wheel and follows the driving wheel, the action wheel center is connected with the transmission shaft of motor b on the link, the lifter sets up with the piston rod is connected with the link, the action wheel, the upright is provided with the upright link, the upright activity is provided with the lower extreme and is connected with the groove, the upright through the vertical pole and is connected with the groove on the upright post, the link is connected with the upright through the upright post.

In embodiments, the connecting frame of the glass furnace feeding device is provided with a scraper transversely, and a gap is reserved between the scraper and the conveying belt.

In embodiments, rollers are arranged between the upper transverse plate, the lower transverse plate and the base of the glass furnace feeding device.

In of the examples, the discharge port of the glass furnace charging device is opposite to the feed end of the conveyer belt.

In of the embodiments, the screw conveyor of the glass furnace feeding device is vertically arranged on the base, and the feeding port of the screw conveyor is provided with a storage hopper.

In of the embodiments, the bottom of the base of the glass furnace feeding device is provided with a pulley with a locking mechanism.

The utility model has the advantages and beneficial effect:

this glass smelting pot loading attachment has not only replaced artifical material loading, still is provided with proportioning device and makes the material loading more even to confirm the quality that glass melted, and the angularly adjustable conveyer belt that is used for the pay-off can adapt to different heights, makes this glass smelting pot loading attachment adaptability stronger.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a view of the utility model at A-A.

Description of the figures:

1. the automatic quantitative feeding device comprises a base, 2, a spiral conveyor, 3, a machine shell, 4, a quantitative roller, 5, a feeding hopper, 6, a quantitative cavity, 7, a connecting rod, 8, a connecting frame, 9, a driving wheel, 10, a driven wheel, 11, a conveying belt, 12, a lifting rod, 12-1, a piston rod, 13, a supporting rod, 14, an I-shaped part, 14-1, an upper transverse plate, 14-2, a vertical rod, 14-3, a lower transverse plate, 15, a discharging port, 16, a through groove, 17, a scraping plate, 18, a gap, 19, a pulley, 20, a roller, 21, a discharging pipe, 22 and a storage hopper.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that when an element is referred to as being "disposed" or "connected" to another elements, it can be directly disposed or connected to the other elements or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Specifically, as shown in fig. 1, glass melting furnace feeding devices comprise a base 1, a screw conveyor 2 arranged on the base 1, a quantifying device arranged on the screw conveyor 2, and an angle-adjustable conveyor belt arranged below the quantifying device, wherein the quantifying device comprises a housing 3, a quantifying roller 4, a feed hopper 5, and a quantifying cavity 6, the housing 3 is connected with the screw conveyor through a connecting rod 7, the quantifying roller 4 is movably arranged in the housing 3 and is matched with the inner cavity of the housing 3 in size, a motor a (not shown in the figure) is arranged outside the housing 3, a transmission shaft of the motor a penetrates through the center of the bottom surface of the quantifying roller 4 of the housing 3, the quantifying cavity 6 is uniformly and annularly arranged on the quantifying roller 4, the feed hopper 5 is arranged at the top of the housing 3 and is positioned below a discharge pipe 21 of the screw conveyor 2, a discharge port 15 is arranged at the bottom of the housing 3, the angle-adjustable conveyor belt comprises a connecting frame 8, a driving wheel 9, a driven wheel 10, a conveyor belt 11, a lifting rod 12, a support rod 13, a I-shaped piece 14, the driving wheel 9 and a driven wheel 10 are rotatably arranged on the connecting frame 8, a horizontal rod 14, a through groove 14 is arranged on the upper end of the connecting frame, a vertical rod 14 is connected with a vertical rod 14, a through groove 14 is arranged on the base 1-14, a through groove 14 is arranged on the connecting frame, a through groove 14, a through groove 14-14 is arranged on the connecting rod 14, a vertical rod 14, a through groove 14 is arranged on a vertical rod 14, a through groove 14, a through groove.

Specifically, as shown in fig. 1 and fig. 2, a scraper 17 is transversely arranged on the connecting frame 8, a gap 18 is formed between the scraper 17 and the conveyor belt 11, when glass particles fall from the discharge port to the feed end of the conveyor belt and then are uniformly piled on the conveyor belt, when the piled glass particles pass through the gap, the scraper can scrape the piled glass particles, so that each pair of glass particles are uniformly paved on the conveyor belt and then are conveyed into the glass melting furnace.

Specifically, as shown in fig. 1, rollers 20 are disposed between the upper transverse plate 14-1 and the lower transverse plate 14-3 and the base 1, and the rollers can reduce friction between the upper transverse plate and the base and between the lower transverse plate and the base.

Specifically, as shown in fig. 1, the discharge port 15 faces the feeding end of the conveying belt.

Specifically, as shown in fig. 1, the screw conveyor 2 is vertically arranged on the base 1, and a storage hopper 22 is arranged at a feed inlet of the screw conveyor 2.

Specifically, as shown in fig. 1, a pulley 19 with a locking mechanism is disposed at the bottom of the base 1.

The utility model discloses theory of operation and working process:

the working principle of the quantitative device is that the rotating speed of the motor a driving the quantitative roller is unchanged, and the quantitative cavities are uniformly arranged on the quantitative roller, so when the quantitative cavities reach below the feed hopper, glass in the feed hopper can enter the quantitative cavities, and the time for connecting the glass to the feed hopper in each quantitative cavity is the same, so that received glass particles are also the same, and therefore quantitative functions are achieved, and when the quantitative cavities rotate to the discharge port, the glass particles can fall onto the conveying belt.

Angle-adjustable conveyor belt operating principle: when the conveying angle needs to be adjusted, only the lifting rod needs to be started, the up-and-down motion of the lifting piston rod can lift or press the angle of the connecting frame, and the workpiece piece can move forwards or backwards, so that the angle of the connecting frame is adjusted, only the adjusting function of the connecting frame is explained, and the function of conveying glass particles, which is composed of the driving wheel, the driven wheel, the conveying belt and the motor b, is not explained because of the prior art.

The working process is as follows: and starting the screw conveyor, conveying the glass particles in the storage hopper to the quantifying device by the screw conveyor, quantifying the glass particles by the quantifying device, uniformly dropping the quantified glass particles onto the conveying belt, leveling by the scraper, and conveying into the glass melting furnace, wherein the screw conveyor is a prior art and is not explained here.

The embodiments of the present invention are only descriptions of the preferred embodiments of the present invention, not right the present invention is designed and limited, without departing from the design concept of the present invention, the technical personnel in the field should fall into the protection scope of the present invention for various modifications and improvements made by the technical solution of the present invention, and the technical contents of the present invention are all recorded in the claims.

Claims

The utility model provides a kind of glass melting furnace loading attachment, including base (1), screw conveyer (2) of setting on base (1), the proportioning device of setting on screw conveyer (2), the angularly adjustable conveyer belt of setting under the proportioning device, its characterized in that:

the quantitative device comprises a shell (3), a quantitative roller (4), a feed hopper (5) and a quantitative cavity (6), wherein the shell (3) is connected with a screw conveyor through a connecting rod (7), the quantitative roller (4) is movably arranged in the shell (3) and is matched with the inner cavity of the shell (3) in size, a motor a is arranged outside the shell (3), a transmission shaft of the motor a penetrates through the center of the bottom surface of the quantitative roller (4) of the shell (3) to be connected, the quantitative cavity (6) is uniformly and annularly arranged on the quantitative roller (4), the feed hopper (5) is arranged at the top of the shell (3) and is positioned below a discharge pipe (21) of the screw conveyor (2), and a discharge hole (15) is formed in the bottom of the shell (3);

the angle-adjustable conveying belt comprises a connecting frame (8), a driving wheel (9), a driven wheel (10), a conveying belt (11), a lifting rod (12), a supporting rod (13) and an I-shaped part (14), wherein the driving wheel (9) and the driven wheel (10) are respectively arranged at the left end and the right end of the connecting frame (8) in a rotating mode, the conveying belt (11) wraps the driving wheel (9) and the driven wheel (10), the center of the driving wheel (9) is connected with a transmission shaft of a motor b on the connecting frame, the lifting rod (12) is arranged on a base (1), a piston rod (12-1) of the lifting rod is hinged with the connecting frame (8), a through groove (16) is formed in the base (1), the I-shaped part (14) comprises an upper transverse plate (14-1), a vertical rod (14-2) and a lower transverse plate (14-3), and the vertical rod (14-2) is movably arranged, the upper end of the vertical rod (14-2) penetrates through the through groove (16) to be connected with the upper transverse plate (14-1), the lower end of the vertical rod penetrates through the through groove (16) to be connected with the lower transverse plate (14-3), the supporting rod (13) is vertically arranged on the upper transverse plate (14-1), and the upper end of the supporting rod is hinged to the connecting frame (8).
2. Glass furnace charging device according to claim 1, characterized in that the connecting frame (8) is provided with a scraper (17) transversely thereto, and that a gap (18) is present between the scraper (17) and the conveyor (11).
3. The glass furnace charging device according to claim 1, characterized in that rollers (20) are arranged between the upper cross plate (14-1), the lower cross plate (14-3) and the base (1).
4. The glass furnace charging device according to claim 1, characterized in that the discharge opening (15) is directed towards the feed end of the conveyor.
5. Glass furnace charging device according to claim 1, characterized in that the screw conveyor (2) is arranged vertically on the base (1), and a storage hopper (22) is arranged at the feed inlet of the screw conveyor (2).
6. Glass furnace charging installation according to claim 1, characterized in that the base (1) is provided at its bottom with a pulley (19) with a locking mechanism.