CN214513928U - Glass raw materials compounding device - Google Patents

Abstract

The utility model relates to the field of raw material mixing, in particular to a glass raw material mixing device, which comprises a convex box, a rotating shaft and a bottom plate, wherein the convex box comprises an upper box part and a lower box part, the rotating shaft is rotationally arranged in the upper box part, and the rotating shaft is provided with a helical blade; the stirring strips in the shape of a triangular prism are distributed on the bottom plate, the bottom plate slides and rotates to be arranged in the convex box, the bottom plate can be in contact with the side wall of the upper box part, and a gap can be formed between the bottom plate and the side wall of the lower box part. When the technical scheme is adopted, the stirring effect on the raw materials is better.

Description

Glass raw materials compounding device

Technical Field

The utility model relates to a raw materials compounding field, concretely relates to glass raw materials compounding device.

Background

In glass's production process, need stir different materials and mix, current compounding device generally includes agitator tank and puddler, adds the agitator tank with the raw materials after, puddler pivoted in-process stirs the raw materials and mixes. But because current agitating unit is when mixing the raw materials, the stirring effect of agitator tank bottom is relatively poor, owing to rely on the stirring of puddler alone, the holistic stirring effect of compounding device is also relatively poor moreover.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a better compounding device of stirring effect.

In order to achieve the purpose, the technical scheme of the utility model provides a glass raw material mixing device, which comprises a convex box, a rotating shaft and a bottom plate, wherein the convex box comprises an upper box part and a lower box part, the rotating shaft is rotationally arranged in the upper box part, and the rotating shaft is provided with a helical blade; the stirring strips in the shape of a triangular prism are distributed on the bottom plate, the bottom plate slides and rotates to be arranged in the convex box, the bottom plate can be in contact with the side wall of the upper box part, and a gap can be formed between the bottom plate and the side wall of the lower box part.

The technical effect of the scheme is as follows: when the bottom plate is positioned in the upper box part, after the raw materials are added into the upper box part, the raw materials are stirred and mixed in the process that the rotating shaft drives the helical blades to rotate, and meanwhile, the raw materials are driven to vertically move in the process that the helical blades rotate, so that the mixing effect of the raw materials is improved; the stirring strips on the bottom plate stir the raw materials on the bottom plate, so that the mixing effect of the raw materials at the bottom of the upper box part is improved, and the stirring strips are triangular prisms, so that the raw materials are prevented from being deposited at the connecting positions of the stirring strips and the bottom plate in the stirring process, and the stirring and mixing effect of the raw materials is also improved; in addition, the bottom plate moves to the lower box part and is in the rotating process, the raw materials are scattered under the rotating centrifugal effect of the bottom plate and enter the lower box part through the gap, so that the three-time stirring of the raw materials is realized after the primary stirring of the spiral blades and the secondary stirring of the bottom plate, and the stirring effect of the mixing device is favorably improved.

Furthermore, the lower ends of the helical blades are densely distributed, and the upper ends of the helical blades are sparsely distributed. The technical effect of the scheme is as follows: the helical blades with the densely distributed lower ends are convenient for quickly stirring the raw materials to the upper ends, so that the raw materials at the upper ends are quickly supplemented to the lower ends, and the speed of uniformly stirring the raw materials is improved.

Furthermore, a support bar is arranged in the lower box part, a cylinder is mounted on the support bar, a motor is connected to an output shaft of the cylinder, and the bottom plate is connected with an output shaft of the motor. The technical effect of the scheme is as follows: through being connected on the output shaft with motor and cylinder, be favorable to preventing to take place to twine for the pipeline of cylinder air feed.

Furthermore, a frame body is arranged on the supporting strips, and the air cylinder is located in the frame body. The technical effect of the scheme is as follows: is favorable for preventing the raw material from contacting with the cylinder.

Furthermore, an output shaft of the motor is connected with a stirring rod. The technical effect of the scheme is as follows: is favorable for improving the stirring effect of the raw materials after entering the lower box part.

Further, the side wall of the lower box part is obliquely arranged. The technical effect of the scheme is as follows: the raw material in the lower box part is convenient to discharge.

Furthermore, the bottom plate is provided with an inclined groove which is positioned between the stirring strips. The technical effect of the scheme is as follows: the raw materials on the bottom plate can be conveniently unloaded into the lower box part along the inclined groove.

Drawings

FIG. 1 is a schematic view of a front half-section of an embodiment of the present invention;

FIG. 2 is a three-dimensional schematic view of a base plate;

fig. 3 is a schematic view of the base plate after it has been moved downward.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the stirring device comprises a rotating shaft 1, a bottom plate 2, an upper box part 3, a lower box part 4, a first servo motor 5, a spiral blade 6, a supporting bar 7, a cylinder 8, a second servo motor 9, a stirring rod 10, a frame body 11, stirring strips 12, an inclined groove 13 and a gap 14.

Example (b):

the examples are substantially as shown in figures 1 to 3: a glass raw material mixing device as shown in figure 1 comprises a frame, a convex box, a rotating shaft 1 and a bottom plate 2, wherein the convex box comprises an upper box part 3 and a lower box part 4 which are integrally formed, the side wall of the lower box part 4 is obliquely arranged, and the side wall of the lower box part 4 is welded with the frame.

Through a servo motor 5 of bolt fixedly connected with in the frame, axis of rotation 1 and the output shaft welding of a servo motor 5 or through flange fixed connection, axis of rotation 1 passes the top of last case portion 3, and axis of rotation 1 rotates with the top of last case portion 3 to be connected moreover, and the top of going up case portion 3 is opened there is the feed inlet, and the welding has helical blade 6 in the axis of rotation 1, and helical blade 6's lower extreme distributes densely, and helical blade 6's upper end distributes sparsely.

As shown in fig. 1, a support bar 7 is welded in the lower box part 4, the support bar 7 does not block the lower end of the lower box part 4, a cylinder 8 is fixedly mounted on the support bar 7 through a bolt, a second servo motor 9 is connected to an output shaft of the cylinder 8, namely, the second servo motor 9 is welded to the output shaft of the cylinder 8 or fixedly connected through a flange, the lower end of the bottom plate 2 is welded to the output shaft of the second servo motor 9, a stirring rod 10 is welded to the output shaft of the second servo motor 9, a frame body 11 is welded to the support bar 7, the cylinder 8 is located in the frame body 11, and the second servo motor 9 can also be located in the frame body 11 after moving downwards; the type of the first servo motor 5 and the type of the second servo motor 9 can be MR-J2S-100A, and the type of the cylinder 8 can be Sudoku SC cylinder 8.

As shown in fig. 1 and 2, stirring strips 12 in a triangular prism shape are welded on a bottom plate 2, inclined grooves 13 are formed on the bottom plate 2, and the inclined grooves 13 are positioned between the stirring strips 12; as shown in fig. 1, the bottom plate 2 can contact the side walls of the upper tank portion 3, and as shown in fig. 3, the bottom plate 2 can form a gap 14 with the side walls of the lower tank portion 4.

The specific implementation process is as follows:

as shown in fig. 1, when bottom plate 2 was located last case portion 3, added the last case portion 3 with the raw materials through the feed inlet after, the manual work started a servo motor 5 and driven helical blade 6 pivoted in-process through axis of rotation 1 and stirred the mixture to the raw materials, and helical blade 6 pivoted in-process drives the raw materials rebound simultaneously, is favorable to improving the mixed effect of raw materials.

The manual start servo motor 9 No. two drives stirring on the bottom plate 2 and dials 12 pivoted in-process and stirs the raw materials on the bottom plate 2 to improved the mixed effect of 3 bottom raw materials in last box portion, stirring moreover and dialling strip 12 and be the triangular prism form, be favorable to avoiding the in-process raw materials deposit of stirring to be in the hookup location department of stirring strip 12 and bottom plate 2, be favorable to improving the stirring mixed effect of raw materials equally.

As shown in fig. 3, the cylinder 8 drives the second servo motor 9 and the bottom plate 2 to move downwards to the lower box part 4, the bottom is in a rotating state, raw materials are scattered out under the rotating centrifugal action of the bottom plate 2 and enter the lower box part 4 through the gap 14, and the stirring rod 10 stirs the raw materials at the gap 14, so that three-time stirring of the raw materials is realized after primary stirring of the helical blades 6 and secondary stirring of the bottom plate 2, and the stirring effect of the mixing device is favorably improved.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements 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.

Claims (7)

1. The utility model provides a glass raw materials compounding device which characterized in that: the device comprises a convex box, a rotating shaft and a bottom plate, wherein the convex box comprises an upper box part and a lower box part, the rotating shaft is rotatably arranged in the upper box part, and helical blades are arranged on the rotating shaft; the stirring strips in the shape of a triangular prism are distributed on the bottom plate, the bottom plate slides and rotates to be arranged in the convex box, the bottom plate can be in contact with the side wall of the upper box part, and a gap can be formed between the bottom plate and the side wall of the lower box part.

2. A glass raw material mixing device according to claim 1, characterized in that: the lower ends of the helical blades are densely distributed, and the upper ends of the helical blades are sparsely distributed.

3. A glass raw material mixing device according to claim 2, characterized in that: be equipped with the support bar in the lower box portion, install the cylinder on the support bar, be connected with the motor on the output shaft of cylinder, the output shaft of bottom plate and motor.

4. A glass raw material mixing device according to claim 3, characterized in that: the support bars are provided with a frame body, and the air cylinder is positioned in the frame body.

5. A glass raw material mixing device according to claim 4, characterized in that: the output shaft of the motor is connected with a stirring rod.

6. A glass raw material mixing device according to claim 5, characterized in that: the side wall of the lower box part is obliquely arranged.

7. A glass raw material mixing device according to claim 6, characterized in that: the bottom plate is provided with an inclined groove which is positioned between the stirring strips.

Images