CN211159476U - Glass glues quick response cauldron - Google Patents

Abstract

The utility model discloses a rapid reaction kettle for glass cement, which comprises a kettle body, a main stirring component arranged in the kettle body, a bottom stirring component arranged at the bottom of the kettle body and a guide plate attached to the inner wall of the kettle body; the main stirring assembly is arranged on the axis of the kettle body, the bottom stirring assembly is arranged at the bottom of the kettle body, and the guide plate is detachably connected with the side wall of the reaction kettle; the main stirring assembly comprises a first motor and a central stirring rod, and the bottom stirring assembly comprises a second motor and a stirring disc; the deflector is equipped with many guiding holes, the guiding hole is followed the axis spiral of the cauldron body sets up upwards. Implement the utility model discloses, can accelerate the glass in the reation kettle and glue the flow direction to improve glass gluey reaction rate and quality.

Description

Glass glues quick response cauldron

Technical Field

The utility model relates to a glass glues production facility technical field, especially relates to a glass glues fast reaction cauldron.

Background

Glass cement, a commonly used household adhesive, is a material for bonding and sealing various kinds of glass with other substrates. During the production of the glass cement, 107 room temperature vulcanized silicone rubber, calcium carbonate, white carbon black, an auxiliary agent and the like are mixed uniformly. In the reaction process of the glass cement, in order to make the texture of the glass cement more uniform, stirring operation needs to be carried out in the production process of the glass cement. At present, most of the existing stirring reaction kettles for producing glass cement have the following defects: the raw materials flow along the circumferential direction, and the particle raw materials of the glass cement are easy to precipitate at the bottom of the stirring vessel kettle body, so that the dispersibility of the particle raw materials is difficult to improve, and the quality of the glass cement is influenced.

Disclosure of Invention

The utility model aims to solve the technical problem that a glass glues fast reaction cauldron is provided, the glass in the reation kettle glues the flow direction can be accelerated to improve glass gluey reaction rate and quality.

In order to solve the technical problem, the utility model provides a rapid reaction kettle for glass cement, which comprises a kettle body, a main stirring component arranged in the kettle body, a bottom stirring component arranged at the bottom of the kettle body and a guide plate attached to the inner wall of the kettle body;

the main stirring assembly is arranged on the axis of the kettle body, the bottom stirring assembly is arranged at the bottom of the kettle body, and the guide plate is detachably connected with the side wall of the reaction kettle;

the main stirring assembly comprises a first motor and a central stirring rod, and the bottom stirring assembly comprises a second motor and a stirring disc;

the deflector is equipped with many guiding holes, the guiding hole is followed the axis spiral of the cauldron body sets up upwards.

As an improvement of the scheme, the guide hole is a round hole.

As an improvement of the scheme, the central stirring rod comprises a rotating main shaft and a skirt edge arranged on the rotating main shaft, the skirt edge is spirally arranged, and the distance from the skirt edge to the rotating main shaft is sequentially increased from top to bottom.

As an improvement of the scheme, the bottom stirring assembly comprises a second motor and a stirring disc, and the top surface of the stirring disc is provided with a protrusion.

As an improvement of the scheme, the second motor is connected with a lead screw, and the lead screw is connected with the stirring disc.

As an improvement of the scheme, a screw nut is arranged on the screw rod, a driving disc is arranged on the screw nut, and the diameter of the stirring disc is smaller than that of the driving disc.

As an improvement of the scheme, the stirring plate is provided with a plurality of through holes for discharging the glass cement below the stirring plate along the axial direction.

As an improvement of the above scheme, the protrusions are of a spiral structure, and the heights of the protrusions are sequentially increased; or the bulges comprise a plurality of arc bulges, the arc bulges are arranged along the radial direction, and the arc bulges are rotationally arranged on the stirring chassis.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses mainly include main stirring subassembly, bottom stirring subassembly and locate the deflector of the internal wall of cauldron. The main stirring assembly mainly enables the raw materials to move circumferentially, and the bottom stirring disc rotates to enable the raw materials at the bottom to move upwards in a spiral manner; the guide plate is used for guiding the glass cement on the side wall, so that the raw materials can move in the vertical direction, the dispersion of the raw materials is accelerated, and the reaction rate and the quality of the glass cement are improved.

Drawings

FIG. 1 is a schematic view of a rapid reaction kettle according to the present invention;

FIG. 2 is a semi-sectional view of a rapid reaction kettle according to the present invention;

fig. 3 is an embodiment of the projection of fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

Referring to fig. 1 and 2, the utility model provides a rapid reaction kettle for glass cement, which comprises a kettle body 1, a main stirring component 2 arranged in the kettle body 1, a bottom stirring component 3 arranged at the bottom of the kettle body 1 and a guide plate 4 attached to the inner wall of the kettle body 1;

the main stirring assembly 2 is arranged on the axis of the kettle body 1, the bottom stirring assembly 3 is arranged at the bottom of the kettle body 1, and the guide plate 4 is detachably connected with the side wall of the reaction kettle;

the main stirring assembly 2 comprises a first motor 21 and a central stirring rod 22, and the bottom stirring assembly 3 comprises a second motor 31 and a stirring disc 32;

the guide plate 4 is provided with a plurality of guide holes 41, and the guide holes 41 are spirally and upwardly arranged along the axis of the kettle body 1.

Specifically, the kettle body 1 comprises a cylindrical side wall 11, a horizontally arranged base 12 and an arc-shaped top cover 13. The top surface of the kettle body 1 is provided with a feed inlet 14, and the side wall 11 of the reaction kettle is provided with a discharge outlet 15. The center of the top cover 13 is provided with a connecting hole 16, and the main stirring assembly 2 is arranged in the connecting hole 16. The first motor 21 of the main stirring assembly 2 is arranged on the outer side of the top cover 13, and the central stirring rod 22 is rotatably connected with the top cover 13. The first motor 21 drives the central stirring rod 22 to rotate, so that the glass fiber reinforced plastic material rotates circumferentially. The bottom stirring component 3 drives the glass cement raw materials deposited at the bottom of the reaction kettle to flow, so that the dispersion of the glass cement raw materials is accelerated. The guide plate 4 is further attached to the side wall 11. The guide plate 4 is provided with guide holes 41 which are spirally and upwards arranged along the axis of the kettle body 1 so as to guide the raw materials in the vertical direction. Under the action of the circumferential force generated when the main stirring component 2 and the bottom stirring component 3 rotate, the glass cement is driven to continuously move upwards from the guide hole 41 to form a locally circulating fluid, so that the dispersion efficiency of the glass cement raw materials is improved, and the quality of glass cement finished products is improved.

The guide holes 41 are round holes to reduce the wall hanging phenomenon of the glass cement raw material and reduce the running resistance of the glass cement raw material.

Furthermore, the inner wall of the guide plate 4 is provided with a groove which is spirally arranged and can drive the glass collagen material to move upwards.

The central stirring rod 22 comprises a rotating main shaft 221 and a skirt 222 arranged on the rotating main shaft 221, the skirt 222 is spirally arranged, and the distance from the skirt 222 to the rotating main shaft 221 is sequentially increased from top to bottom, so that the glass cement raw material positioned at the lower half part can move in the vertical direction along the guide hole 41, and the flowability of the glass cement raw material is improved.

Bottom stirring subassembly 3 includes second motor 31 and agitator disk 32, bottom stirring subassembly 3 is located the bottom of the cauldron body 1, second motor 31 is located the outside of base 12, agitator disk 32 is located in the cauldron body 1, just agitator disk 32 with base 12 rotates and is connected. The stirring disc 32 is provided with a protrusion 33, and the protrusion 33 drives the glass collagen material at the bottom to rotate, so that the glass collagen material at the bottom moves upwards.

The second motor 31 is connected with a lead screw 34, and the lead screw 34 is connected with the stirring disc 32; a driving disk 36 is arranged on the screw nut 35, and the diameter of the stirring disk 32 is smaller than that of the driving disk 36. The stirring disc 32 rotates along with the lead screw 34, the lead screw nut 35 arranged on the lead screw 34 moves up and down to drive the driving disc 36 to move, and the driving disc 36 moves to the position of the base 12 to extrude the glass cement below the stirring disc 32. The diameter of the driving disc 36 is matched with that of the kettle body, and the diameter of the stirring disc 32 is smaller than that of the driving disc 36, so that the glass cement raw material can be extruded out from the outer side of the stirring disc 32, and raw material deposition at the bottom is avoided.

The stirring plate 32 is provided with a plurality of through holes 321 along the axial direction for discharging the glass cement below the stirring plate 32. The through holes 321 can accelerate the extrusion of the glass cement, and a plurality of extrusion positions are formed, so that the dispersion efficiency of the glass cement raw material is accelerated.

As a first embodiment of the protrusion 33, the protrusion 33 has a spiral structure, and the height of the protrusion 33 increases in sequence. The protrusions 33 may accelerate the formation of vortices. The height of the protrusions 33 is sequentially increased to improve the stirring effect of the stirring plate 32.

Referring to fig. 3, as a second embodiment of the protrusion 33, the protrusion 33 includes a plurality of arc-shaped protrusions 33a, the arc-shaped protrusions 33a are radially disposed, and the plurality of arc-shaped protrusions 33a are rotatably disposed on the agitator base plate 32. The protrusions 33 can rapidly change the flow direction of the glass paste raw material.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (8)

1. A rapid reaction kettle for glass cement is characterized by comprising a kettle body, a main stirring assembly arranged in the kettle body, a bottom stirring assembly arranged at the bottom of the kettle body and a guide plate attached to the inner wall of the kettle body;

the main stirring assembly is arranged on the axis of the kettle body, the bottom stirring assembly is arranged at the bottom of the kettle body, and the guide plate is detachably connected with the side wall of the reaction kettle;

the main stirring assembly comprises a first motor and a central stirring rod;

the deflector is equipped with many guiding holes, the guiding hole is followed the axis spiral of the cauldron body sets up upwards.

2. The glass cement fast reaction kettle as recited in claim 1, wherein the guiding hole is a circular hole.

3. The glass cement fast reaction kettle according to claim 1, wherein the central stirring rod comprises a rotating main shaft and a skirt arranged on the rotating main shaft, the skirt is spirally arranged, and the distances from the skirt to the rotating main shaft are sequentially increased from top to bottom.

4. The glass cement fast reaction kettle as recited in claim 1, wherein the bottom stirring assembly comprises a second motor and a stirring disk, and the top surface of the stirring disk is provided with a protrusion.

5. The glass cement fast reaction kettle as recited in claim 4, wherein the second motor is connected with a lead screw, and the lead screw is connected with the stirring plate.

6. The rapid glass cement reaction kettle according to claim 5, wherein a screw nut is arranged on the screw rod, a driving disk is arranged on the screw nut, and the diameter of the stirring disk is smaller than that of the driving disk.

7. The rapid glass cement reaction kettle as recited in claim 4, wherein the stirring plate is provided with a plurality of through holes along the axial direction for discharging the glass cement below the stirring plate.

8. The glass cement fast reaction kettle according to claim 7, wherein the protrusions are in a spiral structure, and the heights of the protrusions are increased in sequence; the bulges are arranged along the radial direction and are arc-shaped, and the bulges are rotationally arranged on the stirring disc.

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