CN219567781U - Novel glass melt stirring rod - Google Patents

Abstract

The utility model discloses a novel glass melt stirring rod, which aims to solve the technical problem that stirring is uneven due to small stirring coverage area of a spiral and rectangular blade stirring rod in the prior art. The stirring rod comprises a stirring rod main body and a sliding sleeve, wherein the sliding sleeve is sleeved on the surface of the stirring rod main body, an additional stirring mechanism is connected to the surface of the sliding sleeve, and a fixing mechanism is arranged between the sliding sleeve and the stirring rod main body. This stirring rod, at first be connected stirring rod main part's top and driving motor, can drive stirring rod main part and rotate when driving motor moves then, stirring rod main part rotates and can drive the cross axle through the sliding sleeve and rotate, the cross axle rotates and can drive the rotary rod and rotate, the rotary rod can rotate in the inside of bearing, the rotary rod motion can drive stirring branch and rotate, can make glass melt obtain more abundant stirring in limited space like this, be favorable to the discharge of bubble, homogenization glass melt and eliminate the stripe.

Description

Novel glass melt stirring rod

Technical Field

The utility model belongs to the technical field of glass melt stirring, and particularly relates to a novel glass melt stirring rod.

Background

The homogenization process of the molten glass is realized by interdiffusion, dissolution, rising and rising of bubbles in the molten glass, convection of the molten glass and the like among melts of different components. The method mainly uses molecular diffusion movement to move a part containing more components in the melt to a part containing less components, thereby eliminating stripes in glass and promoting the molten glass to be uniform and consistent in chemical composition. Since diffusion in viscous media is particularly slow, a long process is required and the homogenization quality efficiency is often not high. In order to accelerate the homogenization process, a mechanical stirring method is often adopted to continuously divide the uneven area and the coarse stripes in the molten glass into very thin and short stripes, so that the contact surface of the stripes is increased, the mutual dissolution and diffusion between the molten glass and the stripes are facilitated, and the stripes gradually disappear or decrease. In the using process of the existing stirring rod, the following problems exist:

currently, most glass liquid stirrers are helical or rectangular blades. Both the spiral and rectangular blade stirring rods have the problem of uneven stirring due to small stirring coverage area; if the contact surface between the spiral blades and the molten glass is large on the premise that the stirring coverage area is the same, the torque born by the stirring rod and the acting force born by the stirring barrel are increased, and meanwhile, the strength of the stirring rod can be weakened due to the high temperature of the molten glass, so that the situation that the stirring rod is broken frequently occurs in use and the service life is shortened is caused.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a novel glass melt stirring rod, which aims to solve the problem that the stirring coverage area of a spiral stirring rod and a rectangular stirring rod is small and the stirring is uneven in the prior art; if the contact surface between the spiral blades and the molten glass is large on the premise that the stirring coverage area is the same, the torque born by the stirring rod and the acting force born by the stirring barrel are increased, and meanwhile, the strength of the stirring rod can be weakened due to the high temperature of the molten glass, so that the stirring rod is broken frequently in use, and the service life is shortened.

(2) Technical proposal

In order to solve the technical problems, the utility model provides the novel glass melt stirring rod which comprises a stirring rod main body and a sliding sleeve, wherein the sliding sleeve is sleeved on the surface of the stirring rod main body, an additional stirring mechanism is connected to the surface of the sliding sleeve, and a fixing mechanism is arranged between the sliding sleeve and the stirring rod main body.

When using the stirring rod of this technical scheme, at first be connected the top and the driving motor of stirring rod main part, can drive the stirring rod main part and rotate when driving motor operates then, the stirring rod main part rotates and can drive the cross axle through the sliding sleeve and rotate, and the cross axle rotates and can drive the rotary rod and rotate, and the rotary rod can rotate in the inside of bearing simultaneously, and the rotary rod motion can drive stirring branch and rotate, can make glass melt obtain more abundant stirring in limited space like this.

Preferably, the additional stirring mechanism comprises a cross shaft, a bearing, a rotating rod and a stirring supporting rod, wherein the cross shaft is connected to the side surface of the sliding sleeve, the bearing is installed in the cross shaft in a jogged mode, the rotating rod is connected to the inside of the bearing in a penetrating mode, the stirring supporting rod is connected to the surface of the rotating rod, the stirring rod body rotates to drive the sliding sleeve to rotate, the sliding sleeve rotates to drive the cross shaft to rotate, and the rotating rod can be driven to rotate by the rotation of the cross shaft.

Further, every two the side surface of sliding sleeve is provided with four sets of cross axles, bearing and rotary rod, every the surface connection of rotary rod has four stirring branches, and the rotary rod receives the effort to rotate in the inside of bearing, and the rotary rod rotates and can drive stirring branch and rotate.

Further, the rotary rod forms a rotary structure with the transverse shaft through a bearing, and the rotary rod and the stirring support rod are of an integrated structure.

Still further, fixed establishment includes round hole, bolt, screw hole, direction slider and direction spout, the round hole is seted up on the surface of sliding sleeve, the inside of round hole is run through there is the bolt, is close to the bolt the screw hole has been seted up on stirring rod main part surface.

Furthermore, sliding connection is between sliding sleeve and the stirring rod main part, be threaded connection between bolt and the screw hole, can fix the position of sliding sleeve when bolt and screw hole carry out threaded connection, and the fixed position of sliding sleeve can be with the fixed position of additional rabbling mechanism.

Furthermore, the inner wall of the sliding sleeve is connected with a guide sliding block, and a guide sliding groove is formed in the side surface of the stirring rod main body, which is close to the guide sliding block.

Furthermore, a group of guide sliding blocks and guide sliding grooves are symmetrically arranged on two sides of each sliding sleeve respectively, the guide sliding blocks are connected with the stirring rod main body in a sliding mode through the guide sliding grooves, the sliding sleeves can drive the guide sliding blocks to slide in the guide sliding grooves under the action of acting force, and therefore the moving direction of the sliding sleeves can be limited.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the stirring rod, the top of the stirring rod main body is connected with the driving motor, the driving motor can drive the stirring rod main body to rotate when in operation, the stirring rod main body can drive the cross shaft to rotate through the sliding sleeve, the cross shaft can drive the rotating rod to rotate when in rotation, meanwhile, the rotating rod can rotate in the bearing, and the rotating rod can drive the stirring support rod to rotate when in movement, so that glass melt can be more fully stirred in a limited space, the discharge of bubbles is facilitated, the glass melt is homogenized, and the stripes are eliminated;

2. according to the utility model, the sliding sleeve can be driven to be sleeved on the surface of the stirring rod main body when the additional stirring mechanism is installed, the guide sliding block is positioned on the inner wall of the guide sliding groove, then the sliding sleeve drives the bolt to slide on the surface of the stirring rod main body through the round hole, and when the bolt moves to one side of the threaded hole, the bolt can be screwed with the threaded hole in a rotating way, so that the position of the sliding sleeve can be fixed, the additional stirring mechanism can be installed on the surface of the rod body of the stirring rod main body, and different numbers of additional stirring mechanisms can be installed according to the use requirement.

Drawings

FIG. 1 is a schematic diagram of a front view of an embodiment of the apparatus of the present utility model;

FIG. 2 is a schematic side view of an embodiment of the apparatus of the present utility model;

FIG. 3 is a schematic view of an exploded construction of one embodiment of the apparatus of the present utility model;

FIG. 4 is a schematic view of an additional stirring mechanism of one embodiment of the apparatus of the present utility model;

fig. 5 is an exploded view of an additional stirring mechanism of one embodiment of the apparatus of the present utility model.

The marks in the drawings are: 1. a stirring rod main body; 2. a sliding sleeve; 3. a horizontal axis; 4. a bearing; 5. a rotating rod; 6. stirring support rods; 7. a round hole; 8. a bolt; 9. a threaded hole; 10. a guide slide block; 11. and a guiding chute.

Detailed Description

This concrete embodiment is a novel glass melt stirring rod, and its structural schematic diagram is as shown in fig. 1-5, and this stirring rod includes stirring rod main part 1 and sliding sleeve 2, and sliding sleeve 2 has been cup jointed on the surface of stirring rod main part 1, and sliding sleeve 2's surface is connected with additional rabbling mechanism, is provided with fixed establishment between sliding sleeve 2 and the stirring rod main part 1.

Wherein, additional rabbling mechanism includes cross axle 3, bearing 4, rotary rod 5 and stirring branch 6, cross axle 3 connects the side surface at sliding sleeve 2, bearing 4 is installed to the inside gomphosis of cross axle 3, the inside through connection of bearing 4 has rotary rod 5, the surface connection of rotary rod 5 has stirring branch 6, the side surface of every two sliding sleeves 2 is provided with four group's cross axle 3, bearing 4 and rotary rod 5, the surface connection of every rotary rod 5 has four stirring branch 6, constitute revolution mechanic between rotary rod 5 and the cross axle 3 through bearing 4, be integrated into one piece structure between rotary rod 5 and the stirring branch 6.

In addition, fixed establishment includes round hole 7, bolt 8, screw hole 9, direction slider 10 and direction spout 11, the surface at sliding sleeve 2 is seted up to the round hole 7, the inside of round hole 7 is run through and is had bolt 8, screw hole 9 has been seted up on stirring rod main part 1 surface near bolt 8, be sliding connection between sliding sleeve 2 and the stirring rod main part 1, be threaded connection between bolt 8 and the screw hole 9, the inner wall of sliding sleeve 2 is connected with direction slider 10, the direction spout 11 has been seted up near the stirring rod main part 1 side surface of direction slider 10, the both sides of every sliding sleeve 2 symmetry are provided with a set of direction slider 10 and direction spout 11 respectively, constitute sliding connection between direction slider 10 and the stirring rod main part 1 through direction spout 11.

Working principle: when the device of the technical scheme is used, the sliding sleeve 2 can be driven to be sleeved on the surface of the stirring rod main body 1 when the additional stirring mechanism is installed, the guide sliding block 10 is positioned on the inner wall of the guide sliding groove 11, then the sliding sleeve 2 drives the bolt 8 to slide on the surface of the stirring rod main body 1 through the round hole 7, and when the bolt 8 moves to one side of the threaded hole 9, the bolt 8 can be screwed with the threaded hole 9 in a rotating way, so that the position of the sliding sleeve 2 can be fixed, the additional stirring mechanism can be installed on the rod body surface of the stirring rod main body 1, and therefore, different numbers of additional stirring mechanisms can be installed according to the use requirement; the top of stirring rod main part 1 is connected with driving motor, can drive stirring rod main part 1 and rotate when driving motor moves then, stirring rod main part 1 rotates and can drive cross axle 3 through sliding sleeve 2 and rotate, and cross axle 3 rotates and can drive rotary rod 5 and rotate, and rotary rod 5 can rotate in bearing 4's inside simultaneously, and rotary rod 5 motion can drive stirring branch 6 and rotate, can make the glass melt obtain more abundant stirring in limited space like this, is favorable to the discharge of bubble, homogenization glass melt and eliminates the stripe.

All technical features in the embodiment can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (8)

1. The utility model provides a novel glass melt stirring rod, this stirring rod includes stirring rod main part (1) and sliding sleeve (2), its characterized in that, sliding sleeve (2) have been cup jointed in stirring rod main part (1), sliding sleeve (2) are connected with additional rabbling mechanism, be provided with fixed establishment between sliding sleeve (2) and stirring rod main part (1).

2. The novel glass melt stirring rod according to claim 1, wherein the additional stirring mechanism comprises a transverse shaft (3), a bearing (4), a rotating rod (5) and a stirring support rod (6), the transverse shaft (3) is connected to the side surface of the sliding sleeve (2), the bearing (4) is installed in the inner embedded mode of the transverse shaft (3), the rotating rod (5) is connected to the inner penetrating mode of the bearing (4), and the stirring support rod (6) is connected to the surface of the rotating rod (5).

3. The novel glass melt stirring rod according to claim 2, wherein four groups of transverse shafts (3), bearings (4) and rotating rods (5) are arranged on the side surfaces of each two sliding sleeves (2), and four stirring support rods (6) are connected to the surface of each rotating rod (5).

4. A novel glass melt stirring rod according to claim 3, characterized in that the rotating rod (5) forms a rotating structure with the transverse shaft (3) through a bearing (4), and the rotating rod (5) and the stirring support rod (6) are of an integrated structure.

5. The novel glass melt stirring rod according to claim 1, wherein the fixing mechanism comprises a round hole (7), a bolt (8), a threaded hole (9), a guide sliding block (10) and a guide sliding groove (11), the round hole (7) is formed in the surface of the sliding sleeve (2), the bolt (8) penetrates through the inside of the round hole (7), and the threaded hole (9) is formed in the surface of the stirring rod main body (1) close to the bolt (8).

6. The novel glass melt stirring rod according to claim 5, wherein the sliding sleeve (2) is in sliding connection with the stirring rod main body (1), and the bolt (8) is in threaded connection with the threaded hole (9).

7. The novel glass melt stirring rod according to claim 5, wherein the inner wall of the sliding sleeve (2) is connected with a guide sliding block (10), and a guide sliding groove (11) is formed in the side surface of the stirring rod main body (1) close to the guide sliding block (10).

8. The novel glass melt stirring rod according to claim 7, wherein a group of guide sliding blocks (10) and guide sliding grooves (11) are symmetrically arranged on two sides of each sliding sleeve (2), and the guide sliding blocks (10) are in sliding connection with the stirring rod main body (1) through the guide sliding grooves (11).