CN115464771A - Vacuum mud refining machine for insulator production - Google Patents

Abstract

The invention discloses a vacuum mud refining machine for insulator production, and particularly relates to the technical field of insulator production equipment.

Description

Vacuum mud refining machine for insulator production

Technical Field

The invention relates to the technical field of insulator production equipment, in particular to a vacuum mud refining machine for insulator production.

Background

The insulator is usually made of ceramics, glass, conforming materials and the like, wherein in the production process of the ceramic insulator, a vacuum pug mill is needed to process raw materials, the vacuum pug mill is used for uniformly stirring pug for rolling to ensure that moisture is uniformly distributed, and air wrapped in the pug is pumped out, so that a pug section for forming the ceramic product with certain section shape and size, certain strength and certain density is obtained.

The utility model discloses a utility model patent of publication number CN213198173U discloses a vacuum refining mud equipment for porcelain insulator, under heating device's effect, former mud is heated, back process round hole sieve, by extrusion into tiny rectangular form mud strip, get into the vacuum chamber, former mud after taking out the air falls naturally, under the effect of spiral reamer, former mud gets into rubs the case and is further rubbed and rubs, follow extrusion molding from the extrusion nozzle afterwards, because after former mud heating, gaseous dissolving capacity descends, gaseous overflow, and tiny rectangular form mud strip thickness is little, under approximate vacuum state, the gas in the former mud is taken out very easily, the body bubble of making is few, and intensity is low, and the finished product of making is of high quality.

However, in the above technical scheme, one device can only be adapted to one mud outlet, and cannot be adapted to the extrusion of blanks with different sizes, and the applicability of the product is not high.

Disclosure of Invention

The invention aims to provide a vacuum pug mill for producing insulators, which is characterized in that after a kneading tank and an extrusion pipeline are installed, a limiting seat is attached to the outer surface of the kneading tank, a clamping seat is positioned above a circular groove, the clamping seat is downward and leaves the inner part of a concave cavity by pressing a pressure rod downwards, the clamping seat penetrates through the inner part of the circular groove, a handle drives a screw rod and screw threads to rotate, when external threads and the screw holes on the screw rod are not limited, a spring resets to remove pressure acting on the pressure rod, the clamping seat generates an upward movement trend, the clamping seat is attached to the inner cavity of a positioning clamp cavity, and a reaction force is generated when the spring resets to enable a directional sliding seat to generate a sliding trend in the limiting seat, the clamping seat slides into the positioning clamp cavity from the circular groove while moving the directional sliding seat, so as to limit the clamping seat, the kneading tank and the extrusion pipeline with different caliber sizes are installed, and further adapt to the extrusion of blank materials with different sizes, so that the diversity of blank products is improved, and the problems mentioned in the background technology are solved.

The invention can be realized by the following technical scheme: the utility model provides a vacuum pug mill is used in insulator production, includes parallel mount riser and the vacuum chamber on the base top surface, the bottom one side of vacuum chamber is installed on the surface and is rubbed the jar, the terminal sealed block of rubbing the jar is connected with the pipeline of extruding of different bores, extrude the pipeline install on the surface with rub the spacing seat of a jar external surface laminating setting, the internally mounted of spacing seat has and rubs the location block mechanism of jar looks joint.

The invention has further technical improvements that: the positioning and clamping mechanism comprises a directional sliding seat which is limited and slides in the limiting seat, a concave cavity is arranged on the surface of the directional sliding seat, a pressure rod is arranged in the concave cavity, the tail end of the pressure rod is fixedly connected with the clamping seat, and a spring II arranged in the inner cavity of the concave cavity is sleeved outside the pressure rod; the outer surface of the kneading tank is provided with a positioning clamp cavity with a convex structure, the tail end of the positioning clamp cavity is provided with a circular groove matched with the clamping seat, and the width of the top surface of the positioning clamp cavity is smaller than the diameter of the circular groove.

The invention has further technical improvements that: the one end fixedly connected with of directional slide and the fixed spring one that links to each other of spacing seat inner wall, and the other end of directional slide rotates and is connected with the screw rod, be equipped with the screw that links to each other with the screw thread on the lateral wall of spacing seat, the handle is installed to the end of screw rod.

The invention has further technical improvements that: rub the end of practicing the jar and be equipped with the ladder chamber, the ladder chamber be equipped with positioning slot on the surface, and the inner chamber top and the bottom in ladder chamber all are equipped with the guide way, a side surface of extruding the pipeline is provided with the installation section of thick bamboo that sets up with ladder chamber block, the tip of installation section of thick bamboo is provided with the guide block with guide way sliding fit, and is provided with on the terminal surface of installation section of thick bamboo and inserts the post with positioning slot grafting complex location.

The invention has further technical improvements that: the outer surface of the bottom of the kneading tank is attached with a support plate with an arc structure, and the bottom surface of the support plate is provided with an electric push rod arranged on the top surface of the base; the outer surface of the bottom of the extrusion pipeline is inserted with a bearing plate, a support rod is installed on the bottom surface of the bearing plate, the bottom end of the support rod is arranged on the flat ground, a slotted hole is formed in the middle of the bottom surface of an inner cavity of the bearing plate, and an installation column matched with the slotted hole is installed on the bottom surface of the extrusion pipeline.

The invention has the further technical improvements that: a stirring tank is arranged between the vertical plate and the vacuum box, butt joints are respectively arranged on the surfaces of the vertical plate and the vacuum box, sealing discs matched with the butt joints are arranged at two end parts of the stirring tank, a horizontally arranged spiral reamer I is arranged in the middle of an inner cavity of the stirring tank, a servo motor I for driving the spiral reamer I to move is arranged on the outer wall of the vertical plate, a heating pipe is arranged on the inner wall of the stirring tank, and a feeding hopper is arranged at the end part of the top surface of the stirring tank; the bottom of the inner cavity of the vacuum box is provided with a second spiral reamer which is contained in the kneading tank, and the side wall of the vacuum box is provided with a second servo motor which is used for driving the second spiral reamer to rotate.

The invention has further technical improvements that: the top surface of the vacuum box is provided with a circular plate, a plurality of connecting blocks are arranged between the outer surface of the circular plate and the vacuum box, and a rotational flow port communicated with the stirring tank and the inner cavity of the vacuum box is arranged between every two adjacent connecting blocks.

The invention has further technical improvements that: the vacuum pump is installed on the top surface of the vacuum box, the air inlet end of the vacuum pump is connected with a pipeline, and the tail end of the pipeline is communicated with the vacuum box.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, after the kneading tank and the extrusion pipeline are installed, the limiting seat is attached to the outer surface of the kneading tank, the clamping seat is positioned above the circular groove, the clamping seat is downward and away from the inside of the cavity by pressing the press rod downwards, the clamping seat penetrates through the inside of the circular groove, the handle drives the screw rod and the screw thread to rotate, when the external thread on the screw rod and the screw thread are not limited, the spring is reset, the pressure acting on the press rod is removed, the clamping seat generates an upward movement trend, the clamping seat is attached to the inner cavity of the positioning clamp cavity, and a reaction force is generated when the spring is reset, so that the directional slide seat generates a sliding trend in the limiting seat, and when the directional slide seat moves, the clamping seat slides into the positioning clamp cavity from the circular groove to limit the clamping seat, so that the kneading tank and the extrusion pipeline with different caliber sizes are installed, the extrusion of blank materials with different sizes is adapted, and the diversity of blank materials is improved;

2. the electric push rod extends and pushes the support plate to move upwards, and the support plate is attached to the surface of the kneading tank; when the extrusion pipeline is installed, firstly, the installation column on the outer wall of the extrusion pipeline is installed in a matched manner with the slotted hole in the bearing plate, and then the extrusion pipeline is installed in a matched manner with the kneading tank, so that the stability of the extrusion pipeline and the kneading tank is supported, and the stable extrusion of the extrusion pipeline is further ensured;

3. according to the invention, one end part of the first spiral reamer is rotatably arranged on the circular plate through the bearing, and the blank flows out of the plurality of rotational flow ports under the driving of the first spiral reamer, so that the blank can conveniently enter the vacuum box and can be guided to be discharged.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a structural cross-sectional view of a stirring tank of the present invention;

FIG. 3 is a schematic view of the structural connection between the circular plate and the connecting block according to the present invention;

FIG. 4 is a schematic perspective view of the kneading tank and the extrusion pipe according to the present invention;

FIG. 5 is an enlarged view of a portion of the invention at A in FIG. 4;

figure 6 is a structural cross-sectional view of the orientation slide of the present invention.

In the figure: 1. a base; 2. a vertical plate; 3. a vacuum box; 4. a stirring tank; 5. a feed hopper; 6. sealing the disc; 7. kneading the tank; 8. extruding a pipe; 9. heating a tube; 10. a butt joint port; 11. a circular plate; 12. a first spiral reamer; 13. a second spiral reamer; 14. connecting blocks; 15. a swirl port; 16. an electric push rod; 17. a support plate; 18. a positioning card cavity; 19. a circular groove; 20. a guide groove; 21. a stepped cavity; 22. positioning the slot; 23. mounting the cylinder; 24. a guide block; 25. a carrier plate; 26. a support bar; 27. a limiting seat; 28. a directional slide carriage; 29. a pressure lever; 30. a screw; 31. positioning the inserted column; 32. a concave cavity; 33. a card holder; 34. a second spring; 35. and a first spring.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be given with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1-6, the invention discloses a vacuum pug mill for insulator production, which comprises a base 1, wherein a vertical plate 2 and a vacuum box 3 which are arranged in parallel are arranged on the top surface of the base 1, a kneading tank 7 is arranged on the surface of one side of the bottom of the vacuum box 3, the tail end of the kneading tank 7 is connected with extrusion pipelines 8 with different calibers in a sealing and clamping manner, a limiting seat 27 which is attached to the outer surface of the kneading tank 7 is arranged on the surface of the extrusion pipeline 8, and a positioning and clamping mechanism which is clamped with the kneading tank 7 is arranged in the limiting seat 27, so that the kneading tank 7 is connected with the extrusion pipelines 8 with different calibers, the requirements for discharging of blanks with different sizes are met and adapted, and the diversity of blank products is improved.

The positioning and clamping mechanism comprises a directional sliding seat 28 which is limited and slides in the limiting seat 27, a concave cavity 32 is arranged on the surface of the directional sliding seat 28, a pressure rod 29 is arranged in the concave cavity 32, the tail end of the pressure rod 29 is fixedly connected with a clamping seat 33, and a second spring 34 arranged in the inner cavity of the concave cavity 32 is sleeved outside the pressure rod 29; the outer surface of the kneading tank 7 is provided with a convex positioning clamp cavity 18, the tail end of the positioning clamp cavity 18 is provided with a circular groove 19 matched with the clamping seat 33, and the width of the top surface of the positioning clamp cavity 18 is smaller than the diameter of the circular groove 19; one end of the directional slide seat 28 is fixedly connected with a first spring 35 fixedly connected with the inner wall of the limiting seat 27, the other end of the directional slide seat 28 is rotatably connected with a screw 30, the side wall of the limiting seat 27 is provided with a screw hole in threaded connection with the screw 30, the tail end of the screw 30 is provided with a handle, the screw 30 and the screw hole on the side wall of the limiting seat 27 are stirred by the handle to rotate spirally, the directional slide seat 28 is fixed inside the limiting seat 27, the first spring 35 is stretched, the tail end of the kneading tank 7 is clamped with the extrusion pipeline 8 at the moment, after the kneading tank 7 and the extrusion pipeline 8 are installed, the limiting seat 27 is attached to the outer surface of the kneading tank 7, the clamping seat 33 is positioned above the circular groove 19, and the second spring 34 generates elastic deformation by pressing the pressing rod 29 downwards, so that the clamping seat 33 is downward and leaves the inside of the cavity 32, the clamping seat 33 penetrates through the circular groove 19, the handle is turned reversely, the handle drives the screw rod 30 and the screw hole to rotate in a threaded mode, when the external threads and the screw hole on the screw rod 30 are not limited, the first spring 35 resets, pressure acting on the pressure rod 29 is removed, the second spring 34 recovers deformation, the clamping seat 33 generates an upward movement trend, the clamping seat 33 is attached to the inner cavity of the positioning clamp cavity 18, and the first spring 35 generates a reaction force when resetting, so that the directional sliding seat 28 generates a sliding trend in the limiting seat 27, when the directional sliding seat 28 moves, the clamping seat 33 slides to the positioning clamp cavity 18 from the circular groove 19, the clamping seat 33 is limited, installation of the kneading tank 7 and the extrusion pipelines 8 with different caliber sizes is achieved, and extrusion of blanks with different sizes is adapted.

The end of kneading jar 7 is equipped with ladder chamber 21, be equipped with location slot 22 on the surface of ladder chamber 21, and the inner chamber top and the bottom in ladder chamber 21 all are equipped with guide way 20, a side surface of extruding pipeline 8 is provided with the installation section of thick bamboo 23 that sets up with ladder chamber 21 block, the tip of installation section of thick bamboo 23 is provided with guide block 24 with guide way 20 sliding fit, and be provided with on the terminal surface of installation section of thick bamboo 23 and insert post 31 with location slot 22 grafting complex, when installing kneading jar 7 and extruding pipeline 8, at first with guide block 24 and guide way 20 butt joint, later installation section of thick bamboo 23 is packed into in ladder chamber 21, guide block 24 slides with guide way 20, be convenient for location slot 22 and the grafting of location insert post 31, the accurate installation of kneading jar 7 with extruding pipeline 8 has been realized.

The outer surface of the bottom of the kneading tank 7 is jointed with a support plate 17 with an arc structure, the bottom surface of the support plate 17 is provided with an electric push rod 16 arranged on the top surface of the base 1, the electric push rod 16 is arranged on the top surface of the base 1, the electric push rod 16 extends and pushes the support plate 17 to move upwards, and at the moment, the support plate 17 is jointed with the surface of the kneading tank 7; it has loading board 25 to peg graft to extrude the bottom surface of pipeline 8, install bracing piece 26 on the bottom surface of loading board 25, the bottom setting of bracing piece 26 is on smooth subaerial, loading board 25's inner chamber bottom surface middle part is equipped with the slotted hole, install the erection column with slotted hole looks adaptation on extruding pipeline 8's the bottom surface, to extruding pipeline 8 installation, at first will extrude the erection column on the pipeline 8 outer wall and the slotted hole adaptation installation in loading board 25, later will extrude pipeline 8 and rub jar 7 adaptation installation again, support the stability of extruding pipeline 8 and rubbing jar 7, and then guarantee to extrude the steady extrusion of pipeline 8.

A stirring tank 4 is arranged between the vertical plate 2 and the vacuum box 3, butt joints 10 are arranged on the surfaces of the vertical plate 2 and the vacuum box 3, sealing discs 6 matched with the butt joints 10 are arranged at two end parts of the stirring tank 4, the installation of the stirring tank 4, the vertical plate 2 and the vacuum box 3 is realized, a horizontally arranged spiral reamer I12 is arranged in the middle of an inner cavity of the stirring tank 4, a servo motor I for driving the spiral reamer I12 to move is arranged on the outer wall of the vertical plate 2, a heating pipe 9 with an annular structure is arranged on the inner wall of the stirring tank 4, and a feeding hopper 5 is arranged at the end part of the top surface of the stirring tank 4; the bottom of the inner cavity of the vacuum box 3 is provided with a second spiral reamer 13 which is contained in the kneading tank 7, the side wall of the vacuum box 3 is provided with a second servo motor for driving the second spiral reamer 13 to rotate, the second spiral reamer 13 stirs and extrudes the blank again, the top surface of the vacuum box 3 is provided with a vacuum pump, the air inlet end of the vacuum pump is connected with a pipeline, the tail end of the pipeline is communicated with the vacuum box 3, the blank is loaded into the vacuum box through a feed hopper 5, the first spiral reamer 12 is driven to rotate by a single servo motor, the blank in the stirring tank 4 is further spirally rotated to the position of the circular plate 11, the blank is uniformly heated by the annular heating pipe 9 in the rotating process, the heating effect is ensured, the blank enters the inside of the vacuum box 3, the vacuum box 3 is pumped into a vacuum environment under the action of the vacuum pump through the pipeline, bubbles of the blank are reduced, and the quality is improved.

Install plectane 11 on the top one side surface of vacuum chamber 3, install a plurality of connecting block 14 between the surface of plectane 11 and the vacuum chamber 3, be equipped with between two adjacent connecting blocks 14 with agitator tank 4 and the communicating whirl mouth 15 of 3 inner chambers of vacuum chamber, the stock flows into to the vacuum chamber 3 in agitator tank 4, the one end tip of spiral reamer one 12 passes through the bearing rotation and installs on plectane 11, under the drive of spiral reamer one 12, the stock flows by a plurality of whirl mouths 15, the stock of being convenient for enters into in the vacuum chamber 3, the discharge of guide material.

When the device is used, after the kneading tank 7 and the extrusion pipeline 8 are installed, the limiting seat 27 is attached to the outer surface of the kneading tank 7, the clamping seat 33 is positioned above the circular groove 19, the clamping seat 33 is pressed downwards and leaves the inside of the concave cavity 32, the clamping seat 33 penetrates through the inside of the circular groove 19, the handle drives the screw rod 30 and the screw thread to rotate, when the external thread and the screw thread on the screw rod 30 are not limited, the first spring 35 is reset, the pressure acting on the pressing rod 29 is removed, the clamping seat 33 generates an upward movement trend, the clamping seat 33 is attached to the inner cavity of the positioning clamping cavity 18, and the first spring 35 generates a reaction force when being reset, so that the directional sliding seat 28 generates a sliding trend in the limiting seat 27, the clamping seat 33 slides into the positioning clamping cavity 18 from the circular groove 19 while the directional sliding seat 28 moves, and further limits the clamping seat 33, the installation of the kneading tank 7 and the extrusion pipelines 8 with different caliber sizes is realized, the extrusion of blank materials with different sizes is adapted to the extrusion of different sizes, and the diversity of blank products is improved;

the support plate 17 is extended and pushed upward by the electric push rod 16, and the support plate 17 is attached to the surface of the kneading pot 7; when the extrusion pipeline 8 is installed, firstly, the installation column on the outer wall of the extrusion pipeline 8 is installed in a matched manner with the slotted hole in the bearing plate 25, and then the extrusion pipeline 8 is installed in a matched manner with the kneading tank 7, so that the stability of the extrusion pipeline 8 and the kneading tank 7 is supported, and the stable extrusion of the extrusion pipeline 8 is further ensured;

one end part of the first spiral reamer 12 is rotatably installed on the circular plate 11 through a bearing, and under the driving of the first spiral reamer 12, the blanks flow out of the plurality of swirl ports 15, so that the blanks can conveniently enter the vacuum box 3 to guide the discharge of materials.

Although the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but is intended to cover various modifications, equivalents and alternatives falling within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a vacuum pug mill is used in insulator production, includes parallel mount riser (2) and vacuum box (3) on base (1) top surface, its characterized in that: the utility model discloses a vacuum box, including vacuum box (3), the sealed block of end of kneading jar (7) is connected with the pipeline (8) of extruding of different bores, the bottom one side of vacuum box (3) is installed on the surface and is kneaded jar (7), the sealed block of end of kneading jar (7) is connected with the pipeline (8) of extruding of different bores, extrude the spacing seat (27) of installing on the surface and kneading jar (7) surface laminating setting, the internally mounted of spacing seat (27) has and kneads the location block mechanism of jar (7) looks joint.

2. The vacuum mud mixer for insulator production according to claim 1, wherein the positioning and clamping mechanism comprises an orientation sliding seat (28) which slides on the inside of a limiting seat (27) in a limiting way, a cavity (32) is arranged on the surface of the orientation sliding seat (28), a pressure rod (29) is arranged inside the cavity (32), the tail end of the pressure rod (29) is fixedly connected with a clamping seat (33), and a second spring (34) arranged in the inner cavity of the cavity (32) is sleeved outside the pressure rod (29); the outer surface of the kneading tank (7) is provided with a convex positioning card cavity (18), the tail end of the positioning card cavity (18) is provided with a circular groove (19) matched with the card seat (33), and the width of the top surface of the positioning card cavity (18) is smaller than the diameter of the circular groove (19).

3. The vacuum mud mixer for insulator production according to claim 2, wherein one end of the directional sliding seat (28) is fixedly connected with a first spring (35) fixedly connected with the inner wall of the limiting seat (27), the other end of the directional sliding seat (28) is rotatably connected with a screw rod (30), a screw hole in threaded connection with the screw rod (30) is formed in the side wall of the limiting seat (27), and a handle is installed at the tail end of the screw rod (30).

4. The vacuum pug mill for insulator production according to claim 1, wherein the kneading tank (7) is provided at its end with a stepped cavity (21), the stepped cavity (21) is provided on its surface with positioning slots (22), and the stepped cavity (21) is provided at its top and bottom with guide slots (20), the extrusion pipe (8) is provided on its side surface with a mounting cylinder (23) engaged with the stepped cavity (21), the mounting cylinder (23) is provided at its end with a guide block (24) slidably engaged with the guide slots (20), and the mounting cylinder (23) is provided on its end face with positioning studs (31) engaged with the positioning slots (22).

5. The vacuum pugmill for insulator production according to claim 1, characterized in that the outer surface of the bottom of the kneading tank (7) is attached with a support plate (17) with an arc structure, and the bottom surface of the support plate (17) is provided with an electric push rod (16) arranged on the top surface of the base (1); the outer surface of the bottom of the extrusion pipeline (8) is spliced with a bearing plate (25), a supporting rod (26) is installed on the bottom surface of the bearing plate (25), a slotted hole is formed in the middle of the bottom surface of an inner cavity of the bearing plate (25), and an installation column matched with the slotted hole is installed on the bottom surface of the extrusion pipeline (8).

6. The vacuum mud mixer for insulator production according to claim 1, wherein a stirring tank (4) is installed between the vertical plate (2) and the vacuum box (3), butt joints (10) are installed on the surfaces of the vertical plate (2) and the vacuum box (3), sealing discs (6) matched with the butt joints (10) are arranged at two ends of the stirring tank (4), a horizontally arranged spiral reamer I (12) is installed in the middle of an inner cavity of the stirring tank (4), a servo motor I for driving the spiral reamer I (12) to move is installed on the outer wall of the vertical plate (2), heating pipes (9) are arranged on the inner wall of the stirring tank (4), and a feeding hopper (5) is installed at the end position of the top surface of the stirring tank (4); the bottom of the inner cavity of the vacuum box (3) is provided with a second spiral reamer (13) which is contained in the kneading tank (7), and the side wall of the vacuum box (3) is provided with a second servo motor which is used for driving the second spiral reamer (13) to rotate.

7. The vacuum mud mixer for insulator production according to claim 1, wherein a circular plate (11) is mounted on one side surface of the top of the vacuum box (3), a plurality of connecting blocks (14) are mounted between the outer surface of the circular plate (11) and the vacuum box (3), and a swirl port (15) communicated with the inner cavities of the stirring tank (4) and the vacuum box (3) is arranged between every two adjacent connecting blocks (14).

8. The vacuum pugmill for insulator production according to claim 1, characterized in that a vacuum pump is installed on the top surface of the vacuum box (3), the air inlet end of the vacuum pump is connected with a pipeline, and the tail end of the pipeline is communicated with the vacuum box (3).

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