CN210832996U - High-temperature sintering kiln for producing toughened silicon carbide for ceramics - Google Patents

Abstract

The utility model belongs to the technical field of the kiln technique and specifically relates to a carborundum high temperature sintering kiln for production toughening pottery, the induction cooker comprises a cooker bod, it is connected with the sealing door to rotate on one side of furnace body, the top sliding connection of supporting seat has places the dish, the fixed pinion rack that all is connected with in bottom both sides of placing the dish, and the tip of two pinion racks all is connected with the limiting plate perpendicularly, it is connected with first pivot to rotate on the lateral wall of supporting seat, coaxial coupling has first gear in the first pivot that is located the furnace body, it is equipped with the recess to be located the first pivot tip symmetry in the placing chamber, L template top is connected with servo motor, coaxial coupling has the second gear on servo motor's the output, one side that servo motor is close at the riser top is rotated through the third pivot and is connected with the third gear, and connect through. The utility model discloses not only make things convenient for staff's operation, and improved the security of work.

Description

High-temperature sintering kiln for producing toughened silicon carbide for ceramics

Technical Field

The utility model relates to a kiln technical field especially relates to a production is toughened carborundum high temperature sintering kiln for pottery.

Background

As is well known, the silicon carbide high-temperature sintering kiln for producing toughened ceramic is a device for sintering silicon carbide materials at high temperature so as to meet the production requirements of producing toughened ceramic, and the existing silicon carbide high-temperature sintering kiln for producing toughened ceramic is found that the ambient temperature near the end of the work is higher, the processed materials in the work cavity are inconvenient to discharge, the inconvenience is brought to workers, the practicability is lower, the use effect is poorer, and the use reliability is lower. Therefore, a silicon carbide high-temperature sintering kiln for producing toughened ceramic is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a silicon carbide high-temperature sintering kiln for producing toughened ceramics.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design is that a silicon carbide high-temperature sintering kiln for producing toughened ceramic comprises a kiln body, wherein a sealing door is rotatably connected to one side of the kiln body, a first handle is fixedly connected to the sealing door, a supporting seat is fixedly connected to the inside of the kiln body, a placing plate is slidably connected to the top of the supporting seat, toothed plates are fixedly connected to two sides of the bottom of the placing plate, the two toothed plates are symmetrically arranged along the supporting seat, the end parts of the two toothed plates are vertically connected with a limiting plate, placing chambers are respectively arranged on the side walls of two sides of the kiln body, a first rotating shaft is rotatably connected to the side walls of the supporting seat, the other end of the first rotating shaft extends into the placing chambers, a first gear is coaxially connected to the first rotating shaft in the kiln body and is in meshed connection with the toothed plates at corresponding positions, grooves are symmetrically arranged at the end parts of the first rotating shaft in the, sliding connection has the L template in the placing chamber, L template top is connected with servo motor, coaxial coupling has the second gear on servo motor's the output, the top of L template still is connected with the riser perpendicularly, one side that the riser top is close servo motor is rotated through the third pivot and is connected with the third gear, third gear and second gear parallel arrangement, just connect through the cingulum between third gear and the second gear, the symmetrical connection has the connecting block on one side inner wall that the third gear is close first pivot, just connecting block and recess phase-match are located but first pivot one end accordant connection in the placing chamber is on the third gear.

Preferably, all communicate on the lateral wall of L template and be equipped with the spout, the perpendicular riser setting of spout, place indoor wall and correspond position department and be connected with the locating lever perpendicularly, the other end of locating lever extends to in the spout.

Preferably, a second handle is fixedly connected to the side wall of the L-shaped plate, which is far away from the placing chamber.

Preferably, a plurality of first positioning rods are vertically connected to the upper portion of the inner wall of the placing chamber, through holes are formed in positions, corresponding to the L-shaped plates, of the first positioning rods, and the first positioning rods are slidably connected into the through holes.

The utility model provides a production increases tough silicon carbide high temperature sintering kiln for ceramic, beneficial effect lies in: the utility model discloses a servo motor's rotation can drive first gear and rotate, and the pinion rack that the set bottom was placed in the area can be slided to pivoted first gear, and then can drive and place the dish and slide at the top of supporting seat, can realize placing the quick roll-off of dish, has not only made things convenient for staff's operation, and has improved the security of work.

Drawings

Fig. 1 is a schematic structural diagram of a silicon carbide high-temperature sintering kiln for producing toughened ceramics, which is provided by the utility model.

Fig. 2 is a partial structure sectional view of a silicon carbide high-temperature sintering kiln for producing toughened ceramics, which is provided by the utility model.

FIG. 3 is a connection diagram of a riser and an L-shaped plate of a high-temperature sintering kiln for producing toughened silicon carbide for ceramics.

Fig. 4 is a partial enlarged view of a part a of the silicon carbide high-temperature sintering kiln for producing toughened ceramics provided by the utility model.

In the figure: furnace body 1, sealing door 2, first handle 3, supporting seat 4, place dish 5, limiting plate 6, first gear 7, pinion rack 8, spout 9, riser 10, second gear 11, L template 12, second handle 13, through-hole 14, locating lever 15, first pivot 16, recess 17, second pivot 18, place room 19, servo motor 20, locating lever 21, cingulum 22, third pivot 23, third gear 24, connecting block 25.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a carborundum high temperature sintering kiln for production toughened ceramic, including furnace body 1, rotate on one side of furnace body 1 and be connected with sealing door 2, fixedly connected with the first in command 3 on sealing door 2, fixedly connected with supporting seat 4 in the furnace body 1, the top sliding connection of supporting seat 4 places dish 5, the fixed pinion rack 8 that all is connected with in bottom both sides of placing dish 5, two pinion rack 8 set up along supporting seat 4 symmetry, and the equal vertical connection of tip of two pinion rack 8 has limiting plate 6, the limiting plate 16 of setting can play spacing effect to rotatory first gear 7, and then guaranteed to place the gliding normal clear of dish 5.

All be equipped with placing chamber 19 on the lateral wall of 1 both sides of furnace body, it is connected with first pivot 16 to rotate on the lateral wall of supporting seat 4, the other end of first pivot 16 extends to in placing chamber 19, coaxial connection has first gear 7 on the first pivot 16 that is located furnace body 1, first gear 7 and the 8 crescent engagements of pinion rack that correspond position department are connected, 16 tip symmetries of first pivot that are located placing chamber 19 are equipped with recess 17, sliding connection has L template 12 in placing chamber 19, L template 12 top is connected with servo motor 20, servo motor 20 carries out electric connection through wire and switch, and the switch carries out electric connection through wire and power supply unit.

Coaxial coupling has second gear 11 on servo motor 20's the output, the top of L template 12 still has riser 10 perpendicularly connected, one side that servo motor 20 is close at riser 10 top is rotated through third pivot 23 and is connected with third gear 24, third gear 24 and the parallel arrangement of second gear 11, and connect through toothed belt 22 between third gear 24 and the second gear 11, third gear 24 is close symmetrical connection has connecting block 18 on the one side inner wall of first pivot 16, and connecting block 18 and recess 17 phase-match, 16 one end matching connection of first pivot that is located placing chamber 19 can be on third gear 24, drive the rotation of first gear 7 through servo motor 20, can realize placing dish 5 and carry out fine slip at supporting seat 4 tops, and then realized placing the convenient regulation of dish 5.

The utility model discloses a servo motor 20's rotation can drive first gear 7 and rotate, and pivoted first gear 7 can take the pinion rack 8 of placing set 5 bottoms to slide, and then can drive and place set 5 and slide at the top of supporting seat 4, can realize placing the quick roll-off of set 5, has not only made things convenient for staff's operation, and has improved the security of work.

Specifically, when the device is used, the L-shaped plate 12 is pushed to drive the servo motor 20 and the vertical plate 10 to move to the first rotating shaft 16, so that the third gear 24 is coaxially connected to the first rotating shaft 16, the positioning rod 15 slides into the through hole 14, the servo motor 20 is controlled by the switch to work, the servo motor 20 rotates to drive the second gear 11 to rotate, the rotating second gear 11 is matched with the toothed belt 22 to drive the third gear 24 to rotate, and further the first gear 7 is driven to rotate, the rotating first gear 7 further drives the placing plate 5 to slide at the top of the supporting seat 4, so that the placing plate 5 can be rapidly moved out of the furnace body 1, the operation of a worker is facilitated, after the placing plate 5 is moved into the furnace body 1, the L-shaped plate 12 can be driven to slide in the placing chamber 19 by pulling the second handle 13, and further, the third gear 24 is moved out of the first rotating shaft 16, so that the furnace body 1 can be continuously processed, and the servo motor 20 and the toothed belt 22 are well protected.

Referring to fig. 2, 3 and 4, further, the side walls of the L-shaped plates 12 are all communicated with a sliding chute 9, the sliding chute 9 is perpendicular to the vertical plate 10, a positioning rod 21 is perpendicularly connected to a position corresponding to the inner wall of the placing chamber 19, and the other end of the positioning rod 21 extends into the sliding chute 9.

Under the cooperation of the sliding chute 9 and the positioning rod 21, the L-shaped plate 12 can be ensured to stably slide in the placing chamber 19, and the normal operation of adjustment is further ensured.

Referring to fig. 1, 2, 3 and 4, further, a second handle 13 is fixedly connected to a side wall of the L-shaped plate 12 away from the placing chamber 19.

The second handle 13 is arranged to facilitate the sliding of the L-shaped plate 12, and great convenience is brought to the operation of a user.

Referring to fig. 1, 2, 3 and 4, furthermore, a plurality of first positioning rods 15 are vertically connected above the inner wall of the placing chamber 19, through holes 14 are formed at corresponding positions of the L-shaped plates 12, and the first positioning rods 15 are slidably connected in the through holes 14.

Through the matching connection of the first positioning rod 15 and the through hole 14, the stability of the connection of the L-shaped plate 12 in the placing chamber 19 is improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a production increases tough carborundum high temperature sintering kiln for pottery, includes furnace body (1), its characterized in that, rotate on one side of furnace body (1) and be connected with sealing door (2), fixedly connected with first in command (3) on sealing door (2), fixedly connected with supporting seat (4) in furnace body (1), the top sliding connection of supporting seat (4) has place set (5), the bottom both sides of placing set (5) are fixedly all connected with pinion rack (8), two pinion rack (8) are along supporting seat (4) symmetry setting, and the tip of two pinion rack (8) all is connected with limiting plate (6) perpendicularly, all be equipped with placing chamber (19) on the lateral wall of furnace body (1) both sides, rotate on the lateral wall of supporting seat (4) and be connected with first pivot (16), the other end of first pivot (16) extends to in placing chamber (19), the furnace body is characterized in that a first gear (7) is coaxially connected to a first rotating shaft (16) in the furnace body (1), the first gear (7) is in inner engagement with a toothed plate (8) at a corresponding position, grooves (17) are symmetrically formed in the end portion of the first rotating shaft (16) in the placing chamber (19), an L-shaped plate (12) is connected to the inside of the placing chamber (19) in a sliding manner, a servo motor (20) is connected to the top of the L-shaped plate (12), a second gear (11) is coaxially connected to the output end of the servo motor (20), a vertical plate (10) is vertically connected to the top of the L-shaped plate (12), a third gear (24) is rotatably connected to one side, close to the servo motor (20), of the top of the vertical plate (10) through a third rotating shaft (23), the third gear (24) and the second gear (11) are arranged in parallel, and the third gear (24) and the second gear (11) are connected through a toothed belt (22), the third gear (24) is close to and is connected with connecting block (18) on the inner wall of one side of first pivot (16) symmetrically, just connecting block (18) and recess (17) phase-match are located but first pivot (16) one end match connection in placing chamber (19) is on third gear (24).

2. The silicon carbide high-temperature sintering kiln for producing the toughened ceramic according to claim 1, wherein the side walls of the L-shaped plates (12) are respectively communicated with a sliding groove (9), the sliding grooves (9) are arranged perpendicular to the vertical plates (10), the corresponding positions of the inner walls of the placing chambers (19) are vertically connected with positioning rods (21), and the other ends of the positioning rods (21) extend into the sliding grooves (9).

3. The high-temperature silicon carbide sintering kiln for producing toughened ceramics as claimed in claim 1, wherein a second handle (13) is fixedly connected to a side wall of the L-shaped plate (12) far from the placing chamber (19).

4. The high-temperature silicon carbide sintering kiln for producing the toughened ceramic according to claim 1, wherein a plurality of first locating rods (15) are vertically connected above the inner wall of the placing chamber (19), through holes (14) are formed in corresponding positions of the L-shaped plate (12), and the first locating rods (15) are slidably connected in the through holes (14).

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