CN112976302A

CN112976302A - Ceramic manufacturing machine for rare earth processing

Info

Publication number: CN112976302A
Application number: CN202110429830.6A
Authority: CN
Inventors: 范鑫鑫
Original assignee: Individual
Current assignee: Guangxi Qinzhou Guchao Nixing Pottery Production Co ltd
Priority date: 2021-04-21
Filing date: 2021-04-21
Publication date: 2021-06-18
Anticipated expiration: 2041-04-21
Also published as: CN112976302B

Abstract

The invention relates to a manufacturing machine, in particular to a ceramic manufacturing machine for rare earth processing. The invention provides a ceramic manufacturing machine for rare earth processing, which can intermittently discharge materials, automatically and uniformly receive materials and is convenient to operate. The utility model provides a tombarthite processing is with pottery preparation machine, is equipped with rotatory solid fixed ring including bottom plate, rotatory solid fixed ring and place the frame on the bottom plate, and the middle part is equipped with places the frame on the bottom plate, is equipped with rotatory rabbling mechanism on the bottom plate, and rotatory rabbling mechanism is connected with rotatory solid fixed ring, and rotatory rabbling mechanism with place the frame cooperation, the last intermittent type discharge mechanism that is equipped with of rotatory rabbling mechanism. According to the automatic material receiving device, the clamping rotary shaking mechanism and the automatic intermittent rotating mechanism are arranged, the rotary stirring mechanism operates to drive the automatic intermittent rotating mechanism to operate, and then the clamping rotary shaking mechanism operates, so that the molds in the clamping fixing mechanism repeatedly rotate, and then the molds are uniformly received, and the purpose of automatically and uniformly receiving materials is achieved.

Description

Ceramic manufacturing machine for rare earth processing

Technical Field

The invention relates to a manufacturing machine, in particular to a ceramic manufacturing machine for rare earth processing.

Background

The rare earth raw materials contain various rare elements, and the rare elements have the function of supplementing certain material defects to different materials, so that the materials are more perfect, rare earth is added into the ceramic, namely the rare elements are utilized, the glossiness of the ceramic can be better, and the ceramic has the advantages of corrosion resistance and the like.

Patent application CN211389323U, published as 2020.09.01, discloses a domestic ceramic making machine, which comprises a ceramic making machine, a main frame, a hydraulic column, a hydraulic boom, a mold connecting plate, a safety rod, an upper mold fixing block, an upper dense through hole mold, a lower mold fixing block, etc., wherein a hydraulic host is manually controlled by a manual control button, the hydraulic column presses down the hydraulic boom and pushes down the whole upper mold fixing block, a plurality of upper dense through hole molds embedded in the upper mold fixing block correspond to the lower mold grooves on the lower dense through hole mold, after mold closing, a ceramic slurry pipe in the lower dense through hole mold injects ceramic slurry with pressure into the lower mold grooves, because the upper dense through hole mold and the lower dense through hole mold are made of a porous material, water and gas in the ceramic slurry can be discharged outwards through fine through holes on the mold, leaving the ceramic slurry with hardness and tamping, the ceramic green body is formed, however, the device has a complex structure and high economic cost.

Therefore, the development of a ceramic manufacturing machine for rare earth processing, which can intermittently discharge materials, automatically and uniformly receive materials and is convenient to operate, is urgently needed.

Disclosure of Invention

The invention aims to provide a ceramic manufacturing machine for rare earth processing, which can intermittently discharge materials, automatically and uniformly receive materials and is convenient to operate, so as to solve the defects of simple structure, non-uniform material receiving of a die and inconvenient operation of the existing ceramic manufacturing machine in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a tombarthite processing is with pottery preparation machine, is equipped with rotatory solid fixed ring including bottom plate, rotatory solid fixed ring and place the frame on the bottom plate, and the middle part is equipped with places the frame on the bottom plate, is equipped with rotatory rabbling mechanism on the bottom plate, and rotatory rabbling mechanism is connected with rotatory solid fixed ring, and rotatory rabbling mechanism with place the frame cooperation, the last intermittent type discharge mechanism that is equipped with of rotatory rabbling mechanism.

Further, the upper part of the rotary fixing ring is provided with a rotary fixing discharging pipe, the inner side of the rotary fixing discharging pipe is rotatably provided with a rotary discharging frame, the bottom plate is provided with a stirring rod, and the stirring rod is matched with the rotary discharging frame.

Further explaining, four first sliding sleeves are arranged at the bottom of the rotary material discharging frame, sliding material plugging rods are connected between the inner sides of the four first sliding sleeves and the rotary material discharging frame in a sliding mode, first springs are wound on the sliding material plugging rods and connected between the first sliding sleeves and the sliding material plugging rods, four first driving rods are arranged on the inner sides of the rotary material discharging frame in a sliding mode and connected with the sliding material plugging rods.

Further explaining, be equipped with the swivelling joint frame on the rotatory blowing frame, swivelling joint frame top is equipped with first swivelling joint ring, and first swivelling joint ring is connected with the puddler rotary type, and the motor is installed at the puddler top, is equipped with first straight-tooth gear on the output shaft of motor, and first swivelling joint ring upper portion is equipped with the second straight-tooth gear, and the second straight-tooth gear meshes with first straight-tooth gear, and puddler upper portion is equipped with ejection of compact drive rod, ejection of compact drive rod and the cooperation of first drive rod.

Further, a second rotary connecting ring is rotatably arranged on the inner side of the upper portion of the rotary fixing ring, two second sliding sleeves are arranged on the second rotary connecting ring, sliding clamping rods are arranged on the inner sides of the two second sliding sleeves in a sliding mode, the two sliding clamping rods are symmetrical, a second spring is wound on each sliding clamping rod, and the second spring is connected between each sliding clamping rod and the corresponding second sliding sleeve.

Further, two fixed baffles are arranged on the rotary fixed discharging pipe, a first rotary connecting rod is connected between the two fixed baffles, a third sliding sleeve is arranged at the top of the second sliding sleeve, the third sliding sleeve is connected with the first rotary connecting rod in a sliding mode, four third springs are wound on the first rotary connecting rod, the third springs are connected between the fixed baffles and the third sliding sleeve, two blocking plates are arranged on the lower portion of the inner side of each fixed baffle, and the blocking plates are matched with the second sliding sleeve.

Further, a third rotating connecting ring is connected between the two second sliding sleeves, two rotating driving rods are arranged on the third rotating connecting ring, two second rotating connecting rods are arranged on the rotating connecting frame, a fourth sliding sleeve is arranged at the bottom of each second rotating connecting rod, sliding driving rods are arranged on the inner sides of the two fourth sliding sleeves in a sliding mode and are matched with the rotating driving rods, and a fourth spring is connected between each sliding driving rod and the corresponding second rotating connecting rod.

Further, the material of the second rotating connecting rod is alloy.

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

1. according to the invention, the rotary stirring mechanism is arranged, so that people can operate the rotary stirring mechanism to stir the raw materials, and the effect of stirring the raw materials is achieved, so that the raw materials are uniformly mixed;

2. the intermittent discharging mechanism is arranged, so that people can operate the intermittent discharging mechanism, and the uniformly stirred raw materials can intermittently flow out of the rotary stirring mechanism, so that the aim of intermittent discharging is fulfilled;

3. according to the automatic stirring and intermittent discharging device, the automatic stirring and intermittent cutting mechanism is arranged, and the automatic stirring and intermittent cutting mechanism operates to drive the rotary stirring mechanism and the intermittent discharging mechanism to operate, so that the rotary stirring mechanism stirs raw materials, the automatic stirring effect is achieved, and meanwhile, the intermittent discharging mechanism enables the uniformly stirred raw materials to intermittently flow out, and the purpose of automatic intermittent discharging is achieved;

4. the clamping fixing mechanism operates and clamps the die, so that the effect of clamping the die is achieved, and the die can be stably connected;

5. according to the automatic material receiving device, the clamping rotary shaking mechanism and the automatic intermittent rotating mechanism are arranged, the rotary stirring mechanism operates to drive the automatic intermittent rotating mechanism to operate, and then the clamping rotary shaking mechanism operates, so that the molds in the clamping fixing mechanism repeatedly rotate, and then the molds are uniformly received, and the purpose of automatically and uniformly receiving materials is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the rotary stirring mechanism of the present invention.

Fig. 3 is a schematic perspective view of the intermittent discharging mechanism of the present invention.

Fig. 4 is a schematic three-dimensional structure diagram of the automatic stirring intermittent cutting mechanism of the invention.

Fig. 5 is a schematic perspective view of the clamping and fixing mechanism of the present invention.

Fig. 6 is a perspective view of the clamping rotary rocking mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first part of the automatic intermittent rotation mechanism of the present invention.

Fig. 8 is a schematic perspective view of a second part of the automatic intermittent rotation mechanism of the present invention.

In the above drawings: 1: bottom plate, 2: rotating the fixing ring, 3: placing frame, 4: rotating and stirring mechanism, 41: rotationally fixed tapping pipe, 42: rotary discharge frame, 43: puddler, 5: intermittent discharge mechanism, 51: first runner, 52: sliding blocking rod, 53: first spring, 54: first driving lever, 6: automatic stirring intermittent type cutting mechanism, 61: rotary connection frame, 62: first rotary connecting ring, 63: motor, 64: first straight gear, 65: second spur gear, 66: go out material and take movable rod, 7: clamp fixing mechanism, 71: second rotary connecting ring, 72: second runner, 73: sliding clamp lever, 74: second spring, 8: clamp rotation rocking mechanism, 81: fixed baffle, 82: first rotating link, 83: third runner, 84: third spring, 85: barrier plate, 9: automatic intermittent rotation mechanism, 91: third rotary connecting ring, 92: rotation driving lever, 93: second rotating link, 94: fourth runner, 95: slide drive lever, 96: and a fourth spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a ceramic manufacturing machine for rare earth processing comprises a bottom plate 1, a rotary fixing ring 2, a placing frame 3, a rotary stirring mechanism 4, a rotary fixing discharge pipe 41, a rotary discharging frame 42, a stirring rod 43, an intermittent discharging mechanism 5, a first sliding sleeve 51, a sliding material blocking rod 52, a first spring 53, a first driving rod 54, an automatic stirring intermittent discharging mechanism 6, a rotary connecting frame 61, a first rotary connecting ring 62, a motor 63, a first straight gear 64, a second straight gear 65, a discharging driving rod 66, a clamping and fixing mechanism 7, a second rotary connecting ring 71, a second sliding sleeve 72, a sliding clamping rod 73, a second spring 74, a clamping and rotary shaking mechanism 8, a fixing baffle 81, a first rotary connecting rod 82, a third sliding sleeve 83, a third spring 84, a baffle plate 85, an automatic intermittent rotating mechanism 9, a third rotary connecting ring 91, a rotary driving rod 92 and a second rotary connecting rod 93, Fourth sliding sleeve 94, slip drive pole 95 and fourth spring 96 are equipped with rotatory solid fixed ring 2 on the bottom plate 1, and the middle part is equipped with on the bottom plate 1 and places frame 3, is equipped with rotatory rabbling mechanism 4 on the bottom plate 1, and rotatory rabbling mechanism 4 is connected with rotatory solid fixed ring 2, and rotatory rabbling mechanism 4 with place the cooperation of frame 3 are equipped with intermittent type discharge mechanism 5 on the rotatory rabbling mechanism 4.

The upper part of the rotary fixing ring 2 is provided with a rotary fixing discharging pipe 41, the inner side of the rotary fixing discharging pipe 41 is rotatably provided with a rotary discharging frame 42, the rear side of the bottom plate 1 is provided with a stirring rod 43, and the stirring rod 43 is matched with the rotary discharging frame 42.

The bottom of the rotary discharging frame 42 is provided with four first sliding sleeves 51, sliding material blocking rods 52 are connected between the inner sides of the four first sliding sleeves 51 and the rotary discharging frame 42 in a sliding manner, first springs 53 are wound on the sliding material blocking rods 52, the first springs 53 are connected between the first sliding sleeves 51 and the sliding material blocking rods 52, four first driving rods 54 are arranged on the inner sides of the rotary discharging frame 42 in a sliding manner, and the first driving rods 54 are connected with the sliding material blocking rods 52.

Be equipped with swivelling joint frame 61 on the rotatory blowing frame 42, swivelling joint frame 61 top is equipped with first swivelling joint ring 62, first swivelling joint ring 62 is connected with puddler 43 rotary type, motor 63 is installed at puddler 43 top, be equipped with first spur gear 64 on the output shaft of motor 63, first swivelling joint ring 62 upper portion is equipped with second spur gear 65, second spur gear 65 and the meshing of first spur gear 64, puddler 43 upper portion is equipped with ejection of compact drive rod 66, ejection of compact drive rod 66 and the cooperation of first drive rod 54.

The inner side of the upper part of the rotary fixing ring 2 is rotatably provided with a second rotary connecting ring 71, the left side and the right side of the top of the second rotary connecting ring 71 are provided with second sliding sleeves 72, the inner sides of the two second sliding sleeves 72 are provided with sliding clamping rods 73 in a sliding manner, the two sliding clamping rods 73 are symmetrical, a second spring 74 is wound on the sliding clamping rods 73, and the second spring 74 is connected between the sliding clamping rods 73 and the second sliding sleeves 72.

Both sides all are equipped with fixed baffle 81 around the rotatory fixed discharging pipe 41, be connected with first swivelling joint pole 82 between two fixed baffle 81, second sliding sleeve 72 top is equipped with third sliding sleeve 83, third sliding sleeve 83 and first swivelling joint pole 82 sliding type are connected, around having four third springs 84 on the first swivelling joint pole 82, third spring 84 is connected between fixed baffle 81 and third sliding sleeve 83, the inboard lower part of fixed baffle 81 is equipped with two barrier plates 85, barrier plate 85 and the cooperation of second sliding sleeve 72.

A third rotating connecting ring 91 is connected between the two second sliding sleeves 72, the left and right sides of the third rotating connecting ring 91 are both provided with rotating driving rods 92, the left and right sides of the rotating connecting frame 61 are both provided with second rotating connecting rods 93, the bottom of each second rotating connecting rod 93 is provided with a fourth sliding sleeve 94, the inner sides of the two fourth sliding sleeves 94 are both slidably provided with sliding driving rods 95, the sliding driving rods 95 are matched with the rotating driving rods 92, and fourth springs 96 are connected between the sliding driving rods 95 and the second rotating connecting rods 93.

When people need make pottery, at first people put the mould in placing frame 3, and pour the tombarthite raw materials in rotatory rabbling mechanism 4, make rotatory rabbling mechanism 4 operation afterwards, rotatory rabbling mechanism 4 stirs the raw materials, then people make 5 intermittent type nature operations of intermittent type discharge mechanism, make the raw materials intermittent type nature of stirring flow out from rotatory rabbling mechanism 4, again because gravity drops to in the mould, enough raw materials are packed into in the mould, and when rotatory rabbling mechanism 4 stopped to flow out the raw materials, people change the mould of placing in frame 3, the mould that will be equipped with the raw materials simultaneously puts into next process, thereby make pottery, after the completion of pottery preparation work, people make

rotatory rabbling mechanism

4 and 5 stop operating of intermittent type discharge mechanism, if reuse this equipment, can repeatedly above-mentioned step.

People pour the tombarthite raw materials in rotatory blowing frame 42, then manual rotatory blowing frame 42 that makes rotates, and then make the raw materials in the rotatory blowing frame 42 remove, make puddler 43 stir the raw materials, thereby the purpose of stirring raw materials has been reached, so can make raw materials misce bene, when the operation of intermittent type discharge mechanism 5, the raw materials that stir can flow out from rotatory blowing frame 42 bottom because gravity, the rotatory fixed discharging pipe 41 of rethread drops to the mould in, treat that ceramic manufacture work accomplishes the back, people make rotatory blowing frame 42 stall.

People manually enable the first driving rod 54 to slide downwards in the rotary discharging frame 42, so that the sliding material blocking rod 52 slides downwards in the rotary discharging frame 42 and the first sliding sleeve 51, the first spring 53 is changed from an initial state to a compressed state, when the sliding material blocking rod 52 is separated from the rotary discharging frame 42, the stirred raw materials in the rotary discharging frame 42 gradually flow out, then people loosen the first driving rod 54, the first spring 53 is reset from the compressed state, the sliding material blocking rod 52 and the first driving rod 54 move back to the original position, and at the moment, the sliding material blocking rod 52 prevents the raw materials in the rotary discharging frame 42 from flowing out outwards, so that the purpose of intermittent discharging is achieved.

After the raw material is poured, the motor 63 is started, the output shaft of the motor 63 rotates to drive the first straight gear 64 to rotate, the first straight gear 64 is meshed with the second straight gear 65, the first straight gear 64 rotates to drive the second straight gear 65 to rotate, the first rotary connecting ring 62 rotates, the rotary connecting frame 61 is rotated, the rotary discharging frame 42 is rotated, and the rotary discharging frame 42 is rotated, so that the purpose of automatic stirring is achieved, in addition, when the rotary discharging frame 42 rotates, the rotary discharging frame 42 rotates to enable the first driving rod 54 to do circular motion, when the first driving rod 54 moves to be in contact with the convex part of the discharging driving rod 66, the discharging driving rod 66 enables the first driving rod 54 to move downwards, so that the sliding material blocking rod 52 moves downwards, when the first driving rod 54 is separated from the discharging driving rod 66, the first spring 53 enables the first driving rod 54 and the sliding material blocking rod 52 to move back to the original position, so make raw materials intermittent type nature flow to reach the purpose of automatic intermittent type ejection of compact, treat that ceramic manufacture work accomplishes the back, people close motor 63, make rotatory blowing frame 42 stall, slide stifled material pole 52 simultaneously and stop moving.

The sliding clamping rods 73 are manually slid outwards in the second sliding sleeve 72, the second springs 74 are changed from an initial state to a compressed state, then the mold is placed between the two sliding clamping rods 73, then the sliding clamping rods 73 are released, the second springs 74 are still in the compressed state, the sliding clamping rods 73 rotate the mold through elastic force, then the second rotating connecting ring 71 is manually rotated repeatedly forwards and backwards, so that the second sliding sleeve 72 and the sliding clamping rods 73 move, the mold rotates, the mold is uniformly connected, after a sufficient amount of raw materials are filled in the mold, the second rotating connecting ring 71 stops rotating, the mold stops rotating, then the mold is taken out, the second springs 74 are reset from the compressed state, and the sliding clamping rods 73 are moved back to the original position through elastic force.

The second rotary connecting ring 71 is rotated manually by people, so that the second sliding sleeve 72 and the mold move, the third sliding sleeve 83 slides on the first rotary connecting rod 82 by the second sliding sleeve 72, the third spring 84 deforms, when the second sliding sleeve 72 moves to be in contact with the blocking plate 85, the second rotary connecting ring 71 is loosened by people, the third spring 84 resets, the second sliding sleeve 72 and the third sliding sleeve 83 are rotated back to the original position, so that the mold is rotated back to the original position, so that the raw materials in the mold are uniformly distributed, and after sufficient raw materials are filled in the mold, the second rotary connecting ring 71 and the mold stop rotating by people.

When the rotary discharging frame 42 rotates, the rotary discharging frame 42 makes the second rotary connecting rod 93 do circular motion, and further makes the fourth sliding sleeve 94 move, so that the sliding driving rod 95 do circular motion, when the sliding driving rod 95 moves to contact with the rotary driving rod 92, the sliding driving rod 95 drives the rotary driving rod 92 to move, and the two rotary driving rods 92 move in opposite directions, so that the third rotary connecting ring 91 rotates, and further makes the second sliding sleeve 72 move, so that the mold rotates, and simultaneously the third spring 84 deforms, and then the blocking plate 85 prevents the second sliding sleeve 72 and the rotary driving rod 92 from continuing to move, the rotary driving rod 92 makes the sliding driving rod 95 slide upwards in the fourth sliding sleeve 94, the fourth spring 96 changes from the initial state to the compressed state, and when the rotary driving rod 92 is separated from the sliding driving rod 95, the fourth spring 96 is reset from the compressed state, so that the sliding driving rod 95 moves back downwards, meanwhile, the third spring 84 is reset, so that the mold is rotated back to the original position, and the rotary driving rod 92 is moved back to the original position, so that the mold is repeatedly rotated, and the purpose of automatically and uniformly receiving materials is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a tombarthite processing is with pottery preparation machine, including bottom plate (1), rotatory solid fixed ring (2) and place frame (3), characterized by, be equipped with rotatory solid fixed ring (2) on bottom plate (1), the middle part is equipped with places frame (3) on bottom plate (1), be equipped with rotatory rabbling mechanism (4) on bottom plate (1), rotatory rabbling mechanism (4) are connected with rotatory solid fixed ring (2), rotatory rabbling mechanism (4) with place frame (3) cooperation, be equipped with intermittent type discharge mechanism (5) on the rotatory rabbling mechanism (4).

2. The ceramic fabricating machine for processing rare earth according to claim 1, wherein the rotary stationary ring (2) is provided with a rotary stationary discharge pipe (41) at an upper portion thereof, the rotary discharge frame (42) is rotatably provided inside the rotary stationary discharge pipe (41), the bottom plate (1) is provided with a stirring rod (43), and the stirring rod (43) is engaged with the rotary discharge frame (42).

3. The ceramic manufacturing machine for rare earth processing as set forth in claim 2, wherein four first sliding sleeves (51) are provided at the bottom of the rotary blanking frame (42), sliding blanking rods (52) are slidably connected between the inner sides of the four first sliding sleeves (51) and the rotary blanking frame (42), first springs (53) are wound on the sliding blanking rods (52), the first springs (53) are connected between the first sliding sleeves (51) and the sliding blanking rods (52), four first driving rods (54) are slidably provided at the inner sides of the rotary blanking frame (42), and the first driving rods (54) are connected with the sliding blanking rods (52).

4. The ceramic manufacturing machine for rare earth processing as set forth in claim 3, wherein a rotary connection frame (61) is provided on the rotary discharging frame (42), a first rotary connection ring (62) is provided on the top of the rotary connection frame (61), the first rotary connection ring (62) is rotatably connected with the stirring rod (43), a motor (63) is installed on the top of the stirring rod (43), a first spur gear (64) is provided on an output shaft of the motor (63), a second spur gear (65) is provided on the upper portion of the first rotary connection ring (62), the second spur gear (65) is engaged with the first spur gear (64), a discharging driving rod (66) is provided on the upper portion of the stirring rod (43), and the discharging driving rod (66) is engaged with the first driving rod (54).

5. The ceramic manufacturing machine for processing rare earth according to claim 4, wherein a second rotary connecting ring (71) is rotatably disposed inside the upper portion of the rotary fixing ring (2), two second sliding sleeves (72) are disposed on the second rotary connecting ring (71), sliding clamping rods (73) are slidably disposed inside the two second sliding sleeves (72), the two sliding clamping rods (73) are symmetrical, a second spring (74) is wound on the sliding clamping rod (73), and the second spring (74) is connected between the sliding clamping rod (73) and the second sliding sleeve (72).

6. The ceramic manufacturing machine for processing rare earth according to claim 5, wherein two fixed baffles (81) are arranged on the rotary fixed discharging pipe (41), a first rotary connecting rod (82) is connected between the two fixed baffles (81), a third sliding sleeve (83) is arranged on the top of the second sliding sleeve (72), the third sliding sleeve (83) is slidably connected with the first rotary connecting rod (82), four third springs (84) are wound on the first rotary connecting rod (82), the third springs (84) are connected between the fixed baffles (81) and the third sliding sleeve (83), two blocking plates (85) are arranged on the lower portion of the inner side of the fixed baffles (81), and the blocking plates (85) are matched with the second sliding sleeve (72).

7. The manufacturing machine of the ceramic for processing rare earth according to claim 6, wherein a third rotary connecting ring (91) is connected between the two second sliding sleeves (72), two rotary driving rods (92) are arranged on the third rotary connecting ring (91), two second rotary connecting rods (93) are arranged on the rotary connecting frame (61), a fourth sliding sleeve (94) is arranged at the bottom of the second rotary connecting rod (93), sliding driving rods (95) are arranged at the inner sides of the two fourth sliding sleeves (94) in a sliding manner, the sliding driving rods (95) are matched with the rotary driving rods (92), and a fourth spring (96) is connected between the sliding driving rods (95) and the second rotary connecting rods (93).

8. A ceramic working machine for rare earths, according to claim 7, wherein the material of the second rotating connecting rod (93) is an alloy.