CN219153799U - Briquetting machine for zirconia production - Google Patents
Briquetting machine for zirconia production Download PDFInfo
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- CN219153799U CN219153799U CN202223183563.8U CN202223183563U CN219153799U CN 219153799 U CN219153799 U CN 219153799U CN 202223183563 U CN202223183563 U CN 202223183563U CN 219153799 U CN219153799 U CN 219153799U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P40/00—Technologies relating to the processing of minerals
- Y02P40/50—Glass production, e.g. reusing waste heat during processing or shaping
- Y02P40/57—Improving the yield, e-g- reduction of reject rates
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Abstract
The utility model discloses a briquetting machine for zirconia production, which relates to the technical field of zirconia briquetting, and comprises a protective cover, wherein a die mechanism is arranged at the lower part of the inner side of the protective cover and is used for forming zirconia, a lower pressing plate is arranged at the upper part of the inner side surface of the protective cover, the lower side surface of the lower pressing plate is fixedly connected with a briquetting at equal intervals, the rear parts of the left side surface and the right side surface of the lower pressing plate are respectively fixedly connected with moving blocks, one ends of the two moving blocks far away from each other are respectively connected with sliding grooves formed in the left side surface and the right side surface of the protective cover in a sliding way and extend to the outside of the protective cover through the sliding grooves, the two moving blocks are connected with a power mechanism, the power mechanism is used for driving the lower pressing plate to move up and down, the middle part of the rear end of the lower pressing plate is fixedly connected with a squeezing plate, and the lower end of the squeezing plate is contacted with the upper side surface of a triangular block.
Description
Technical Field
The utility model relates to the technical field of zirconia briquetting, in particular to a briquetting machine for zirconia production.
Background
Zirconia materials have excellent physical and chemical properties such as high hardness, high strength, high toughness, extremely high wear resistance, chemical resistance and the like, and zirconia has been widely used in various fields such as ceramics, refractory materials, machinery, electronics, optics, aerospace, biology, chemistry and the like.
In order to facilitate the transportation of zirconia, the prior art often chooses to briquetting zirconia, when the existing briquetting device is filled, the residual materials are often scattered on a die, so that the residual materials need to be cleaned, the existing solution often adopts an extra electric driving piece to drive a scraper to scrape the redundant zirconia on the die, the method can achieve the purpose of automatic cleaning, but consumes extra electric energy and increases energy consumption, and therefore, the briquetting machine for zirconia production is provided.
Disclosure of Invention
The utility model aims to overcome the existing defects, and provides the briquetting machine for zirconia production, which has the advantages that the lower pressing plate drives the scraping plate to scrape the residual materials on the surface of the die in advance when being pressed down through the linked mechanical structure, so that the energy consumption is saved, the operation is convenient, and the problems in the background technology can be effectively solved.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a briquetting machine is used in zirconia production, includes the safety cover, the inboard lower part installation mould mechanism of safety cover, mould mechanism is used for carrying out shaping work to zirconia, the inboard surface upper portion of safety cover sets up the holding down plate, the downside surface equidistance fixed connection briquetting of holding down plate, the left and right sides surface rear portion fixed connection movable block of holding down plate respectively, the spout sliding connection that the side surface was offered about the safety cover is separated to one end that two movable blocks are far away respectively to pass the spout and extend to the outside of safety cover, two movable blocks connect power unit, power unit is used for driving the holding down plate and reciprocates, the rear end middle part fixed connection stripper of holding down plate, the lower extreme of stripper and the upside surface contact of triangular piece, the downside surface of triangular piece and the sliding groove sliding connection that the rear side surface of diaphragm was offered, the front side surface left and right sides surface of triangular piece respectively vertical fixed connection movable block, the rear end of push rod passes the round hole that the diaphragm plate was offered to corresponding position on the diaphragm and extends to the outside of safety cover to the outside, the rear end of stripper is used for carrying out the surperficial part of stripper respectively on the side surface contact with the side surface of side of diaphragm, the stripper is connected with the left and right side surface of stripper respectively.
The design stripper plate and triangular block to the pressure that brings when pushing down the holding down plate forces the triangular block to move forward, thereby make the push pedal carry out the clearance work to the mould voluntarily, thereby practice thrift the energy consumption, design spring, thereby when the stripper plate moves up through the elasticity of spring self, automatic can the normal position with the triangular block, thereby be convenient for go on of clearance work next time, thereby it is more convenient, when controlling means during operation, put into mould mechanism earlier with the material, rethread power mechanism drives the holding down plate and pushes down, thereby drive the stripper plate and push down, thereby force the triangular block to move forward, thereby drive the push pedal through the push rod and move forward, thereby strike off the clout on the template mechanism, afterwards, the holding down plate continues to push down, thereby drive briquetting and mould mechanism cooperation carry out briquetting work.
Further, the power unit contains the motor, the inboard of safety cover is located the downside position of diaphragm and passes through fixing base fixed connection motor, the input of motor passes through outside control switch control and is connected with the input electricity of external power source, and the left and right sides of axis of rotation is respectively through bearing and the left and right sides inner wall rotation of safety cover is connected, the middle part fixed connection gear of axis of rotation is first, the output shaft of motor is connected through the drive chain to gear first, and the left and right sides of axis of rotation is extended to the outside left and right sides portion of safety cover through the round hole of seting up respectively to fixed connection carousel respectively, the eccentric position of two carousels is respectively through the lower extreme swing joint of bearing and movable rod, and the upper end of two movable rods is respectively through bearing and corresponding movable block swing joint.
When the control power mechanism works, the motor is controlled to work through the external control switch, so that the first driving belt drives the first gear to rotate, and the rotating shaft is driven to rotate, so that the turntable is driven to rotate, the moving rod is driven to move, and the lower pressing plate is driven to reciprocate up and down.
Further, the mould mechanism comprises a mould plate, round grooves are respectively formed in the upper side surface of the mould plate at equal intervals, each round groove is respectively connected with the pressing block in a matched mode, the left side surface and the right side surface of the upper pushing plate are respectively fixedly connected with the first connecting rods, the first connecting rods are respectively connected with the guide grooves formed in the corresponding positions on the protective cover in a sliding mode, the upper side surface of the upper pushing plate is respectively fixedly connected with the pushing rods at equal intervals, each pushing rod is respectively connected with the corresponding round groove in a sliding mode, and the pushing rods and the corresponding round grooves are matched to form the mould grooves.
The push rod is designed, so that the push rod and the round groove are matched to form the die groove, the material molded in the die groove is pushed out conveniently, the zirconia is put into the die groove firstly when the die is operated, and then the pressing block is driven to enter the die groove for pressing.
Further, the die mechanism further comprises a connecting rod II, the front parts of the left side surface and the right side surface of the lower pressing plate are respectively and fixedly connected with a connecting rod II, the connecting rod II is respectively and fixedly connected with the lower ends of the transmission rods at the far ends of the two connecting rods, the upper parts of the side surfaces of the two transmission rods are respectively and fixedly connected with the first vertical grooves formed in the corresponding positions of the left side surface and the right side surface of the protective cover, the far ends of the two connecting rods II respectively penetrate through the first vertical grooves and are correspondingly and fixedly connected with the second vertical grooves.
After the briquetting work is completed, the lower pressing plate moves upwards to reset, so that the transmission rod is driven to move upwards through the second connecting rod, the upper pushing plate is driven to move upwards, the pushing rod is driven to move upwards, and the zirconia blocks in the die groove are pushed out.
Further, the briquetting machine further comprises supporting legs, and four corners of the lower side surface of the protective cover are respectively and fixedly connected with the supporting legs.
The legs are designed to increase the stability of the device.
Compared with the prior art, the utility model has the beneficial effects that: the briquetting machine for zirconia production has the following advantages:
1. the extruding plate and the triangular block are designed, so that the triangular block is forced to move forwards by pressure brought by the pressing down of the lower pressing plate, and the pushing plate automatically carries out cleaning work on the die forwards, so that energy consumption is saved;
2. the spring is designed, so that when the spring moves upwards on the extrusion plate through the elasticity of the spring, the triangular block is automatically dragged to be in situ, the next cleaning work is convenient, and the cleaning work is more convenient;
3. the push rod is designed, so that the mould groove is formed by matching the push rod with the round groove, and the material molded in the mould groove is pushed out conveniently, so that the mould is more convenient.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of the right side cross-sectional structure of the present utility model;
FIG. 3 is a schematic view of the left side cross-sectional structure of the present utility model.
In the figure: the device comprises a protective cover 1, a transverse plate 2, a rotating shaft 3, a gear one, a motor 5, a transmission chain 6, a rotating disc 7, a moving block 8, a lower pressing plate 9, a pressing block 10, a moving rod 11, a squeezing plate 12, a sliding groove 13, a pushing rod 14, a triangular block 15, a pushing plate 16, a spring 17, a connecting rod one, a pushing plate 19, a pushing rod 20, a connecting rod two and a transmission rod 22.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-3, the present embodiment provides a technical solution: the briquetting machine for zirconia production comprises a protective cover 1, a die mechanism is arranged at the lower part of the inner side of the protective cover 1 and used for forming zirconia, a lower pressing plate 9 is arranged at the upper part of the inner side surface of the protective cover 1, pressing blocks 10 are fixedly connected with the lower side surface of the lower pressing plate 9 at equal intervals, moving blocks 8 are respectively fixedly connected with the rear parts of the left side surface and the right side surface of the lower pressing plate 9, one ends of the two moving blocks 8 which are far away from each other are respectively connected with sliding grooves formed in the left side surface and the right side surface of the protective cover 1 in a sliding way, the two moving blocks 8 penetrate through the sliding grooves and extend to the outside of the protective cover 1, the power mechanism is used for driving the lower pressing plate 9 to move up and down, the middle part of the rear end of the lower pressing plate 9 is fixedly connected with a squeezing plate 12, the lower extreme of stripper plate 12 contacts with the upside surface of triangular block 15, the sliding tray 13 sliding connection that the downside surface of triangular block 15 and the rear side surface of diaphragm 2 correspond the position and offer, diaphragm 2 and the rear side surface fixed connection of mould mechanism, the front end of push rod 14 is respectively vertically fixed connection about the front side surface of triangular block 15, the rear end of push rod 14 passes the round hole that corresponds the position and offers on diaphragm 2 and extends to the front portion of diaphragm 2, and the rear side surface left and right sides portion of fixed connection push pedal 16 respectively, the downside surface of push pedal 16 contacts with the upside surface of mould mechanism, push pedal 16 is used for carrying out the scraping work to unnecessary material on the mould mechanism, the rear side surface left and right sides of push pedal 16 is respectively through spring 17 fixed connection diaphragm 2.
The extruding plate 12 and the triangular block 15 are designed, so that the triangular block 15 is forced to move forwards by pressure brought by the pressing down of the pressing plate 9, the pushing plate 16 is enabled to automatically move forwards to clean a die, energy consumption is saved, the spring 17 is designed, so that when the extruding plate 12 moves upwards through the elasticity of the spring 17, the triangular block 15 is automatically dragged to be in situ, the next cleaning operation is facilitated, the convenience is improved, when the control device works, materials are firstly placed into a die mechanism, then the pressing down plate 9 is driven to press downwards by a power mechanism, the extruding plate 12 is driven to press downwards, the triangular block 15 is forced to move forwards, the pushing plate 16 is driven to move forwards by the pushing rod 14, the residual materials on the die mechanism are scraped, and then the pressing down plate 9 is continuously pressed downwards, so that the pressing block 10 is driven to cooperate with the die mechanism to perform the pressing block operation.
The power unit contains motor 5, the inboard of safety cover 1 is located the downside position of diaphragm 2 and passes through fixing base fixed connection motor 5, the input of motor 5 passes through the outside control switch control and is connected with the input electricity of external power source, the left and right sides of axis of rotation 3 is respectively through bearing and the left and right sides inner wall rotation of safety cover 1 is connected, the middle part fixed connection gear one 4 of axis of rotation 3, the output shaft of motor 5 is connected through drive chain 6 to gear one 4, the left and right sides end of axis of rotation 3 extends to the outside left and right sides portion of safety cover 1 through the round hole of seting up respectively, and fixed connection carousel 7 respectively, the eccentric position of two carousel 7 is respectively through the lower extreme swing joint of bearing and movable rod 11, the upper end of two movable rods 11 is respectively through bearing and corresponding movable block 8 swing joint.
When the control power mechanism works, the motor 5 is controlled to work through the external control switch, so that the first gear 4 is driven to rotate through the transmission chain 6, the rotating shaft 3 is driven to rotate, the rotary table 7 is driven to rotate, the moving rod 11 is driven to move, and the lower pressing plate 9 is driven to reciprocate up and down.
The die mechanism comprises a die plate, round grooves are respectively formed in the upper side surface of the die plate at equal intervals, each round groove is respectively connected with the pressing block 10 in a matched mode, the left side surface and the right side surface of the upper pushing plate 19 are respectively fixedly connected with the first connecting rods 18, the first connecting rods 18 are respectively connected with guide grooves formed in corresponding positions on the protective cover 1 in a sliding mode, the upper side surface of the upper pushing plate 19 is respectively fixedly connected with the pushing rods 20 at equal intervals, each pushing rod 20 is respectively connected with the corresponding round groove in a sliding mode, and the pushing rods 20 and the corresponding round grooves are matched to form the die grooves.
The push rod 20 is designed, so that a die groove is formed by matching the push rod 20 with the round groove, the material formed in the die groove is conveniently pushed out, the push rod is more convenient, when the push rod works, zirconium oxide is firstly placed in the die groove, and then the pressing block 10 is driven to enter the die groove for pressing.
The die mechanism further comprises a second connecting rod 21, the front parts of the left side surface and the right side surface of the lower pressing plate 9 of the second connecting rod are respectively and fixedly connected with a second connecting rod 21, the second connecting rods 21 are respectively and slidably connected with first vertical grooves formed in positions corresponding to the left side surface and the right side surface of the protective cover 1, one ends, far away from each other, of the first connecting rods 18 are respectively and fixedly connected with the lower ends of the transmission rods 22, the upper parts of the side surfaces of the two transmission rods 22 are respectively and fixedly provided with second vertical grooves, and one ends, far away from each other, of the second connecting rods 21 respectively penetrate through the first vertical grooves and are correspondingly and slidably connected with the second vertical grooves.
After the briquetting is completed, the lower pressing plate 9 moves upwards to reset, so that the transmission rod 22 is driven to move upwards through the second connecting rod 21, the upper pushing plate 19 is driven to move upwards, the pushing rod 20 is driven to move upwards, and the zirconia blocks in the die groove are pushed out.
The briquetting machine also comprises supporting legs, and four corners of the lower side surface of the protective cover 1 are respectively fixedly connected with the supporting legs.
The legs are designed to increase the stability of the device.
The working principle of the briquetting machine for zirconia production provided by the utility model is as follows:
firstly putting zirconia into a die groove, then controlling a motor 5 to work through an external control switch, driving a gear I4 to rotate through a transmission chain 6, driving a rotating shaft 3 to rotate, driving a rotating disc 7 to rotate, driving a moving rod 11 to move, driving a lower pressing plate 9 to press down, driving a pressing plate 12 to press down, forcing a triangular block 15 to move forwards, driving a pushing plate 16 to move forwards through a push rod 14, scraping off the residual materials on a die plate mechanism, then continuing to press down the lower pressing plate 9, driving a pressing block 10 to enter the die groove to perform pressing work, after completion, driving the lower pressing plate 9 to move upwards for resetting, driving a transmission rod 22 to move upwards through a connecting rod II 21, driving an upper pushing plate 19 to move upwards, driving a pushing rod 20 to move upwards, and pushing out the zirconia block in the die groove
It is noted that the operation of the motor 5 controlled by the external control switch disclosed in the above embodiment adopts a method commonly used in the art.
The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.
Claims (5)
1. A briquetting machine for zirconia production, which is characterized in that: comprises a protective cover (1), a die mechanism is arranged at the lower part of the inner side of the protective cover (1), the die mechanism is used for forming zirconia, a lower pressing plate (9) is arranged at the upper part of the inner side surface of the protective cover (1), pressing blocks (10) are fixedly connected with the lower side surface of the lower pressing plate (9) at equal distances, movable blocks (8) are respectively and fixedly connected with the rear parts of the left side surface and the right side surface of the lower pressing plate (9), one ends of the two movable blocks (8) which are far away from each other are respectively connected with sliding grooves formed on the left side surface and the right side surface of the protective cover (1) in a sliding way, the two movable blocks (8) penetrate through the sliding grooves and extend to the outside of the protective cover (1) and are connected with a power mechanism, the power mechanism is used for driving the lower pressing plate (9) to move up and down, the middle part of the rear end of the lower pressing plate (9) is fixedly connected with the extruding plate (12), the lower end of the extruding plate (12) is in contact with the upper side surface of the triangular block (15), the lower side surface of the triangular block (15) is in sliding connection with the sliding groove (13) arranged at the corresponding position of the rear side surface of the transverse plate (2), the transverse plate (2) is fixedly connected with the rear side surface of the die mechanism, the left and right parts of the front side surface of the triangular block (15) are respectively and longitudinally fixedly connected with the front end of the push rod (14), the rear end of the push rod (14) penetrates through the round hole arranged at the corresponding position of the transverse plate (2) to extend to the front part of the transverse plate (2), and the left and right parts of the rear side surface of the push plate (16) are respectively and fixedly connected, the lower side surface of the push plate (16) is contacted with the upper side surface of the die mechanism, the push plate (16) is used for scraping redundant materials on the die mechanism, and the left and right parts of the rear side surface of the push plate (16) are respectively and fixedly connected with the transverse plate (2) through springs (17).
2. The briquetting machine for zirconia production according to claim 1, wherein: the power mechanism comprises a motor (5), the inner side of a protective cover (1) is positioned at the lower side of a transverse plate (2) and is fixedly connected with the motor (5) through a fixed seat, the input end of the motor (5) is electrically connected with the input end of an external power supply through an external control switch, the left and right ends of a rotating shaft (3) are respectively and rotatably connected with the left and right inner walls of the protective cover (1) through bearings, the middle part of the rotating shaft (3) is fixedly connected with a first gear (4), the first gear (4) is connected with an output shaft of the motor (5) through a transmission chain (6), the left and right ends of the rotating shaft (3) are respectively extended to the left and right outer sides of the protective cover (1) through round holes which are formed, and are respectively and fixedly connected with rotating discs (7), the eccentric positions of the two rotating discs (7) are respectively and movably connected with the lower ends of a moving rod (11) through bearings, and the upper ends of the two moving rods (11) are respectively and movably connected with corresponding moving blocks (8) through bearings.
3. The briquetting machine for zirconia production according to claim 1, wherein: the die mechanism comprises a die plate, round grooves are respectively formed in the upper side surface of the die plate at equal intervals, each round groove is respectively connected with a pressing block (10) in a matched mode, a first connecting rod (18) is respectively fixedly connected to the left side surface and the right side surface of an upper pushing plate (19), the first connecting rods (18) are respectively connected with guide grooves formed in corresponding positions on a protective cover (1) in a sliding mode, pushing rods (20) are respectively fixedly connected to the upper side surface of the upper pushing plate (19) at equal intervals, each pushing rod (20) is respectively connected with the corresponding round groove in a sliding mode, and the pushing rods (20) are matched with the corresponding round grooves to form the die grooves.
4. A briquetting machine for zirconia production according to claim 3, characterised in that: the die mechanism further comprises a second connecting rod (21), the front parts of the left side surface and the right side surface of the lower pressing plate (9) are respectively and fixedly connected with the second connecting rod (21), the second connecting rods (21) are respectively and fixedly connected with the lower ends of the transmission rods (22) at the far ends of the first connecting rods (18) in a sliding mode, the second vertical grooves are respectively formed in the side surfaces of the two transmission rods (22), and the far ends of the second connecting rods (21) respectively pass through the first vertical grooves and are in sliding connection with the corresponding second vertical grooves.
5. The briquetting machine for zirconia production according to claim 1, wherein: the briquetting machine further comprises supporting legs, and four corners of the lower side surface of the protective cover (1) are respectively and fixedly connected with the supporting legs.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223183563.8U CN219153799U (en) | 2022-11-30 | 2022-11-30 | Briquetting machine for zirconia production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223183563.8U CN219153799U (en) | 2022-11-30 | 2022-11-30 | Briquetting machine for zirconia production |
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CN219153799U true CN219153799U (en) | 2023-06-09 |
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CN202223183563.8U Active CN219153799U (en) | 2022-11-30 | 2022-11-30 | Briquetting machine for zirconia production |
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- 2022-11-30 CN CN202223183563.8U patent/CN219153799U/en active Active
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