CN113457932B - Pressure regulating and fastening processing device for ultra-precise semiconductor ceramic part - Google Patents
Pressure regulating and fastening processing device for ultra-precise semiconductor ceramic part Download PDFInfo
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- CN113457932B CN113457932B CN202110545065.4A CN202110545065A CN113457932B CN 113457932 B CN113457932 B CN 113457932B CN 202110545065 A CN202110545065 A CN 202110545065A CN 113457932 B CN113457932 B CN 113457932B
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- 239000000919 ceramic Substances 0.000 title claims abstract description 132
- 230000001105 regulatory effect Effects 0.000 title claims abstract description 43
- 239000004065 semiconductor Substances 0.000 title claims abstract description 21
- 230000005540 biological transmission Effects 0.000 claims description 231
- 239000000463 material Substances 0.000 claims description 21
- 210000000078 claw Anatomy 0.000 claims description 11
- 239000000853 adhesive Substances 0.000 abstract description 32
- 230000001070 adhesive effect Effects 0.000 abstract description 32
- 238000001125 extrusion Methods 0.000 abstract description 10
- 229910052755 nonmetal Inorganic materials 0.000 abstract description 3
- 239000002131 composite material Substances 0.000 description 8
- 239000011248 coating agent Substances 0.000 description 5
- 238000000576 coating method Methods 0.000 description 5
- 238000004519 manufacturing process Methods 0.000 description 4
- 229910010293 ceramic material Inorganic materials 0.000 description 3
- 239000004020 conductor Substances 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 2
- 239000003973 paint Substances 0.000 description 2
- 210000003934 vacuole Anatomy 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 150000001875 compounds Chemical class 0.000 description 1
- 230000001276 controlling effect Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000002844 melting Methods 0.000 description 1
- 230000008018 melting Effects 0.000 description 1
- 239000007769 metal material Substances 0.000 description 1
- 230000003647 oxidation Effects 0.000 description 1
- 238000007254 oxidation reaction Methods 0.000 description 1
- 229910052573 porcelain Inorganic materials 0.000 description 1
- 238000005245 sintering Methods 0.000 description 1
- 239000004575 stone Substances 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C7/00—Apparatus specially designed for applying liquid or other fluent material to the inside of hollow work
- B05C7/06—Apparatus specially designed for applying liquid or other fluent material to the inside of hollow work by devices moving in contact with the work
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C13/00—Means for manipulating or holding work, e.g. for separate articles
- B05C13/02—Means for manipulating or holding work, e.g. for separate articles for particular articles
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
- F16B11/00—Connecting constructional elements or machine parts by sticking or pressing them together, e.g. cold pressure welding
- F16B11/006—Connecting constructional elements or machine parts by sticking or pressing them together, e.g. cold pressure welding by gluing
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Abstract
The invention relates to the field of inorganic nonmetal, in particular to a pressure regulating and fastening processing device for an ultra-precise semiconductor ceramic component. The technical problem of the invention is as follows: provided is a pressure regulating and fastening processing device for an ultra-precise semiconductor ceramic component. The technical scheme is as follows: a pressure regulating and fastening processing device for an ultra-precise semiconductor ceramic component comprises a bottom plate assembly, a support and the like; the bottom plate assembly is connected with the support. The invention realizes that the adhesive and the adhesive which is coated and then sinks to the bottom are uniformly coated on the inner surface of the ceramic part, then the upper layer ceramic part is extruded into the ceramic part to be manufactured into the required ceramic part, then the ceramic part is extruded to ensure that the ceramic part is firmly bonded, and the pressure during extrusion can be adjusted and controlled, thereby ensuring that the ceramic part is firmly bonded under the condition of not damaging the ceramic part, improving the product quality and avoiding the potential safety hazard.
Description
Technical Field
The invention relates to the field of inorganic nonmetal, in particular to a pressure regulating and fastening processing device for an ultra-precise semiconductor ceramic component.
Background
Ceramics is a general name of pottery and porcelain, is also an industrial art article in China, is far in the age of new stone, has rough and plain colored pottery and black pottery in China, is an inorganic non-metal material prepared from natural or synthetic compounds through forming and high-temperature sintering, has the advantages of high melting point, high hardness, high wear resistance, oxidation resistance and the like, can be used as a structural material, a cutter material and a mould material, can be used as a functional material due to the ceramic also has ceramic non-conductivity, and is widely applied to various markets.
At present, among the prior art, for full user demand, many parts in conductor equipment and the semiconductor product production process can be made by multiple advanced ceramic material, at this in-process, need paint used combined material adhesive at the ceramic part internal surface, will need the part of combination to dock afterwards again, because the inside easy vacuole formation of adhesive, and need great pressure when leading to the extrusion, just can dock, and then lead to very easily damaging ceramic part, and then make the unable bonding of ceramic part firm, thereby lead to influencing later stage product quality, leave the potential safety hazard.
In summary, there is a need to develop a pressure-regulating fastening processing device for ultra-precise semiconductor ceramic components to overcome the above problems.
Disclosure of Invention
In order to overcome the defects that in the prior art, in order to meet the use requirements, many parts in the production process of conductor equipment and semiconductor products can be made of various advanced ceramic materials, in the process, a composite material adhesive needs to be coated on the inner surface of a ceramic part, then the parts needing to be combined are butted, and because a cavity is easily formed in the adhesive, the parts can be butted under high pressure during extrusion, so that the ceramic parts are extremely easy to damage, the ceramic parts cannot be firmly bonded, the quality of the products at the later stage is influenced, and potential safety hazards are left, the invention has the technical problems that: provided is a pressure regulating and fastening processing device for an ultra-precise semiconductor ceramic component.
The technical scheme is as follows: a pressure regulating and fastening processing device for ultra-precise semiconductor ceramic parts comprises a bottom plate assembly, a coating unit, a bonding unit, a pressure regulating and fastening unit, a control screen, a support, a bracket, a support column, an anti-skid pad, a collecting box and a handle; the bottom plate component is connected with the smearing unit; the bottom plate assembly is connected with the bonding unit; the bottom plate assembly is connected with the pressure regulating fastening unit; the bottom plate assembly is connected with the support; the bottom plate component is connected with the bracket; the bottom plate assembly is connected with the five groups of supporting columns; the bottom plate component is connected with the collecting box; the smearing unit is connected with the bonding unit; the smearing unit is connected with the pressure regulating fastening unit; the pressure regulating fastening unit is connected with the bracket; the control screen is connected with the support; the five groups of supporting columns are connected with the five groups of anti-skid mats; the collecting box is connected with the handle.
In a preferred embodiment of the invention, the smearing unit comprises a first driving wheel, a second driving wheel, a first transmission shaft, a third driving wheel, a fourth driving wheel, a second transmission shaft, a first bevel gear, a second bevel gear, a third transmission shaft, a material tray, a first straight gear, a second straight gear, a third straight gear, an arc-shaped frame, a first electric push rod and an arc-shaped block; the first driving wheel is connected with the pressure regulating fastening unit; the first driving wheel is in transmission connection with the second driving wheel through a belt; the second driving wheel is fixedly connected with the first driving shaft; the first transmission shaft is rotatably connected with the bottom plate component; the first transmission shaft is fixedly connected with the third transmission wheel; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth transmission wheel is fixedly connected with the second transmission shaft; the second transmission shaft is rotatably connected with the bottom plate assembly; the second transmission shaft is fixedly connected with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the third transmission shaft; the third transmission shaft is fixedly connected with the material tray; the material tray is connected with the bonding unit; the first transmission shaft is fixedly connected with the first straight gear; the first straight gear is meshed with the second straight gear; the second straight gear is rotationally connected with the bottom plate component through a rotating shaft; the first straight gear is meshed with the third straight gear; the third straight gear is rotationally connected with the bottom plate component through a rotating shaft; the second straight gear is rotationally connected with the arc-shaped frame through a rotating shaft; the third straight gear is rotationally connected with the arc-shaped frame through a rotating shaft; the arc-shaped frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the arc-shaped block.
In a preferred embodiment of the present invention, the bonding unit includes a first electric rotary table, a first screw, a first slide block, a first gripper, a first fixing plate, a bearing plate, a second gripper, a second slide block, a second fixing plate, a first electric slide rail, a first fixing frame, a second electric slide rail, a second electric rotary table, a fourth transmission shaft, a first connecting rod, a sliding plate, a first transmission plate, a disc, a bump, a third fixing plate and a spring rod; the stator of the first electric turntable is fixedly connected with the bottom plate assembly; a rotor of the first electric turntable is fixedly connected with the first screw rod; the first screw rod is rotatably connected with the bottom plate assembly; the first screw rod is in screwed connection with the first sliding block; the first sliding block is fixedly connected with the first mechanical claw; the first sliding block is in sliding connection with the first fixing plate; the first fixing plate is fixedly connected with the bottom plate assembly; the first mechanical claw is fixedly connected with the bearing plate; the bearing plate is rotatably connected with the material tray; the bearing plate is fixedly connected with the second mechanical claw; the second mechanical claw is fixedly connected with the second sliding block; the second sliding block is in sliding connection with the second fixing plate; the second fixing plate is fixedly connected with the bottom plate assembly; a first electric slide rail is arranged on the upper side part of the second fixing plate; the first electric slide rail is fixedly connected with the bottom plate component; the first electric sliding rail is in sliding connection with the first fixing frame; the first fixing frame is in sliding connection with the second electric sliding rail; the second electric slide rail is fixedly connected with the bottom plate component; the first fixing frame is fixedly connected with a stator of the second electric turntable; the rotor of the second electric turntable is fixedly connected with the fourth transmission shaft; the fourth transmission shaft is rotatably connected with the first fixing frame; the fourth transmission shaft is fixedly connected with the first connecting rod; the first connecting rod is in sliding connection with the sliding plate; the sliding plate is fixedly connected with the first driving plate; the first transmission plate is connected with the first fixing frame in a sliding manner; the first driving plate is fixedly connected with the disc; the disc is fixedly connected with the multiple groups of bumps; the first fixing frame is connected with the multiple groups of spring rods in a sliding manner; and the multiple groups of spring rods are fixedly connected with the multiple groups of third fixing plates.
In a preferred embodiment of the present invention, the pressure-regulating fastening unit includes a motor, a fifth transmission shaft, a sixth transmission shaft, a third bevel gear, a fourth fixing plate, a second electric push rod, a fourth bevel gear, a seventh transmission shaft, a fifth transmission wheel, a sixth transmission wheel, a telescopic rod, a fourth spur gear, a fifth fixing plate, a third electric push rod, an eighth transmission shaft, a second fixing frame, a fifth bevel gear, a sixth bevel gear, a ninth transmission shaft, a second screw rod, a first fixing block, a connecting shaft, an arc-shaped plate, a second connecting rod, a seventh transmission wheel, an eighth transmission wheel, a tenth transmission shaft, a cam frame, a third connecting rod, a connecting frame, a second transmission plate, a second fixing block, a pressure rod, and a sliding cylinder; the motor is fixedly connected with the bracket; the motor is fixedly connected with the fifth transmission shaft; the fifth transmission shaft is rotatably connected with the bottom plate assembly; the fifth transmission shaft is fixedly connected with the first transmission wheel; the fifth transmission shaft is connected with the sixth transmission shaft; the sixth transmission shaft is fixedly connected with the third bevel gear; the sixth transmission shaft is rotatably connected with the fourth fixing plate; the fourth fixing plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the bottom plate component; a fourth bevel gear is arranged on the side part of the third bevel gear; the fourth bevel gear is fixedly connected with the seventh transmission shaft; the seventh transmission shaft is rotatably connected with the bottom plate assembly; the seventh transmission shaft is fixedly connected with the fifth transmission wheel; the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the telescopic rod; the telescopic rod is rotatably connected with the bottom plate component; the telescopic rod is fixedly connected with the fourth straight gear; the telescopic rod is rotatably connected with the fifth fixing plate; the fifth fixing plate is fixedly connected with the third electric push rod; the third electric push rod is fixedly connected with the bottom plate component; an eighth transmission shaft is arranged on the side part of the fourth straight gear; the eighth transmission shaft is rotatably connected with the bottom plate assembly; the eighth transmission shaft is fixedly connected with the second fixing frame; the second fixing frame is rotationally connected with the ninth transmission shaft; the eighth transmission shaft is fixedly connected with the fifth bevel gear; the fifth bevel gear is meshed with the sixth bevel gear; the sixth bevel gear is fixedly connected with the ninth transmission shaft; the ninth transmission shaft is fixedly connected with the second screw rod; the second screw rod is connected with the first fixed block in a rotating mode; the first fixed block is fixedly connected with the connecting shaft; the connecting shaft is connected with the arc-shaped plate in a sliding manner; the arc-shaped plate is fixedly connected with the bottom plate component; the first fixed block is rotationally connected with the second connecting rod through a rotating shaft; the second connecting rod is rotatably connected with the connecting frame; the telescopic rod is fixedly connected with the seventh driving wheel; the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth driving wheel is fixedly connected with the tenth transmission shaft; the tenth transmission shaft is rotatably connected with the bottom plate assembly; the tenth transmission shaft is fixedly connected with the cam rack; the cam rack is fixedly connected with the third connecting rod; the third connecting rod is rotatably connected with the bottom plate component; the cam frame is rotationally connected with the connecting frame; the connecting frame is rotationally connected with the second transmission plate; the second transmission plate is rotatably connected with the second fixed block; the second fixed block is fixedly connected with the pressurizing rod; the pressurizing rod is connected with the sliding cylinder in a sliding manner; the sliding cylinder is fixedly connected with the bottom plate component.
In a preferred embodiment of the invention, the slide plate is provided with a sliding groove matched with the first connecting rod.
In a preferred embodiment of the present invention, a protruding strip is disposed at a connection position of the sixth transmission shaft and the fifth transmission shaft, and a groove is disposed in the fifth transmission shaft.
In a preferred embodiment of the present invention, the eighth transmission shaft is provided with a tooth hole matched with the fourth spur gear.
In a preferred embodiment of the invention, the arc-shaped plate is provided with a sliding groove matched with the connecting shaft.
Compared with the prior art, the invention has the beneficial effects that:
1. for solving at present, among the prior art, for full user demand, many parts in conductor equipment and the semiconductor product production process can be made by multiple advanced ceramic material, at this in-process, need paint used combined material adhesive at the ceramic member internal surface, the part that will need the combination afterwards docks again, because the inside easy vacuole formation of adhesive, and need great pressure when leading to the extrusion, just can dock, and then lead to very easily damaging ceramic part, and then make ceramic part can't bond firmly, thereby lead to influencing later stage product quality, leave the problem of potential safety hazard.
2. By arranging the smearing unit, the bonding unit and the pressure regulating and fastening unit, when the device is used, the pressure regulating and fastening device for the ultra-precise semiconductor ceramic part is placed at a position to be used, so that the support, the support column and the non-slip mat are kept horizontal, and then the device is externally connected with a power supply and is controlled to start through a control screen on the support; firstly, a worker places a hollow hemispheroid ceramic piece on a smearing unit fixed on a bottom plate assembly, then the smearing unit is used for smearing the composite material adhesive on the inner surface of the ceramic piece uniformly, then, after the hollow hemispheroid ceramic piece is smeared, the adhesive is easy to sink, then, the smearing unit is used for smearing the adhesive on the inner surface of the ceramic piece, then, the adhering unit conveys the ceramic piece smeared with the adhesive to a specified position, meanwhile, the worker places the upper layer hemispheroid ceramic piece in the adhering unit in advance, then, the adhering unit is used for extruding the upper layer ceramic piece into the hollow hemispheroid ceramic piece to prepare the required ceramic piece, then, the adhering unit conveys the prepared ceramic piece to a pressure regulating fastening unit, then, the pressure regulating fastening unit is used for extruding the ceramic piece, the pressure regulating fastening unit is used for controlling the pressure during extrusion, further, under the condition of not damaging the ceramic piece, the hollow hemispheroid ceramic piece is firmly adhered with the upper layer ceramic piece, finally, the collecting box is taken out by the worker, and collecting the collecting box is taken out by the pull handle.
3. The invention realizes that the adhesive and the adhesive which is coated and sinks to the bottom are uniformly coated on the inner surface of the ceramic part, then the upper layer ceramic part is extruded into the ceramic part to be made into the required ceramic part, then the ceramic part is extruded to ensure that the ceramic part is firmly bonded, and the pressure during extrusion can be regulated and controlled, thereby ensuring that the ceramic part is firmly bonded under the condition of not damaging the ceramic part, improving the product quality and avoiding the potential safety hazard.
Drawings
FIG. 1 is a first perspective view of the present invention;
FIG. 2 is a second perspective view of the present invention;
FIG. 3 is a schematic perspective view of the applying unit according to the present invention;
FIG. 4 is a schematic perspective view of a portion of the applying unit of the present invention;
FIG. 5 is a schematic perspective view of the bonding unit of the present invention;
FIG. 6 is a perspective view of a first portion of the bonding unit of the present invention;
FIG. 7 is a perspective view of a second portion of the bonding unit of the present invention;
FIG. 8 is a schematic perspective view of the pressure-regulating fastening unit of the present invention;
FIG. 9 is a schematic perspective view of a first portion of the pressure regulating fastening unit of the present invention;
FIG. 10 is a perspective view of a second portion of the pressure regulating fastening unit of the present invention;
fig. 11 is an enlarged view of region B of the present invention.
Wherein the figures include the following reference numerals: 1. <xnotran> ,2, ,3, ,4, ,5, ,6, ,7, ,8, ,9, ,10, ,11, ,201, ,202, ,203, ,204, ,205, ,206, ,207, ,208, ,209, ,210, ,211, ,212, ,213, ,214, ,215, ,216, ,301, ,302, ,303, ,304, ,305, ,306, ,307, ,308, ,309, ,310, ,311, ,312, ,313, ,314, ,315, ,316, ,317, ,318, ,319, ,320, ,321, ,401, ,402, ,403, ,404, ,405, ,406, ,407, ,408, ,409, ,410, ,411, ,412, ,413, ,414, ,415, ,416, ,417, ,418, ,419, ,420, ,421, ,422, </xnotran> The connecting shaft 423, the arc-shaped plate 424, the second connecting rod 425, the seventh driving wheel 426, the eighth driving wheel 427, the tenth driving shaft 428, the cam frame 429, the third connecting rod 430, the connecting frame 431, the second driving plate 432, the second fixing block 433, the pressurizing rod 434 and the sliding barrel.
Detailed Description
Although the present invention may be described with respect to a particular application or industry, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.
Example 1
A pressure regulating and fastening processing device for ultra-precise semiconductor ceramic parts is shown in figures 1-11 and comprises a bottom plate component 1, a smearing unit 2, a bonding unit 3, a pressure regulating and fastening unit 4, a control screen 5, a support 6, a support 7, a support column 8, an anti-skid pad 9, a collecting box 10 and a handle 11; the bottom plate component 1 is connected with the smearing unit 2; the bottom plate assembly 1 is connected with the bonding unit 3; the bottom plate component 1 is connected with a pressure regulating fastening unit 4; the bottom plate component 1 is connected with the support 6; the bottom plate component 1 is connected with the bracket 7; the bottom plate component 1 is connected with five groups of supporting columns 8; the bottom plate component 1 is connected with the collecting box 10; the coating unit 2 is connected with the bonding unit 3; the smearing unit 2 is connected with the pressure regulating fastening unit 4; the pressure regulating fastening unit 4 is connected with the bracket 7; the control screen 5 is connected with the support 6; the five groups of supporting columns 8 are connected with the five groups of anti-skid pads 9; the collecting chamber 10 is connected with a handle 11.
The working steps are as follows: when in use, the voltage-regulating fastening processing device for the ultra-precise semiconductor ceramic part is placed at a position to be used, so that the bracket 7, the supporting column 8 and the anti-skid pad 9 are kept horizontal, and then the device is externally connected with a power supply and is controlled to start through the control screen 5 on the support 6; firstly, a worker places a hollow hemispheric ceramic piece on a smearing unit 2 fixed on a bottom plate assembly 1, then the smearing unit 2 is used for smearing the composite material adhesive on the inner surface of the ceramic piece uniformly, then, after the hollow hemispheric ceramic piece is smeared, the adhesive is easy to sink, then, the smearing unit 2 is used for smearing the adhesive on the inner surface of the ceramic piece, then, the adhering unit 3 is used for conveying the ceramic piece smeared with the adhesive to a specified position, meanwhile, the worker places the upper layer hemispheric ceramic piece in the adhering unit 3 in advance, then, the adhering unit 3 is used for extruding the upper layer ceramic piece into the hollow hemispheric ceramic piece to prepare the required ceramic piece, and then, the adhering unit 3 is used for conveying the prepared ceramic piece to a pressure regulating and fastening unit 4, then the ceramic parts are extruded by the pressure regulating and fastening unit 4, the pressure during extrusion can be controlled by the pressure regulating and fastening unit 4, and further under the condition of not damaging the ceramic parts, the hollow hemispherical ceramic parts and the upper hemispherical ceramic parts are firmly bonded, finally the ceramic parts are taken out by workers and collected in the collecting box 10, the collecting box 10 is taken out by the pull handle 11 and then collected, the invention realizes that the used adhesive and the adhesive which is coated and sinks to the bottom are uniformly coated on the inner surfaces of the ceramic parts, then the upper layer ceramic parts are extruded into the ceramic parts to form the required ceramic parts, then the ceramic parts are extruded to firmly bond, and the pressure during extrusion can be regulated and controlled, so that the ceramic parts are firmly bonded under the condition of not damaging the ceramic parts, the product quality is improved, the potential safety hazard is avoided.
The smearing unit 2 comprises a first driving wheel 201, a second driving wheel 202, a first driving shaft 203, a third driving wheel 204, a fourth driving wheel 205, a second driving shaft 206, a first bevel gear 207, a second bevel gear 208, a third driving shaft 209, a material tray 210, a first straight gear 211, a second straight gear 212, a third straight gear 213, an arc-shaped frame 214, a first electric push rod 215 and an arc-shaped block 216; the first driving wheel 201 is connected with the pressure regulating fastening unit 4; the first transmission wheel 201 is in transmission connection with the second transmission wheel 202 through a belt; the second transmission wheel 202 is fixedly connected with the first transmission shaft 203; the first transmission shaft 203 is rotatably connected with the bottom plate component 1; the first transmission shaft 203 is fixedly connected with a third transmission wheel 204; the third driving wheel 204 is in driving connection with a fourth driving wheel 205 through a belt; the fourth transmission wheel 205 is fixedly connected with the second transmission shaft 206; the second transmission shaft 206 is rotatably connected with the bottom plate component 1; the second transmission shaft 206 is fixedly connected with the first bevel gear 207; the first bevel gear 207 is meshed with the second bevel gear 208; the second bevel gear 208 is fixedly connected with a third transmission shaft 209; the third transmission shaft 209 is fixedly connected with the material tray 210; the material tray 210 is connected with the bonding unit 3; the first transmission shaft 203 is fixedly connected with the first straight gear 211; the first spur gear 211 is meshed with the second spur gear 212; the second spur gear 212 is rotationally connected with the base plate assembly 1 through a rotating shaft; the first spur gear 211 is meshed with the third spur gear 213; the third spur gear 213 is rotatably connected with the bottom plate assembly 1 through a rotating shaft; the second straight gear 212 is rotationally connected with the arc-shaped frame 214 through a rotating shaft; the third spur gear 213 is rotatably connected with the arc-shaped frame 214 through a rotating shaft; the arc frame 214 is fixedly connected with a first electric push rod 215; the first electric push rod 215 is fixedly connected with the arc-shaped block 216.
Firstly, a worker places a hollow hemispheroid ceramic piece in a material tray 210, then coats the composite material adhesive on an arc-shaped block 216, then coats the composite material adhesive on the inner surface of the ceramic piece uniformly by using the arc-shaped block 216, a pressure regulating fastening unit 4 operates to drive a first transmission wheel 201 to rotate, the first transmission wheel 201 rotates to drive a second transmission wheel 202 to rotate through a belt, the second transmission wheel 202 rotates to drive a first straight gear 211 to rotate through a first transmission shaft 203, the first straight gear 211 rotates to drive a second straight gear 212 and a third straight gear 213 to rotate simultaneously, all parts on an arc-shaped frame 214 are driven to move, a first electric push rod 215 and the arc-shaped block 216 are driven to move, the composite material adhesive is further coated on the inner surface of the ceramic piece uniformly, and then after the hollow hemispheroid ceramic piece is coated, the adhesive is easy to generate a bottom sinking phenomenon, meanwhile, the bottom sinking adhesive is coated on the inner surface of the ceramic piece, the first transmission shaft 203 rotates to drive the third transmission wheel 204 to rotate, the third transmission wheel 204 rotates to drive the fourth transmission wheel 205 to rotate through a belt, the fourth transmission wheel 205 rotates to drive the first bevel gear 207 to rotate through the second transmission shaft 206, the first bevel gear 207 rotates to drive the second bevel gear 208 to rotate, the second bevel gear 208 rotates to drive the material tray 210 to rotate through the third transmission shaft 209, so that the material tray 210 rotates to drive the hollow hemispheroid ceramic piece to rotate, further the ceramic piece and the arc block 216 rotate simultaneously, the bottom sinking adhesive is coated on the inner surface of the ceramic piece, the coating unit 2 uniformly coats the composite material adhesive on the inner surface of the ceramic piece, and then the hollow hemispheroid ceramic piece is coated, the adhesive is easy to sink, and meanwhile, the adhesive with the sinking bottom is coated on the inner surface of the ceramic piece.
The bonding unit 3 comprises a first electric rotating disc 301, a first screw rod 302, a first sliding block 303, a first gripper 304, a first fixing plate 305, a bearing plate 306, a second gripper 307, a second sliding block 308, a second fixing plate 309, a first electric sliding rail 310, a first fixing frame 311, a second electric sliding rail 312, a second electric rotating disc 313, a fourth transmission shaft 314, a first connecting rod 315, a sliding plate 316, a first transmission plate 317, a disc 318, a convex block 319, a third fixing plate 320 and a spring rod 321; the stator of the first electric turntable 301 is fixedly connected with the bottom plate assembly 1; the rotor of the first electric turntable 301 is fixedly connected with a first screw rod 302; the first screw rod 302 is rotatably connected with the bottom plate component 1; the first screw rod 302 is screwed with the first slide block 303; the first sliding block 303 is fixedly connected with the first mechanical claw 304; the first slider 303 is slidably connected to the first fixing plate 305; the first fixing plate 305 is fixedly connected with the bottom plate component 1; the first gripper 304 is fixedly connected with the bearing plate 306; the bearing plate 306 is rotatably connected with the material tray 210; the bearing plate 306 is fixedly connected with the second gripper 307; the second gripper 307 is fixedly connected with the second slide block 308; the second slider 308 is slidably connected to the second fixing plate 309; the second fixing plate 309 is fixedly connected with the bottom plate assembly 1; a first electric slide rail 310 is arranged on the upper side of the second fixing plate 309; the first electric slide rail 310 is fixedly connected with the bottom plate component 1; the first electric slide rail 310 is connected with the first fixing frame 311 in a sliding manner; the first fixing frame 311 is connected with the second electric slide rail 312 in a sliding manner; the second electric slide rail 312 is fixedly connected with the bottom plate component 1; the first fixed frame 311 is fixedly connected with a stator of the second electric turntable 313; the rotor of the second electric turntable 313 is fixedly connected with the fourth transmission shaft 314; the fourth transmission shaft 314 is rotatably connected with the first fixing frame 311; the fourth transmission shaft 314 is fixedly connected with the first connecting rod 315; the first link 315 is slidably connected to the slide plate 316; the slide plate 316 is fixedly connected to the first driving plate 317; the first driving plate 317 is slidably connected to the first fixing frame 311; the first driving plate 317 is fixedly connected with the disc 318; the disc 318 is fixedly connected with a plurality of groups of bumps 319; the first fixing frame 311 is connected with the plurality of groups of spring rods 321 in a sliding manner; the plurality of spring rods 321 are fixedly connected with the plurality of third fixing plates 320.
After the coating unit 2 uniformly coats the composite material adhesive on the inner surface of the ceramic piece, then the worker puts the upper layer of the hemispherical ceramic piece in the first fixing frame 311 in advance, then the bearing plate 306 transfers the ceramic piece coated with the adhesive to the position right under the disc 318, the first electric turntable 301 is started to drive the first screw rod 302 to rotate, the first screw rod 302 rotates to drive the first slide block 303 to move along the first fixing plate 305, the first slide block 303 moves to drive the bearing plate 306 to move to the position right under the disc 318 through the first gripper 304, meanwhile, the bearing plate 306 moves to drive the second gripper 307 to move, the second gripper 307 moves to drive the second slide block 308 to move along the second fixing plate 309, and then the ceramic piece coated with the adhesive is transferred to the position right under the disc 318, at this time, the first electric turntable 301 stops operating, and then, then, a plurality of sets of bumps 319 are used to extrude the hemispherical ceramic piece placed on the upper layer in the first fixing frame 311 into the hollow hemispherical ceramic piece, so as to manufacture the required ceramic component, the first electric slide rail 310 and the second electric slide rail 312 are started to drive the first fixing frame 311 to move, so that the hemispherical ceramic piece in the first fixing frame 311 is placed vertically to the hollow hemispherical ceramic piece, then, the second electric rotary table 313 is started to drive the first connecting rod 315 to rotate through the fourth transmission shaft 314, the first connecting rod 315 rotates to drive the sliding plate 316 to move downwards, the sliding plate 316 moves to drive the first transmission plate 317 to move downwards, so as to drive the disc 318 to move downwards, the disc 318 moves to drive the plurality of sets of bumps 319 to move downwards, so as to extrude the third fixing plate 320, thereby compressing the spring rod 321, and further extrude the hemispherical ceramic piece on the upper layer into the hollow hemispherical ceramic piece, and then the semi-sphere ceramic piece and the hollow semi-sphere ceramic piece are bonded to form a required ceramic part, the bonded ceramic part is conveyed to the pressure regulating and fastening unit 4 by the bearing plate 306 according to the same working principle, the bonding unit 3 conveys the upper semi-sphere ceramic piece to a specified position, the upper ceramic piece is extruded into the hollow semi-sphere ceramic piece, and the required ceramic part is formed, and then the bonded ceramic part is conveyed to the pressure regulating and fastening unit 4.
The pressure regulating fastening unit 4 comprises a motor 401, a fifth transmission shaft 402, a sixth transmission shaft 403, a third bevel gear 404, a fourth fixed plate 405, a second electric push rod 406, a fourth bevel gear 407, a seventh transmission shaft 408, a fifth transmission wheel 409, a sixth transmission wheel 410, an expansion link 411, a fourth spur gear 412, a fifth fixed plate 413, a third electric push rod 414, an eighth transmission shaft 415, a second fixed frame 416, a fifth bevel gear 417, a sixth bevel gear 418, a ninth transmission shaft 419, a second screw 420, a first fixed block 421, a connecting shaft 422, an arc-shaped plate 423, a second connecting rod 424, a seventh transmission wheel 425, an eighth transmission wheel 426, a tenth transmission shaft 427, a cam frame 428, a third connecting rod 429, a connecting frame 430, a second transmission plate 431, a second fixed block 432, a pressure rod 433 and a slide cylinder 434; the motor 401 is fixedly connected with the bracket 7; the motor 401 is fixedly connected with the fifth transmission shaft 402; the fifth transmission shaft 402 is rotatably connected with the bottom plate component 1; the fifth transmission shaft 402 is fixedly connected with the first transmission wheel 201; the fifth drive shaft 402 is connected with the sixth drive shaft 403; the sixth transmission shaft 403 is fixedly connected with the third bevel gear 404; the sixth transmission shaft 403 is rotatably connected with the fourth fixing plate 405; the fourth fixing plate 405 is fixedly connected with the second electric push rod 406; the second electric push rod 406 is fixedly connected with the bottom plate component 1; a fourth bevel gear 407 is provided at a side of the third bevel gear 404; the fourth bevel gear 407 is fixedly connected with the seventh transmission shaft 408; the seventh transmission shaft 408 is rotatably connected with the bottom plate assembly 1; the seventh transmission shaft 408 is fixedly connected with a fifth transmission wheel 409; the fifth driving wheel 409 is in driving connection with the sixth driving wheel 410 through a belt; the sixth driving wheel 410 is fixedly connected with the telescopic rod 411; the telescopic rod 411 is rotatably connected with the bottom plate component 1; the telescopic rod 411 is fixedly connected with the fourth straight gear 412; the telescopic rod 411 is rotatably connected with the fifth fixing plate 413; the fifth fixing plate 413 is fixedly connected with the third electric push rod 414; the third electric push rod 414 is fixedly connected with the bottom plate component 1; an eighth transmission shaft 415 is provided at a side portion of the fourth spur gear 412; the eighth transmission shaft 415 is rotatably connected with the bottom plate assembly 1; the eighth transmission shaft 415 is fixedly connected with the second fixing frame 416; the second fixed frame 416 is rotatably connected with a ninth transmission shaft 419; the eighth transmission shaft 415 is fixedly connected with a fifth bevel gear 417; fifth bevel gear 417 meshes with sixth bevel gear 418; the sixth bevel gear 418 is fixedly connected with a ninth transmission shaft 419; the ninth transmission shaft 419 is fixedly connected with the second screw rod 420; the second screw rod 420 is rotatably connected with the first fixed block 421; the first fixing block 421 is fixedly connected with the connecting shaft 422; the connecting shaft 422 is connected with the arc-shaped plate 423 in a sliding way; the arc-shaped plate 423 is fixedly connected with the bottom plate component 1; the first fixing block 421 is rotatably connected to the second connecting rod 424 through a rotating shaft; the second connecting rod 424 is rotatably connected with the connecting frame 430; the telescopic rod 411 is fixedly connected with the seventh driving wheel 425; the seventh driving wheel 425 is in driving connection with the eighth driving wheel 426 through a belt; the eighth driving wheel 426 is fixedly connected with a tenth transmission shaft 427; the tenth transmission shaft 427 is rotatably connected with the soleplate assembly 1; the tenth transmission shaft 427 is fixedly connected with the cam rack 428; the cam frame 428 is fixedly connected with the third connecting rod 429; the third connecting rod 429 is rotatably connected with the bottom plate component 1; the cam frame 428 is rotatably connected with the connecting frame 430; the connecting frame 430 is rotatably connected with the second transmission plate 431; the second transmission plate 431 is rotatably connected with the second fixed block 432; the second fixed block 432 is fixedly connected with a pressurizing rod 433; the pressurizing rod 433 is connected with the sliding cylinder 434 in a sliding manner; the shuttle 434 is fixedly connected to the base plate assembly 1.
Then, the bonding unit 3 transfers the bonded ceramic parts to the position right under the pressure rod 433, and then the pressure rod 433 extrudes the ceramic parts, so that the ceramic parts in the shape of a hollow hemisphere are firmly bonded to the ceramic parts in the upper layer, the motor 401 is started to drive the fifth transmission shaft 402 to rotate, the fifth transmission shaft 402 rotates to drive the first transmission wheel 201 to rotate, and further the transmission coating unit 2 operates, meanwhile, the fifth transmission shaft 402 rotates to drive the sixth transmission shaft 403 to rotate, the sixth transmission shaft 403 rotates to drive the third bevel gear 404 to rotate, then, the second electric push rod 406 is started to control the sixth transmission shaft 403 to slide through the fourth fixing plate 405, and further the engagement between the third bevel gear 404 and the fourth bevel gear 407 is controlled, when the third bevel gear 404 is engaged with the fourth bevel gear 407, the third bevel gear 404 rotates to drive the fourth bevel gear 407 to rotate, the rotation of the fourth bevel gear 407 drives a fifth transmission wheel 409 to rotate through a seventh transmission shaft 408, the rotation of the fifth transmission wheel 409 drives a sixth transmission wheel 410 to rotate through a belt, the rotation of the sixth transmission wheel 410 drives an expansion link 411 to rotate, the rotation of the expansion link 411 drives a seventh transmission wheel 425 to rotate, the rotation of the seventh transmission wheel 425 drives an eighth transmission wheel 426 to rotate through a belt, the rotation of the eighth transmission wheel 426 drives a cam rack 428 to rotate through a tenth transmission shaft 427, the rotation of the cam rack 428 drives a third connecting rod 429 to rotate, the rotation of the cam rack 428 drives a connecting rack 430 to move downwards, the movement of the connecting rack 430 drives a second connecting rod 424 to rotate, the movement of the connecting rack 430 drives a second transmission plate 431 to move downwards, the movement of the second transmission plate 431 drives a pressure rod 433 to slide in a sliding barrel 434 through a second fixing block 432, so as to extrude the ceramic part, and enable the hollow hemispherical ceramic part to be firmly bonded with the hemispherical ceramic part on the upper layer, furthermore, the sliding stroke of the pressure rod 433 can be controlled by the movement of the first fixing block 421, so as to control the pressure when the pressure rod 433 extrudes, and further, without damaging the ceramic components, the hollow hemispherical ceramic component can be firmly bonded to the upper hemispherical ceramic component, the telescopic rod 411 rotates to drive the fourth spur gear 412 to rotate, then, the third electric push rod 414 starts to control the telescopic rod 411 to extend and retract through the fifth fixing plate 413, so as to control the engagement between the fourth spur gear 412 and the toothed hole formed in the eighth transmission shaft 415, when the fourth spur gear 412 is engaged with the toothed hole formed in the eighth transmission shaft 415, the fourth spur gear 412 rotates to drive the eighth transmission shaft 415 to rotate, the eighth transmission shaft 415 rotates to drive the second fixing frame 416 to rotate, the second fixing frame 416 rotates to drive the second lead screw 420 to rotate through the ninth transmission shaft 419, the second lead screw 420 rotates to drive the first fixing block 421 to rotate, further, the first fixing block 421 is deflected, at the same time, the eighth transmission shaft 415 rotates to drive the fifth bevel gear 417 to rotate, the fifth bevel gear 417 rotates to drive the sixth bevel gear 418 to rotate, the sixth bevel gear 418 rotates to drive the second lead screw 420 to rotate through the ninth transmission shaft 419, the second lead screw 420 rotates to drive the first fixing block 421 to move, the first fixing block 421 moves to drive the connecting shaft 422 to slide along the arc-shaped plate 423, meanwhile, the first fixing block 421 moves to drive the second connecting rod 424 to rotate through the rotating shaft, further, the sliding stroke of the pressure rod 433 is adjusted and controlled, further, the pressure when the pressure rod 433 extrudes is controlled, further, under the condition that the ceramic part is not damaged, the hollow hemispherical ceramic part is firmly bonded with the upper hemispherical ceramic part, the pressure adjusting and fastening unit 4 realizes the extrusion of the ceramic part, so that the hollow hemispherical ceramic part is firmly bonded with the upper hemispherical ceramic part, and the pressure during extrusion can be adjusted and controlled, so that the hollow hemispherical ceramic piece and the upper hemispherical ceramic piece are firmly bonded under the condition of not damaging the ceramic parts.
Wherein, the sliding plate 316 is provided with a sliding groove matched with the first connecting rod 315.
The first connecting rod 315 can slide in the sliding plate 316, and the sliding plate 316 can be moved.
A convex strip is arranged at the joint of the sixth transmission shaft 403 and the fifth transmission shaft 402, and a groove is arranged in the fifth transmission shaft 402.
The sixth drive shaft 403 can be made to slide in the fifth drive shaft 402 and remain rotating.
Wherein, a tooth hole matched with the fourth spur gear 412 is arranged in the eighth transmission shaft 415.
The eighth transmission shaft 415 and the fourth spur gear 412 can be connected and driven, and can be controlled by the third electric push rod 414 to be switched on and off.
Wherein, the arc plate 423 is provided with a sliding groove matched with the connecting shaft 422.
The coupling shaft 422 can be made to slide in the arc plate 423.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.
Claims (6)
1. The utility model provides a be used for ultra-precise semiconductor ceramic part pressure regulating fastening processingequipment, includes bottom plate subassembly (1), control panel (5), support (6), support (7), support column (8), slipmat (9), collecting box (10) and handle (11), characterized by: the device also comprises a smearing unit (2), a bonding unit (3) and a pressure regulating and fastening unit (4); the bottom plate component (1) is connected with the smearing unit (2); the bottom plate assembly (1) is connected with the bonding unit (3); the bottom plate component (1) is connected with the pressure regulating fastening unit (4); the bottom plate component (1) is connected with the support (6); the bottom plate component (1) is connected with the bracket (7); the bottom plate component (1) is connected with five groups of supporting columns (8); the bottom plate component (1) is connected with the collecting box (10); the smearing unit (2) is connected with the bonding unit (3); the smearing unit (2) is connected with the pressure regulating fastening unit (4); the pressure regulating fastening unit (4) is connected with the bracket (7); the control screen (5) is connected with the support (6); the five groups of supporting columns (8) are connected with the five groups of anti-skid pads (9); the collecting box (10) is connected with a handle (11);
the smearing unit (2) comprises a first transmission wheel (201), a second transmission wheel (202), a first transmission shaft (203), a third transmission wheel (204), a fourth transmission wheel (205), a second transmission shaft (206), a first bevel gear (207), a second bevel gear (208), a third transmission shaft (209), a material tray (210), a first straight gear (211), a second straight gear (212), a third straight gear (213), an arc-shaped frame (214), a first electric push rod (215) and an arc-shaped block (216); the first transmission wheel (201) is connected with the pressure regulating fastening unit (4); the first transmission wheel (201) is in transmission connection with the second transmission wheel (202) through a belt; the second transmission wheel (202) is fixedly connected with the first transmission shaft (203); the first transmission shaft (203) is rotatably connected with the bottom plate component (1); the first transmission shaft (203) is fixedly connected with the third transmission wheel (204); the third driving wheel (204) is in driving connection with the fourth driving wheel (205) through a belt; the fourth transmission wheel (205) is fixedly connected with the second transmission shaft (206); the second transmission shaft (206) is rotationally connected with the bottom plate component (1); the second transmission shaft (206) is fixedly connected with the first bevel gear (207); the first bevel gear (207) is meshed with the second bevel gear (208); the second bevel gear (208) is fixedly connected with a third transmission shaft (209); the third transmission shaft (209) is fixedly connected with the material tray (210); the material tray (210) is connected with the bonding unit (3); the first transmission shaft (203) is fixedly connected with the first straight gear (211); the first straight gear (211) is meshed with the second straight gear (212); the second straight gear (212) is rotationally connected with the bottom plate component (1) through a rotating shaft; the first straight gear (211) is meshed with the third straight gear (213); the third straight gear (213) is rotationally connected with the bottom plate component (1) through a rotating shaft; the second straight gear (212) is rotationally connected with the arc-shaped frame (214) through a rotating shaft; the third straight gear (213) is rotationally connected with the arc-shaped frame (214) through a rotating shaft; the arc-shaped frame (214) is fixedly connected with a first electric push rod (215); the first electric push rod (215) is fixedly connected with the arc-shaped block (216);
the pressure regulating fastening unit (4) comprises a motor (401), a fifth transmission shaft (402), a sixth transmission shaft (403), a third bevel gear (404), a fourth fixing plate (405), a second electric push rod (406), a fourth bevel gear (407), a seventh transmission shaft (408), a fifth transmission wheel (409), a sixth transmission wheel (410), an expansion link (411), a fourth spur gear (412), a fifth fixing plate (413), a third electric push rod (414), an eighth transmission shaft (415), a second fixing frame (416), a fifth bevel gear (417), a sixth bevel gear (418), a ninth transmission shaft (419), a second screw rod (420), a first fixing block (421), a connecting shaft (422), an arc plate (423), a second connecting rod (424), a seventh transmission wheel (425), an eighth transmission wheel (426), a tenth transmission shaft (427), a cam rack (428), a third connecting rod (429), a connecting rack (430), a second transmission plate (431), a second pressing rod (432), a pressing rod (433) and a sliding barrel (434); the motor (401) is fixedly connected with the bracket (7); the motor (401) is fixedly connected with the fifth transmission shaft (402); the fifth transmission shaft (402) is rotatably connected with the bottom plate assembly (1); the fifth transmission shaft (402) is fixedly connected with the first transmission wheel (201); the fifth transmission shaft (402) is connected with the sixth transmission shaft (403); the sixth transmission shaft (403) is fixedly connected with the third bevel gear (404); the sixth transmission shaft (403) is rotatably connected with the fourth fixing plate (405); the fourth fixing plate (405) is fixedly connected with a second electric push rod (406); the second electric push rod (406) is fixedly connected with the bottom plate component (1); a fourth bevel gear (407) is arranged on the side of the third bevel gear (404); the fourth bevel gear (407) is fixedly connected with a seventh transmission shaft (408); the seventh transmission shaft (408) is rotatably connected with the bottom plate assembly (1); the seventh transmission shaft (408) is fixedly connected with a fifth transmission wheel (409); the fifth driving wheel (409) is in driving connection with the sixth driving wheel (410) through a belt; the sixth driving wheel (410) is fixedly connected with an expansion link (411); the telescopic rod (411) is rotatably connected with the bottom plate component (1); the telescopic rod (411) is fixedly connected with the fourth straight gear (412); the telescopic rod (411) is rotationally connected with the fifth fixing plate (413); the fifth fixing plate (413) is fixedly connected with a third electric push rod (414); the third electric push rod (414) is fixedly connected with the bottom plate component (1); an eighth transmission shaft (415) is arranged on the side part of the fourth straight gear (412); the eighth transmission shaft (415) is rotatably connected with the bottom plate component (1); the eighth transmission shaft (415) is fixedly connected with the second fixing frame (416); the second fixed frame (416) is rotationally connected with a ninth transmission shaft (419); the eighth transmission shaft (415) is fixedly connected with the fifth bevel gear (417); the fifth bevel gear (417) is meshed with the sixth bevel gear (418); a sixth bevel gear (418) is fixedly connected with a ninth transmission shaft (419); the ninth transmission shaft (419) is fixedly connected with the second screw rod (420); the second screw rod (420) is rotatably connected with the first fixed block (421); the first fixed block (421) is fixedly connected with the connecting shaft (422); the connecting shaft (422) is connected with the arc-shaped plate (423) in a sliding way; the arc-shaped plate (423) is fixedly connected with the bottom plate component (1); the first fixed block (421) is rotatably connected with the second connecting rod (424) through a rotating shaft; the second connecting rod (424) is rotatably connected with the connecting frame (430); the telescopic rod (411) is fixedly connected with the seventh driving wheel (425); the seventh driving wheel (425) is in transmission connection with the eighth driving wheel (426) through a belt; the eighth driving wheel (426) is fixedly connected with the tenth transmission shaft (427); the tenth transmission shaft (427) is rotatably connected with the bottom plate component (1); the tenth transmission shaft (427) is fixedly connected with the cam rack (428); the cam rack (428) is fixedly connected with the third connecting rod (429); the third connecting rod (429) is rotatably connected with the bottom plate component (1); the cam frame (428) is rotationally connected with the connecting frame (430); the connecting frame (430) is rotatably connected with the second transmission plate (431); the second transmission plate (431) is rotatably connected with the second fixed block (432); the second fixed block (432) is fixedly connected with the pressurizing rod (433); the pressurizing rod (433) is connected with the sliding cylinder (434) in a sliding manner; the sliding cylinder (434) is fixedly connected with the bottom plate component (1).
2. The pressure regulating and fastening processing device for the ultra-precise semiconductor ceramic component according to claim 1, wherein the bonding unit (3) comprises a first electric rotating disc (301), a first screw rod (302), a first sliding block (303), a first mechanical claw (304), a first fixing plate (305), a bearing plate (306), a second mechanical claw (307), a second sliding block (308), a second fixing plate (309), a first electric sliding rail (310), a first fixing frame (311), a second electric sliding rail (312), a second electric rotating disc (313), a fourth transmission shaft (314), a first connecting rod (315), a sliding plate (316), a first transmission plate (317), a disc (318), a bump (319), a third fixing plate (320) and a spring rod (321); the stator of the first electric turntable (301) is fixedly connected with the bottom plate component (1); a rotor of the first electric turntable (301) is fixedly connected with a first screw rod (302); the first screw rod (302) is rotatably connected with the bottom plate assembly (1); the first screw rod (302) is in screwed connection with the first sliding block (303); the first sliding block (303) is fixedly connected with the first mechanical claw (304); the first sliding block (303) is in sliding connection with the first fixing plate (305); the first fixing plate (305) is fixedly connected with the bottom plate component (1); the first mechanical claw (304) is fixedly connected with the bearing plate (306); the bearing plate (306) is rotatably connected with the material tray (210); the bearing plate (306) is fixedly connected with the second mechanical claw (307); the second mechanical claw (307) is fixedly connected with the second sliding block (308); the second sliding block (308) is connected with the second fixing plate (309) in a sliding manner; the second fixing plate (309) is fixedly connected with the bottom plate component (1); a first electric slide rail (310) is arranged on the upper side part of the second fixing plate (309); the first electric slide rail (310) is fixedly connected with the bottom plate component (1); the first electric sliding rail (310) is in sliding connection with the first fixing frame (311); the first fixing frame (311) is in sliding connection with the second electric sliding rail (312); the second electric sliding rail (312) is fixedly connected with the bottom plate component (1); the first fixing frame (311) is fixedly connected with a stator of the second electric turntable (313); the rotor of the second electric turntable (313) is fixedly connected with the fourth transmission shaft (314); the fourth transmission shaft (314) is rotationally connected with the first fixed frame (311); the fourth transmission shaft (314) is fixedly connected with the first connecting rod (315); the first connecting rod (315) is connected with the sliding plate (316) in a sliding way; the sliding plate (316) is fixedly connected with the first transmission plate (317); the first transmission plate (317) is connected with the first fixed frame (311) in a sliding way; the first driving plate (317) is fixedly connected with the disc (318); the disc (318) is fixedly connected with a plurality of groups of lugs (319); the first fixed frame (311) is connected with a plurality of groups of spring rods (321) in a sliding way; the multiple groups of spring rods (321) are fixedly connected with the multiple groups of third fixing plates (320).
3. The pressure-regulating fastening processing device for ultra-precise semiconductor ceramic components as claimed in claim 1, wherein the slide plate (316) is provided with a slide groove matching with the first link (315).
4. The pressure-regulating fastening processing device for the ultra-precise semi-conductor ceramic component as claimed in claim 2, wherein a convex strip is arranged at the joint of the sixth transmission shaft (403) and the fifth transmission shaft (402), and a groove is arranged in the fifth transmission shaft (402).
5. The pressure-regulating fastening processing device for the ultra-precise semi-conductor ceramic component as claimed in claim 2, wherein the eighth transmission shaft (415) is provided with a tooth hole matched with the fourth spur gear (412).
6. The pressure-regulating fastening processing device for the ultra-precise semiconductor ceramic component as claimed in claim 2, wherein the arc-shaped plate (423) is provided with a chute matching with the connecting shaft (422).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202110545065.4A CN113457932B (en) | 2021-05-19 | 2021-05-19 | Pressure regulating and fastening processing device for ultra-precise semiconductor ceramic part |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202110545065.4A CN113457932B (en) | 2021-05-19 | 2021-05-19 | Pressure regulating and fastening processing device for ultra-precise semiconductor ceramic part |
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| CN113457932A CN113457932A (en) | 2021-10-01 |
| CN113457932B true CN113457932B (en) | 2022-12-09 |
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| CN206870067U (en) * | 2017-02-27 | 2018-01-12 | 醴陵市观前瓷业有限公司 | A kind of china cup split unit |
| DE102017111013A1 (en) * | 2017-05-19 | 2018-11-22 | Holz-Her Gmbh | CEMENT CONTRACT DEVICE |
| CN109807019A (en) * | 2017-11-21 | 2019-05-28 | 中国科学院金属研究所 | A kind of device and its application method for ceramic fractional distillation filling-material combination bonding |
| CN208881240U (en) * | 2018-07-17 | 2019-05-21 | 南京源创包装设计实业有限公司 | The automatic adhesive device of carton production line |
| CN112317226B (en) * | 2020-10-22 | 2022-03-01 | 湖南荣泰新材料科技有限公司 | A rubberizing device for producing mica plate |
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Effective date of registration: 20221114 Address after: No. 17, Chengjiao West Road, Lanjiang Street, Lanxi, Jinhua, Zhejiang 321100 Applicant after: Lanxi Fanyi Fine Ceramics Co.,Ltd. Address before: 466000 Room 802, No. 126, middle section of Bayi Road, Chuanhui District, Zhoukou City, Henan Province Applicant before: Wang Chaojie |
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Denomination of invention: A pressure regulating and fastening processing device for ultra precision semiconductor ceramic components Granted publication date: 20221209 Pledgee: Industrial and Commercial Bank of China Limited Lanxi sub branch Pledgor: Lanxi Fanyi Fine Ceramics Co.,Ltd. Registration number: Y2024980004044 |
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