CN113500179A

CN113500179A - High-end equipment is made and is detected integrative equipment with shaping

Info

Publication number: CN113500179A
Application number: CN202110774974.5A
Authority: CN
Inventors: 管艳芳
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2021-10-15
Anticipated expiration: 2041-07-08
Also published as: CN113500179B

Abstract

The invention discloses a molding and detecting integrated device for manufacturing high-end equipment, and relates to the technical field of equipment manufacturing, in particular to an operation bottom plate and an upper die assembly. This high-end equipment is made and is detected integrative equipment with shaping, the burr to its edge side of metal material after moulding plastics, compression moulding is polished and is eliminated, and through restricting the degree of polishing for avoid excessively polishing when the burr is eliminated completely and cause the influence to the casing size, and can prevent the piece sputtering through carrying out magnetic adsorption and collection to the metal piece that grinds the production, make things convenient for the later stage to carry out recovery processing to the piece simultaneously.

Description

High-end equipment is made and is detected integrative equipment with shaping

Technical Field

The invention relates to the technical field of high-end equipment manufacturing, in particular to a molding and detecting integrated device for manufacturing high-end equipment.

Background

High-end equipment refers to a product component that is high in technology, at the high end of the value chain, and occupies a central part in the industry chain, such as: engines on automobiles, motors on cutting machines and hosts in computers, and the high-end equipment needs to be installed in a special shell to operate due to the precision of parts, so that the safety is not affected, and one part of the shell of the existing high-end equipment is formed by injection molding operation of a mold.

Existing injection molds used for the production of high-end equipment, for example: the used injection mould of engine housing production mainly comprises mould and lower mould, and both can inevitably produce the gap after the equipment and lead to the high-end equipment edge after the shaping to have the burr chimb, wherein especially with the casing most serious, the casing of moulding plastics formation divide into two parts and accomplishes the installation via the equipment again and form a whole, because the gap after last mould and lower mould contact can lead to the casing edge burr chimb after the shaping serious to easily influence subsequent size detection.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a molding and detecting integrated device for manufacturing high-end equipment, which solves the problems of the prior injection mold used for producing the high-end equipment in the background art, such as: the used injection mould of engine housing production mainly comprises mould and lower mould, and both can inevitably produce the gap after the equipment and lead to the high-end equipment edge after the shaping to have the burr chimb, wherein especially with the casing most serious, the casing of moulding plastics formation divide into two parts and accomplishes the installation via the equipment again and form a whole, because the gap after last mould and lower mould contact can lead to the casing edge burr chimb after the shaping serious to easily influence subsequent size detection's problem.

In order to achieve the purpose, the invention is realized by the following technical scheme: a molding and detecting integrated device for manufacturing high-end equipment comprises an operation bottom plate and an upper die assembly, wherein the lower die assembly is arranged on the left side of the surface of the operation bottom plate, a slide rail is arranged above the lower die assembly, a slide push rod is arranged inside the slide rail, the bottom of the slide push rod is connected with a driving motor, the upper die assembly is arranged at the bottom of the driving motor, the upper die assembly comprises a die cover, a spring hollow rod, a friction ball, a cavity bottom die plate, a spring rod, a side die plate and a water supply pipe, the spring hollow rod is arranged on the inner side surface of the die cover, the friction ball is embedded into the outer end of the spring hollow rod, the bottom of the die cover is connected with the cavity bottom die plate, the surface of the cavity bottom die plate is connected with the spring rod, the side die plate is fixed on the outer side of the spring rod, the top of the die cover is connected with the water supply pipe, and a laser contour projection device is arranged in the middle of the operation bottom plate, and the right side surface of operation bottom plate is provided with the subassembly of polishing, the subassembly of polishing includes protecting crust, grinding motor, electric putter and the piece of polishing, the inside of protecting crust is fixed with grinding motor, and grinding motor's left side is connected with electric putter, electric putter's left side is connected with the piece of polishing.

Optionally, the lower die assembly comprises a lower die, water inlet and outlet pipes, a water pipeline, an electric heating wire and a heat conduction copper sheet, the water inlet and outlet pipes are connected to two sides of the lower die, the water pipeline is arranged inside the lower die, the electric heating wire is arranged inside the water pipeline, and the heat conduction copper sheet is arranged outside the electric heating wire.

Optionally, the water pipe is spirally arranged inside the lower mold, the water pipe, the heating wire and the heat conducting copper sheet are distributed in parallel, and one end of the heat conducting copper sheet penetrates through the side face of the lower mold.

Optionally, the friction ball performs in-situ rolling motion in the spring hollow rod, and the outer wall of the friction ball after the spring hollow rod is contracted and the inner wall of the top of the lower die are located on the same plane.

Optionally, the spring hollow rods are hollow, and the spring hollow rods are symmetrically distributed around a vertical central axis of the mold cover.

Optionally, the top and bottom sides of the side mold plate are respectively attached to the bottom of the mold cover and the bottom side of the cavity bottom mold plate, and the water supply pipe is movably connected with the mold cover.

Optionally, the polishing part horizontally moves left and right through the electric push rod, and the polishing part, the electric push rod and the polishing motor are rotatably connected.

Optionally, the polishing assembly further comprises a bearing, a flaring box, a louver electromagnetic sheet, a transmission gear, a transmission belt, a micro motor, an exhaust box, a filter screen, an exhaust pump and a side box door, the outer wall of the electric push rod is connected with the bearing, the outer part of the bearing is connected with the flaring box, the inner wall of the flaring box is provided with the louver electromagnetic sheet, the two ends of the louver electromagnetic sheet are connected with the transmission gear, the side of the transmission gear is connected with the micro motor, the surface of the transmission gear is sleeved with the transmission belt, the flaring box is connected with the exhaust box through a hose, the middle part of the inner wall of the exhaust box is fixed with the filter screen, the right side of the filter screen is provided with the exhaust pump, and the left side of the inner wall of the exhaust box is connected with the side box door.

Optionally, the flare box is located the right side of the piece of polishing, and the flare box is the loudspeaker form.

Optionally, the louver electromagnetic plates are uniformly distributed in the flaring box, and the louver electromagnetic plates are connected in a linkage mode through the transmission teeth and the transmission belt.

The invention provides a molding and detecting integrated device for manufacturing high-end equipment, which has the following beneficial effects:

the burr to its edge side of metal material after moulding plastics, compression moulding is polished and is eliminated, and through restricting the degree of polishing for avoid excessively polishing when burr is eliminated completely and cause the influence to the casing size, and carry out magnetic adsorption and collect through the metal piece to the production of polishing and can prevent the piece sputter, make things convenient for the later stage to carry out recovery processing to the piece simultaneously.

1. This high-end equipment is made and is detected integrative equipment with shaping, metal material melts into the inside compression moulding that waits of liquid form entering lower mould, can keep the inside heat of lower mould through making the heating wire circular telegram generate heat this moment, avoid the material of moulding plastics just to take place to solidify when not shaping yet, and the outlet pipe pours into the cooling water body into in water pipeline behind the compression moulding, can accelerate the shaping speed of the material of moulding plastics, the heat conduction copper sheet can carry out conduction discharge with the absorptive heat of water simultaneously, make the water circulated use cool off the operation.

2. This high-end equipment is made and is detected integrative equipment with shaping, become the casing after the metal material cooling, the delivery pipe is to the inside injection water of cavity die block board this moment, the spring beam stretches out along with the increase of water and makes the side form expansion hug closely in shells inner wall this moment, be favorable to carrying out the centre gripping to the casing and cooperate slide rail and slide push rod set up inside the portability casing leaves the bed die, portability casing reachs the operation department of polishing and polishes operation and size detection operation when making things convenient for the unloading of later stage, and the water is making the side form fold and reset by external water pump extraction discharge back spring beam automatic contraction, thereby conveniently carry out follow-up fashioned operation of casing.

3. The integrated molding and detection equipment for manufacturing the high-end equipment has the advantages that the polishing piece extends out to abut against the surface of the friction ball, the spring hollow rod is stressed and contracted until reaching the limit, the polishing piece rotates to polish and eliminate burrs in the process, and after the spring hollow rod is contracted to the limit, the surface of the friction ball and the inner wall of the top of the lower die are located in the same plane, the polishing piece cannot extend out continuously at the moment, proper burr elimination operation is favorably finished, and excessive polishing of the polishing piece to form the standard size of a shell is favorably avoided.

4. This high-end equipment is made and is detected integrative equipment with shaping, the friction ball because of with the piece laminating of polishing, can make the friction ball roll in situ when polishing the piece rotation, thereby this setting prevents to polish and take place wearing and tearing between the ball through reducing frictional force, and inside spring air rod and die cover intercommunication make the water can get into spring air rod, thereby make the water transmit to polishing the surface after the ball that rubs adheres, be favorable to cooling polishing the piece, but the die cover passes through driving motor horizontal rotation and adjusts the orientation, and the flexible of cooperation polishing piece can be eliminated the different side burr of casing and polish.

5. This high-end equipment is made and is detected integrative equipment with shaping, tripe electromagnetic sheet circular telegram produces magnetism, and the flaring box wraps up in a polishing outside, is favorable to adsorbing the metal piece that grinds the production, avoids the piece to splash, and the tripe electromagnetic sheet upset outage elimination magnetism after polishing, cooperates the aspiration pump simultaneously and can absorb the piece and collect for tripe electromagnetic sheet can repeat the operation.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the lower mold of the present invention;

FIG. 3 is a schematic view of the internal structure of the sideform of the present invention;

FIG. 4 is a schematic view of the internal structure of the protective case of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention.

In the figure: 1. a work floor; 2. a lower die assembly; 201. a lower die; 202. a water inlet pipe and a water outlet pipe; 203. a water pipeline; 204. an electric heating wire; 205. a thermally conductive copper sheet; 3. a slide rail; 4. a sliding push rod; 5. a drive motor; 6. an upper die assembly; 601. a mold cover; 602. a spring hollow rod; 603. a friction ball; 604. a cavity bottom template; 605. a spring lever; 606. a sideform; 607. a water supply pipe; 7. a laser profile projection device; 8. polishing the assembly; 801. protecting the shell; 802. polishing the motor; 803. an electric push rod; 804. polishing the workpiece; 805. a bearing; 806. a flaring box; 807. shutter electromagnetic sheets; 808. a transmission gear; 809. a drive belt; 810. a micro motor; 811. an air extraction box; 812. filtering with a screen; 813. an air pump; 814. a side door.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a technical solution: a molding and detecting integrated device for manufacturing high-end equipment comprises an operation bottom plate 1 and an upper die assembly 6, wherein the lower die assembly 2 is arranged on the left side of the surface of the operation bottom plate 1, a slide rail 3 is arranged above the lower die assembly 2, a slide push rod 4 is arranged inside the slide rail 3, the bottom of the slide push rod 4 is connected with a driving motor 5, the upper die assembly 6 is arranged at the bottom of the driving motor 5, the upper die assembly 6 comprises a die cover 601, a spring hollow rod 602, friction balls 603, a cavity bottom die plate 604, a spring rod 605, a side die plate 606 and a water supply pipe 607, the spring hollow rod 602 is arranged on the side surface inside the die cover 601, the friction balls 603 are embedded in the outer end of the spring hollow rod 602, the cavity bottom die plate 604 is connected to the bottom of the die cover 601, the spring rod 605 is connected to the surface of the cavity bottom die plate 604, the side die plate 606 is fixed to the outer side of the spring rod 605, and the water supply pipe 607 is connected to the top of the die cover 601, the middle part of the operation bottom plate 1 is provided with a laser contour projection device 7, the right side surface of the operation bottom plate 1 is provided with a polishing component 8, the polishing component 8 comprises a protective shell 801, a polishing motor 802, an electric push rod 803 and a polishing piece 804, the polishing motor 802 is fixed inside the protective shell 801, the left side of the polishing motor 802 is connected with the electric push rod 803, and the left side of the electric push rod 803 is connected with the polishing piece 804;

the concrete operation is as follows, the shell is formed after compression molding of the liquefied material, at the moment, water is injected into the cavity bottom template 604 through the water supply pipe 607, the spring rod 605 can extend out along with the increase of water volume to enable the side template 606 to be tightly attached to the inner wall of the shell, the shell is taken out through the sliding push rod 4, the shell is moved to the position of the polishing piece 804 along the inside of the sliding rail 3, then the polishing piece 804 extends out through the electric push rod 803 to abut against the surface of the friction ball 603, meanwhile, the polishing piece 804 rotates through the polishing motor 802, the spring hollow rod 602 shrinks due to the stress of the friction ball 603, the polishing piece 804 polishes burrs at the edge of the shell in the shrinking process, the polishing piece 804 cannot extend out continuously after the spring hollow rod 602 shrinks to the limit, polishing can be finished at the moment, the shell can be driven to rotate through the driving motor 5, the polishing of burrs on different sides of the shell is facilitated, and the friction ball 603 rolls in situ in the spring hollow rod 602 due to the contact with the polishing piece 804 in the polishing process Thereby reduce frictional force and avoid both impaired, simultaneously delivery pipe 607 is to the inside water injection of die cover 601, the water passes spring idle rod 602 and friction ball 603 contact, friction ball 603 carries the water to transmit to the piece 804 surface of polishing because of rotating, be favorable to cooling down of dispelling the heat to the piece 804 of polishing, it is softened to avoid the piece 804 long-term friction to be heated, and throw the laser profile of casing standard size in die cover 601 bottom surface at the in-process laser profile projection equipment 7 of polishing, because the edge of casing itself coincides with the laser profile, whether the observation coincidence department has the defect can detect out the casing standard, after polishing detection finishes, the water is extracted the automatic shrink of back spring rod 605 and makes side form 606 fold and reset by external water pump, thereby conveniently carry out follow-up casing fashioned operation, also make things convenient for the casing to carry out the unloading simultaneously.

As shown in fig. 1 and 3, the friction ball 603 performs a rolling motion in situ inside the hollow spring rod 602, and after the hollow spring rod 602 is contracted, the outer wall of the friction ball 603 and the top inner wall of the lower mold 201 are located on the same plane;

the friction ball 603 contacts with the grinding part 804 and rolls in situ due to the rotation of the grinding part 804, which is beneficial to reducing the friction force generated when the friction ball and the grinding part are contacted with each other, and the friction damage caused by the long-term contact of the friction ball 603 and the inner wall of the top of the lower die 201 is avoided, and the outer wall of the friction ball 603 after the spring hollow rod 602 contracts is positioned on the same plane, namely, the grinding part 804 extends out to the limit, namely, the grinding degree of the shell reaches the limit, and the shell at the moment is of a standard size, which is beneficial to realizing the grinding precision.

As shown in fig. 3, the spring hollow rods 602 are hollow, and the spring hollow rods 602 are symmetrically distributed with respect to the vertical central axis of the mold cover 601;

the delivery pipe 607 is to the inside water injection of die cover 601, and the water passes spring idle rod 602 and the contact of friction ball 603, and friction ball 603 carries the water and contacts with piece 804 of polishing because of rolling for the water cools down piece 804, avoids the piece 804 of polishing to be heated softly for long-term operation.

As shown in fig. 3, the top and bottom sides of the side mold plate 606 are respectively attached to the bottom of the mold cover 601 and the bottom side of the cavity bottom mold plate 604, and the water supply pipe 607 is movably connected to the mold cover 601;

the side mold plate 606 is closely attached to the mold cover 601 and the cavity bottom mold plate 604 when not expanded, and compression molding is performed inside the lower mold 201, so that the inside of the molded shell is in a preset shape, and the water supply pipe 607 is movably connected with the mold cover 601, so that the mold cover 601 can still maintain water supply while rotating, and the pipeline is prevented from being wound due to rotation.

As shown in fig. 1 and 4, the polishing member 804 moves horizontally left and right through the electric push rod 803, and the polishing member 804, the electric push rod 803 and the polishing motor 802 are rotatably connected;

the piece 804 of polishing can polish the burr of unidimensional not through electric putter 803 is flexible, is standard specification until the casing, and the piece 804 of polishing all rotates through grinding motor 802 with electric putter 803, makes the piece 804 of polishing keep rotating when flexible and polish the operation.

As shown in fig. 1-2, the lower mold assembly 2 includes a lower mold 201, water inlet and outlet pipes 202, water pipes 203, heating wires 204, and heat-conducting copper sheets 205, the water inlet and outlet pipes 202 are connected to both sides of the lower mold 201, the water pipes 203 are opened inside the lower mold 201, the heating wires 204 are disposed inside the water pipes 203, and the heat-conducting copper sheets 205 are disposed outside the heating wires 204;

the concrete operation is as follows, the material that will liquefy pours into inside the lower mould 201, and wait to go up mould assembly 6 and push down and carry out compression moulding to the material, in waiting for the in-process, it makes the inside heat that keeps of lower mould 201 to generate heat through heating wire 204 circular telegram, avoid the material to cool off the shaping in advance, and when the casing shaping, business turn over water pipe 202 is to the inside cooling water that pours into of water pipeline 203, the cooling water absorbs the heat and can accelerate casing shaping speed, thereby improve work efficiency, and heat conduction copper sheet 205 can conduct the discharge to the heat that the cooling water absorbed, make the cooling water dispel the heat fast, thereby make the cooling water can long-term recycle use.

As shown in fig. 2, the water pipe 203 is spirally disposed inside the lower mold 201, and the water pipe 203, the heating wire 204 and the heat conducting copper sheet 205 are distributed in parallel, and one end of the heat conducting copper sheet 205 penetrates through the side surface of the lower mold 201;

the cooling water is spirally circulated along the water pipe 203 to absorb the heat in the lower mold 201 to the maximum extent, so that the forming speed of the shell is accelerated, the heating wire 204 is also spirally arranged in the water pipe 203, so that the inside of the lower mold 201 is uniformly heated, no cooling water is arranged in the water pipe 203 during heating, and the cooling water is prevented from being heated and boiling.

As shown in fig. 4-5, the polishing assembly 8 further includes a bearing 805, a flared box 806, a louver electromagnetic plate 807, a transmission gear 808, a transmission belt 809, a micro motor 810, an air extracting box 811, a filter screen 812, an air extracting pump 813 and a side box door 814, the outer wall of the electric push rod 803 is connected with the bearing 805, the outer portion of the bearing 805 is connected with the flared box 806, the inner wall of the flared box 806 is provided with the louver electromagnetic plate 807, two ends of the louver electromagnetic plate 807 are connected with the transmission gear 808, the side surface of the transmission gear 808 is connected with the micro motor 810, the surface of the transmission gear 808 is sleeved with the transmission belt 809, the flared box 806 is connected with the air extracting box 811 through a hose, the filter screen 812 is fixed in the middle of the inner wall of the air extracting box 811, the air extracting pump 813 is arranged on the right side of the filter screen 812, and the side box door 814 is connected to the left side of the inner wall of the air extracting box 811;

the specific operation is as follows, the flaring box 806 is synchronous flexible along with the piece of polishing 804, and do not rotate along with the piece of polishing 804 through bearing 805, the piece of polishing 804 is adsorbed by tripe electromagnetic sheet 807 after the circular telegram because of the metal debris that produces of polishing, avoid the piece to splash, and after polishing micro motor 810 drives driving gear 808 and makes tripe electromagnetic sheet 807 overturn, and through the synchronous upset of driving belt 809 between tripe electromagnetic sheet 807 make the piece inside towards the flaring box 806, tripe electromagnetic sheet 807 outage loses magnetism this moment, the inside piece of flaring box 806 is extracted to the rethread aspiration pump 813, make the piece save in the extraction box 811 and by the filter screen 812 separation, regularly open side chamber door 814 and can carry out recovery processing to the piece.

As shown in fig. 4, flare box 806 is located on the right side of the grinding member 804, and flare box 806 is flared;

flare box 806 is always on the right side of the grinding element 804 to collect debris while avoiding contact with the shell or friction ball 603, while flare box 806 is flared to facilitate full debris adsorption.

As shown in fig. 5, the electromagnetic louver sheets 807 are uniformly distributed inside the flaring box 806, and the electromagnetic louver sheets 807 are linked and connected through the transmission teeth 808 and the transmission belt 809;

the electromagnetic louver sheets 807 are movably connected with the flaring box 806 through the transmission teeth 808, and the electromagnetic louver sheets 807 are synchronously turned over through the transmission belt 809, so that the collection efficiency of scraps can be improved, and the use cost is reduced.

In summary, when the integrated molding and detecting device for manufacturing high-end equipment is used, firstly, liquefied materials are injected into the lower mold 201, the upper mold assembly 6 is waited to be pressed down to perform compression molding on the materials, and in the waiting process, the heating wire 204 is electrified to generate heat so that the interior of the lower mold 201 keeps heat, and the materials are prevented from being cooled and molded in advance;

then the upper die assembly 6 is pressed downwards through the sliding push rod 4 to enter the lower die 201 to perform compression molding operation on the material, at the moment, the electric heating wire 204 is powered off, the water inlet and outlet pipe 202 injects cooling water into the water pipeline 203, the cooling water absorbs heat to accelerate the forming speed of the shell, and the heat conduction copper sheet 205 can conduct and discharge the heat absorbed by the cooling water, so that the cooling water can be quickly dissipated, and the cooling water can be recycled for a long time;

after the shell is formed, water is injected into the cavity bottom template 604 through a water supply pipe 607, a spring rod 605 can extend out along with the increase of water amount to enable a side template 606 to be tightly attached to the inner wall of the shell, the shell is taken out through a sliding push rod 4, the shell is moved to the position of a polishing piece 804 along the inside of a sliding rail 3, the polishing piece 804 extends out through an electric push rod 803 to abut against the surface of a friction ball 603, meanwhile, the polishing piece 804 rotates through a polishing motor 802, the spring hollow rod 602 shrinks due to the stress of the friction ball 603, the polishing piece 804 polishes burrs at the edge of the shell in the shrinking process, when the spring hollow rod 602 shrinks to the limit, the polishing piece 804 cannot extend out continuously, and polishing of one side of the shell is finished at the moment;

the shell can be driven to rotate by the driving motor 5, burrs on different sides of the shell can be polished conveniently, the friction ball 603 can roll in situ in the spring hollow rod 602 due to contact with the polishing piece 804 in the polishing process, friction force is reduced, damage of the friction ball and the polishing piece is avoided, meanwhile, water is injected into the die cover 601 through the water supply pipe 607, water penetrates through the spring hollow rod 602 to be in contact with the friction ball 603, the friction ball 603 is transmitted to the surface of the polishing piece 804 due to rotation, heat dissipation and cooling of the polishing piece 804 are facilitated, softening of the polishing piece 804 due to long-term friction and heating is avoided, the laser profile projection equipment 7 projects a laser profile with a standard size of the shell on the bottom surface of the die cover 601 in the polishing process, as the edge of the shell is overlapped with the laser profile, whether a defect exists in the overlapped part or not can be detected, after polishing detection is finished, after water is pumped and discharged by an external water pump, the spring rod 605 automatically contracts to enable the side die plate 606 to be folded and reset, so that the subsequent shell forming operation is facilitated, and meanwhile, the shell is convenient to discharge;

at last, the flaring box 806 is stretched out and drawn back along with the polishing piece 804 synchronously, and does not rotate along with the polishing piece 804 through the bearing 805, the metal debris that the polishing piece 804 produced because of polishing is adsorbed by the tripe electromagnetic sheet 807 after the circular telegram, avoid the piece to splash, and the micromotor 810 drives the driving gear 808 after polishing and makes the tripe electromagnetic sheet 807 upset, and make the piece inside towards the flaring box 806 through the synchronous upset of driving belt 809 between the tripe electromagnetic sheet 807, the tripe electromagnetic sheet 807 outage loses magnetism this moment, the inside piece of flaring box 806 is extracted to the rethread aspiration pump 813, make the piece store in the suction box 811 and by the filter screen 812 separation, regularly open side chamber door 814 and can carry out recovery processing to the piece.

Claims

1. The utility model provides a high-end equipment is made and is detected integrative equipment with shaping, includes operation bottom plate (1) and last mould component (6), its characterized in that: the left side of the surface of the operation bottom plate (1) is provided with a lower die assembly (2), a sliding rail (3) is arranged above the lower die assembly (2), a sliding push rod (4) is arranged inside the sliding rail (3), the bottom of the sliding push rod (4) is connected with a driving motor (5), the upper die assembly (6) is arranged at the bottom of the driving motor (5), the upper die assembly (6) comprises a die cover (601), a spring hollow rod (602), a friction ball (603), a cavity bottom template (604), a spring rod (605), a side template (606) and a water supply pipe (607), the side surface of the inside of the die cover (601) is provided with the spring hollow rod (602), the outer end of the spring hollow rod (602) is embedded with the friction ball (603), the bottom of the die cover (601) is connected with the cavity bottom template (604), and the surface of the cavity bottom template (604) is connected with the spring rod (605), the outside of spring beam (605) is fixed with side form board (606), mould lid (601) top is connected with delivery pipe (607), the middle part of operation bottom plate (1) is settled there is laser profile projection equipment (7), and the right side surface of operation bottom plate (1) is provided with polishing subassembly (8), polishing subassembly (8) are including protecting the shell (801), grinding motor (802), electric putter (803) and polishing piece (804), the inside of protecting the shell (801) is fixed with grinding motor (802), and the left side of grinding motor (802) is connected with electric putter (803), the left side of electric putter (803) is connected with polishing piece (804).

2. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the lower die assembly (2) comprises a lower die (201), a water inlet and outlet pipe (202), a water pipeline (203), an electric heating wire (204) and a heat conduction copper sheet (205), the water inlet and outlet pipe (202) is connected to two sides of the lower die (201), the water pipeline (203) is arranged inside the lower die (201), the electric heating wire (204) is arranged inside the water pipeline (203), and the heat conduction copper sheet (205) is arranged outside the electric heating wire (204).

3. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 2, wherein: the water pipeline (203) is spirally arranged inside the lower die (201), the water pipeline (203), the heating wire (204) and the heat conduction copper sheet (205) are distributed in parallel, and one end of the heat conduction copper sheet (205) penetrates through the side face of the lower die (201).

4. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the friction ball (603) performs in-situ rolling motion in the spring hollow rod (602), and the outer wall of the friction ball (603) and the top inner wall of the lower die (201) are positioned on the same plane after the spring hollow rod (602) contracts.

5. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the spring hollow rods (602) are hollow, and the spring hollow rods (602) are symmetrically distributed around the vertical central axis of the mold cover (601).

6. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the top and bottom sides of the side template (606) are respectively attached to the bottom of the mold cover (601) and the bottom side of the cavity bottom template (604), and the water supply pipe (607) is movably connected with the mold cover (601).

7. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the polishing piece (804) horizontally moves left and right through the electric push rod (803), and the polishing piece (804), the electric push rod (803) and the polishing motor (802) are in rotating connection.

8. The integrated molding and detecting device for manufacturing high-end equipment as claimed in claim 1, wherein: the polishing component (8) further comprises a bearing (805), a flaring box (806), a louver electromagnetic sheet (807), transmission teeth (808), a transmission belt (809), a micro motor (810), an air extraction box (811), a filter screen (812), an air extraction pump (813) and a side box door (814), wherein the outer wall of the electric push rod (803) is connected with the bearing (805), the flaring box (806) is connected to the outside of the bearing (805), the louver electromagnetic sheet (807) is arranged on the inner wall of the flaring box (806), the transmission teeth (808) are connected to two ends of the louver electromagnetic sheet (807), the micro motor (810) is connected to the side face of the transmission teeth (808), the transmission belt (809) is sleeved on the surface of the transmission teeth (808), the flaring box (806) is connected with the air extraction box (811) through a hose, the filter screen (812) is fixed to the middle part of the inner wall of the air extraction box (811), and the air extraction pump (813) is arranged on the right side of the filter screen (812), the left side of the inner wall of the air extraction box (811) is connected with a side box door (814).

9. The integrated molding and inspection device for manufacturing high-end equipment as claimed in claim 8, wherein: the flaring box (806) is positioned on the right side of the grinding piece (804), and the flaring box (806) is trumpet-shaped.

10. The integrated molding and inspection device for manufacturing high-end equipment as claimed in claim 8, wherein: the louver electromagnetic sheets (807) are uniformly distributed in the flaring box (806), and the louver electromagnetic sheets (807) are connected in a linkage manner through transmission teeth (808) and a transmission belt (809).