CN109514808B - Optical device ceramic mold capable of being ejected and cooled by layering and convenient for taking out product - Google Patents

Abstract

The invention discloses an optical device ceramic mould which is cooled by layered ejection and is convenient for taking out a product, and the structure of the mould comprises: the cooling tube, the hole of moulding plastics, the guide pillar, the movable seat, layering ejecting device, make inside T type pole under the activity of mount pad through inside is spacing, cooperation frame and backup pad make up into the die cavity of mould, then carry out the moulding plastics of resin through the hole of moulding plastics, and after moulding plastics, the back is applyed to the power of fore-set through the below, the mechanical frame function of top, and the gas that produces can flow into the arc pipe with higher speed and make the velocity of flow accelerate, simultaneously with the inside blowout of cooperation frame, a quick refrigerated work that carries out of the inside resin of die cavity, thereby can carry out air conditioning when taking out the finished product and pour into work and be used for off-the-shelf cooling work, thereby optical device's the gluing when preventing to take out, the condition that the.

Description

Optical device ceramic mold capable of being ejected and cooled by layering and convenient for taking out product

Technical Field

The invention relates to the field of ceramic molds, in particular to an optical device ceramic mold which is capable of ejecting and cooling by layering and is convenient for taking out a product.

Background

The optical device is generally made of resin material, melted at high temperature, and then injected into the inside of the apparatus by an injection molding machine, and when mold separation is performed, a finished product is lifted and output from the inside of the mold by the way of the ejection rod below, but in such a way:

when taking out the work, carry out inside finished product ejecting mode through inside ejector pin with the mode of top moving and make inside resin not condense yet easily, the condition that the finished product that appears when the top is moved damages appears to through the mode of perpendicular top moving when carrying out the inside finished product of equipment ejecting, the scratch is pushed out to smooth optical device's surface to inside body of rod easily when ejecting, thereby influences optical device's normal use.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: through the optics ceramic mold of the ejection cooling of layering convenient to take out product, its structure includes: the cooling device comprises a cooling pipe, an injection molding hole, a guide pillar, a movable seat and a layered ejection device, wherein the movable seat is located on the upper end face of the layered ejection device and is movably connected with the layered ejection device, the cooling pipe is located on the front end face of the movable seat and is communicated with the movable seat, the guide pillar and the movable seat are perpendicular to each other and are embedded into the movable seat, the injection molding hole is located in the center of the upper surface of the movable seat and is of an integrated structure with the movable seat, and the cooling pipe is a water-cooled pipeline and is connected with an external water flow pipe.

As a further optimization of the invention, the layered ejection device is provided with square iron, a matching power frame and a movable support frame, the movable support frame is arranged on the lower side of the matching power frame and is movably connected with the matching power frame, the square iron is positioned at the left end and the right end of the movable support frame and is movably connected with the left end and the right end of the movable support frame, and the square iron is of a rectangular metal block structure.

The invention is further optimized by the following steps that the matching power frame is provided with a mandril, an arc-shaped pipe, an installation seat, a T-shaped rod, a matching frame, a supporting plate and a hinged seat, the matching frame is movably connected with the upper end face of the supporting plate, the hinged seat is positioned on the lower end face of the supporting plate and is fixedly connected with the supporting plate, the mandril is arranged at the lower end of the hinged seat and is movably connected with the lower end face of the hinged seat, the T-shaped rod is arranged on the outer end face of the supporting plate and is also connected with the supporting plate in a matching way, the arc-shaped pipe is arranged on the lower end face of the matching frame and is communicated with the lower end face of the matching frame, the T-shaped rod is of.

As a further optimization of the invention, the matching frame is provided with a cavity, a baffle, a fine pore plate, a through hole frame, an arc-shaped block and a displacement frame, the displacement frame is arranged on the outer side end face of the fine pore plate and is fixedly connected with the fine pore plate, the baffle is arranged on the front end face of the fine pore plate and is in an integrated structure with the fine pore plate, the cavity is arranged on the front end face of the baffle and is fixedly connected with the front end face of the baffle, the through hole frame is fixedly arranged on the left side end face of the fine pore plate and is fixedly connected with the left end face of the fine pore plate, and the arc-.

As a further optimization of the invention, the displacement frame is provided with a limiting block, an electromagnetic block, a sliding groove, a roller and a movable block, the movable block is positioned on the upper end face of the limiting block and movably connected with the upper end face of the limiting block, the sliding groove is fixedly arranged on the inner side end face of the limiting block, the roller is embedded into the sliding groove and adopts clearance fit, the electromagnetic block is vertically parallel to the movable block and is fixedly connected with the sliding groove, the roller is a rolling structure with a cylinder in the middle and baffles at two ends, and the lower end face of the movable block is provided with a magnet block.

As a further optimization of the invention, the movable support frame is provided with a mechanical frame, a through hole plate and a top column, the top column is embedded into the through hole plate and is movably connected with the through hole plate, the mechanical frame is arranged on the upper side end face of the through hole plate and is matched and connected with the through hole plate, and a cylindrical large opening is arranged below the through hole plate.

As a further optimization of the invention, the mechanical frame is provided with a spring column, a displacement plate, a hinge plate, an air cushion, a rubber ball and a telescopic rod, the telescopic rod is positioned on the upper side end face of the hinge plate and is movably connected with the hinge plate, the rubber ball is positioned on the left side of the upper end face of the hinge plate and is fixedly connected with the hinge plate, the air cushion and the rubber ball are parallel to each other and are simultaneously integrated with the hinge plate into a whole, the displacement plate is arranged on the lower end face of the hinge plate and is movably connected with the lower end face of the hinge plate, and the spring column is.

As a further optimization of the invention, the arc-shaped block is a triangular structure with the arc-shaped block arranged in the oblique inner part, and the baffle is a smooth arc-shaped block body.

As a further optimization of the invention, the hinge plate is a movable bracket with a hinge rod body arranged on one side, and the spring column is provided with a cylindrical movable structure inside the spring.

Advantageous effects

The invention is applied to an optical device ceramic die which is cooled by layered ejection and is convenient for taking out a product, when the taking-out work is carried out, an internal T-shaped rod, a baffle plate and a support plate in a matching frame are combined into a die cavity of the die through the movable limit of an internal mounting seat in advance, then resin is injected through an injection hole, after the injection is carried out, power of a lower ejection column is applied, an upper mechanical frame operates, after a displacement plate in the die cavity is stressed to rise, a hinge plate rises along with the force of the internal displacement plate, the hinge plate carries out ejection extrusion work on an internal telescopic rod, a rubber ball and an air cushion, flowing cold air is generated by extruding the air cushion, the generated air can flow into an arc-shaped pipe at an accelerated speed, and is ejected along a pore plate under the guidance of an arc-shaped block in the matching frame, so as to be used for the rapid cooling work of the, thereby being capable of carrying out cold air filling work for cooling the finished product when the finished product is taken out, preventing the optical device from being stuck and damaging the finished product when the finished product is taken out, then when the rubber ball at the lower part is pushed, the T-shaped rod and the ejector rod at the upper part are stressed to rise, and after the ejector rod ejects the supporting plate, the displacement of the supporting plate is stopped under the influence of the telescopic rod, and then after the pressure is continuously applied to the top column, under the movable displacement of the hinge plate, the T-shaped rod above the hinge plate obliquely pushes out the internal device, the roller inside the hinge plate rolls through the sliding groove, the movable block above the hinge plate is taken out, two sides of the device are obliquely fallen off, the contact area between the device and the air is enlarged, then the surface contact of the T-shaped rod is used, and when the internal device is obliquely ejected out according to one side by the increased stress area, the device can be prevented from being scratched, so that the rapid demoulding operation is completed.

According to the invention, the matching power frame is matched with the movable support frame, the internal T-shaped rod, the matching frame and the support plate are combined into a cavity of the mold under the action of the movable limit of the internal mounting seat, then resin injection is carried out through an injection hole, after the resin injection is carried out, the power of the lower ejection column is applied, the upper mechanical frame operates, and the generated gas can flow into the arc-shaped pipe at an accelerated speed to accelerate the flow velocity, and is sprayed out from the inside of the matching frame to be used for rapidly cooling the resin in the cavity, so that cold air can be filled into the cavity to be used for cooling a finished product when the finished product is taken out, and the situation that the optical device is adhered to cause damage to the finished product when the finished product is taken out is prevented.

According to the invention, through the matching of the matching frame and the displacement frame, the inner movable block displaces on the sliding groove of the fine pore plate, then stops on the limiting plate, and is limited and fixed by the electromagnet below, so that the installation position of each injection molding is the same, the damage caused by stripping in a jacking mode is prevented through a separable structure, meanwhile, the inner baffle is an arc-shaped bent plate body, the stripping inclination can be formed, the stripping is simpler and more convenient, the air flow is guided through the inner arc-shaped block, meanwhile, the air flow is output in a dispersed mode through the small holes of the fine pore plate, and the rapid cooling work is carried out through the contact of the air flow and the baffle.

According to the invention, through the mechanical frame, the internal hinged plate is subjected to the jacking power of the lower direction moving plate, during displacement, the hinged plate follows displacement, meanwhile, the jacking output distances of the ejector rod and the T-shaped rod are different under the limit of the upper telescopic rod, after the ejector rod stops jacking, the movable support on the internal hinged rod can enable the rubber ball to continuously rise for a section, the internal finished product taking work is carried out in an oblique manner, and the finished product can be prevented from being damaged by jacking.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic three-dimensional structure of a main body of an optical device ceramic mold for facilitating product removal by layered ejection cooling according to the present invention.

Fig. 2 is a schematic view of a cross-sectional mechanism of a cleaning, grinding and cutting device for an optical device ceramic mold for facilitating product removal by layered ejection cooling according to the present invention.

FIG. 3 is a schematic structural diagram of a matching power rack of an optical device ceramic mold for facilitating product removal through layered ejection cooling according to the present invention.

Fig. 4 is a schematic half-sectional view of a fitting frame of an optical device ceramic mold for facilitating product removal by layered ejection cooling according to the present invention.

Fig. 5 is a schematic structural view of a displacement frame of an optical device ceramic mold for facilitating product removal through layered ejection cooling according to the present invention.

Fig. 6 is a schematic structural diagram of a movable support frame of an optical device ceramic mold for facilitating product removal through layered ejection cooling according to the present invention.

Fig. 7 is a schematic structural view of a mechanical frame of an optical device ceramic mold for facilitating product removal through layered ejection cooling according to the present invention.

In the figure: cooling pipe-1, injection hole-2, guide post-3, movable seat-4, layered ejection device-5, square iron-51, matching power frame-52, movable support frame-53, ejector rod-521, arc-shaped pipe-522, mounting seat-523, T-shaped rod-524, matching frame-525, support plate-526, hinged seat-527, cavity-5251, baffle-5252, fine pore plate-5253, through hole frame-5254, arc-shaped block-5255, displacement frame-5256, limiting block-a, electromagnetic block-s, chute-d, roller-f, movable block-g, mechanical frame-531, through hole plate-532, top post-533, spring post-5311, displacement plate-5312, hinged plate-5313, air cushion-5314, Rubber ball-5315, telescopic rod-5316.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is convenient for taking out a product, and the structure of the ceramic mold comprises: the cooling device comprises a cooling pipe 1, an injection molding hole 2, a guide pillar 3, a movable seat 4 and a layered ejection device 5, wherein the movable seat 4 is located on the upper end face of the layered ejection device 5 and is movably connected with the layered ejection device 5, the cooling pipe 1 is arranged on the front end face of the movable seat 4 and is communicated with the movable seat 4, the guide pillar 3 and the movable seat 4 are perpendicular to each other and are embedded into the movable seat 4, the injection molding hole 2 is arranged in the center of the upper surface of the movable seat 4 and is of an integrated structure with the movable seat 4, the cooling pipe 1 is a water-cooled pipeline and is connected with an external water flow pipe, and the internal finished product is cooled through the communicated water flow pipe through cooling water flow.

Referring to fig. 2, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is capable of facilitating the removal of a product, and the structure of the ceramic mold comprises: layering ejecting device 5 is equipped with square iron 51, cooperation power frame 52, movable support frame 53 locates the downside of cooperation power frame 52 simultaneously and cooperation power frame 52 swing joint, square iron 51 is located both swing joint in both ends about movable support frame 53, square iron 51 is rectangular metal block structure, carries out the separation and the separation between inside equipment through rectangular metal block structure.

Referring to fig. 3, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is capable of facilitating the removal of a product, and the structure of the ceramic mold comprises: the matching power frame 52 is provided with a mandril 521, an arc-shaped pipe 522, a mounting seat 523, a T-shaped rod 524, a matching frame 525, a supporting plate 526 and a hinged seat 527, the matching frame 525 is arranged on the upper end surface of the supporting plate 526 and is movably connected with the supporting plate 526, the hinge seat 527 is positioned on the lower end surface of the supporting plate 526 and is fixedly connected with the supporting plate 526, the top rod 521 is arranged at the lower end of the hinge seat 527 and is movably connected with the hinge seat, the T-shaped rod 524 is arranged at the outer end face of the support plate 526 and is matched and connected with the support plate 526, the arc-shaped pipe 522 is arranged on the lower end surface of the matching frame 525 and is communicated with the matching frame, the T-shaped rod 524 is a plate-shaped T-shaped structure, the T-shaped structure can intersect the support plate 526 above to prevent displacement of the device, the arc-shaped pipe 522 is a through hole type special-shaped structure with a large lower part and a small upper part, and the flow speed of airflow in the pipeline is accelerated through the through hole type special-shaped structure with the small lower part.

Referring to fig. 4, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is capable of facilitating the removal of a product, and the structure of the ceramic mold comprises: the fitting frame 525 is provided with a cavity 5251, a baffle 5252, a fine-hole plate 5253, a through-hole frame 5254, an arc block 5255 and a displacement frame 5256, the displacement frame 5256 is provided on the outer end surface of the fine hole plate 5253 and is fixedly connected to the fine hole plate 5253, the baffle 5252 is positioned at the front end surface of the fine pore plate 5253 and is integrally constructed with the fine pore plate 5253, the cavity 5251 is fixedly connected with the front end surface of the baffle 5252, the through hole frame 5254 is fixedly arranged on the left end surface of the fine hole plate 5253, the arc blocks 5255 are positioned on the lower end surface of the through hole frame 5254 and are communicated, the arc blocks 5255 are in a triangular structure with the arc blocks obliquely arranged inside, make inside air current carry out the activity output along the arc piece through inside arc piece, baffle 5252 is smooth arc block, can form an curved bent angle when the deciduate, can prevent the production of bubble to can be so that simpler when the deciduate.

Referring to fig. 5, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is convenient for taking out a product, and the structure of the ceramic mold comprises: displacement frame 5256 is equipped with stopper an, electromagnetism piece s, spout d, gyro wheel f, movable block g is located both swing joint of the up end of stopper an, both structures as an organic whole of spout d fixed mounting at stopper an's medial surface, both adopt clearance fit in gyro wheel f embedding spout d's inside, electromagnetism piece an and movable block g parallel from top to bottom and with spout d fixed connection, gyro wheel f is the middle rolling structure that is equipped with the baffle for the cylinder and both ends, carries out spacing displacement that can prevent equipment when carrying out the output through the rolling structure of baffle type, the downside terminal surface of movable block g is equipped with the magnet piece.

Referring to fig. 6, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is convenient for taking out a product, and the structure of the ceramic mold comprises: the movable support frame 53 is provided with a mechanical frame 531, a through hole plate 532 and a top column 533, the top column 533 is embedded into the through hole plate 532, the inside of the through hole plate 532 is movably connected with the through hole plate 532, the mechanical frame 531 is arranged on the upper side end face of the through hole plate 532 and is connected with the through hole plate 532 in a matched mode, and a cylindrical large opening is arranged below the through hole plate 532.

Referring to fig. 7, the present invention provides a ceramic mold for an optical device, which is cooled by a layered ejection and is capable of facilitating the removal of a product, and the structure of the ceramic mold comprises: the mechanical frame 531 is provided with a spring column 5311, a displacement plate 5312, a hinge plate 5313, an air cushion 5314, a rubber ball 5315 and a telescopic rod 5316, the telescopic rod 5316 is located on the upper end face of the hinge plate 5313 and movably connected with the hinge plate 5313, the rubber ball 5315 is located on both left sides of the upper end face of the hinge plate 5313 and fixedly connected with the same, the air cushion 5314 and the rubber ball 5315 are parallel to each other and are in an integrated structure with the hinge plate 5313, the displacement plate 5312 is arranged on both lower end faces of the hinge plate 5313 and movably connected with each other, the spring column 5311 is fixedly installed on the lower side face of the hinge plate 5313, the hinge plate 5313 is a movable support with a hinge rod body on one side, the distance difference of displacement is realized by curved displacement of the support inside the movable support when the movable support moves on top, and the spring column 5311 is provided with a movable structure of a cylinder inside.

When taking out the mold, the internal T-shaped rod 524, the baffle 5252 and the support plate 526 inside the matching frame 525 are combined into the cavity 5251 of the mold by the movable limit of the internal mounting seat 523 in advance, then the injection molding of the resin is performed through the injection molding hole 2, after the injection molding, the power of the lower top pillar 533 is applied, the upper mechanical frame 531 operates, after the internal displacement plate 5312 is forced to rise, the hinge plate 5313 follows the rise, the internal telescopic rod 5316, the rubber ball 5315 and the air cushion 5314 are pushed and extruded through the hinge plate 5313, meanwhile, the flowing cold air is generated by extruding the air cushion 5314, the generated air can flow into the arc-shaped pipe 522 at an accelerated speed, and the generated air is ejected along the fine pore plate 5253 under the guidance of the arc-shaped block 5255 inside the matching frame 525 for rapidly cooling the resin inside the cavity, therefore, when the finished product is taken out, cold air is filled in the finished product for cooling the finished product, so that the situation that the finished product is damaged due to adhesion of an optical device when the finished product is taken out is prevented, then when the rubber ball 5315 below is pushed against, the T-shaped rod 524 and the ejector rod 521 above are stressed to rise, and after the ejector rod 521 ejects the support plate 526, the displacement of the support plate 526 is stopped under the influence of the telescopic rod 5316, then after pressure is continuously applied to the ejection column 533, the T-shaped rod 524 above obliquely ejects an internal device under the movable displacement of the hinge plate 5313, and at the moment, the roller f inside is rolled through the sliding groove d, the movable block g above is taken out, two sides of the device are obliquely removed, so that the contact area of the movable block g with air is increased, then the surface of the T-shaped rod 524 is in contact, and when the internal device is ejected obliquely according to one side due to the increased stressed area, the, thereby completing the rapid demoulding operation.

The invention solves the problems that when the inner ejection rod is used for ejecting the inner finished product in an ejection mode during taking out, the resin in the inner part is not condensed easily, the finished product is damaged during ejection, and when the finished product in the equipment is ejected in a vertical ejection mode, the inner rod body is easy to eject scratches on the surface of a smooth optical device while ejecting, so that the normal use of the optical device is influenced, in the invention, the inner T-shaped rod, the matching frame and the supporting plate are combined into a cavity of a mould through the movable limit of the inner mounting seat mainly by matching the power frame 52 and the movable supporting frame 53, then the resin is injected through an injection hole, after the injection is performed, the power of the lower ejection column is applied, the upper mechanical frame operates, and the generated gas can accelerate to flow into the arc-shaped pipe so as to accelerate the flow rate, meanwhile, the inner part of the matching frame is sprayed out, the resin in the cavity is used for rapidly cooling, so that cold air can be poured into the cavity for cooling a finished product when the finished product is taken out, the adhesion of an optical device when the finished product is taken out is prevented, the damaged finished product is prevented, the movable block inside the cavity is displaced on a chute on a pore plate and then stopped on a limiting plate, the electromagnet below the movable block is used for limiting and fixing, the installation position of injection molding at each time is the same, the damage caused by demoulding in a jacking mode is prevented through a separable structure, meanwhile, the baffle inside the cavity is an arc-shaped bent plate body, the demoulding inclination can be formed, the demoulding is more convenient, the air flow is guided through the arc-shaped block inside the cavity, meanwhile, the air flow is output in a dispersed mode through the pores of the pore plate, and the rapid cooling work is performed through the contact of the air flow and the baffle, the hinge plate inside is subjected to the jacking power of the lower position moving plate, when the hinge plate moves, the hinge plate follows the displacement, meanwhile, the jacking output distance between the ejector rod and the T-shaped rod is different under the limit of the telescopic rod above, after the ejector rod stops being ejected, the movable support on the hinge plate inside can enable the rubber ball to continuously rise for one section, the finished product inside is taken out in an oblique mode, and damage to the finished product due to jacking can be prevented.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. Through the optics ceramic mold of the ejection cooling of layering convenient to take out product, its structure includes: cooling tube (1), injection molding hole (2), guide pillar (3), sliding seat (4), layering ejecting device (5), sliding seat (4) are located the upside terminal surface of layering ejecting device (5) and with layering ejecting device (5) swing joint, cooling tube (1) are located the preceding terminal surface of sliding seat (4) and with sliding seat (4) through connection, its characterized in that:

the guide post (3) and the movable seat (4) are perpendicular to each other and embedded into the movable seat (4), and the injection molding hole (2) is arranged in the center of the upper surface of the movable seat (4) and is integrated with the movable seat (4);

the layered ejection device (5) is provided with square iron (51), a matching power frame (52) and a movable support frame (53), the movable support frame (53) is arranged on the lower side of the matching power frame (52) and is movably connected with the matching power frame (52), and the square iron (51) is positioned at the left end and the right end of the movable support frame (53) and is movably connected with the left end and the right end of the movable support frame (53);

the matching power frame (52) is provided with a top rod (521), an arc-shaped pipe (522), an installation seat (523), a T-shaped rod (524), a matching frame (525), a supporting plate (526) and a hinged seat (527), the matching frame (525) is arranged on the upper side end face of the supporting plate (526) and movably connected with the top end face, the hinged seat (527) is positioned on the lower side end face of the supporting plate (526) and fixedly connected with the supporting plate (526), the top rod (521) is arranged on the lower end of the hinged seat (527) and movably connected with the top end face, the T-shaped rod (524) is arranged on the outer side end face of the supporting plate (526) and is also matched and connected with the supporting plate (526), and the arc-shaped pipe (522) is arranged on the lower end face of the;

the matching frame (525) is provided with a cavity (5251), a baffle (5252), a fine hole plate (5253), a through hole frame (5254), an arc-shaped block (5255) and a displacement frame (5256), the displacement frame (5256) is arranged on the outer side end face of the fine hole plate (5253) and fixedly connected with the fine hole plate (5253), the baffle (5252) is positioned on the front end face of the fine hole plate (5253) and is in an integrated structure with the fine hole plate (5253), the cavity (5251) is positioned on the front end face of the baffle (5252) and is fixedly connected with the front end face of the fine hole plate (5253), the through hole frame (5254) is fixedly arranged on the left side end face of the fine hole plate (5253) and is fixedly connected with the left side end face of the fine hole plate, and the arc-shaped block (52.

2. The ceramic optic mold for facilitating removal of a product through tiered ejection cooling of claim 1 wherein: the movable support frame (53) is provided with a mechanical frame (531), a through hole plate (532) and a top column (533), the top column (533) is embedded into the inside of the through hole plate (532) and is movably connected with the through hole plate (532), and the mechanical frame (531) is arranged on the upper side end face of the through hole plate (532) and is connected with the through hole plate (532) in a matched mode.

3. The ceramic optic mold for facilitating removal of a product through tiered ejection cooling of claim 2 wherein: machinery frame (531) are equipped with spring post (5311), displacement plate (5312), hinge board (5313), air cushion (5314), rubber ball (5315), telescopic link (5316) are located the upside terminal surface of hinge board (5313) and with hinge board (5313) swing joint, rubber ball (5315) are located both fixed connection in the left side of hinge board (5313) up end, air cushion (5314) are parallel to each other with rubber ball (5315) simultaneously with hinge board (5313) structure as an organic whole, displacement plate (5312) are located both swing joint of lower terminal surface of hinge board (5313), spring post (5311) fixed mounting is in the downside of hinge board (5313).

4. The ceramic optic mold for facilitating removal of a product through tiered ejection cooling of claim 1 wherein: the arc block (5255) is a triangular structure with the arc block arranged in the oblique direction, and the baffle (5252) is a smooth arc block.

5. The ceramic optic mold for facilitating removal of a product through tiered ejection cooling of claim 3 wherein: the hinge plate (5313) is a movable support with a hinge rod body arranged on one side, and the spring column (5311) is provided with a cylindrical movable structure inside the spring.

Images