CN113510615A - Clamp for maintaining glass mold port die - Google Patents

Abstract

The utility model provides a glass mould bush maintenance is with anchor clamps, belongs to frock clamp technical field. Comprises a workpiece platform magnetic attraction mechanism; the base is fixed on the upper part of the magnetic attraction mechanism of the workpiece platform; the rotary seat is rotatably arranged at the upper part of the base; the die supporting frame guide rail is arranged on the rotary seat, and the middle part of the die supporting frame guide rail in the length direction is fixed with the rotary seat; the mouth die adjusting and supporting mechanism is movably arranged on the die supporting frame guide rail; and the manual operating mechanism of the rotary seat is connected with the rotary seat. The method has good adaptability to the workpiece platform; the adaptability requirement on glass mold neck molds with different specifications is met; the operation strength is reduced; is beneficial to maintenance operation.

Description

Clamp for maintaining glass mold port die

Technical Field

The invention belongs to the technical field of tool fixtures, and particularly relates to a fixture for maintaining a mouth mold of a glass mold.

Background

Glass molds are important equipment for manufacturing glass containers such as beer bottles, wine bottles, beverage bottles and cosmetic bottles for daily use, while glass mold dies are important parts of glass mold assemblies for controlling the molding of the mouth of the glass containers, and are usually made of mold steel through a series of processing steps, for which reference is made to patent documents such as, but not limited to: CN102601599A (a method for processing a glass mold die), and CN102601598A (a method for processing a glass mold die), and so on. For technical information on the glass mold die, see patent documents such as CN102730943B (die structure of glass mold for manufacturing glass container), CN102775047B (bimetal die of glass mold and method for producing the same), CN201485955U (a kind of neck mold) and CN102531336A (a kind of mold for molding mouth of glass article), and the like.

As known in the art, in the manufacturing process of the glass mold die, in order to improve the manufacturing efficiency, reduce the work intensity of clamping the workpiece by the on-line operator, and ensure the processing quality, the glass mold die is usually provided with corresponding clamps for processing the glass mold die according to different process links, such as chinese patent documents, which disclose CN201736059U (die clamp), CN102407450A (die positioning clamp), CN104162800B (clamp for processing the glass mold die), CN104175153B (clamp structure for processing the glass mold die), and CN107900594A (clamp structure for spray welding the glass mold die cavity), and so on.

As is also known in the art, glass molds including glass mold dies are relatively expensive due to their strict requirements for materials and the overall process of processing, and from the viewpoint of saving resources and saving the cost of using the molds, the glass molds (blank mold, forming mold), dies, punches, bottom molds, etc. need to be repaired according to specific situations, such as repairing damaged parts, spray welding seams (mold gaps) and all joints, trimming the joints between the blank mold and the blank mold, turning and polishing the joints between the blank mold and the dies, lettering and knurling the bottom mold plate, etc. The more frequent or more conventional items for maintaining the glass mold die are to polish the mold cavity and/or the mold clamping surface of the die by means of a mechanical polishing device, so that the quality of a glass product is ensured on one hand, and the reasonable service life of the glass mold die is ensured on the other hand, and the like.

The prior art is lack of a clamp for maintaining a glass mold die, for example, for polishing, so that the glass mold die is often positioned or hooked by a metal hook in an extremely original mode, such as a mode of using iron wires and chains, and one of the defects of the mode is that in order to meet the requirement that the iron hook hooks the glass mold die or meet the requirement that the chains clamp the glass mold die, a workpiece platform serving as a carrier for maintenance work, namely a working platform, is particularly selected; secondly, when the chain is used for clamping the mouth mold of the glass mold, the operation is troublesome and very slow; thirdly, the operation intensity of operators is high; and fourthly, the effect of clamping the neck mold by using the iron wire hook or the chain cannot be guaranteed, and the maintenance and polishing quality is influenced due to the looseness easily.

As is also known in the art, a tool holder is a special device for positioning a workpiece during manufacturing and/or subsequent processes and maintenance operations of a certain product to meet certain process requirements, and also generally needs to meet the requirements of no interference phenomenon during workpiece processing (including repair), convenient operation, relatively simple structure, and the like. Moreover, the tooling fixture has the exclusive characteristic of processing a certain workpiece or product, so that the degree of generalization is extremely low, and the tooling fixture is designed and manufactured by manufacturers of the workpiece (or the product). Based on this factor, there is no technical teaching in the patent and non-patent documents that have been published so far, which is suitable for the maintenance of the above-mentioned glass mold die, and the technical solution to be described below is made under such a background.

Disclosure of Invention

The invention aims to provide a clamp for maintaining a glass mold neck ring mold, which is beneficial to embodying the reliable matching effect between the clamp and a workpiece platform as a carrier, improving the adaptability to different specifications of the glass mold neck ring mold, embodying the ideal supporting effect, obviously reducing the operation intensity of an operator and conveniently ensuring the excellent stability of the glass mold neck ring mold in the supporting state.

The task of the invention is accomplished in this way, a clamp for maintaining a mouth mold of a glass mold comprises a workpiece platform magnetic attraction mechanism; the base is fixed on the upper part of the magnetic attraction mechanism of the workpiece platform; the rotary seat is rotatably arranged at the upper part of the base; the die supporting frame guide rail is arranged on the rotary seat, and the middle part of the die supporting frame guide rail in the length direction is fixed with the rotary seat; the mouth die adjusting and supporting mechanism is movably arranged on the die supporting frame guide rail; and the manual operating mechanism of the rotary seat is connected with the rotary seat.

In a specific embodiment of the present invention, the magnetic attraction mechanism of the workpiece platform comprises a magnetic force gauge stand and a magnetic knob, the magnetic knob is arranged on the magnetic force gauge stand, the base is fixed at the central position of the upper part of the magnetic force gauge stand, a rotary stand rotary guide boss protruding from the upper surface of the base is formed at the central position of the upper surface of the base, and a pin shaft screw matching threaded hole is formed at the central position of the rotary stand rotary guide boss; the surface of the rotary seat and positioned on one upward side of the rotary seat is provided with a first operating rod connecting lug I and a second operating rod connecting lug II which extend upwards, the space between the opposite sides of the first operating rod connecting lug I and the second operating rod connecting lug II is formed into a guide rail middle matching cavity, the bottom of the guide rail middle matching cavity is provided with a guide boss pivot matching hole, the guide boss pivot matching hole is in pivot matching with the rotary guide boss of the rotary seat, a rotary seat pin shaft screw is arranged at the position corresponding to the guide boss pivot matching hole, and the lower part of the rotary seat pin shaft screw is screwed into the pin shaft screw matching threaded hole.

In another specific embodiment of the invention, the middle part of the die carrier guide rail in the length direction is matched with the middle matching cavity of the guide rail and is fixed with the rotary seat, and two sides of the die carrier guide rail in the length direction are respectively provided with a support frame adjusting groove; the die adjusting and supporting mechanism is movably arranged on the die supporting frame guide rail at a position corresponding to the supporting frame adjusting groove; and the rotary seat manual operation mechanism is connected with the first operating rod connecting lug I and the second operating rod connecting lug II.

In another specific embodiment of the present invention, a die holder rail supporting groove for allowing the lower portion of the die holder rail to be fitted is further formed on the upper surface of the rotary base and at positions corresponding to both sides of the rail middle fitting cavity, a die holder rail fixing screw hole is formed at a position corresponding to the die holder rail supporting groove, a die holder screw hole is formed at a position corresponding to the die holder rail fixing screw hole on the die holder rail, and a die holder screw is provided at the die holder screw hole and fixed to the die holder rail fixing screw hole.

In yet another specific embodiment of the present invention, the die-regulating support mechanism includes a left die-supporting device and a right die-supporting device, the left die-supporting device is disposed at the left end of the die-supporting frame guide rail and is slidably fitted with the support frame regulating groove, and the right die-supporting device is disposed at the right end of the die-supporting frame guide rail and is also slidably fitted with the support frame regulating groove.

In yet another specific embodiment of the present invention, the structure of the left die supporting device is the same as that of the right die supporting device, the right die supporting device includes a right die supporting frame, a right die supporting arm, a right upper die supporting wheel and a right lower die supporting wheel, the right die supporting frame is disposed at the right end of the die supporting frame guide rail, the lower end of the right die supporting frame is in sliding fit with the supporting frame adjusting groove, the middle part of the right die supporting arm is rotatably supported at the upper end of the right die supporting frame at a position corresponding to the rear side of the right die supporting frame, the right upper die supporting wheel is rotatably disposed at the upper end of the rear side of the right die supporting arm, the right lower die supporting wheel is rotatably disposed at the lower end of the rear side of the right die supporting arm, and an upper die supporting wheel die outer wall flange matching groove is formed in the middle part of the right upper die supporting wheel and around the circumferential direction of the right upper die supporting wheel.

In a more specific embodiment of the present invention, a right die holder guide rail sliding fit groove is formed at the bottom of the lower end of the right die holder, the right die holder guide rail sliding fit groove penetrates from the left side to the right side of the right die holder and has a cross-sectional shape of Jiong characters, right die holder guide sliding bosses protruding from the surfaces of the groove walls are formed on the groove walls of the right die holder guide rail sliding fit groove on the sides facing each other and at positions corresponding to each other, the right die holder guide sliding bosses are in sliding fit with the support frame adjusting groove, a right die holder locking screw hole is formed in the right die holder, a right die holder locking screw for locking the right die holder at the right end of the die holder guide rail is arranged at a position corresponding to the right die holder locking screw hole, a right die holder groove is formed in the right die holder, and the right die holder groove passes through the right die holder locking screw hole wall and the tensioning screw hole from the middle part of the right die holder in the height direction, and passes through the right die holder locking screw hole wall The right supporting die frame guide rail is communicated with the matching groove in a sliding way.

In a further specific embodiment of the present invention, a right supporting roller arm pivoting support shaft hole is formed at the upper end of the right supporting mold frame; a right idler arm pivot support shaft is fixed to a front side middle portion of the right idler arm and at a position corresponding to the right idler arm pivot support shaft hole, the right idler arm pivot support shaft being rotatably supported in the right idler arm pivot support shaft hole and being screwed into a right idler arm pivot support shaft screw hole formed in an axial center of the right idler arm pivot support shaft by a right idler arm pivot support shaft stopper screw located on a front side of the right idler frame to restrict the right idler arm pivot support shaft.

In still another specific embodiment of the present invention, the right lower idler is rotatably provided at the rear lower end of the right idler arm in the same manner as the right upper idler is rotatably provided at the rear upper end of the right idler arm, a right upper riding wheel supporting shaft hole is arranged at the upper end of the right riding wheel arm, a right upper riding wheel supporting shaft is arranged at the position corresponding to the right upper riding wheel supporting shaft hole, the rear end of the right upper supporting wheel supporting shaft extends to the rear side of the right supporting wheel arm in a horizontal cantilever state, the right upper supporting wheel is rotatably sleeved on the right upper supporting wheel supporting shaft through a pivot matching hole of the right upper supporting wheel supporting shaft arranged at the axial central position of the right upper supporting wheel supporting shaft, and the right upper supporting wheel supporting shaft is limited by the right upper supporting wheel supporting shaft limiting screw which is screwed into the right upper supporting wheel supporting shaft limiting screw hole formed at the axial central position of the right upper supporting wheel supporting shaft at the position corresponding to the rear side of the right upper supporting wheel.

In a further embodiment of the invention, the swivel-seat manual operating mechanism comprises a front manual operating lever and a rear manual operating lever, the rear end of the front manual operating lever is screwed to the first operating-lever coupling lug i, the front end of the front manual operating lever forms a horizontal cantilever end and is provided with a front pinch ball head, the front end of the rear manual operating lever is screwed to the second operating-lever coupling lug ii, and the rear end of the rear manual operating lever forms a horizontal cantilever end and is provided with a rear pinch ball head.

One of the technical effects of the technical scheme provided by the invention is that the workpiece platform can be reliably attracted by the magnetic attraction mechanism of the workpiece platform and the workpiece platform which is used as a carrier and can be magnetized, so that the workpiece platform has good adaptability; secondly, the neck ring mold adjusting mechanism is movably arranged on the die supporting frame guide rail, so that the adaptability requirements of neck ring molds of glass molds with different specifications can be met, and the ideal supporting effect of the neck ring mold of the glass mold can be embodied; thirdly, in the maintenance process of the glass mold neck ring, the glass mold neck ring is arranged on the neck ring adjusting and supporting mechanism in a state that the mold cavity of the glass mold neck ring faces upwards, and in the maintenance process, the glass mold neck ring is rotated through the rotary seat, the mold supporting frame guide rail and the neck ring adjusting and supporting mechanism by operating the rotary seat manual operating mechanism according to the requirement, so that the operation intensity of an operator is obviously reduced; fourthly, the stability of the glass mold neck ring in a supporting state can be ensured by the neck ring adjusting and supporting mechanism, so that the smooth maintenance operation is very facilitated.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention.

Fig. 2 is a schematic view illustrating an application of the present invention.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.

Referring to fig. 1, a magnetic attraction mechanism 1 for a work piece platform is shown; a base 2 is shown, and the base 2 is fixed on the upper part of the workpiece platform magnetic attraction mechanism 1; a revolving bed 3 is shown, the revolving bed 3 being rotatably arranged on the upper part of the base 2; a die carrier guide rail 4 is shown, the die carrier guide rail 4 is arranged on the rotary base 3, and the middle part of the die carrier guide rail 4 in the length direction is fixed with the rotary base 3; a die adjusting and supporting mechanism 5 is shown, and the die adjusting and supporting mechanism 5 is movably arranged on the die carrier guide rail 4; a swivel base manual operator 6 is shown, which swivel base manual operator 6 is connected to the aforementioned swivel base 3.

The workpiece platform magnetic attraction mechanism 1 comprises a magnetic gauge stand 11 and a magnetic knob 12, the magnetic knob 12 is arranged on the magnetic gauge stand 11, the base 2 is fixed at the central position of the upper part of the magnetic gauge stand 11 through a group of base screws 22 (four in the embodiment), namely, a group of base fixing screw holes 13 are arranged at the upper part of the magnetic gauge stand 11, the group of base fixing screws 22 are fixed with the base fixing screw holes 13, a rotary stand rotary guide boss 21 protruding from the upper surface of the base is formed at the central position of the upper surface of the base 2, and a pin shaft screw matching screw hole 211 is arranged at the central position of the rotary stand rotary guide boss 21; the surface of the rotary base 3 on the upward side of the rotary base 3 is formed with a first operating lever engaging lug i 31 and a second operating lever engaging lug ii 32 extending upward, the space between the facing sides of the first operating lever engaging lug i 31 and the second operating lever engaging lug ii 32 is formed as a guide rail middle engaging cavity 33, a guide boss pivot engaging hole 331 is formed in the bottom of the guide rail middle engaging cavity 33, the guide boss pivot engaging hole 331 is pivotally engaged with the rotary base rotary guide boss 21, and a rotary base pin screw 34 is provided at a position corresponding to the guide boss pivot engaging hole 331, and the lower portion of the rotary base pin screw 34 is screwed into the pin screw engaging threaded hole 211.

Since the structure and operation principle of the magnetic bezel 11 and the magnetic knob 12 engaged therewith belong to the known technology, for example, refer to non-limiting examples of patent documents such as CN204255211U (a new integral strong magnetic bezel) and CN209559246U (a magnetic bezel), the applicant does not need to describe any further. Furthermore, the work piece table (or "table") for supporting the magnetometer platform 11 should be of magnetizable metallic material, according to the common general knowledge.

Referring to fig. 1, the middle part of the die holder rail 4 in the length direction is matched with the rail middle matching cavity 33 and is fixed with the rotary base 3, and a support frame adjusting groove 41 is formed on each of the two sides of the die holder rail 4 in the length direction; the die adjusting and supporting mechanism 5 is movably provided on the die carrier guide rail 4 at a position corresponding to the holder adjusting groove 41; the rotary base manual operating mechanism 6 is connected to the first operating lever coupling lug i 31 and the second operating lever coupling lug ii 32.

As shown in fig. 1, a die holder guide rail supporting groove 35 for allowing the lower portion of the die holder guide rail 4 to be fitted is formed in each of the positions corresponding to both sides of the guide rail middle fitting cavity 33 on the upper surface of the rotary base 3, a die holder guide rail fixing screw hole 36 is formed in the position corresponding to the die holder guide rail supporting groove 35, a die holder screw hole 42 is formed in the die holder guide rail 4 in the position corresponding to the die holder guide rail fixing screw hole 36, a die holder screw 421 is arranged in the die holder screw hole 42, and the die holder screw 421 is fixed to the die holder guide rail fixing screw hole 36.

The die adjusting and supporting mechanism 5 comprises a left die-supporting device 51 and a right die-supporting device 52, wherein the left die-supporting device 51 is arranged at the left end of the die-supporting frame guide rail 4 and is in sliding fit with the supporting frame adjusting groove 41, and the right die-supporting device 52 is arranged at the right end of the die-supporting frame guide rail 4 and is also in sliding fit with the supporting frame adjusting groove 41.

Since the structure of the left die carrier 51 is the same as that of the right die carrier 52, the applicant hereinafter describes only the right die carrier 52 in detail, in which the right die carrier 52 includes a right die carrier 521, a right idler arm 522, a right upper idler 523 and a right lower idler 524, the right die carrier 521 is disposed at the right end of the die carrier rail 4 and the lower end of the right die carrier 521 is slidably engaged with the carrier adjustment groove 41, the middle of the right idler arm 522 is rotatably supported at the upper end of the right die carrier 521 at a position corresponding to the rear side of the right die carrier 521, the right upper idler 523 is rotatably disposed at the upper end of the rear side of the right idler arm 522, and the right lower idler 524 is rotatably disposed at the lower end of the rear side of the right idler arm 522, an upper idler die flange engagement groove 5232 is formed at the middle of the right upper idler 523 and around the circumferential direction of the right upper idler, the upper riding wheel die outer wall flange fitting groove 5232 is used for limiting the glass die outer wall flange 71 of the glass die 7 shown in fig. 2, so that the extremely good supporting and positioning effect on the glass die 7 is realized.

Continuing with fig. 1, a right die holder rail sliding fit groove 5211 is formed at the bottom of the lower end of the right die holder 521, the right die holder rail sliding fit groove 5211 penetrates from the left side to the right side of the right die holder 521 and has a cross-sectional shape of Jiong, right die holder guiding sliding bosses 52111 protruding from the groove wall surface are respectively formed on the groove walls of the right die holder rail sliding fit groove 5211 at mutually opposite sides and at mutually corresponding positions, the right die holder guiding sliding boss 52111 is in sliding fit with the support frame adjusting groove 41, a right die holder locking screw hole 5212 is formed on the right die holder 521, a right die holder locking screw 52121 for locking the right die holder 521 at the right end of the die holder rail 4 is arranged at a position corresponding to the right die holder locking screw hole 5212, a right die holder locking groove 5213 is formed on the right die holder 521, and a right die holder tensioning groove 5213 is formed in the right die holder 521 from the middle part of the right die holder 521 in the height direction through the right die holder locking screw hole 52121 The wall of the nail hole 5212 is connected to the right-hand-held-die-frame rail-sliding-fitting groove 5211. When the right die holder locking screw 52121 is rotated clockwise, the width of the right die holder tensioning groove 5213 is contracted (narrowed), so that the right die holder 521 is locked at the right end of the die holder guide rail 4, otherwise, the same example is used. The position of the right holder frame 521 on the holder rail 4 can be changed according to the size of the glass die 7 shown in fig. 2.

Continuing to refer to fig. 1, a right supporting roller arm pivoting support shaft hole 5214 is formed at the upper end of the right supporting mold frame 521; a right idler arm pivot support shaft 5221 is fixed to a front side middle portion of the right idler arm 522 at a position corresponding to the right idler arm pivot support shaft hole 5214, and the right idler arm pivot support shaft 5221 is rotatably supported by the right idler arm pivot support shaft hole 5214 and is restricted by a right idler arm pivot support shaft limit screw 5215 located on the front side of the right idler frame 521 being screwed into a right idler arm pivot support shaft screw hole 52211 formed in the axial center of the right idler arm pivot support shaft 5221.

Since the right lower idler 524 is rotatably provided at the rear lower end of the right idler arm 522 in the same manner as the right upper idler 523 is rotatably provided at the rear upper end of the right idler arm 522 as shown in fig. 1, the applicant only describes in detail the latter, namely, a right upper idler support shaft hole 5222 is formed at the upper end of the right idler arm 522, a right upper idler support shaft 5223 is provided at a position corresponding to the right upper idler support shaft hole 5222, the rear end of the right upper idler support shaft 5223 extends to the rear side of the right idler arm 522 in a horizontally cantilevered state, the right upper idler 523 is rotatably fitted to the right upper idler support shaft 5223 through a right upper idler support shaft pivot fitting hole 5231 formed at the axial central position thereof, and a right upper idler limit screw 5224 is screwed into a right upper idler limit screw hole 52231 formed at the axial central position of the right upper idler 5223 at a position corresponding to the rear side of the right upper idler support shaft 523 to thereby limit the right upper idler support shaft 5278 A top idler support shaft 5223.

Still referring to fig. 1, the aforementioned swing seat manual operating mechanism 6 includes a front manual operating lever 61 and a rear manual operating lever 62, a rear end of the front manual operating lever 61 is screw-coupled to the first operating lever coupling lug i 31 at a position corresponding to the first operating lever coupling lug screw hole i 311 preset in the first operating lever coupling lug i 31, a front end of the front manual operating lever 61 constitutes a horizontal cantilever end and is provided with a front pinch ball head 611 in a screw-fit manner, a front end of the rear manual operating lever 62 is screw-coupled to the second operating lever coupling lug ii 32 at a position corresponding to the second operating lever coupling lug screw hole (not labeled in the drawing) preset in the second operating lever coupling lug ii 32, a rear end of the rear manual operating lever 62 constitutes a horizontal cantilever end and is also provided with a rear pinch ball head 621 in a screw-fit manner.

Referring to fig. 2 in conjunction with fig. 1, fig. 2 shows a glass mold die 7 to be repaired, which has been mentioned above many times, and the aforementioned magnetic gauge stand 11 is placed on a magnetizable metal workpiece table (or "work table") of a polishing device such as a polishing machine, and the magnetic gauge stand 11 is magnetically attracted (attracted) to the work table by operating a magnetic knob 12. The opening distance between the left mold supporting device 51 and the right mold supporting device 52 is adjusted according to the specification of the glass mold neck mold 7, namely the positions of the left mold supporting device 51 and the right mold supporting device 52 on the mold supporting frame guide rail 4 are adjusted to meet the following requirements: after the glass mold 7 is settled to the left and right die supporting devices 51, 52, the outer wall flange 71 of the glass mold is matched with the grooves of the left upper supporting wheel and the left lower supporting wheel of the structural system of the left die supporting device 51, and simultaneously, the outer wall flange 71 of the glass mold is matched with the outer wall flange matching groove 5232 of the upper supporting wheel die of the right upper supporting wheel 523 and the outer wall flange matching groove of the lower supporting wheel die of the right lower supporting wheel 524. After the actions are finished, the mouth cavity 72 of the glass mold neck ring 7 can be repairably polished by the polishing head of the polishing device, and in the process, an operator operates the rotary seat manual operating mechanism 6 to enable the rotary seat 3 to rotate according to the angle required by the rotary process, and when the rotary seat 3 rotates, the rotary seat drives the die carrier guide rail 4, the left and right die carrier devices 51 and 52 and the glass mold neck ring 7 to rotate, so that the expected polishing effect is obtained.

In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims (10)

1. A clamp for maintaining a glass die opening mold is characterized by comprising a workpiece platform magnetic attraction mechanism (1); the base (2), the base (2) is fixed on the upper part of the magnetic attraction mechanism (1) of the workpiece platform; the rotary seat (3), the rotary seat (3) is rotatably arranged at the upper part of the base (2); the die supporting frame guide rail (4) is arranged on the rotary seat (3), and the middle part of the die supporting frame guide rail (4) in the length direction is fixed with the rotary seat (3); a die adjusting and supporting mechanism (5), wherein the die adjusting and supporting mechanism (5) is movably arranged on the die holder guide rail (4); and the manual operating mechanism (6) of the rotary seat is connected with the rotary seat (3).

2. The fixture for maintaining the mouth mold of the glass mold according to claim 1, characterized in that the workpiece platform magnetic attraction mechanism (1) comprises a magnetic gauge stand (11) and a magnetic knob (12), the magnetic knob (12) is arranged on the magnetic gauge stand (11), the base (2) is fixed at the central position of the upper part of the magnetic gauge stand (11), a rotary stand rotary guide boss (21) protruding from the upper surface of the base is formed at the central position of the upper surface of the base (2), and a pin shaft screw matching threaded hole (211) is formed at the central position of the rotary stand rotary guide boss (21); the surface of the rotary seat (3) on the upward side of the rotary seat (3) is provided with a first operating rod connecting lug I (31) and a second operating rod connecting lug II (32) which extend upwards, the space between the opposite sides of the first operating rod connecting lug I (31) and the second operating rod connecting lug II (32) is formed into a guide rail middle matching cavity (33), the bottom of the guide rail middle matching cavity (33) is provided with a guide boss pivoting matching hole (331), the guide boss pivoting matching hole (331) is in pivoting matching with the rotary seat rotary guide boss (21), a rotary seat pin shaft screw (34) is arranged at the position corresponding to the guide boss pivoting matching hole (331), and the lower part of the rotary seat pin shaft screw (34) is screwed into the pin shaft screw matching threaded hole (211).

3. The jig for repairing a glass mold die according to claim 2, wherein the middle part of the die holder guide rail (4) in the length direction is fitted into the guide rail middle fitting cavity (33) and fixed to the rotary base (3) at the same time, and a support frame adjusting groove (41) is formed on each of both sides of the die holder guide rail (4) in the length direction; the die adjusting and supporting mechanism (5) is movably arranged on the die carrier guide rail (4) at a position corresponding to the supporting frame adjusting groove (41); the rotary seat manual operating mechanism (6) is connected with the first operating rod connecting lug I (31) and the second operating rod connecting lug II (32).

4. The jig for repairing a glass mold die according to claim 3, characterized in that a die holder guide rail supporting groove (35) for fitting the lower portion of the die holder guide rail (4) is further formed in the upper surface of the rotary base (3) at a position corresponding to both sides of the guide rail middle fitting cavity (33), a die holder guide rail fixing screw hole (36) is formed at a position corresponding to the die holder guide rail supporting groove (35), a die holder screw hole (42) is formed at a position corresponding to the die holder guide rail fixing screw hole (36) in the die holder guide rail (4), a die holder screw (421) is provided at the die holder screw hole (42), and the die holder screw (421) is fixed to the die holder guide rail fixing screw hole (36).

5. The jig for repairing a glass mold die as set forth in claim 3, wherein the die adjustment supporting mechanism (5) comprises a left die holder means (51) and a right die holder means (52), the left die holder means (51) being provided at the left end of the die holder guide rail (4) and slidably engaged with the holder adjusting groove (41), and the right die holder means (52) being provided at the right end of the die holder guide rail (4) and also slidably engaged with the holder adjusting groove (41).

6. The jig for repairing a mouth mold of a glass mold as set forth in claim 5, characterized in that the structure of the left die-holding means (51) is the same as that of the right die-holding means (52), the right die-holding means (52) comprises a right die-holding frame (521), a right die-holding arm (522), a right upper die-holding wheel (523) and a right lower die-holding wheel (524), the right die-holding frame (521) is provided at the right end of the die-holding frame guide rail (4) and the lower end of the right die-holding frame (521) is slidably fitted with the holder adjustment groove (41), the middle portion of the right die-holding arm (522) is rotatably supported at the upper end of the right die-holding frame (521) at a position corresponding to the rear side of the right die-holding frame (521), the right upper die-holding wheel (523) is rotatably provided at the upper end of the rear side of the right die-holding arm (522), and the right lower die-holding wheel (524) is rotatably provided at the lower end of the rear side of the right die-holding arm (522), an upper riding wheel die outer wall flange matching groove (5232) is formed in the middle of the right upper riding wheel (523) and around the circumferential direction of the right upper riding wheel.

7. The jig for repairing a glass mold die according to claim 6, wherein a right holder frame guide rail sliding fitting groove (5211) is formed at a lower end bottom portion of the right holder frame (521), the right holder frame guide rail sliding fitting groove (5211) penetrates from a left side to a right side of the right holder frame (521) and has a cross-sectional shape of Jiong, right holder frame guide sliding bosses (52111) protruding from groove wall surfaces are formed on groove walls of the right holder frame guide rail sliding fitting groove (5211) at sides facing each other and at positions corresponding to each other, the right holder frame guide sliding bosses (52111) are slidably fitted to the support frame adjustment groove (41), a right holder frame locking screw hole (5212) is formed on the right holder frame (521), a right holder frame locking screw (52121) for locking the right holder frame (521) at a position corresponding to the right holder frame locking screw hole (5212) is provided, and a right die-supporting frame tensioning groove (5213) is formed in the right die-supporting frame (521), and the right die-supporting frame tensioning groove (5213) passes through the hole wall of the right die-supporting frame locking screw hole (5212) from the middle part of the right die-supporting frame (521) in the height direction and is communicated with the right die-supporting frame guide rail sliding fit groove (5211).

8. The fixture for repairing the die opening of the glass mold as claimed in claim 7, wherein a right supporting roller arm pivot supporting shaft hole (5214) is formed at the upper end of the right supporting frame (521); a right idler arm pivot support shaft (5221) is fixed to a front side middle portion of the right idler arm (522) at a position corresponding to the right idler arm pivot support shaft hole (5214), and the right idler arm pivot support shaft (5221) is rotatably supported in the right idler arm pivot support shaft hole (5214) and is defined by a right idler arm pivot support shaft limit screw (5215) located on the front side of the right idler frame (521) being screwed into a right idler arm pivot screw hole support shaft (52211) formed in the axial center of the right idler arm pivot support shaft (5221).

9. The jig for repairing a bush of a glass mold as set forth in claim 6, wherein said right lower idler (524) is rotatably provided at a rear lower end of said right idler arm (522) in the same manner as said right upper idler (523) is rotatably provided at a rear upper end of said right idler arm (522), a right upper idler support shaft hole (5222) is formed at an upper end of said right idler arm (522), a right upper idler support shaft (5223) is provided at a position corresponding to said right upper idler support shaft hole (5222), a rear end of said right upper idler support shaft (5223) is extended to a rear side of said right idler arm (522) in a horizontally cantilevered state, said right upper idler (523) is rotatably fitted over said right upper idler support shaft (5223) through a right upper idler pivot support shaft fitting hole (5231) formed at an axial central position thereof, and a right upper idler support shaft (5224) is screwed into a position corresponding to said right upper idler support shaft (523) A right upper supporting wheel supporting shaft limiting screw hole (52231) formed at the axial central position of the right upper supporting wheel supporting shaft (5223) limits the right upper supporting wheel supporting shaft (5223).

10. The jig for repairing a glass mold die as set forth in claim 3, characterized in that said turret hand-operated mechanism (6) comprises a front hand-operated lever (61) and a rear hand-operated lever (62), the rear end of the front hand-operated lever (61) being screw-coupled with said first lever-coupling lug I (31), the front end of the front hand-operated lever (61) constituting a horizontal cantilever end and being provided with a front pinch bulb (611), the front end of the rear hand-operated lever (62) being screw-coupled with said second lever-coupling lug II (32), the rear end of the rear hand-operated lever (62) constituting a horizontal cantilever end and being provided with a rear pinch bulb (621).

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