CN109605087B - Clamp for processing glass mold bottle bottom mold - Google Patents

Abstract

A clamp for processing a glass mold bottle bottom mold comprises a clamping mold disc, wherein the clamping mold disc is rectangular and is provided with a clamping mold disc cavity, one side of a front cavity wall of the clamping mold disc cavity, which faces a rear cavity wall, is provided with a movable clamping block front guide rail, and one side of the rear cavity wall, which faces the front cavity wall, is provided with a movable clamping block rear guide rail; the left movable clamping block is arranged at the left end of the clamping die disc cavity, the right side of the front end of the left movable clamping block is provided with a first clamping die cavity of the left movable clamping block, the right side of the rear end of the left movable clamping block is provided with a second clamping die cavity of the left movable clamping block, the left side of the front end of the right movable clamping block is provided with a first clamping die cavity of the right movable clamping block, and the left side of the rear end of the right movable clamping block is provided with a second clamping die of the right movable clamping block; the front fixing clamping block is fixed in front of the middle of the clamping die disc cavity, the rear fixing clamping block is fixed behind the middle of the clamping die disc cavity, the bidirectional acting cylinder is fixed in the clamping die disc cavity at a position corresponding to the position between the front fixing clamping block and the rear fixing clamping block, a first cylinder column of the bidirectional acting cylinder is connected with the middle of the right side of the left movable clamping block, and a second cylinder column of the bidirectional acting cylinder is connected with the middle of the left side of the right movable clamping block. The processing efficiency is improved; and labor cost is reduced.

Description

Clamp for processing glass mold bottle bottom mold

Technical Field

The invention belongs to the technical field of tool clamps, and particularly relates to a clamp for machining a bottom die of a glass die bottle.

Background

In the technical field of glass molds and manufacturing thereof, glass molds are generally divided into a molding die, a primary die, a die with a mouth, a bottom die and the like which are matched with the molding die. The processing items of the bottom die, namely the bottom die of the glass die bottle mainly comprise: rough machining of an outer circle (also called as rough turning of the outer circle), finish machining of the outer circle (also called as finish turning of the outer circle), bottom drilling, reaming, engraving of anti-explosion patterns on the upper end surface of a die bottom, drilling of cooling holes for matching with a die, and the like.

The machine tool for engraving the anti-explosion patterns is usually an engraving machine tool, the machine tool has the characteristics of high spindle rotating speed and good machining precision, and a three-jaw self-centering chuck or a four-jaw self-centering chuck for clamping the bottom excircle of the bottom die of the glass die bottle is usually arranged on the working table according to the size of the working table of the machine tool, and can be referred to as a clamp for machining the anti-explosion patterns of the bottom die of the glass die according to the Chinese patent application publication No. CN 102615317A.

The technical scheme provided by CN102615317a can perform clamping of the bottom die of the glass mold bottle and embody the technical effects described in the 0008 th paragraph of the specification to a certain extent, however, the clamp recommended by the patent exposes the following technical problems in the actual use process: because the time spent for the anti-burst processing of the bottle bottom mold of a common glass mold is about fifteen minutes, and because the time spent by an operator for performing tool setting and clamping is about six minutes, an operator can operate two machine tools, and the operators can be reduced from the surface, but because one clamp can clamp only one bottle bottom mold, the consideration of improving the processing efficiency and saving precious labor resources can not reach the expectations of glass mold manufacturers, and the technical scheme to be described below is generated under the background.

Disclosure of Invention

The invention aims to provide a clamp for processing a glass die bottle bottom mold, which is beneficial to remarkably improving the processing efficiency and remarkably reducing operators so as to save precious labor resources.

The invention aims at achieving the purpose that the clamp for processing the bottom mould of the glass mould bottle comprises a clamping mould disc, wherein the clamping mould disc is in a rectangular shape, a clamping mould disc cavity is formed on one side of the clamping mould disc, which faces upwards, a movable clamping block front guide rail is fixed on one side of a front cavity wall of the clamping mould disc cavity, which faces towards a rear cavity wall, along the length direction of the front cavity wall, and a movable clamping block rear guide rail is fixed on one side of the rear cavity wall, which faces towards the front cavity wall, along the length direction of the rear cavity wall, and the movable clamping block front guide rail and the movable clamping block rear guide rail are corresponding to each other; the left movable clamping block is arranged at the left end of the clamping die disc cavity, the front end face of the left movable clamping block is in sliding fit with the left end of the front guide rail of the movable clamping block, the rear end face of the left movable clamping block is in sliding fit with the left end of the rear guide rail of the movable clamping block, a left movable clamping block first clamping die cavity I is formed on the right side of the front end of the left movable clamping block, a left movable clamping block second clamping die cavity II is formed on the right side of the rear end of the left movable clamping block, the right movable clamping block is arranged at the right end of the clamping die disc cavity, the front end face of the right movable clamping block is in sliding fit with the right end of the front guide rail of the movable clamping block, the rear end face of the right movable clamping block is in sliding fit with the right end of the rear guide rail of the movable clamping block, a right movable clamping block first clamping die cavity I is formed on the left side of the front end of the right movable clamping block, and a right movable clamping block second clamping die cavity II is formed on the left side of the rear end of the right movable clamping block; the front fixed clamping block is fixed in front of the middle part of the clamping disc cavity, a front fixed clamping block left clamping cavity is formed at the left side of the front fixed clamping block and at the position corresponding to the first clamping cavity I of the left movable clamping block, a front fixed clamping block right clamping cavity is formed at the right side of the front fixed clamping block and at the position corresponding to the first clamping cavity I of the right movable clamping block, a rear fixed clamping block is fixed behind the middle part of the clamping disc cavity and corresponds to the front fixed clamping block, a rear fixed clamping block left clamping cavity is formed at the left side of the rear fixed clamping block and at the position corresponding to the second clamping cavity II of the left movable clamping block, a rear fixed clamping block right clamping cavity is formed at the right side of the rear fixed clamping block and at the position corresponding to the second clamping cavity II of the right movable clamping block, and a bidirectional cylinder is fixed in the clamping disc cavity at the position corresponding to the position between the front fixed clamping block and the first clamping cavity I of the right movable clamping block, and the bidirectional cylinder is connected with the middle part of the left movable clamping block and the left cylinder at the middle part II of the left movable clamping block in a bidirectional cylinder.

In a specific embodiment of the present invention, the space between the left movable clamp block first clamp cavity I and the front fixed clamp block left clamp cavity is formed into a first bottle bottom mold clamping area; the space between the left movable clamping block second clamping die cavity II and the rear fixed clamping block left clamping die cavity is formed into a second bottle bottom die clamping area; the space between the first clamping cavity I of the right movable clamping block and the right clamping cavity I of the front fixed clamping block is formed into a third bottle bottom mold clamping area; the space between the second clamping cavity II of the right movable clamping block and the right clamping cavity of the rear fixed clamping block is formed into a fourth bottle bottom mold clamping area.

In another specific embodiment of the present invention, a set of bottle bottom mold positioning posts are each formed on the bottom wall of the clamp tray cavity and at positions corresponding to the first, second, third and fourth bottle bottom mold clamping areas.

In yet another specific embodiment of the present invention, the shapes of the left movable clamp block first clamp cavity i, the left movable clamp block second clamp cavity ii, the right movable clamp block first clamp cavity i, the right movable clamp block second clamp cavity ii, the front fixed clamp block left and right clamp cavities, the rear fixed clamp block left clamp cavity, and the rear fixed clamp block right clamp cavity are the same.

In still another specific embodiment of the present invention, the left movable clamp block first clamp cavity i, the left movable clamp block second clamp cavity ii, the right movable clamp block first clamp cavity i, the right movable clamp block second clamp cavity ii, the front fixed clamp block left and right clamp cavities, the rear fixed clamp block left clamp cavity, and the rear fixed clamp block right clamp cavity are in a shape of [ figure, V-figure, or C-figure.

In a further specific embodiment of the present invention, a cylinder left connecting seat is fixed at an end portion of the first cylinder column i of the bidirectional cylinder facing the left movable clamping block, and the cylinder left connecting seat is fixed with the right side of the middle portion of the left movable clamping block through a cylinder left connecting seat screw; and a cylinder column right connecting seat is fixed at the end part of one end of a second cylinder column II of the bidirectional acting cylinder, which faces the right movable clamping block, and is fixed at the left side of the middle part of the right movable clamping block through a cylinder column right connecting seat screw.

In a further specific embodiment of the present invention, an acting cylinder working pipeline abdication hole is formed in a front cavity wall of the clamping die disc cavity, a front fixed block acting cylinder working pipeline abdication cavity is formed in the front fixed clamping block and at a position corresponding to the acting cylinder working pipeline abdication hole, and a pipeline for driving the bidirectional acting cylinder to work is connected with the bidirectional acting cylinder through the acting cylinder working pipeline abdication hole and the front fixed block acting cylinder working pipeline abdication cavity in sequence.

In a further specific embodiment of the present invention, the double acting cylinder is a cylinder.

In yet a further specific embodiment of the present invention, a front junk cleaning slot is formed in the front cavity wall of the clamp tray cavity and at positions corresponding to the first bottom mold clamping area and the third bottom mold clamping area, and a rear junk cleaning slot is formed in the rear cavity wall and at positions corresponding to the second bottom mold clamping area and the fourth bottom mold clamping area.

In yet another specific embodiment of the present invention, the number of the set of bottle bottom mold positioning posts is three and distributed in a triangle shape.

The technical scheme provided by the invention has the technical effects that: the left side of the right movable clamping block, the right side of the front fixed clamping block and the left side of the rear fixed clamping block can clamp the two glass mold bottle bottom molds respectively, and the left side of the right movable clamping block, the right side of the front fixed clamping block and the right side of the rear fixed clamping block can clamp the two glass mold bottle bottom molds equally, so that an operator can carry out the explosion-proof pattern processing on the four glass mold bottle bottom molds successively by a machine tool only by carrying out one tool setting, and the tool setting time is five times longer than that of the prior art, thereby being very beneficial to improving the processing efficiency; because the machine tool takes about sixty minutes to process the explosion-proof patterns of the bottom die of the four glass die bottles, one operator can deal with the operation of ten machine tools, which is very beneficial to saving precious labor resources and reducing labor cost.

Drawings

FIG. 1 is a schematic representation of an embodiment of the present invention.

Detailed Description

In order to make the technical spirit and advantages of the present invention more clearly understood, the applicant will now make a detailed description by way of example, but the description of the examples is not intended to limit the scope of the invention, and any equivalent transformation made merely in form, not essentially, according to the inventive concept should be regarded as the scope of the technical solution of the present invention.

In the following description, all concepts related to the directions or azimuths of up, down, left, right, front and rear are directed to the position state of fig. 1, and thus, the present invention is not to be construed as being limited to the embodiments provided by the present invention.

Referring to fig. 1, there is shown a clamp die 1, the clamp die 1 is rectangular and has a clamp die cavity 11 formed on the side of the clamp die 2 facing upward, a movable clamp block front rail 111 is fixed on the side of the front cavity wall of the clamp die cavity 11 facing the rear cavity wall and along the length direction of the front cavity wall by a front rail screw 1111, and a movable clamp block rear rail 112 is fixed on the side of the front cavity wall facing the front cavity wall and along the length direction of the rear cavity wall by a rear rail screw 1121, the movable clamp block front and rear rails 111, 112 correspond to each other; a left movable clamp block 2 and a right movable clamp block 3 are shown, the left movable clamp block 2 is arranged at the left end of the clamp die disc cavity 11, the front end face of the left movable clamp block 2 is in sliding fit with the left end of the movable clamp block front guide rail 111, the rear end face of the left movable clamp block 2 is in sliding fit with the left end of the movable clamp block rear guide rail 112, a left movable clamp block first clamp cavity I21 is formed at the right side of the front end of the left movable clamp block 2, a left movable clamp block second clamp cavity II 22 is formed at the right side of the rear end of the left movable clamp block 2, the right movable clamp block 3 is arranged at the right end of the clamp die disc cavity 11, the front end face of the right movable clamp block 3 is in sliding fit with the right end of the movable clamp block front guide rail 111, a right movable clamp block first clamp cavity I31 is formed at the left side of the front end of the right movable clamp block 3, and a right movable clamp block second clamp cavity II is formed at the right side of the rear end of the right movable clamp block 3; the front fixed clamping block 4, a rear fixed clamping block 5 and a bidirectional acting cylinder 6 are fixed in front of the middle of the clamping disc cavity 11 through a front fixed clamping block screw 45, a front fixed clamping block left clamping cavity 41 is formed at the left side of the front fixed clamping block 4 and at the position corresponding to the first clamping cavity I21 of the left movable clamping block, a front fixed clamping block right clamping cavity 42 is formed at the right side of the front fixed clamping block 4 and at the position corresponding to the first clamping cavity I31 of the right movable clamping block, the rear fixed clamping block 5 is fixed behind the middle of the clamping disc cavity 11 through a rear fixed clamping block screw 54 and corresponds to the front fixed clamping block 4, a rear fixed clamping block left clamping cavity 51 is formed at the left side of the rear fixed clamping block 5 and at the position corresponding to the second clamping cavity II 22 of the left movable clamping block, a rear fixed clamping block right clamping block 52 is formed at the right side of the rear fixed clamping block 5 and at the position corresponding to the second clamping cavity II 32 of the right movable clamping block, and the rear fixed clamping block 5 is connected with the middle of the front cylinder column 6 in a bidirectional acting cylinder column 6 in a direction between the middle of the front fixed clamping block 5 and the middle of the bidirectional acting cylinder column 6.

In this embodiment, the clamping die plate 1 has a rectangular parallelepiped shape. In addition, in the present embodiment, the movable clamp block front rail 111 is fixed on the side of the front cavity wall facing the rear cavity wall of the clamp plate cavity 11 by the front rail screw 1111, however, if the movable clamp block front rail 111 is directly formed on the front cavity wall, that is, the movable clamp block front rail 111 is directly processed on the front cavity wall, the same technical means should be considered, and the movable clamp block rear rail 112 is the same as the previous example and will not be repeated.

Preferably, a front fixing clamping block step cavity 44 is formed on the side of the front fixing clamping block 4 facing the rear fixing clamping block 5, a rear fixing clamping block step cavity 53 is formed on the side of the rear fixing clamping block 5 facing the front fixing clamping block 4, the side of the bidirectional acting cylinder 6 facing the front fixing clamping block 4 is matched with the front fixing clamping block step cavity 44, and the side of the bidirectional acting cylinder 6 facing the rear fixing clamping block 5 is matched with the rear fixing clamping block step cavity 53, so that the bidirectional acting cylinder 6 is reliably fixed in the clamping die disc cavity 11, namely, reliably limited between the front fixing clamping block step cavity 44 and the rear fixing clamping block step cavity 53.

Continuing to refer to fig. 1, the space between the left movable clamp block first clamp cavity i 21 and the front fixed clamp block left clamp cavity 41 is formed as a first bottle bottom mold clamping area 7a; the space between the left movable clamp block second clamp die cavity II 22 and the rear fixed clamp block left clamp die cavity 51 is formed into a second bottle bottom die clamping area 7b; the space between the first clamping cavity I31 of the right movable clamping block and the right clamping cavity 42 of the front fixed clamping block is formed into a third bottle bottom mold clamping area 7c; the space between the right movable clamp block second clamp die cavity ii 32 and the rear fixed clamp block right clamp die cavity 52 is configured as a fourth bottle bottom die clamping area 7d.

A plurality of bottle bottom mold positioning posts 113 are formed on the bottom wall of the clamp tray cavity 11 at positions corresponding to the first, second, and third bottle bottom mold clamping areas 7a, 7b, 7c and the fourth bottle bottom mold clamping area 7d.

The left movable clamp block first clamp cavity I21, the left movable clamp block second clamp cavity II 22, the right movable clamp block first clamp cavity I31, the right movable clamp block second clamp cavity II 32, the front fixed clamp block left and right clamp cavities 41 and 42, the rear fixed clamp block left clamp cavity 51 and the rear fixed clamp block right clamp cavity 52 are identical in shape.

In the present embodiment, the left movable clamp block first clamping cavity i 21, the left movable clamp block second clamping cavity ii 22, the right movable clamp block first clamping cavity i 31, the right movable clamp block second clamping cavity ii 32, the front fixed clamp block left and right clamping cavities 41 and 42, the rear fixed clamp block left clamping cavity 51 and the rear fixed clamp block right clamping cavity 52 are V-shaped, but may be C-shaped or [ shaped.

With continued reference to fig. 1, a cylinder left connecting seat 611 is fixed at an end of the first cylinder column i 61 of the double-acting cylinder 6 facing the left movable clamping block 2, and the cylinder left connecting seat 611 is fixed to the right side of the middle part of the left movable clamping block 2 by a cylinder left connecting seat screw 6111; a cylinder right connecting seat 621 is fixed at an end portion of the second cylinder ii 62 of the double-acting cylinder 6 facing the right movable clamp block 3, and the cylinder right connecting seat 621 is fixed to the left side of the middle portion of the right movable clamp block 3 by a cylinder right connecting seat screw (not shown).

An acting cylinder working pipeline abdication hole 116 is formed in the front cavity wall of the clamping die disc cavity 11, a front fixed block acting cylinder working pipeline abdication cavity 43 is formed in the front fixed clamping block 4 and at a position corresponding to the acting cylinder working pipeline abdication hole 116, and a pipeline 8 for driving the bidirectional acting cylinder 6 to work is connected with the bidirectional acting cylinder 6 through the acting cylinder working pipeline abdication hole 116 and the front fixed block acting cylinder working pipeline abdication cavity 43 in sequence.

In the present embodiment, the aforementioned double-acting cylinder 6 is a cylinder, and the aforementioned pipe 8 is a gas pipe because of the use of a cylinder, if a cylinder is used as the double-acting cylinder, it should be regarded as equivalent, and when a cylinder is used, the aforementioned pipe 8 evolves into a gas pipe.

Preferably, a front chip removing cleaning groove 114 is formed in the front cavity wall of the clamping disk cavity 11 at positions corresponding to the first bottom mold clamping area 7a and the third bottom mold clamping area 7c, and a rear chip removing cleaning groove 115 is formed in the rear cavity wall at positions corresponding to the second bottom mold clamping area 7b and the fourth bottom mold clamping area 7d.

Preferably, the number of the bottle bottom mold positioning columns 113 is three and the bottle bottom mold positioning columns are distributed in a triangular shape. A positioning column hole is pre-processed at the bottom of the bottle bottom mold 9 of the glass mold, and the position of the positioning column hole corresponds to the group of bottle bottom mold positioning columns 113.

After each of the first, second, third and fourth bottom mold clamping areas 7a, 7b, 7c and 7d accommodates a glass mold bottle bottom mold 9, an operator operates an external control switch to operate the double-acting cylinder 6, the first cylinder column I61 of the double-acting cylinder is displaced rightward, the second cylinder column II 62 of the double-acting cylinder is displaced leftward, the first cylinder column I61 of the double-acting cylinder drives the left movable clamping block 2 to displace rightward, the second cylinder column II 62 of the double-acting cylinder drives the right movable clamping block 3 to displace leftward, the four glass mold bottle bottom molds 9 are clamped, the machine tool engraves explosion-proof patterns on the four glass mold bottle bottom molds 9, the glass mold bottle bottom molds 9 are taken away according to the reverse operation process after the machining is completed, and the glass mold bottle bottom molds 9 to be machined are clamped again.

As can be seen from the above description, the clamping time is saved because the four glass mold bottle bottom molds 9 can be clamped at a time and only the tool setting is needed once; because the machine tool takes sixty minutes for processing the four glass mold bottle bottom molds 9 to carve the anti-explosion patterns, one worker can deal with ten machine tools only by using the fixture provided by the invention, and the labor cost can be obviously saved.

In summary, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the task of the invention, and faithfully honors the technical effects carried by the applicant in the technical effect column above.

Claims (8)

1. The clamp for machining the bottom mold of the glass mold bottle is characterized by comprising a clamp mold disk (1), wherein the clamp mold disk (1) is in a rectangular shape, a clamp mold disk cavity (11) is formed on one side of the clamp mold disk (1) facing upwards, a movable clamp block front guide rail (111) is fixed on one side of a front cavity wall of the clamp mold disk cavity (11) facing a rear cavity wall and along the length direction of the front cavity wall, a movable clamp block rear guide rail (112) is fixed on one side of the rear cavity wall facing the front cavity wall and along the length direction of the rear cavity wall, and the movable clamp block front guide rail (111) and the movable clamp block rear guide rail (112) correspond to each other; a left movable clamping block (2) and a right movable clamping block (3), wherein the left movable clamping block (2) is arranged at the left end of the clamping disc cavity (11), the front end face of the left movable clamping block (2) is in sliding fit with the left end of the movable clamping block front guide rail (111), the rear end face of the left movable clamping block (2) is in sliding fit with the left end of the movable clamping block rear guide rail (112), a left movable clamping block first clamping die cavity I (21) is formed at the right side of the front end of the left movable clamping block (2), a left movable clamping block second clamping die cavity II (22) is formed at the right side of the rear end of the left movable clamping block (2), the right movable clamping block (3) is arranged at the right end of the clamping disc cavity (11), the front end face of the right movable clamping block (3) is in sliding fit with the right end of the movable clamping block front guide rail (111), the rear end face of the right movable clamping block (3) is in sliding fit with the right end of the movable clamping block rear guide rail (112), and a left movable clamping block second clamping die cavity II (32) is formed at the right side of the right movable clamping block rear end (31); a front fixed clamping block (4), a rear fixed clamping block (5) and a bidirectional acting cylinder (6), wherein the front fixed clamping block (4) is fixed in front of the middle part of the clamping disc cavity (11), a front fixed clamping block left clamping cavity (41) is formed at the left side of the front fixed clamping block (4) and at the position corresponding to the first clamping cavity I (21) of the left movable clamping block, a front fixed clamping block right clamping cavity (42) is formed at the right side of the front fixed clamping block (4) and at the position corresponding to the first clamping cavity I (31) of the right movable clamping block, the rear fixed clamping block (5) is fixed behind the middle part of the clamping disc cavity (11) and corresponds to the front fixed clamping block (4), a rear fixed clamping block left clamping cavity (51) is formed at the left side of the rear fixed clamping block (5) and at the position corresponding to the second clamping cavity II (22) of the left movable clamping block, a bidirectional acting cylinder (52) is formed at the right side of the rear fixed clamping block (5) and at the position corresponding to the second clamping cavity II (22) of the left movable clamping block, the bidirectional acting cylinder (6) is connected with the middle part of the front fixed clamping disc cavity (11) at the right side of the left fixed clamping block (4), and a second cylinder column II (62) of the bidirectional acting cylinder (6) is connected with the middle part of the left side of the right movable clamping block (3); a cylinder column left connecting seat (611) is fixed at the end part of a first cylinder column I (61) of the bidirectional acting cylinder (6) facing the end part of one end of the left movable clamping block (2), and the cylinder column left connecting seat (611) is fixed with the right side of the middle part of the left movable clamping block (2) through a cylinder column left connecting seat screw (6111); a cylinder column right connecting seat (621) is fixed at the end part of a second cylinder column II (62) of the bidirectional acting cylinder (6) facing the right movable clamping block (3), and the cylinder column right connecting seat (621) is fixed with the left side of the middle part of the right movable clamping block (3) through a cylinder column right connecting seat screw; an action cylinder working pipeline abdication hole (116) is formed in the front cavity wall of the clamping die disc cavity (11), a front fixed block action cylinder working pipeline abdication cavity (43) is formed in the position corresponding to the action cylinder working pipeline abdication hole (116) on the front fixed clamping block (4), and a pipeline (8) used for driving the bidirectional action cylinder (6) to work is connected with the bidirectional action cylinder (6) through the action cylinder working pipeline abdication hole (116) and the front fixed block action cylinder working pipeline abdication cavity (43) in sequence.

2. The clamp for processing the bottom mold of the glass mold according to claim 1, characterized in that a space between the left movable clamp block first clamp cavity i (21) and the front fixed clamp block left clamp cavity (41) is configured as a first bottom mold clamping area (7 a); the space between the left movable clamping block second clamping die cavity II (22) and the rear fixed clamping block left clamping die cavity (51) is formed into a second bottle bottom die clamping area (7 b); the space between the first clamping cavity I (31) of the right movable clamping block and the right clamping cavity (42) of the front fixed clamping block is formed into a third bottle bottom mold clamping area (7 c); the space between the right movable clamp block second clamp die cavity II (32) and the rear fixed clamp block right clamp die cavity (52) is formed into a fourth bottle bottom die clamping area (7 d).

3. The clamp for processing a glass mold bottom mold according to claim 2, characterized in that a set of bottom mold positioning posts (113) are formed on the cavity bottom wall of the clamp tray cavity (11) at positions corresponding to the first, second, third bottom mold clamping areas (7 a, 7b, 7 c) and fourth bottom mold clamping area (7 d).

4. The clamp for processing the bottom mold of the glass mold bottle according to claim 1 or 2, wherein the shapes of the left movable clamp block first clamp cavity I (21), the left movable clamp block second clamp cavity II (22), the right movable clamp block first clamp cavity I (31), the right movable clamp block second clamp cavity II (32), the front fixed clamp block left and right clamp cavities (41, 42), the rear fixed clamp block left clamp cavity (51) and the rear fixed clamp block right clamp cavity (52) are the same.

5. The clamp for processing the bottom mold of the glass mold bottle according to claim 4, wherein the left movable clamp block first clamp cavity I (21), the left movable clamp block second clamp cavity II (22), the right movable clamp block first clamp cavity I (31), the right movable clamp block second clamp cavity II (32), the front fixed clamp block left and right clamp cavities (41, 42), the rear fixed clamp block left clamp cavity (51) and the rear fixed clamp block right clamp cavity (52) are in a shape of [ shape, V shape or C shape.

6. The clamp for processing the bottom mold of the glass mold bottle according to claim 1, wherein the bidirectional acting cylinder (6) is an air cylinder.

7. The clamp for glass mold bottom mold processing according to claim 2, characterized in that a front chip removal cleaning groove (114) is provided on the front cavity wall of the clamp tray cavity (11) and at positions corresponding to the first bottom mold clamping area (7 a) and the third bottom mold clamping area (7 c), and a rear chip removal cleaning groove (115) is provided on the rear cavity wall and at positions corresponding to the second bottom mold clamping area (7 b) and the fourth bottom mold clamping area (7 d).

8. A clamp for processing a glass mold bottom mold according to claim 3, wherein the number of the group of bottom mold positioning posts (113) is three and distributed in a triangle shape.