CN110561151A - Clamp for processing bottle bottom die of glass die - Google Patents

Abstract

A clamp for processing a bottle bottom die of a glass mold belongs to the technical field of tool clamps. The device comprises a die placing platform bottom plate which is fixed on a machine tool moving working platform; the die placing platform is fixed with the surface of one upward side of the bottom plate of the die placing platform; a set of bottle die block positioning mechanism sets up on putting the mould platform, characteristics: the group of bottle bottom die positioning mechanisms respectively comprise an electromagnet and a die placing positioning column, the electromagnet is embedded in one side, facing the die placing platform bottom plate, of the die placing platform and is electrically connected with an external electric controller through a circuit, the die placing positioning column is arranged on the die placing platform in the central position corresponding to the electromagnet, the bottom of the die placing positioning column is supported on the die placing platform bottom plate, and the upper portion of the die placing positioning column stretches out of the upper surface of the die placing platform. The manufacturing cost is reduced; the failure probability is reduced, and the processing progress is guaranteed; the occupation of the area of the opposite mold platform is reduced, and the number of the bottle bottom molds can be increased under the same area; the mold placing efficiency is improved, and the accuracy of the mold placing is guaranteed.

Description

Clamp for processing bottle bottom die of glass die

Technical Field

The invention belongs to the technical field of tool fixtures, and particularly relates to a fixture for processing a bottle bottom die of a glass mold.

Background

In the field of glass molds and their production technology, glass molds are generally divided into a primary mold and a molding mold, and a finish mold and a bottom mold, etc. are used in cooperation with the molding mold, and the bottom mold is generally made of magnetizable mold steel. The processing items of the bottom die, namely the bottle bottom die of the glass mold mainly comprise: rough machining of the outer circle (also called "rough turning of the outer circle"), finish machining of the outer circle (also called "finish turning of the outer circle"), bottom drilling, reaming, engraving of explosion-proof lines on the upper surface of the die bottom, drilling of cooling holes for cooperation with a die, and the like.

The machine tool for engraving the anti-explosion lines is usually a finishing impression machine tool, the machine tool has the characteristics of high spindle rotation speed and good processing precision, and a three-jaw self-centering chuck or a four-jaw self-centering chuck for clamping the bottom outer circle of the glass mold bottle bottom die is usually arranged on a working table according to the size of the working table of the machine tool, so that the reference can be made to 'a clamp for processing the anti-explosion lines of the glass mold bottom die' recommended by Chinese patent application publication No. CN 102615317A.

The above-mentioned CN102615317A solution can clamp the glass mold bottle bottom mold and can exhibit the technical effects described in paragraph 0008 of the specification to some extent, however, the clamp proposed in the above patent has the following technical problems in the actual use process: compared with the common glass mold bottle bottom mold explosion-proof line processing, the time spent on the processing is about fifteen minutes, and the time spent on the operator to carry out tool setting and clamping is about six minutes, so that one operator can operate two machines, the operator can be reduced from the surface, but the operator can only clamp one bottle bottom mold, and the expectation of glass mold manufacturers can not be achieved from the aspects of improving the processing efficiency and saving precious labor resources.

The clamp for processing the bottle bottom dies of the glass molds, provided by the patent application publication No. CN109605087A, can clamp four bottle bottom dies of the glass molds on one mold clamping platform (called a mold clamping disc) at a time, and because the time for a machine tool to process the explosion-proof lines of the four bottle bottom dies of the glass molds is sixty minutes (fifteen minutes each), and because the time spent by a worker on clamping the four bottle bottom dies of the glass molds on one mold placing platform (called a mold clamping disc) of one machine is six minutes, namely the average spent time is one and a half minutes each, one worker can deal with the operation of nearly ten machine tools, thereby being very beneficial to saving precious labor resources and remarkably reducing the precious labor cost. However, the aforesaid CN109605087A still has the following disadvantages: firstly, because the left movable clamping block and the right movable clamping block are required to be synchronously driven by the bidirectional acting cylinder, the bidirectional acting cylinder must be provided with a power device, for example, when the bidirectional acting cylinder adopts an air cylinder, the bidirectional acting cylinder needs to be matched with an air compressor or a similar device, and when the bidirectional acting cylinder is an oil cylinder, the bidirectional acting cylinder needs to be matched with a hydraulic work station, so the structure is relatively complex and the manufacturing cost is relatively high; secondly, once the bidirectional acting cylinder fails or the air compressor or the hydraulic workstation supporting the operation of the bidirectional acting cylinder fails, the clamp cannot be used, and the progress of normally carving the anti-explosion lines on the bottom mold of the glass mold bottle is affected; thirdly, because of the adoption of the left movable clamping block, the right movable clamping block, the front fixed clamping block, the rear fixed clamping block and the bidirectional acting cylinder, the effective mold placing area at the upper part of the opposed mold platform (called as a mold clamping disc) is greatly occupied, and the number of bottom molds arranged on the mold placing platform is limited; fourthly, since the bottoms of the bottle bottom molds need to be positioned by a set of bottle bottom mold positioning columns provided in each bottom mold seating region (first, second, third, and fourth bottom mold clamping regions), there is a fear that the clamping efficiency is affected on one hand, and the structure is not concise due to the presence of the set of bottle bottom mold positioning columns on the other hand. In view of the foregoing, there is a need for reasonable improvements, and the solutions described below are made in this context.

Disclosure of Invention

The invention aims to provide a clamp for processing a bottom die of a glass die bottle, which is beneficial to abandoning an acting cylinder, remarkably reducing the manufacturing cost, remarkably reducing the failure probability, avoiding influencing the processing progress, conveniently avoiding using a fixed clamping block and a movable clamping block, remarkably reducing the occupation of the platform area of a counter die, increasing the clamping quantity of the bottom die, conveniently, quickly and accurately corresponding the bottom die to the die placing position and improving the clamping efficiency.

The invention aims to complete the task, and the clamp for processing the bottle bottom die of the glass die comprises a die placing platform bottom plate, wherein the die placing platform bottom plate is fixed on a machine tool moving working platform of a machine tool in a use state; the mold placing platform is fixed with the upward side surface of the bottom plate of the mold placing platform; a set of bottle die block positioning mechanism, this set of bottle die block positioning mechanism set up put on the mould platform, characterized in that a set of bottle die block positioning mechanism respectively include an electro-magnet and one put the mould reference column, the electro-magnet inlays to be put the mould platform orientation put one side of mould platform bottom plate to by circuit and outside electropneumatic controller electrical connection, put the mould reference column corresponding to the central point of electro-magnet puts to set up and should put the bottom support of mould reference column and be in put on putting the mould platform bottom plate, and the upper portion stretches out the upper surface of putting the mould platform.

In a specific embodiment of the present invention, machine tool moving work platform bolt grooves penetrating from the left end to the right end of the machine tool moving work platform are formed on the machine tool moving work platform at intervals in a state parallel to the long side direction of the machine tool moving work platform, and the left end and the right end of the die placement platform bottom plate are fixed on the machine tool moving work platform at positions corresponding to the machine tool moving work platform bolt grooves.

In another specific embodiment of the invention, one or a plurality of die platform bottom plate presser foot probing slots are respectively arranged at the left end and the right end of the die platform bottom plate, die platform bottom plate presser feet are arranged on the machine tool moving working platform bolt slots and at the positions corresponding to the die platform bottom plate presser foot probing slots through die platform bottom plate presser foot bolts, and one end of the die platform bottom plate presser foot facing the die platform bottom plate is probed into the die platform bottom plate presser foot probing slots to fix the die platform bottom plate on the machine tool moving working platform.

In another specific embodiment of the invention, the cross section of the bolt groove of the movable working platform of the machine tool is in a T shape, and the presser foot bolt of the bottom plate of the die placing platform is a T-shaped bolt.

In another specific embodiment of the present invention, the bottle bottom mold positioning mechanisms are divided into two rows, one front row and the other back row, which are equal in number and spaced from each other, and each row is provided with a plurality of bottle bottom mold positioning mechanisms arranged at intervals from left to right; the die positioning platform is provided with a die positioning column abdicating hole corresponding to the central position of the electromagnet, the die positioning platform faces towards one side of the die positioning platform bottom plate and is provided with an electromagnet embedding cavity corresponding to the position of the electromagnet, the electromagnet is embedded in the electromagnet embedding cavity, the die positioning column is arranged on the die positioning platform corresponding to the die positioning column abdicating hole, and the bottom surface of the die positioning column is in surface contact with one side of the die positioning platform bottom plate facing upwards.

In a further specific embodiment of the present invention, a bottle bottom mold anti-rotation positioning pin slot is formed on one upward side of the mold placing platform and at a position corresponding to the mold placing positioning column, a bottle bottom mold anti-rotation positioning pin is fixed at each of the left end and the right end of the bottle bottom mold anti-rotation positioning pin slot, and the upper end of the bottle bottom mold anti-rotation positioning pin protrudes out of the upper surface of the mold placing platform.

In a more specific embodiment of the present invention, the upper portion of the mold positioning post protrudes out of the upper surface of the mold platform at a central position corresponding to the length direction of the anti-rotation positioning pin slot of the bottle bottom mold.

In a further specific embodiment of the invention, a pressing claw with a thickness smaller than that of the die placing platform bottom plate extends from one end of the die placing platform bottom plate pressing foot facing the die placing platform bottom plate, and the pressing claw is inserted into the die placing platform bottom plate pressing foot inserting groove to fix the die placing bottom plate on the machine tool moving worktable.

In a still more specific embodiment of the present invention, mold platen fixing screw holes are provided at intervals on the front side, the middle portion, and the rear side of the mold platen base plate in the length direction, mold platen screw holes are provided at intervals on the front side, the middle portion, and the rear side of the mold platen in the length direction and at positions corresponding to the mold platen fixing screw holes, and mold platen fixing screws are provided on the mold platen screw holes and fixed to the mold platen fixing screw holes.

In yet another specific embodiment of the present invention, the machine tool moving table is movably disposed on a machine tool moving table guide rail, and a corrugated telescopic dust cover is disposed at each of left and right ends corresponding to the machine tool moving table.

The technical scheme provided by the invention has the technical effects that: because the action cylinder such as an air cylinder or an oil cylinder is abandoned, the manufacturing cost is obviously reduced; secondly, as the use of the acting cylinder is avoided, equipment for supporting the working of the acting cylinder is not required, thereby being beneficial to obviously reducing the failure probability and ensuring the processing progress; thirdly, because the fixed clamping block and the movable clamping block are not needed, the occupation of the area of the opposite mold platform can be obviously reduced, and the quantity of the bottle bottom molds can be increased under the same area; fourthly, the bottle bottom die is only required to be placed on the bottle bottom die positioning mechanism during die setting, and the bottle bottom die positioning mechanism attracts the bottle bottom die by utilizing magnetism, so that the die setting efficiency can be improved, and the die setting accuracy can be guaranteed.

Drawings

FIG. 1 is a schematic diagram of an embodiment 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 mold placing platform base plate 1 is shown, wherein the mold placing platform base plate 1 is fixed on a movable machine tool moving working platform 2 of a machine tool in a use state; a mould placing platform 3 is shown, and the mould placing platform 3 is fixed with one side surface of the bottom plate 1 of the mould placing platform facing upwards; a set of bottle bottom die positioning mechanisms 4 is shown, the set of bottle bottom die positioning mechanisms 4 being disposed on the aforementioned mold placement platform 3.

The technical key points of the technical scheme provided by the invention are as follows: the bottle bottom mold positioning mechanisms 4 each include an electromagnet 41 and a mold positioning post 42, the electromagnet 41 is embedded on the side of the mold platform 3 facing the bottom plate 1 of the mold platform, i.e. on the side facing downward of the mold platform 3, and is electrically connected to an external electrical controller through a line 411, the mold positioning post 42 is disposed on the mold platform 3 at a central position corresponding to the electromagnet 41, the bottom of the mold positioning post 42 is supported on the bottom plate 1 of the mold platform, and the upper portion of the mold positioning post extends out of the upper surface of the mold platform 3.

A machine tool moving work platform bolt groove 21 penetrating from the left end to the right end of the machine tool moving work platform 2 is arranged on the machine tool moving work platform 2 at intervals in a state parallel to the long side direction of the machine tool moving work platform 2 (the direction from left to right is the long side direction), and the left end and the right end of the die placing platform bottom plate 1 are fixed on the machine tool moving work platform 2 at positions corresponding to the machine tool moving work platform bolt groove 21.

In this embodiment, a pair of die platform floor presser foot detection grooves 11 are formed in each of the left and right ends of the die platform floor 1, a die platform floor presser foot 211 is provided on the machine tool moving table bolt groove 21 and at a position corresponding to the die platform floor presser foot detection groove 11 by a die platform floor presser foot bolt 2111, and the die platform floor presser foot is fixed to the machine tool moving table 2 by inserting one end of the die platform floor presser foot 211 toward the die platform floor 1 into the die platform floor presser foot detection groove 11.

The applicant needs to state that: if the number of the aforementioned die platform base plate presser foot detecting grooves 11 at the left end and the right end of the die platform base plate 1 is reduced to one or increased to three, the die platform base plate presser foot detecting grooves should be regarded as equivalent technical means and still belong to the technical scope of the present disclosure.

In this embodiment, the cross-sectional shape of the bolt groove 21 of the movable work table of the machine tool is T-shaped, and the presser bolt 2111 of the die platform base plate is a T-shaped bolt.

Continuing to refer to fig. 1, in the present embodiment, the aforementioned set of bottle bottom mold positioning mechanisms 4 is divided into two front and rear rows that are equal in number and spaced apart from each other, and each row has three (but is not limited to the number) spaced apart from left to right. It can be seen that, in the present embodiment, a total of six bottle bottom mold positioning mechanisms 4 are provided, a mold positioning post relief hole 31 is provided in the mold platform 3 at a position corresponding to the center of the electromagnet 41, an electromagnet embedding cavity 32 is provided in the mold platform 3 at a position corresponding to the electromagnet 41 on a side facing the mold platform base plate 1, the electromagnet 41 is embedded in the electromagnet embedding cavity 32, the mold positioning post 42 is provided on the mold platform 3 at a position corresponding to the mold positioning post relief hole 31, and the bottom surface of the mold positioning post 42 contacts with the upward side surface of the mold platform base plate 1.

Continuing with fig. 1, a bottle bottom mold rotation-preventing positioning pin slot 33 is formed on the upward side of the mold placing platform 3 and at a position corresponding to the mold placing positioning post 42, a bottle bottom mold rotation-preventing positioning pin 331 is fixed at each of the left end and the right end of the bottle bottom mold rotation-preventing positioning pin slot 33, and the upper end of the bottle bottom mold rotation-preventing positioning pin 331 protrudes out of the upper surface of the mold placing platform 3.

As shown in fig. 1, the upper portion of the mold positioning post 42 protrudes out of the upper surface of the mold mounting table 3 at a central position corresponding to the longitudinal direction of the bottle bottom mold rotation-preventing positioning pin groove 33.

A pressing claw 2112 having a thickness smaller than that of the die platform presser foot 211 is extended from one end of the die platform base plate presser foot 211 toward the die platform base plate 1, and the die platform base plate 1 is fixed to the machine tool moving table 2 by the pressing claw 2112 being inserted into the die platform base plate presser foot insertion groove 11.

The front side, the middle part and the rear side of the length direction of the die platform bottom plate 1 are respectively provided with die platform fixing screw holes 12 at intervals, the front side, the middle part and the rear side of the length direction of the die platform 2 are also provided with die platform screw holes 34 at intervals at positions corresponding to the die platform fixing screw holes 12, die platform fixing screws 341 are arranged on the die platform screw holes 34, and the die platform fixing screws 341 are fixed with the die platform fixing screw holes 12. The machine tool moving table 2 described above is movably provided on (a pair of) machine tool moving table rails 22 illustrated in fig. 1, and corrugated telescopic dust covers 23 are provided at the left and right ends of the machine tool moving table 2.

Continuing to refer to fig. 1, there is shown a bottle bottom mold 5 made of magnetizable mold material such as mold steel, since the central position of the downward side of the bottle bottom mold 5 itself has a bottle bottom mold central blind hole 51 and the edge of the bottle bottom mold 5 has a pair of bottle bottom mold positioning holes 52, since the two bottle bottom mold rotation-preventing positioning pins 331 are corresponding to the pair of bottle bottom mold positioning holes 52, and since the mold positioning post 42 is adapted to the bottle bottom mold central blind hole 51, when the bottle bottom mold 5 to be engraved with explosion-proof lines is to be placed on the mold placing platform 3, only the pair of bottle bottom mold positioning holes 52 are aligned to the bottle bottom mold rotation-preventing positioning pin grooves 331, at this time, the mold positioning post 42 naturally enters the bottle bottom mold central blind hole 51, and after the six bottle bottom molds 5 are placed on the mold placing platform 3, the cooperation between the bottle bottom mold 5 and the mold positioning post 42 of the bottle bottom mold positioning mechanism 4 is completed, when the on-line operator operates a button switch on the electric controller to energize the line 411, the electromagnets 41 (also referred to as "electromagnetic coils") of the one group of bottle bottom mold positioning mechanisms 4 are energized to generate electromagnetic suction force, and the bottle bottom molds 5 are firmly attracted toward the mold placing table 3 by the electromagnetic suction force. In this state, the cutter shaft 6 of the machine tool shown in fig. 1 operates to cut the periphery of the upper end surface (for example, the position shown in fig. 1) of the bottle bottom mold 5 with the engraving cutter 61 attached thereto to form the explosion-proof grain 53. Also shown in fig. 1 is a nozzle 7 arranged on the machine tool, by means of which nozzle 7 debris generated during the engraving process is blown off. The positive significance of engraving the explosion-proof lines on the bottle bottom die can be seen in CN106424281B, so that the applicant does not need to describe any more.

In the process that the engraving cutter 61 on the cutter shaft 6 of the machine tool engraves the six bottle bottom molds 5 on one machine tool one by one, a worker can operate another machine tool, for example, the bottle bottom molds 5 are placed on the corresponding mold placing platforms 3 or the bottle bottom molds 5 with engraved explosion-proof patterns are taken away from the mold placing platforms 3 and the bottle bottom molds 5 with engraved explosion-proof patterns are arranged on the mold placing platforms 3, because one worker can deal with multiple machine tools and the machine tool can be automatically stopped after finishing work each time, the machine tool can continue to engrave the bottle bottom molds 5 which are placed on the mold placing platforms 3 in advance in the last batch of the day after work, and the worker can leave the post and go to work on time.

After the machine tool finishes the work of engraving the explosion-proof lines on the six bottle bottom molds 5, the power supply of the line 411 is automatically cut off, and the electromagnet 41 does not generate electromagnetic suction force due to power failure, so that a worker can easily take off the bottle bottom molds 5 and place the molds again.

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 processing a glass mold bottle bottom die comprises a mold placing platform bottom plate (1), wherein the mold placing platform bottom plate (1) is fixed on a machine tool moving working platform (2) of a machine tool in a use state; the mould placing platform (3) is fixed with the surface of one upward side of the bottom plate (1) of the mould placing platform (3); a set of bottle die block positioning mechanism (4), this set of bottle die block positioning mechanism (4) set up put on mould platform (3), its characterized in that a set of bottle die block positioning mechanism (4) respectively include an electro-magnet (41) and one put mould reference column (42), electro-magnet (41) inlay and put mould platform (3) orientation put one side of mould platform bottom plate (1) to by circuit (411) and outside electropneumatic controller electrical connection, put mould reference column (42) corresponding to the central point of electro-magnet (41) sets up and should put the bottom support of mould reference column (42) on putting mould platform (3) put on mould platform bottom plate (1), and the upper portion stretches out the upper surface of putting mould platform (3).

2. The jig for processing a glass mold bottle bottom mold according to claim 1, characterized in that a machine tool moving work platform bolt groove (21) penetrating from the left end to the right end of the machine tool moving work platform (2) is formed in the machine tool moving work platform (2) at an interval in a state parallel to the long side direction of the machine tool moving work platform (2), and the left end and the right end of the mold placing platform bottom plate (1) are fixed on the machine tool moving work platform (2) at positions corresponding to the machine tool moving work platform bolt groove (21).

3. The jig for processing the bottom mold of a glass mold bottle as defined in claim 2, wherein one or a plurality of mold placement platform bottom plate presser foot probing grooves (11) are formed in each of the left and right ends of the mold placement platform bottom plate (1), mold placement platform bottom plate presser feet (211) are provided on the machine tool moving table bolt grooves (21) and at positions corresponding to the mold placement platform bottom plate presser foot probing grooves (11) through mold placement platform bottom plate presser foot bolts (2111), and the mold placement platform bottom plate (1) is fixed to the machine tool moving table (2) by the mold placement platform bottom plate presser feet (211) being probed into the mold placement platform bottom plate presser foot probing grooves (11) toward one end of the mold placement platform bottom plate (1).

4. The clamp for processing the glass mold bottle bottom die according to claim 3, wherein the cross section of the bolt groove (21) of the machine tool moving working platform is T-shaped, and the presser bolt (2111) of the bottom plate of the die placing platform is a T-shaped bolt.

5. The clamp for processing the bottom mold of the glass mold according to claim 1, wherein the one set of the positioning mechanisms (4) is divided into two rows, one in front and the other in back, which are equal in number and spaced from each other, and each row is a plurality of the positioning mechanisms arranged at intervals from left to right; put on mould platform (3) and corresponding to the central point of electro-magnet (41) puts and has seted up and put mould reference column abdication hole (31), and put mould platform (3) orientation put one side of mould platform bottom plate (1) and corresponding to electro-magnet inlays chamber (32) have been seted up in the position of electro-magnet (41), electro-magnet (41) are inlayed and are inlayed in electro-magnet inlays chamber (32), put mould reference column (42) corresponding to put the position setting of mould reference column abdication hole (31) on putting mould platform (3), and this put the bottom surface of mould reference column (42) with put the contact of one side surface that mould platform bottom plate (1) faced upward.

6. The clamp for processing the bottle bottom mold of the glass mold according to claim 1, wherein a bottle bottom mold anti-rotation positioning pin slot (33) is formed in one upward side of the mold placing platform (3) and at a position corresponding to the mold placing positioning column (42), a bottle bottom mold anti-rotation positioning pin (331) is fixed to each of the left end and the right end of the bottle bottom mold anti-rotation positioning pin slot (33), and the upper end of the bottle bottom mold anti-rotation positioning pin (331) protrudes out of the upper surface of the mold placing platform (3).

7. The clamp for processing the bottle bottom mold of the glass mold according to claim 6, wherein the upper portion of the mold positioning post (42) protrudes out of the upper surface of the mold platform (3) at a central position corresponding to the length direction of the anti-rotation positioning pin slot (33) of the bottle bottom mold.

8. The clamp for processing the bottom mold of the glass mold bottle according to claim 3, wherein a pressing claw (2112) having a thickness smaller than that of the pressing claw (211) of the mold placing platform is extended from one end of the pressing claw (211) of the bottom plate of the mold placing platform toward the bottom plate (1) of the mold placing platform, and the pressing claw (2112) is inserted into the pressing claw inserting groove (11) of the bottom plate of the mold placing platform to fix the bottom plate (1) of the mold placing platform on the movable worktable (2) of the machine tool.

9. The jig for processing a glass mold bottle bottom mold according to claim 1, characterized in that mold placing platform fixing screw holes (12) are respectively provided at intervals on the front side, the middle portion and the rear side in the length direction of the mold placing platform bottom plate (1), mold placing platform screw holes (34) are also respectively provided at intervals on the front side, the middle portion and the rear side in the length direction of the mold placing platform (2) and at positions corresponding to the mold placing platform fixing screw holes (12), mold placing platform fixing screws (341) are provided on the mold placing platform screw holes (34), and the mold placing platform fixing screws (341) are fixed to the mold placing platform fixing screw holes (12).

10. The jig for processing a glass mold bottle bottom mold according to claim 1, characterized in that the machine tool movable table (2) is movably provided on a machine tool movable table guide rail (22), and a corrugated telescopic dust cover (23) is provided at each of left and right ends corresponding to the machine tool movable table (2).