CN111015617A - Material rack of engraving and milling machine and front and back processing technology thereof - Google Patents

Abstract

The invention discloses a material rack of a carving machine and a front and back processing technology thereof, wherein the material rack comprises a rack body, an upper supporting strip, an upper limiting tooth and a lower limiting tooth, the rack body comprises two support plates which are arranged in parallel at intervals, and the two support plates are connected and fixed through at least two connecting rods to form an integral rack body structure; the upper support bars comprise two upper support bars and are arranged along the inner side edges of the two upper support bars, and the two upper limiting teeth are provided with limiting tooth grooves at intervals; the lower limiting teeth are arranged at the lower parts of the strip-shaped gap spaces, and limiting tooth grooves are arranged on the lower limiting teeth at intervals; the material to be carved and the material with the front side and/or the back side carved are vertically inserted in the strip-shaped gap space at intervals in parallel and are clamped and limited by the limiting tooth grooves of the upper limiting teeth and the lower limiting teeth. The front and back processing technology comprises material feeding, front fine carving processing and back fine carving processing. The invention realizes the vertical free insertion of a plurality of materials, the free switching of the materials to be processed and the front and back processing materials on the same material rack and the non-stop material taking and discharging.

Description

Material rack of engraving and milling machine and front and back processing technology thereof

Technical Field

The invention relates to the field of automatic manufacturing, in particular to a material rack of a precise engraving machine and a front and back processing technology thereof.

Background

The glass display screen is an important component in intelligent terminal equipment such as a mobile phone, and in recent years, along with the upgrading and updating of products, a 3D screen appears, and the 3D screen is different from a traditional plane screen in that the side edge or other parts of the 3D screen form various shapes such as bulges, depressions and curved surfaces, so that the whole screen is not in the same plane; the existing process can only obtain the screen panel glass sheet with a planar structure; therefore, in order to manufacture the traditional plane glass sheet into the 3D glass sheet, additional processing processes such as an engraving process and a hot pressing process are required, wherein the engraving process performs polishing and engraving on the surface of the plane glass by a specially designed blade through rotating motion to obtain the 3D glass; and in the hot pressing process, the 3D glass is obtained by heating and softening the plane glass sheet and then pressing the plane glass sheet by a mold. Carry out the finishing impression in-process in the finishing impression machine, need take out the glass piece of treating the finishing impression from the magazine to remove to finishing impression platform department, take out the glass piece that has accomplished the finishing impression on the finishing impression platform, and put into new finishing impression glass piece of treating.

In the automatic engraving process, a plurality of glass sheets for engraving are usually fed in a multi-sheet feeding mode, so that the automatic engraving action is continuous without stopping, and the engraving work efficiency is ensured; in the actual engraving process, the condition that the front and the back of the same glass sheet need to be engraved simultaneously exists; in the continuous and uninterrupted automatic engraving process, the following technical difficulties exist in the process of simultaneously carrying out the engraving process on the front and the back of the glass sheet: 1. storing and discharging the glass sheets in a centralized manner; 2. the material taking and placing method comprises the steps of taking and placing a plurality of glass sheets to be processed, a plurality of glass sheets processed on the front side and a plurality of glass sheets processed on the back side, and solving the problem of non-stop connection of three different material taking and placing states of the glass sheets.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides a material rack of a precise engraving machine and a front and back processing process thereof, wherein the material rack realizes vertical free insertion of a plurality of materials, free switching of materials to be processed, front processed materials and back processed materials on the same material rack, and non-stop material taking and discharging.

The technical scheme adopted by the invention is as follows: a material rack of a carving machine comprises a rack body, an upper supporting strip, an upper limiting tooth and a lower limiting tooth, wherein the rack body comprises two support plates which are arranged in parallel at intervals, and the two support plates are fixedly connected through at least two connecting rods to form an integral rack body structure; the upper branch bars comprise two strip-shaped structures, the two upper branch bars are arranged between the two support plates in parallel at intervals, and strip-shaped gap spaces are formed between the two upper branch bars; the upper limiting teeth comprise two upper limiting teeth which are arranged along the inner side edges of the two upper branches, and limiting tooth grooves symmetrically arranged towards the strip-shaped gap space from front to back are formed between tooth parts arranged on the two upper limiting teeth at intervals; the lower limiting teeth are arranged at the lower parts of the strip-shaped gap spaces, and limiting tooth grooves which are upwards arranged towards the strip-shaped gap spaces are formed among tooth parts which are arranged at intervals on the lower limiting teeth; the material to be carved and the material with the front side and/or the back side carved are vertically inserted in the strip-shaped gap space at intervals in parallel and are clamped and limited by the limiting tooth grooves of the upper limiting teeth and the lower limiting teeth.

Preferably, the support plate is provided with a strip-shaped mounting groove and a horizontal mounting row hole corresponding to the two upper supporting strips respectively, and the strip-shaped mounting groove and the horizontal mounting row hole are arranged at the end parts of the two upper supporting strips respectively; the two ends of the upper supporting strip are inserted into the strip-shaped mounting grooves and horizontally slide along the strip-shaped mounting grooves so as to adjust the width of the strip-shaped gap space.

Preferably, the horizontal mounting row holes comprise at least two mounting holes which are arranged at intervals along the horizontal direction; the two ends of the upper supporting strip are installed in the horizontal installation holes and are horizontally moved into different installation holes to be installed, so that the width of the strip-shaped gap space is adjusted.

Preferably, the support plate is provided with vertical mounting holes at two ends corresponding to the lower limiting teeth, each vertical mounting hole comprises at least two mounting holes, and the mounting holes are arranged at intervals in the vertical direction; the both ends of lower spacing tooth are installed in vertical mounting hole to move to different mounting holes along vertical direction and install, so that the width in adjustment strip clearance space.

A front and back processing technology of a material rack of a carving machine comprises the following processing steps:

s1, discharging: multiple pieces of materials to be carved are vertically inserted into the limiting tooth grooves of the upper limiting teeth and the lower limiting teeth of the strip-shaped clearance space, so that a first empty material part, a material placing part and a second empty material part are sequentially formed in the strip-shaped clearance space

The material discharging part is used for discharging a plurality of materials to be carved;

s2, front fine engraving: the material taking manipulator takes out the materials from the outer end of the material placing part close to the second hollow part in the step S1 step by step, moves the materials to the fine carving platform for fine carving of the front surface of the materials, and then places the materials subjected to fine carving of the front surface into the strip-shaped clearance space from the outer end of the second hollow part; after the material subjected to the front-side fine engraving is discharged, the discharging part of the strip-shaped clearance space covers the second empty part, and the first empty part is expanded into a third empty part;

s3, negative surface fine engraving processing: after the material subjected to the front-side fine engraving processing is discharged in the step S2, the material taking manipulator successively takes out the material from one end, close to the third hollow part, of the discharging part, moves the material to the fine engraving platform for back-side fine engraving processing, and places the material subjected to the back-side fine engraving processing into the strip-shaped gap space from the outer end of the third hollow part; and after the material is completely discharged after the back side fine engraving processing is finished, the discharging part of the strip-shaped clearance space covers the third empty material part, and a fourth empty material part is formed in the strip-shaped clearance space.

The invention has the beneficial effects that:

aiming at the defects and shortcomings in the prior art, the invention independently develops and designs the material rack of the engraving and milling machine and the front and back processing technology thereof, wherein the material rack realizes vertical free type insertion of a plurality of materials, and free switching of the materials to be processed, the front processed materials and the back processed materials on the same material rack and material taking and discharging without stopping the machine. The material rack is designed with a material rack structure aiming at the originality of storing a plurality of materials in the process of fine carving, the material rack takes two vertical support plates which are arranged in parallel at intervals as supporting parts, and the two vertical support plates are connected and fixed through a plurality of horizontal connecting rods to form an integral framework. Two upper supporting strips are connected between the two supporting plates at intervals in parallel, strip-shaped upper limiting teeth are respectively arranged on the inner sides of the two upper supporting strips, and strip-shaped gap spaces are formed between the two upper supporting strips; the lower part of the strip-shaped clearance space is provided with strip-shaped lower limiting teeth; go up spacing tooth and be provided with a plurality of spacing tooth's socket on the spacing tooth down respectively evenly at intervals, in the spacing tooth's socket of spacing tooth and spacing tooth down was gone up in the vertical insertion of multi-disc material, supported and spacing fixed through spacing tooth's socket, the storage that can freely take out at the interval has been realized to this kind of structural design, has avoided colliding each other between the material, has promoted the material effectively and has got and put efficiency. In addition, in order to ensure that a plurality of materials are automatically and continuously subjected to front and back face fine engraving processing on the same material rack, the front and back face processing technology is designed by utilizing the structure of the material rack, the whole process comprises three process states, the first process step is a material placing process, a plurality of materials to be subjected to fine engraving are vertically inserted into limiting tooth grooves of upper limiting teeth and lower limiting teeth of strip-shaped clearance spaces, so that a first empty material part, a material placing part and a second empty material part are sequentially formed in the strip-shaped clearance spaces, and the plurality of materials to be subjected to fine engraving are positioned at the material placing parts; the second process is a front-side fine-engraving processing process, the material taking manipulator takes out materials from the outer end of the material placing part of the material placing step close to the second hollow part successively, moves the materials to a fine-engraving platform for fine-engraving processing of the front side of the materials, and then puts the materials subjected to the front-side fine-engraving processing into the strip-shaped gap space successively from the outer end of the second hollow part; after the material subjected to the front-side fine engraving is discharged, the discharging part of the strip-shaped clearance space covers the second empty part, and the first empty part is expanded into a third empty part; the third process is a reverse side fine engraving process, after the material subjected to the front side fine engraving process is discharged in the front side fine engraving process, the material taking mechanical arm sequentially takes out the material from one end of the discharging part close to the third hollow part, moves the material to a fine engraving platform for reverse side fine engraving, and places the material subjected to the reverse side fine engraving process into the strip-shaped gap space from the outer end of the third hollow part; and after the material is completely discharged after the back side fine engraving processing is finished, the discharging part of the strip-shaped clearance space covers the third empty material part, and a fourth empty material part is formed in the strip-shaped clearance space. Through the sequencing design of the material taking and discharging in the three processes, the automatic non-stop material taking and discharging of multiple pieces of materials on the same material rack are realized, the material taking and discharging during the simultaneous machining of the front and back sides of the materials are realized, and the material taking and discharging efficiency is greatly improved.

Drawings

Fig. 1 is a schematic perspective view of a loading state of the present invention.

Fig. 2 is a second schematic perspective view of the feeding state of the present invention.

Fig. 3 is a schematic perspective view of the front side processing state of the present invention.

Fig. 4 is a schematic perspective view of the second embodiment of the present invention in a front processing state.

Fig. 5 is a schematic perspective view of the present invention in a processing state.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

as shown in fig. 1 to 5, the technical solution adopted by the present invention is as follows: a material rack of a carving machine comprises a rack body, an upper support strip 1, an upper limiting tooth 2 and a lower limiting tooth 3, wherein the rack body comprises two support plates which are arranged in parallel at intervals, and the two support plates are connected and fixed through at least two connecting rods to form an integral rack body structure; the upper branch bars 1 comprise two bars, the upper branch bars 1 are in a strip-shaped structure, the two upper branch bars 1 are arranged between the two support plates in parallel at intervals, and strip-shaped gap spaces are formed between the two upper branch bars 1; the upper limiting teeth 2 comprise two upper limiting teeth 2 which are arranged along the inner side edges of the two upper branches 1, and limiting tooth grooves which are symmetrically arranged towards the strip-shaped gap space from front to back are formed between tooth parts which are arranged on the two upper limiting teeth 2 at intervals; the lower limiting teeth 3 are arranged at the lower parts of the strip-shaped gap spaces, and limiting tooth grooves which are upwards arranged towards the strip-shaped gap spaces are formed between tooth parts which are arranged at intervals on the lower limiting teeth 3; the material 4 to be carved and the material with the front and/or the back to be carved are vertically inserted in the strip-shaped gap space at intervals in parallel and are clamped and limited by the limiting tooth grooves of the upper limiting teeth 2 and the lower limiting teeth 3.

The support plate is provided with a strip-shaped mounting groove and a horizontal mounting row hole corresponding to the two upper supporting strips respectively, and the strip-shaped mounting groove and the horizontal mounting row hole are arranged at the end parts of the two upper supporting strips 1 respectively; the two ends of the upper branch bar 1 are inserted into the strip-shaped mounting grooves and horizontally slide along the strip-shaped mounting grooves so as to adjust the width of the strip-shaped gap space.

The horizontal mounting row holes comprise at least two mounting holes which are arranged at intervals along the horizontal direction; the two ends of the upper branch bar 1 are arranged in the horizontal mounting holes and are horizontally moved to different mounting holes for mounting so as to adjust the width of the strip-shaped gap space.

Two ends of the support plate, corresponding to the lower limiting teeth 3, are provided with vertical mounting row holes, each vertical mounting row hole comprises at least two mounting holes, and the mounting holes are arranged at intervals in the vertical direction; the both ends of lower spacing tooth 3 are installed in vertical mounting hole to move to different mounting holes along vertical direction and install, so that the width in strip clearance space is adjusted.

A front and back processing technology of a material rack of a carving machine comprises the following processing steps:

s1, discharging: a plurality of materials to be carved are vertically inserted into the limiting tooth grooves of the upper limiting teeth 2 and the lower limiting teeth 3 of the strip-shaped clearance space, so that a first empty material part A, a material placing part B and a second empty material part C are sequentially formed in the strip-shaped clearance space, and the plurality of materials to be carved are positioned at the material placing part B;

s2, front fine engraving: the material taking manipulator takes out the materials from the outer end of the material placing part B close to the second hollow part C in the step S1 step by step, moves the materials to the fine carving platform for fine carving of the front surface of the materials, and places the materials subjected to fine carving of the front surface into the strip-shaped clearance space from the outer end of the second hollow part C; after the material subjected to the front-side fine engraving is discharged, covering the second empty part C with a discharging part B of the strip-shaped clearance space, and expanding the first empty part A into a third empty part D;

s3, negative surface fine engraving processing: after the material subjected to the front-side fine engraving processing in the step S2 is completely placed, the material taking manipulator successively takes out the material from one end of the material placing part B close to the third hollow part D, moves the material to the fine engraving platform for back-side fine engraving processing, and places the material subjected to the back-side fine engraving processing into the strip-shaped gap space from the outer end of the third hollow part D; and after the material is completely discharged after the back side fine engraving processing is finished, the discharging part of the strip-shaped clearance space covers the third empty material part D, and a fourth empty material part E is formed in the strip-shaped clearance space.

Further, the invention designs the material rest of the engraving and milling machine and the front and back surface processing technology thereof, wherein the material rest realizes vertical free insertion of a plurality of materials, and the materials to be processed, the front processed materials and the back processed materials are freely switched on the same material rest and can be taken and discharged without stopping the machine. The material rack is designed with a material rack structure aiming at the originality of storing a plurality of materials in the process of fine carving, the material rack takes two vertical support plates which are arranged in parallel at intervals as supporting parts, and the two vertical support plates are connected and fixed through a plurality of horizontal connecting rods to form an integral framework. Two upper supporting strips are connected between the two supporting plates at intervals in parallel, strip-shaped upper limiting teeth are respectively arranged on the inner sides of the two upper supporting strips, and strip-shaped gap spaces are formed between the two upper supporting strips; the lower part of the strip-shaped clearance space is provided with strip-shaped lower limiting teeth; go up spacing tooth and be provided with a plurality of spacing tooth's socket on the spacing tooth down respectively evenly at intervals, in the spacing tooth's socket of spacing tooth and spacing tooth down was gone up in the vertical insertion of multi-disc material, supported and spacing fixed through spacing tooth's socket, the storage that can freely take out at the interval has been realized to this kind of structural design, has avoided colliding each other between the material, has promoted the material effectively and has got and put efficiency. In addition, in order to ensure that a plurality of materials are automatically and continuously subjected to front and back face fine engraving processing on the same material rack, the front and back face processing technology is designed by utilizing the structure of the material rack, the whole process comprises three process states, the first process step is a material placing process, a plurality of materials to be subjected to fine engraving are vertically inserted into limiting tooth grooves of upper limiting teeth and lower limiting teeth of strip-shaped clearance spaces, so that a first empty material part, a material placing part and a second empty material part are sequentially formed in the strip-shaped clearance spaces, and the plurality of materials to be subjected to fine engraving are positioned at the material placing parts; the second process is a front-side fine-engraving processing process, the material taking manipulator takes out materials from the outer end of the material placing part of the material placing step close to the second hollow part successively, moves the materials to a fine-engraving platform for fine-engraving processing of the front side of the materials, and then puts the materials subjected to the front-side fine-engraving processing into the strip-shaped gap space successively from the outer end of the second hollow part; after the material subjected to the front-side fine engraving is discharged, the discharging part of the strip-shaped clearance space covers the second empty part, and the first empty part is expanded into a third empty part; the third process is a reverse side fine engraving process, after the material subjected to the front side fine engraving process is discharged in the front side fine engraving process, the material taking mechanical arm sequentially takes out the material from one end of the discharging part close to the third hollow part, moves the material to a fine engraving platform for reverse side fine engraving, and places the material subjected to the reverse side fine engraving process into the strip-shaped gap space from the outer end of the third hollow part; and after the material is completely discharged after the back side fine engraving processing is finished, the discharging part of the strip-shaped clearance space covers the third empty material part, and a fourth empty material part is formed in the strip-shaped clearance space. Through the sequencing design of the material taking and discharging in the three processes, the automatic non-stop material taking and discharging of multiple pieces of materials on the same material rack are realized, the material taking and discharging during the simultaneous machining of the front and back sides of the materials are realized, and the material taking and discharging efficiency is greatly improved.

The embodiments of the present invention are merely illustrative of specific embodiments thereof, and are not intended to limit the scope thereof. Since the present invention can be modified by a person skilled in the art, the present invention is not limited to the embodiments described above.

Claims (5)

1. The utility model provides a cnc engraving and milling work or material rest which characterized in that: the frame comprises a frame body, an upper supporting strip (1), an upper limiting tooth (2) and a lower limiting tooth (3), wherein the frame body comprises two support plates which are arranged in parallel at intervals, and the two support plates are connected and fixed through at least two connecting rods to form an integral frame body structure; the upper branch bars (1) comprise two bars, the upper branch bars (1) are of a strip-shaped structure, the two upper branch bars (1) are arranged between the two support plates in parallel at intervals, and strip-shaped gap spaces are formed between the two upper branch bars (1); the upper limiting teeth (2) comprise two upper limiting teeth (2), the two upper limiting teeth (2) are arranged along the inner side edges of the two upper branches (1), and limiting tooth grooves symmetrically arranged towards the strip-shaped gap space from front to back are formed between tooth parts arranged on the two upper limiting teeth (2) at intervals; the lower limiting teeth (3) are arranged at the lower part of the strip-shaped gap space, and limiting tooth grooves which are upwards arranged towards the strip-shaped gap space are formed between tooth parts which are arranged at intervals on the lower limiting teeth (3); the material (4) to be carved and the material with the front and/or the back to be carved are vertically inserted in the strip-shaped clearance space at intervals in parallel and are clamped and limited by the limiting tooth sockets of the upper limiting teeth (2) and the lower limiting teeth (3).

2. The engraving and milling machine rack of claim 1, wherein: the support plate is provided with a strip-shaped mounting groove and a horizontal mounting row hole corresponding to the two upper supporting strips respectively, and the strip-shaped mounting groove and the horizontal mounting row hole are arranged at the end parts of the two upper supporting strips (1) respectively; the two ends of the upper supporting strip (1) are inserted into the strip-shaped mounting grooves and horizontally slide along the strip-shaped mounting grooves so as to adjust the width of the strip-shaped gap space.

3. The cnc engraving and milling rack according to claim 2, characterized in that: the horizontal mounting row holes comprise at least two mounting holes which are arranged at intervals along the horizontal direction; the two ends of the upper supporting bar (1) are installed in the horizontal installation holes and are horizontally moved into different installation holes to be installed, so that the width of the strip-shaped gap space is adjusted.

4. The engraving and milling machine rack of claim 1, wherein: vertical mounting row holes are formed in the support plate corresponding to two ends of the lower limiting teeth (3), each vertical mounting row hole comprises at least two mounting holes, and the mounting holes are arranged at intervals in the vertical direction; the two ends of the lower limiting teeth (3) are installed in the vertical installation holes and are installed in different installation holes along the vertical direction, so that the width of the strip-shaped gap space can be adjusted.

5. The front and back processing technology of the material rack of the engraving and milling machine as claimed in claim 1, characterized by comprising the following processing steps:

s1, discharging: a plurality of materials to be carved are vertically inserted into the limiting tooth grooves of the upper limiting tooth (2) and the lower limiting tooth (3) of the strip-shaped clearance space, so that a first empty material part (A), a material placing part (B) and a second empty material part (C) are sequentially formed in the strip-shaped clearance space, and the plurality of materials to be carved are positioned at the material placing part (B);

s2, front fine engraving: the material taking manipulator takes out the materials from the outer end of the material placing part (B) close to the second empty material part (C) in the step S1 step by step, moves the materials to the fine carving platform for fine carving of the front surface of the materials, and then places the materials subjected to fine carving of the front surface into the strip-shaped clearance space from the outer end of the second empty material part (C) step by step; after the material subjected to the front-side fine engraving is discharged, covering the second empty material part (C) with a discharging part (B) of the strip-shaped clearance space, and expanding the first empty material part (A) into a third empty material part (D);

s3, negative surface fine engraving processing: after the material subjected to the front-side fine engraving processing in the step S2 is completely discharged, the material taking manipulator successively takes out the material from one end of the discharging part (B) close to the third hollow part (D), moves the material to the fine engraving platform for back-side fine engraving processing, and places the material subjected to the back-side fine engraving processing into the strip-shaped gap space from the outer end of the third hollow part (D); and after the material is discharged after the back side fine carving is finished, the discharging part of the strip-shaped clearance space covers the third empty material part (D), and a fourth empty material part (E) is formed in the strip-shaped clearance space.

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