CN112209607B - Cutting tool for processing glass sheet of laser sensor - Google Patents

Abstract

The invention discloses a cutting tool for processing a laser sensor glass sheet, wherein a first ruler marked with scales is fixedly arranged on a horizontal working surface of a cutting platform in the front-back direction, a second ruler marked with scales is arranged on the horizontal working surface through a sliding structure, and the long side marked with scales of the second ruler is vertical to the long side marked with scales of the first ruler; the glass cutter comprises a first straight ruler and a second straight ruler, wherein a mounting seat is fixedly arranged on a horizontal working face in front of the first straight ruler, a left guide rail and a right guide rail which are horizontally placed and are towards the rear are fixedly arranged on the mounting seat, a sliding block is movably arranged on the guide rails, a rotary mounting block is arranged on the front side of the sliding block through a bearing, the axis of the bearing is parallel to the first straight ruler, a cutter bar of a glass cutter is fixed on the rotary mounting block, and the cutter point of the glass cutter and the zero scale of the first straight ruler are positioned on the same horizontal straight line parallel to the long edge of the second straight ruler. The structure is simple, the use is convenient, the processing efficiency is high, the size error is small, the qualification rate is high, and the cost is low.

Description

Cutting tool for processing glass sheet of laser sensor

Technical Field

The invention relates to the field of laser sensor processing equipment, in particular to a cutting tool for processing a laser sensor glass sheet.

Background

At present, the processing mode of the glass sheet on the laser sensor still adopts the traditional manual cutting processing mode: and (3) using a ruler for assistance, then, holding a glass cutter by hand to draw the shape of the glass sheet with the required size, and pressing to remove peripheral excess materials to obtain the finished glass sheet. Because the length and the width of the glass sheet on the laser sensor are usually between 2mm and 4mm, the whole size is small, and the following defects exist by adopting a manual cutting processing mode: the machining efficiency is low, the size error of the finished glass sheet after machining is large, and the adjacent two sides are difficult to ensure to form an included angle of 90 degrees, so that the finished glass sheet after manual cutting is easy to break when inserted into the installation frame of the laser sensor, the loss is large, and the cost is high.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the cutting tool for processing the glass sheet of the laser sensor is simple in structure, convenient to use, high in glass sheet processing efficiency and high in glass sheet processing qualification rate, the size error of a finished glass sheet obtained after the cutting tool is used for cutting is small, the qualification rate is high, and the cost is greatly reduced.

In order to solve the problems, the invention adopts the technical scheme that: a cutting frock for processing laser sensor glass piece, include: the cutting platform is provided with a horizontal working surface, a first ruler marked with scales is fixedly placed on the horizontal working surface, the length direction of the first ruler is the front-back direction, a second ruler marked with scales is installed on the horizontal working surface through a sliding structure, the long side marked with scales of the second ruler is perpendicular to the long side marked with scales of the first ruler, and the second ruler can slide horizontally back and forth in a reciprocating manner relative to the first ruler through the sliding structure; a mounting seat is fixedly arranged on a horizontal working surface in front of the first straight ruler, a guide rail horizontally arranged from left to right is fixedly mounted on the mounting seat, the guide rail bearing side of the guide rail faces to the rear, and a sliding block movably arranged on the guide rail bearing side can reciprocate from left to right along the guide rail; the rotary mounting block is mounted on the rear side of the sliding block through a bearing, the axis of the bearing is parallel to the long side of the first straight ruler, and the rotary mounting block can rotate around the axis of the bearing through the bearing; the cutter bar of the glass cutter is fixed on the rotary mounting block, the cutter point of the glass cutter and the zero scale of the first ruler are positioned on the same horizontal straight line, and the horizontal straight line is parallel to the long edge of the second ruler.

Further, a cutting frock for processing laser sensor glass piece, wherein, the vertical fixed a pair of vertical connecting rod that is provided with on the horizontal working face between mount pad and first straight rule, a pair of vertical connecting rod is left right direction interval arrangement, and the briquetting that both ends have a connecting hole respectively overlaps on a pair of vertical connecting rod through two connecting holes, and the horizontal connecting pipe both ends are buckled down respectively and are formed a pair of vertical connecting pipe, and two vertical connecting pipe activities are emboliaed on a pair of vertical connecting rod back and briquetting fixed connection.

Further, in the cutting tool for processing the glass sheet of the laser sensor, springs are respectively sleeved on two vertical connecting rods between the pressing block and the horizontal working surface, and two ends of each spring respectively abut against the pressing block and the horizontal working surface; when the two springs are in a free telescopic state, the bottom surface of the pressing block is higher than the top surface of the glass sheet placed on the horizontal working surface, and the bottom surface of the pressing block is parallel to the horizontal working surface.

Further, the cutting tool for processing the glass sheet of the laser sensor is characterized in that the mounting seat is composed of a pair of mounting supports which are arranged at intervals in the left-right direction; the top of each mounting support is provided with two mounting arms extending upwards, the two mounting arms are arranged at intervals in the front-back direction, and two ends of a screw rod are respectively screwed in first threaded through holes on the two mounting arms; and two ends of the guide rail are respectively provided with a second threaded through hole, and the two ends of the guide rail are respectively screwed on the screw rod between the two mounting arms of the corresponding mounting support through the second threaded through holes.

Further, aforementioned a cutting frock for processing laser sensor glass piece, wherein, the structure of sliding be: a pair of slide rails is fixedly arranged on the horizontal working surface, the two slide rails are parallel to the long edge of the first ruler, and two ends of the second ruler are fixedly placed on the sliding parts of the pair of slide rails respectively.

Further, the cutting tool for processing the glass sheet of the laser sensor comprises a horizontal working surface of a cutting platform, wherein the horizontal working surface of the cutting platform consists of a first horizontal working surface and a second horizontal working surface, the first horizontal working surface is located behind the second horizontal working surface, the height of the first horizontal working surface is higher than that of the second horizontal working surface, and a vertical step connecting surface is formed between the first horizontal working surface and the second horizontal working surface; the first ruler and the second ruler are both located on the first horizontal working surface.

Further, the cutting tool for processing the glass sheet of the laser sensor comprises a horizontal working surface of a cutting platform, wherein the horizontal working surface of the cutting platform consists of a first horizontal working surface and a second horizontal working surface, the first horizontal working surface is located behind the second horizontal working surface, the height of the first horizontal working surface is higher than that of the second horizontal working surface, and a vertical step connecting surface is formed between the first horizontal working surface and the second horizontal working surface; first ruler and second ruler all are located first horizontal working face, and a pair of vertical connecting rod and mount pad all are located second horizontal working face.

Further, the cutting tool for processing the glass sheet of the laser sensor is characterized in that a handle is fixedly mounted at the top of a cutter bar of the glass cutter.

The invention has the beneficial effects that: the cutting tool is simple in structure, convenient to use and high in glass sheet processing efficiency, the finally obtained finished glass sheets are small in size error and high in qualification rate, and the cost is greatly reduced.

Drawings

Fig. 1 is a schematic structural diagram of a cutting tool for cutting a glass sheet of a laser sensor according to the present invention.

Fig. 2 is a schematic view of the structure in the direction a in fig. 1.

FIG. 3 is a schematic view of a connection structure between a pair of vertical connecting rods, a horizontal connecting pipe, a pressing block and two springs.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

Example one

As shown in fig. 1, the cutting tool for processing a glass sheet of a laser sensor according to the embodiment includes: take cutting platform 1 of horizontal working face, a first ruler 21 of mark scale has been placed to the fixed on the horizontal working face, the length direction of first ruler 21 is the fore-and-aft direction, and the second ruler 22 of mark scale is installed on the horizontal working face through sliding structure, and the long limit of mark scale of the mark of second ruler 22 is perpendicular with the long limit of mark scale of first ruler 21, and second ruler 22 can be through the horizontal slip around the sliding structure is reciprocal for first ruler 21. The sliding structure described in this embodiment adopts the following structure: a pair of slide rails 3 is fixedly arranged on the horizontal working surface, the two slide rails 3 are parallel to the long edge of the first ruler 21, and two ends of the second ruler 22 are respectively and fixedly arranged on the sliding parts 31 of the pair of slide rails 3.

As shown in fig. 1 and 2, a mounting base is fixedly provided on a horizontal working surface in front of the first straight edge 21, a guide rail 43 horizontally placed right and left is fixedly mounted on the mounting base, a guide rail receiving side 44 of the guide rail 43 faces rearward, and a slider 45 movably provided on the guide rail receiving side 44 is capable of reciprocating right and left along the guide rail 43. The rotation mounting block 63 is mounted on the rear side of the slider 45 through a bearing 46, the axis of the bearing 46 is parallel to the long side of the first ruler 21, and the rotation mounting block 63 can rotate around the axis of the bearing 46 through the bearing 46. The cutter rod 6 of the glass cutter 61 is fixed on the rotary mounting block 63, and the cutter point of the glass cutter 61 and the zero scale of the first ruler 21 are positioned on the same horizontal straight line which is parallel to the long side of the second ruler 22.

In order to facilitate the operator to hold the knife bar 6, a handle 62 is fixedly mounted on the top of the knife bar 6 of the glass knife 61.

In the installation process of the guide rail 43, installation errors inevitably exist, so that the guide rail 43 and the long edge of the second ruler 22 cannot be completely parallel, and in order to reduce the installation errors as much as possible, as shown in fig. 1 and 2, in the embodiment, the installation base is composed of a pair of installation supports 4, and the pair of installation supports 4 are arranged at intervals in the left-right direction; two mounting arms 41 extending upward are disposed on the top of each mounting support 4, the two mounting arms 41 are arranged at intervals in the front-back direction, and two ends of the screw rod 42 are respectively screwed into the first threaded through holes of the two mounting arms 41. Two ends of the guide rail 43 are respectively provided with a second threaded through hole, and two ends of the guide rail 43 are respectively screwed on the screw rod 42 between the two mounting arms 41 of the corresponding mounting support 4 through the second threaded through holes. After the components are installed, the two screws 42 are rotated, and the front and rear positions of the two ends of the guide rail 43 are adjusted through the screw transmission between the two screws 42 and the corresponding second threaded through holes, so that the installation error is reduced, and the guide rail 43 is parallel to the long edge of the second ruler 22 as much as possible.

During the use, will wait to cut glass piece 100 and place in the quadrant region that is constituteed by the long limit scale side of first ruler 21 and the long limit scale side of second ruler 22, adjust the position of second ruler 22 according to the size that finally wants the glass piece that obtains, make the both sides of waiting to cut glass piece 100 lean on respectively in the long limit scale side of first ruler 21 and the long limit scale side of second ruler 22, grip handle 62 adjusts the knife tip height of glass sword 61 and makes glass sword 61 pass through glass fast, press and remove the clout, finally obtain the finished product glass piece after the repetitive operation.

Example two

In the present embodiment, a press block structure is added to the first embodiment to cut the glass sheet with the glass knife 61 and then press and remove the excess material on the glass sheet. The method comprises the following specific steps: as shown in fig. 1, 2 and 3, a pair of vertical connecting rods 7 is vertically and fixedly arranged on a horizontal working surface between the mounting seat and the first straight ruler 21, the vertical connecting rods 7 are arranged at intervals in the left-right direction, a pressing block 52 with two connecting holes at two ends is sleeved on the vertical connecting rods 7 through the two connecting holes, two ends of the horizontal connecting pipe 5 are respectively bent downwards to form a pair of vertical connecting pipes 51, and the two vertical connecting pipes 51 are movably sleeved on the vertical connecting rods 7 and then fixedly connected with the pressing block 52.

In order to enable the pressing block 52 to more smoothly press the excess material on the glass sheet downwards and lift the glass sheet away after the pressing is finished, as shown in fig. 1, 2 and 3, in this embodiment, springs 53 are respectively sleeved on two vertical connecting rods 7 between the pressing block 52 and the horizontal working surface, and two ends of each spring 53 respectively abut against the pressing block 52 and the horizontal working surface. Here, both ends of the spring 53 are fixed to the bottom of the pressing piece 52 and the horizontal working surface, respectively. When the two springs 53 are in the free telescopic state, the bottom surface of the pressing block 52 is higher than the top surface of the glass sheet placed on the horizontal working surface, and the bottom surface of the pressing block 52 is parallel to the horizontal working surface, at this time, the pressing block 52 is in the initial position. In the process of pressing the horizontal connection pipe 5 downwards, the press block 52 moves downwards to contact the remainders on the glass sheet to be cut and continues to move downwards, so that the remainders are separated from the glass sheet to be cut, and after the external force applied to the horizontal connection pipe 5 is released, the press block 52 rapidly moves upwards under the elastic force of the two springs 53 to restore to the initial position.

As shown in fig. 1 and fig. 2, in the present embodiment, the horizontal working surface of the cutting platform 1 is composed of a first horizontal working surface 11 and a second horizontal working surface 12, the first horizontal working surface 11 is located behind the second horizontal working surface 12, the height of the first horizontal working surface 11 is higher than that of the second horizontal working surface 12, and a vertical step connecting surface 13 is formed between the first horizontal working surface 11 and the second horizontal working surface 12. The first ruler 21 and the second ruler 22 are both located on the first horizontal working surface 11, and the pair of vertical connecting rods 7 and the mounting seat are both located on the second horizontal working surface 12.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any modifications or equivalent variations made in accordance with the technical spirit of the present invention may fall within the scope of the present invention as claimed.

The invention has the advantages that: the cutting tool is simple in structure, convenient to use and high in glass sheet processing efficiency, the finally obtained finished glass sheets are small in size error and high in qualification rate, and the cost is greatly reduced.

Claims (8)

1. A cutting frock for processing laser sensor glass piece includes: take cutting platform of horizontal working face, its characterized in that: a first ruler marked with scales is fixedly placed on the horizontal working surface, the length direction of the first ruler is the front-back direction, a second ruler marked with scales is installed on the horizontal working surface through a sliding structure, the long side of the second ruler marked with scales is perpendicular to the long side of the first ruler marked with scales, and the second ruler can horizontally slide back and forth relative to the first ruler in a reciprocating manner through the sliding structure; a mounting seat is fixedly arranged on a horizontal working surface in front of the first straight ruler, a guide rail horizontally arranged from left to right is fixedly mounted on the mounting seat, the guide rail bearing side of the guide rail faces to the rear, and a sliding block movably arranged on the guide rail bearing side can reciprocate from left to right along the guide rail; the rotary mounting block is mounted on the rear side of the sliding block through a bearing, the axis of the bearing is parallel to the long side of the first straight ruler, and the rotary mounting block can rotate around the axis of the bearing through the bearing; the cutter bar of the glass cutter is fixed on the rotary mounting block, the cutter point of the glass cutter and the zero scale of the first ruler are positioned on the same horizontal straight line, and the horizontal straight line is parallel to the long edge of the second ruler.

2. The cutting tool for machining the glass sheet of the laser sensor according to claim 1, characterized in that: the horizontal working face between the mounting seat and the first straight ruler is vertically and fixedly provided with a pair of vertical connecting rods, the vertical connecting rods are arranged at intervals in the left-right direction, the pressing blocks with two connecting holes at two ends are sleeved on the vertical connecting rods through the two connecting holes respectively, two ends of each horizontal connecting pipe are bent downwards to form a pair of vertical connecting pipes respectively, and the two vertical connecting pipes are movably sleeved on the vertical connecting rods and then fixedly connected with the pressing blocks.

3. The cutting tool for machining the glass sheet of the laser sensor according to claim 2, characterized in that: springs are respectively sleeved on the two vertical connecting rods between the pressing block and the horizontal working surface, and two ends of each spring respectively abut against the pressing block and the horizontal working surface; when the two springs are in a free telescopic state, the bottom surface of the pressing block is higher than the top surface of the glass sheet placed on the horizontal working surface, and the bottom surface of the pressing block is parallel to the horizontal working surface.

4. The cutting tool for machining the glass sheet of the laser sensor according to claim 1, 2 or 3, wherein the cutting tool comprises: the mounting seat is composed of a pair of mounting supports which are arranged at intervals in the left-right direction; the top of each mounting support is provided with two mounting arms extending upwards, the two mounting arms are arranged at intervals in the front-back direction, and two ends of a screw rod are respectively screwed in first threaded through holes on the two mounting arms; and two ends of the guide rail are respectively provided with a second threaded through hole, and the two ends of the guide rail are respectively screwed on the screw rod between the two mounting arms of the corresponding mounting support through the second threaded through holes.

5. The cutting tool for machining the glass sheet of the laser sensor according to claim 1, characterized in that: the sliding structure is as follows: a pair of slide rails is fixedly arranged on the horizontal working surface, the two slide rails are parallel to the long edge of the first ruler, and two ends of the second ruler are fixedly placed on the sliding parts of the pair of slide rails respectively.

6. The cutting tool for machining the glass sheet of the laser sensor according to claim 1, characterized in that: the horizontal working surface of the cutting platform consists of a first horizontal working surface and a second horizontal working surface, the first horizontal working surface is positioned behind the second horizontal working surface, the height of the first horizontal working surface is higher than that of the second horizontal working surface, and a vertical step connecting surface is formed between the first horizontal working surface and the second horizontal working surface; the first ruler and the second ruler are both located on the first horizontal working surface.

7. The cutting tool for machining the glass sheet of the laser sensor according to claim 2, 3 or 5, wherein the cutting tool comprises: the horizontal working surface of the cutting platform consists of a first horizontal working surface and a second horizontal working surface, the first horizontal working surface is positioned behind the second horizontal working surface, the height of the first horizontal working surface is higher than that of the second horizontal working surface, and a vertical step connecting surface is formed between the first horizontal working surface and the second horizontal working surface; first ruler and second ruler all are located first horizontal working face, and a pair of vertical connecting rod and mount pad all are located second horizontal working face.

8. The cutting tool for machining the glass sheet of the laser sensor according to claim 1, characterized in that: the top of the cutter bar of the glass cutter is fixedly provided with a handle.

Images