CN110539016A

CN110539016A - Optical instrument spare part drilling machine

Info

Publication number: CN110539016A
Application number: CN201910750565.4A
Authority: CN
Inventors: 戚志洋
Original assignee: Yangzhou Asia Optical Technology Co Ltd
Current assignee: Yangzhou Asia Optical Technology Co Ltd
Priority date: 2019-08-14
Filing date: 2019-08-14
Publication date: 2019-12-06

Abstract

The invention discloses an optical instrument part drilling machine which comprises a working plate, a fixing device, a telescopic device and an adjusting device, wherein the fixing device is welded at the top end of the working plate, the telescopic device is connected to the side face of the working plate, the adjusting device is welded at the top end of the telescopic device, the transverse section of the working plate is arranged in a shape like a Chinese character kou, supporting legs are welded at four corners of the bottom end of the working plate, an air suction device is arranged below the working plate, material receiving devices are welded among four groups of the supporting legs, a material storage device is arranged on one side of each material receiving device, the fixing device comprises a transverse linear motor, a vertical plate, a connecting plate, a supporting plate and a transverse hydraulic rod, the transverse linear motor and the vertical plate are respectively welded at the top ends of two groups of transverse parts of the working plate. This optical instrument spare part drilling machine not only can be to the drilling of the different positions of spare part upper surface, can also handle waste gas.

Description

Optical instrument spare part drilling machine

Technical Field

The invention belongs to the technical field of part processing, and particularly relates to a drilling machine for optical instrument parts.

Background

the optical instrument is composed of single or multiple optical devices. Optical instruments mainly fall into two main categories, one is an optical instrument for real image, such as a slide projector, a camera and the like; another type is virtual imaging optical instruments such as telescopes, microscopes, loupes, etc. The optical instrument is a very important composition category in the instrument industry, and is an indispensable tool for observation, test, analysis, control, recording and transmission in various fields of industrial and agricultural production, resource exploration, space exploration, scientific experiments, national defense construction and social life. Especially, the function of modern optical instruments becomes the extension and expansion of the function of human cranial nerves. In the process of processing an optical instrument, drilling of parts is an important link, and due to the fact that the structure is small, complexity is high, the processing position and mode of individual parts are different from those of ordinary processing, a traditional drilling machine cannot adapt to drilling of various requirements of the parts, and the drilling machine cannot meet the requirements of various requirements of the parts.

Therefore, in order to meet the current situation, the design and production of a drilling machine for optical instrument parts are urgently needed to meet the requirements of practical use.

Disclosure of Invention

The invention aims to provide a drilling machine for optical instrument parts, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a drilling machine for optical instrument parts comprises a working plate, a fixing device, a telescopic device and an adjusting device, wherein the fixing device is welded at the top end of the working plate, the telescopic device is connected to the side surface of the working plate, and the adjusting device is welded at the top end of the telescopic device;

The transverse section of the working plate is arranged in a square shape, supporting legs are welded at four corners of the bottom of the working plate, an air suction device is arranged below the working plate, four groups of the supporting legs are welded with a material receiving device, and a material storage device is arranged on one side of the material receiving device.

Preferably, the fixing device comprises a transverse linear motor, a vertical plate, a connecting plate, a supporting plate and a transverse hydraulic rod, the transverse linear motor and the vertical plate are respectively welded at the top ends of the two groups of transverse parts of the working plate, the side face, close to the transverse linear motor, of the vertical plate is connected with a sliding rail through a screw, the other side of the sliding rail is connected with a sliding block in a sliding mode, a connecting plate is welded between the sliding block and the moving part of the transverse linear motor, the transverse hydraulic rod is welded at the bottom end of the supporting plate on one side of the connecting plate and the connecting plate, a round pipe and a round rod are respectively welded on the adjacent side faces of the connecting plate and the supporting plate, the end part of one side of the round rod is arranged in an.

Preferably, the telescoping device includes vertical hydraulic stem, riser and cavity board, vertical hydraulic stem and cavity board all weld in the side of working plate, the lower half setting of riser is at the inner chamber of cavity board, the top of vertical hydraulic stem and the top of riser all with adjusting device's the bottom welded fastening of vertical board.

Preferably, the adjusting device comprises a longitudinal plate, a longitudinal linear motor, a micro motor and a drill rod, the bottom end of the longitudinal plate is connected with the longitudinal linear motor through a screw, the bottom end of the moving portion of the longitudinal linear motor is connected with the micro motor through a screw, and the output shaft of the micro motor is connected with the drill rod through a coupler.

preferably, the air suction device comprises a liquid storage box, an air blower and an air suction pipe, the side face of the liquid storage box is connected with the air blower through a connecting rod, air hoppers are welded to two sides of the air blower, the air hoppers above the air blower are communicated with the air suction pipe, the air hoppers below the air blower are communicated with a water through pipe, and the lower half part of the water through pipe is arranged below the liquid level of the liquid storage box.

Preferably, receiving device includes cardboard and filter screen, the transverse section of cardboard sets up to the C style of calligraphy, it has the filter screen to bond through the viscose between three vertical inner walls of group of cardboard, three vertical inner walls of group of cardboard all bond through the viscose and have a rubber protection board, the filter screen is still passed to the tip of getter device's breathing pipe, and sets up in the below of even board.

Preferably, storage device is including connecing flitch, storage case and fagging to one side, the top of storage case is provided with connects the flitch, the below inclined plane welding that connects the flitch has the fagging to one side, and the bottom welding of fagging to one side has the riser, and the riser passes through horizontal bolt and is connected with the storage case.

The invention has the technical effects and advantages that: the optical instrument part drilling machine is characterized in that the fixing device, the telescopic device and the adjusting device are matched, so that parts can move in a three-dimensional mode relative to a drill rod, drilling at different positions of the upper surface of the parts is met, the application range is wide, the parts are controlled by the transverse linear motor, the vertical hydraulic rod and the longitudinal linear motor respectively, and the operation is labor-saving and simple; the fixing device compresses parts by utilizing the contraction of the transverse hydraulic rod, and the parts are loosened by the extension of the transverse hydraulic rod, so that the parts fall down along with gravity, pass through the material receiving device and finally fall into the material storage device, the fixing device is simple, labor-saving and quick, a filter screen of the material receiving device can block and protect the parts, and waste materials generated by drilling can not fall into the liquid storage box; the waste material that falls is collected to getter device's stock solution box, the work of air-blower for the stock solution box is taken out to the waste gas that drilling produced, after mixing with reaction liquid, reduces its circulation and goes out influence environment and staff's possibility, and this optical instrument spare part drilling machine not only can be to the drilling of spare part upper surface different positions, can also handle waste gas.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a top view of the fixture of the present invention;

Fig. 4 is a schematic structural view of the receiving device of the present invention;

Fig. 5 is a schematic structural view of the storing device of the invention.

In the figure: 1 working plate, 2 fixing device, 3 telescoping device, 4 adjusting device, 5 supporting legs, 6 getter device, 7 receiving device, 8 storage device, 9 horizontal linear electric motor, 10 riser, 11 even board, 12 are supported the board, 13 horizontal hydraulic stem, 14 vertical hydraulic stem, 15 riser, 16 hollow plate, 17 vertical plate, 18 vertical linear electric motor, 19 micro motor, 20 drilling rod, 21 stock solution box, 22 air-blower, 23 breathing pipe, 24 cardboard, 25 filter screens, 26 connects the flitch, 27 storage cases, 28 fagging to one side.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless otherwise indicated, all references to up, down, left, right, front, back, inner and outer directions herein are to be interpreted as referring to up, down, left, right, front, back, inner and outer directions in the drawings to which the invention is directed.

The invention provides a drilling machine for optical instrument parts as shown in figures 1-5, which comprises a working plate 1, a fixing device 2, a telescopic device 3 and an adjusting device 4, wherein the fixing device 2 is welded at the top end of the working plate 1, the telescopic device 3 is connected to the side surface of the working plate 1, and the adjusting device 4 is welded at the top end of the telescopic device 3;

The transverse section of the working plate 1 is arranged in a square shape, supporting legs 5 are welded at four corners of the bottom of the working plate 1, an air suction device 6 and four groups are arranged below the working plate 1, a material receiving device 7 is welded between the supporting legs 5, and a material storage device 8 is arranged on one side of the material receiving device 7.

the fixing device 2 comprises a transverse linear motor 9, a vertical plate 10, a connecting plate 11, a resisting plate 12 and a transverse hydraulic rod 13, wherein the transverse linear motor 9 and the vertical plate 10 are respectively welded at the top ends of two groups of transverse parts of the working plate 1, the side face, close to the transverse linear motor 9, of the vertical plate 10 is connected with a sliding rail through a screw, the other side of the sliding rail is connected with a sliding block in a sliding mode, the connecting plate 11 is welded between the sliding block and a moving part of the transverse linear motor 9, the transverse hydraulic rod 13 is welded at the bottom ends of the resisting plate 12 on one side of the connecting plate 11 and the connecting plate 11, a round pipe and a round rod are respectively welded on the adjacent side faces of the connecting plate 11 and the resisting plate 12, one side end of the round rod is arranged in an inner cavity of the round pipe, the transverse section of the resisting plate 12 is arranged in a V shape, and the.

Have, telescoping device 3 includes vertical hydraulic stem 14, riser 15 and hollow plate 16, vertical hydraulic stem 14 and hollow plate 16 all weld in the side of working plate 1, the lower half setting of riser 15 is in the inner chamber of hollow plate 16, the top of vertical hydraulic stem 14 and the top of riser 15 all with adjusting device 4's vertical plate 17's bottom welded fastening.

The adjusting device 4 comprises a longitudinal plate 17, a longitudinal linear motor 18, a micro motor 19 and a drill rod 20, wherein the bottom end of the longitudinal plate 17 is connected with the longitudinal linear motor 18 through a screw, the bottom end of a moving part of the longitudinal linear motor 18 is connected with the micro motor 19 through a screw, and an output shaft of the micro motor 19 is connected with the drill rod 20 through a coupler.

the air suction device 6 comprises a liquid storage box 21, an air blower 22 and an air suction pipe 23, wherein the side face of the liquid storage box 21 is connected with the air blower 22 through a connecting rod, air ventilation hoppers are welded on two sides of the air blower 22, the air ventilation hoppers above the air blower 22 are communicated with the air suction pipe 23, the air ventilation hoppers below the air suction pipe are communicated with a water through pipe, the lower half part of the water through pipe is arranged below the liquid level of the liquid storage box 21, after waste gas and reaction liquid are mixed, air circulates out, and the reaction liquid is set as a detergent.

Have, receiving device 7 includes cardboard 24 and filter screen 25, the transverse section of cardboard 24 sets up to the C style of calligraphy, it has filter screen 25 to bond through the viscose between the vertical inner wall of three groups of cardboard 24, the vertical inner wall of three groups of cardboard 24 all bonds through the viscose and has the rubber protection board, filter screen 25 is still passed to the tip of getter tube 23 of getter device 6, and sets up in the below of even board 11, and filter screen 25 can play the effect of connecing material and buffering, can also make the waste material fall in the stock solution box 21, and spare part pop-up is avoided in cardboard 24's setting, falls other places.

Have, storage device 8 is including connecing flitch 26, storage case 27 and fagging 28 to one side, the top of storage case 27 is provided with connects flitch 26, the below inclined plane welding that connects flitch 26 has fagging 28 to one side, and the bottom welding of fagging 28 to one side has riser 15, and riser 15 is connected with storage case 27 through horizontal bolt, and the setting of horizontal bolt for connect flitch 26 convenient to detach, connect on different storage cases 27, the setting that connects flitch 26 of slope avoids spare part on the filter screen 25 to fall into in the storage case 27.

Specifically, micro motor 19 sets up to Shenzhen department of precision motor Limited's micro motor 160, and horizontal linear motor 9 and vertical linear motor 18's model all sets up to GJ-30, and air-blower 22 sets up to Jiangsu full wind environmental protection science and technology Limited's CX-100, and the model of horizontal hydraulic stem and vertical hydraulic stem sets up to national dragon TYTP, and utilizes the main switch of supporting leg 5 side-mounting to control (not seen in the figure).

The optical instrument part drilling machine is characterized in that parts are arranged between a supporting plate 12 and a connecting plate 11, a transverse hydraulic rod 13 is controlled to contract to enable the supporting plate 12 to fix the parts, a micro motor 19 is started, the moving part of a transverse linear motor 9 and the moving part of a longitudinal linear motor 18 are adjusted to move according to the requirement of a drilling position, then a vertical hydraulic rod 14 is controlled to contract to enable a rotating drill rod 20 to drill the parts, waste materials generated in the process fall into a liquid storage box 21 along with gravity, a blower 22 works, an air suction pipe 23 enables waste gas generated by drilling to be pumped into the liquid storage box 21, the waste gas is mixed with reaction liquid of the liquid storage box 21 to reduce the possibility of flowing out of the waste gas, after the drilling is finished, the vertical hydraulic rod 14 is controlled to extend, then the moving part of the transverse linear motor 9 and the moving part of the longitudinal linear motor 18 are continuously adjusted to change the drilling position, and repeating the above actions, after all the drilling operations are finished, controlling the transverse hydraulic rod 13 to extend, enabling the parts to fall down along with gravity, fall onto the filter screen 25, slide onto the material receiving plate 26 and finally enter the storage box 27.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an optical instrument spare part drilling machine, includes working plate (1), fixing device (2), telescoping device (3) and adjusting device (4), its characterized in that: the top end of the working plate (1) is welded with a fixing device (2), the side surface of the working plate (1) is connected with a telescopic device (3), and the top end of the telescopic device (3) is welded with an adjusting device (4);

the horizontal section of working plate (1) sets up to the style of calligraphy of the mouth, supporting leg (5) have all been welded in the bottom four corners of working plate (1), the below of working plate (1) is provided with getter device (6), four groups the welding has receiving device (7) between supporting leg (5), and one side of receiving device (7) is provided with storage device (8).

2. The optical instrument component drilling machine as claimed in claim 1, wherein: the fixing device (2) comprises a transverse linear motor (9), a vertical plate (10), a connecting plate (11), a resisting plate (12) and a transverse hydraulic rod (13), the transverse linear motor (9) and the vertical plate (10) are respectively welded at the top ends of the two groups of transverse parts of the working plate (1), the side surface of the vertical plate (10) close to the transverse linear motor (9) is connected with a slide rail through a screw, and the other side of the slide rail is connected with a slide block in a sliding way, a connecting plate (11) is welded between the slide block and the moving part of the transverse linear motor (9), the bottom ends of the connecting plate (11) and the resisting plate (12) at one side of the connecting plate (11) are welded with a transverse hydraulic rod (13), the adjacent side surfaces of the connecting plate (11) and the resisting plate (12) are respectively welded with a round pipe and a round rod, and one side end part of the round rod is arranged in the inner cavity of the round tube, and the transverse section of the abutting plate (12) is V-shaped.

3. The optical instrument component drilling machine as claimed in claim 1, wherein: telescoping device (3) are including vertical hydraulic stem (14), riser (15) and cavity board (16), vertical hydraulic stem (14) and cavity board (16) all weld in the side of working plate (1), the lower half setting of riser (15) is at the inner chamber of cavity board (16), the top of vertical hydraulic stem (14) and the top of riser (15) all with the bottom welded fastening of the vertical plate (17) of adjusting device (4).

4. The optical instrument component drilling machine as claimed in claim 1, wherein: adjusting device (4) are including indulging board (17), vertical linear electric motor (18), micro motor (19) and drilling rod (20), there are vertical linear electric motor (18) bottom of indulging board (17) through screw connection, there are micro motor (19) bottom through screw connection in the bottom of the removal portion of vertical linear electric motor (18), and there is drilling rod (20) through the coupling joint in the output shaft of micro motor (19).

5. The optical instrument component drilling machine as claimed in claim 1, wherein: the air suction device (6) comprises a liquid storage box (21), an air blower (22) and an air suction pipe (23), the side face of the liquid storage box (21) is connected with the air blower (22) through a connecting rod, air ventilation hoppers are welded on the two sides of the air blower (22), the air ventilation hoppers above the air blower are communicated with the air suction pipe (23), the air ventilation hoppers below the air ventilation hoppers are communicated with a water through pipe, and the lower half part of the water through pipe is arranged below the liquid level of the liquid storage box (21).

6. The optical instrument component drilling machine as claimed in claim 1, wherein: receiving device (7) include cardboard (24) and filter screen (25), the transverse section of cardboard (24) sets up to the C style of calligraphy, it has filter screen (25) to bond through the viscose between three vertical inner walls of group of cardboard (24), three vertical inner walls of group of cardboard (24) all bond through the viscose and have the rubber protection board, filter screen (25) are still passed to the tip of breathing pipe (23) of getter device (6), and set up in the below of company's board (11).

7. The optical instrument component drilling machine as claimed in claim 1, wherein: storage device (8) are including connecing flitch (26), storage case (27) and fagging (28) to one side, the top of storage case (27) is provided with connects flitch (26), the below inclined plane welding that connects flitch (26) has fagging (28) to one side, and the bottom welding of fagging (28) to one side has riser (15), and riser (15) are connected with storage case (27) through horizontal bolt.