CN212147030U - Pore-forming equipment for optical glass processing - Google Patents

Abstract

The utility model belongs to the technical field of the pore-forming machine, especially, be a pore-forming device that optical glass processing used, the power distribution box comprises a box body, the bottom welding of box has the base, the surface of box is provided with the workstation, the waste opening has been seted up on the surface of workstation, the surface of waste opening is provided with soft skin, the spout has been seted up at the top of box, the spout is inside to run through there is the traveller, the top of traveller is connected with first connecting pipe, the movable block is installed at the top of first connecting pipe, the surface connection of movable block has the spring. Through setting up the dust remover in that the box is inside, cooperation dust absorption head and dust absorption pipe can make the waste material that produces after the pore-creating is accomplished discharge the waste material through rethread dust exhaust pipe in dust remover is inhaled through dust absorption head and dust absorption pipe, need not artificially handle, avoided causing the injury to the human body, because the dust absorption head is linear arrangement and installs in the below of drill bit portable position, the waste material that the friction caused splashes when having avoided the pore-creating.

Description

Pore-forming equipment for optical glass processing

Technical Field

The utility model belongs to the technical field of the pore-forming machine, concretely relates to pore-forming equipment of optical glass processing usefulness.

Background

The optical glass can change the propagation direction of light and change the relative spectral distribution of ultraviolet, visible or infrared light. Optical glass in the narrow sense means colorless optical glass; the optical glass in a broad sense also includes colored optical glass, laser glass, quartz optical glass, radiation-resistant glass, ultraviolet infrared optical glass, fiber optical glass, acousto-optic glass, magneto-optic glass and photochromic glass. The optical glass can be used for manufacturing lenses, prisms, reflectors, windows and the like in optical instruments. The components made of optical glasses are critical elements in optical instruments, but the optical glasses also need to be pore-formed, so that a pore-forming machine is produced.

Optical glass pore-forming equipment on the existing market is simple in structure, single in function, and the waste material that can't automatic processing produced when the pore-forming, the waste material of pore-forming is because sharp, and the human body of fish tail is easy when artificial clearance, also can make the waste material splash everywhere owing to the friction when the pore-forming, if the mankind of splashing carelessly, can cause the injury to the human body, and reduced the work efficiency of pore-forming equipment.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a pore-forming equipment that optical glass processing was used has solved the problem that pore-forming equipment removed dust.

In order to achieve the above object, the utility model provides a following technical scheme: a pore-forming device for processing optical glass comprises a box body, wherein a base is welded at the bottom of the box body, a workbench is arranged on the surface of the box body, a waste port is formed in the surface of the workbench, soft leather is arranged on the surface of the waste port, a sliding chute is formed in the top of the box body, a sliding column penetrates through the sliding chute, a first connecting pipe is connected to the top of the sliding column, a moving block is mounted at the top of the first connecting pipe, a spring is connected to the surface of the moving block, one end of the spring is connected with a fixed block, a telescopic rod is connected to the bottom of the sliding column, a motor is connected to one end of the telescopic rod, a second connecting pipe is arranged on the surface of the motor, one end of the second connecting pipe is connected with a rotating shaft, one end of the rotating shaft is connected with a connecting column, the surface mounting of dust remover has the dust absorption pipe, the dust absorption head is installed at the top of dust absorption pipe, the surface mounting of dust remover has the dust exhaust pipe.

Preferably, the number of waste material mouth is a plurality of, the waste material mouth is linear arrangement, the soft skin parcel is at the surface of waste material mouth.

Preferably, the number of the dust collection heads is multiple, the dust collection heads penetrate through the surface of the workbench, and the dust collection heads are located at the bottom of the waste material port.

Preferably, the drill bit is connected with the rotating shaft through a connecting column, and the drill bit is a hollow cylinder.

Preferably, two ends of the spring are respectively connected with the fixed block and the moving block, and the moving block is connected with the sliding column through a first connecting pipe.

Preferably, the telescopic rod is an electric telescopic rod, and the connecting column is in active connection with the rotating shaft.

Compared with the prior art, the beneficial effects of the utility model are that: the hole-forming equipment for processing the optical glass,

through setting up the dust remover in that the box is inside, cooperation dust absorption head and dust absorption pipe can make the waste material that produces after the pore-creating is accomplished discharge the waste material through rethread dust exhaust pipe in dust remover is inhaled through dust absorption head and dust absorption pipe, need not artificially handle, avoided causing the injury to the human body, because the dust absorption head is linear arrangement and installs in the below of drill bit portable position, the waste material that the friction caused splashes when having avoided the pore-creating.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a complete structural schematic diagram of the present invention;

FIG. 2 is an internal view of the case of the present invention;

fig. 3 is a front view of the present invention.

In the figure: 1, a box body; 2, a base; 3, a workbench; 4, a waste material port; 5, a chute; 6, fixing blocks; 7, a spring; 8 moving blocks; 9 a first connecting pipe; 10 a sliding column; 11, a telescopic rod; 12 a motor; 13 a second connecting pipe; 14 a rotating shaft; 15 connecting columns; a 16 bit; 17 a dust collection head; 18 a dust suction pipe; 19 a dust remover; 20 dust exhaust pipes; 21, softening the skin.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: a pore-forming device for processing optical glass comprises a box body 1, wherein a base 2 is welded at the bottom of the box body 1, a workbench 3 is arranged on the surface of the box body 1, a waste material port 4 is formed in the surface of the workbench 3, a soft leather 21 is arranged on the surface of the waste material port 4, a sliding chute 5 is formed in the top of the box body 1, a sliding column 10 penetrates through the sliding chute 5, a first connecting pipe 9 is connected to the top of the sliding column 10, a moving block 8 is installed at the top of the first connecting pipe 9, a spring 7 is connected to the surface of the moving block 8, a fixed block 6 is connected to one end of the spring 7, a telescopic rod 11 is connected to the bottom of the sliding column 10, a motor 12 is connected to one end of the telescopic rod 11, a second connecting pipe 13 is arranged on the surface of the motor 12, a rotating shaft 14 is connected to one end of the second connecting pipe, the surface of the dust remover 19 is provided with a dust suction pipe 18, the top of the dust suction pipe 18 is provided with a dust suction head 17, and the surface of the dust remover 19 is provided with a dust discharge pipe 20.

In the embodiment, the dust collector 19 is arranged in the box body, and the dust collection head 17 and the dust collection pipe 18 are matched, so that waste generated after pore forming is completed can be sucked into the dust collector 19 through the dust collection head 17 and the dust collection pipe 18 and then is discharged through the dust discharge pipe 20 without artificial treatment, and damage to human bodies is avoided, because the dust collection heads 17 are linearly arranged below the movable position of the drill bit 16, waste splashing caused by friction during pore forming is avoided, the number of the waste material openings 4 is multiple, the waste material openings 4 are linearly arranged, the soft leather 21 is wrapped on the surface of the waste material openings 4, cracks are avoided when glass collides with the waste material openings 4, two ends of the spring 7 are respectively connected with the fixed block 6 and the movable block 8, the movable block 8 is connected with the sliding column 10 through the first connecting pipe 9, the pore forming position on the glass can be adjusted as required, the telescopic rod 11 is an electric telescopic rod, the connecting column 15 is actively connected with the rotating shaft 14, the height of the drill bit 16 can be adjusted according to the thickness of the glass, and the replacement and the maintenance of the drill bit 16 are convenient when holes with different sizes need to be manufactured.

Specifically, the quantity of waste material mouth 4 is a plurality of, and waste material mouth 4 is linear arrangement, and the soft skin 21 parcel is a plurality of on the surface of waste material mouth 4, through the quantity of waste material mouth 4, and waste material mouth 4 is linear arrangement, and soft skin 21 parcel can produce the crack when avoiding glass and waste material mouth 4 collision on the surface of waste material mouth 4.

Specifically, the quantity of dust absorption head 17 is a plurality of, and dust absorption head 17 runs through on the surface of workstation 3, and dust absorption head 17 is located the bottom of waste material mouth 4, and quantity through dust absorption head 17 is a plurality of, and dust absorption head 17 runs through on the surface of workstation 3, and dust absorption head 17 is located the bottom of waste material mouth 4, can absorb the waste material of boring down, need not artificial clearance again.

Specifically, the drill 16 is connected with the rotating shaft 14 through the connecting column 15, the drill 16 is a hollow cylinder, the drill 16 is connected with the rotating shaft 14 through the connecting column 15, and the drill 16 is a hollow cylinder and can directly perform hole forming on glass.

Specifically, the two ends of the spring 7 are respectively connected with the fixed block 6 and the moving block 8, the moving block 8 is connected with the sliding column 10 through the first connecting pipe 9, and the position of the hole formed in the glass can be adjusted along with requirements.

Specifically, telescopic link 11 is electric telescopic handle, and spliced pole 15 is active connection with pivot 14, is electric telescopic handle through telescopic link 11, and spliced pole 15 is active connection with pivot 14, can make the change and the maintenance of drill bit 16 convenient when the hole of variation in size is made to needs according to the height of glass's thickness adjustment drill bit 16.

The utility model discloses a theory of operation and use flow: the utility model discloses install the back, when using, input and external power source electric connection through box 1, wrap up the surface at waste material mouth 4 through soft skin 21, the effect that can produce the crack when having played and preventing glass and waste material mouth 4 collision, run through the surface at workstation 3 through dust absorption head 17, dust absorption head 17 is located waste material mouth 4's bottom, the effect of inhaling the waste material of boring down has been played, both ends through spring 7 are connected with fixed block 6 and movable block 8 respectively, movable block 8 is connected with traveller 10 through first connecting pipe 9, the effect of adjustable drill bit 16 position has been played, be electric telescopic handle through telescopic link 11, the effect of lift drill bit 16 has been played, be active connection through spliced pole 15 and pivot 14, the effect of change and maintenance drill bit 16 has been played.

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 described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a pore-creating equipment that optical glass processing was used, includes box (1), base (2), its characterized in that have been welded to the bottom of box (1): the surface of the box body (1) is provided with a workbench (3), the surface of the workbench (3) is provided with a waste material port (4), the surface of the waste material port (4) is provided with a soft leather (21), the top of the box body (1) is provided with a sliding chute (5), a sliding column (10) penetrates through the sliding chute (5), the top of the sliding column (10) is connected with a first connecting pipe (9), the top of the first connecting pipe (9) is provided with a moving block (8), the surface of the moving block (8) is connected with a spring (7), one end of the spring (7) is connected with a fixed block (6), the bottom of the sliding column (10) is connected with a telescopic rod (11), one end of the telescopic rod (11) is connected with a motor (12), the surface of the motor (12) is provided with a second connecting pipe (13), one end of the second connecting pipe (13) is connected with, the one end of pivot (14) is connected with spliced pole (15), the one end welding of spliced pole (15) has drill bit (16), the inside of box (1) is provided with dust remover (19), the surface mounting of dust remover (19) has dust absorption pipe (18), dust absorption head (17) are installed at the top of dust absorption pipe (18), the surface mounting of dust remover (19) has dust exhaust pipe (20).

2. The pore-forming apparatus for processing optical glass according to claim 1, wherein: the quantity of waste material mouth (4) is a plurality of, waste material mouth (4) are linear arrangement, soft skin (21) parcel is on the surface of waste material mouth (4).

3. The pore-forming apparatus for processing optical glass according to claim 1, wherein: the quantity of dust absorption head (17) is a plurality of, dust absorption head (17) run through the surface at workstation (3), dust absorption head (17) are located the bottom of waste material mouth (4).

4. The pore-forming apparatus for processing optical glass according to claim 1, wherein: the drill bit (16) is connected with the rotating shaft (14) through a connecting column (15), and the drill bit (16) is a hollow cylinder.

5. The pore-forming apparatus for processing optical glass according to claim 1, wherein: two ends of the spring (7) are respectively connected with the fixed block (6) and the moving block (8), and the moving block (8) is connected with the sliding column (10) through a first connecting pipe (9).

6. The pore-forming apparatus for processing optical glass according to claim 1, wherein: the telescopic rod (11) is an electric telescopic rod, and the connecting column (15) is movably connected with the rotating shaft (14).

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