CN114769225A

CN114769225A - Sweep-frequency type electric cleaning process and sweep-frequency type electric cleaning device

Info

Publication number: CN114769225A
Application number: CN202210389947.0A
Authority: CN
Inventors: 陈康; 徐兴华; 伊利平; 鲍旭伟
Original assignee: Jinhua Troq Electronic Co ltd
Current assignee: Jinhua Troq Electronic Co ltd
Priority date: 2022-04-14
Filing date: 2022-04-14
Publication date: 2022-07-22
Anticipated expiration: 2042-04-14
Also published as: CN114769225B

Abstract

The invention discloses a sweep-frequency type electric cleaning device, which comprises an electric cleaning device and a conveyor, wherein the conveyor comprises a rack and a conveying belt, the conveying belt is provided with a plurality of conveying holes for conveying rectangular crystals, and the rack is provided with a jacking mechanism matched with the conveying holes; a knocking rod and a convex block matched with the knocking rod are arranged in the jacking mechanism, the convex block is movably arranged on a motor, a rotary table matched with the convex block is arranged on the motor, and the convex block is connected with a first pull rope; the invention provides a cleaning device capable of removing unstable salts on the surface of a crystal after electric cleaning, and simultaneously provides different knocking forces according to different crystal sizes, so that the small crystal cannot be damaged due to constant knocking force, and the stability of a crystal product is greatly improved.

Description

Sweep-frequency type electric cleaning process and sweep-frequency type electric cleaning device

Technical Field

The invention relates to the technical field of electric cleaning equipment, in particular to a sweep-frequency electric cleaning process and a sweep-frequency electric cleaning device.

Background

The quartz crystal is a raw material for manufacturing the quartz crystal oscillator, and the surface of the quartz crystal needs to be cleaned before the quartz crystal oscillator is processed, in recent years, an electric cleaning technology is a method capable of selectively changing the charge compensation state in the artificial quartz to improve the radiation resistance of a quartz crystal material; the electric cleaning process is to put the rectangular crystal into a high temperature furnace and add a direct current electric field along the Z axis, after the electric cleaning, the unstable ions on the surface of the quartz crystal are replaced, and the stable ions are attached to the surface after the replacement.

However, in the electric cleaning process of the quartz crystal, some unstable ions on the surface can generate unstable salts to adhere to the surface during replacement, and the salts can not be removed by a common cleaning and dust removing device; in addition, although the processing environment of the quartz crystal oscillator is very clean, the processing environment is inevitably polluted dead corners, and if the pollutants remain on the crystal surface before the quartz crystal is packaged, the stability of the product is influenced, and the quality of the product is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a sweep-frequency type electric cleaning process and a sweep-frequency type electric cleaning device.

In order to solve the technical problems, the invention is solved by the following technical scheme: a sweep-frequency electric cleaning device comprises an electric cleaning device and a conveyor.

In the above scheme, preferably, the conveyor includes a frame and a conveyor belt, the conveyor belt is provided with a plurality of conveying holes for conveying rectangular crystals, and the frame is provided with a jacking mechanism matched with the conveying holes;

a knocking rod and a convex block matched with the knocking rod are arranged in the jacking mechanism, the convex block is movably arranged on a motor, a rotary table matched with the convex block is arranged on the motor, and the convex block is connected with a first pull rope;

the machine frame is provided with a dust suction pipe matched with the crystals after jacking, the dust suction pipe is provided with a detection plate capable of detecting the size of the crystals, and the detection plate is connected with the first pull rope.

In the above scheme, preferably, the jacking mechanism includes a cylinder and a jacking shell, a suction hole capable of adsorbing crystals is formed in the jacking shell, the knocking rod penetrates through the jacking shell in a sliding manner, and a first spring is arranged between the knocking rod and the jacking shell.

In the above scheme, preferably, the top of the knocking rod penetrates through the jacking shell, and the lower end of the knocking rod is provided with a shifting rod matched with the convex block and a spring plate connected with the first spring.

In the above scheme, preferably, the protruding block is a cam block, a first guide rod is arranged on the protruding block, a first guide plate matched with the first guide rod is arranged on the rotary table, a second spring is arranged between the first guide plate and the protruding block, and a second pull rope is arranged on the protruding block.

In the above scheme, preferably, the center of the turntable is fixedly provided with a pull rope sleeve, and the second pull rope penetrates through the center of the pull rope sleeve and is provided with a clamping block.

In the above scheme, it is preferred, be equipped with the joint groove on the joint piece, the joint inslot is equipped with the joint pole, joint pole one end links to each other with the joint groove, and the other end with be equipped with the second guide bar that links to each other with first stay cord, the second guide bar slides and locates in the jacking shell.

In the above scheme, preferably, the two sides of the dust collection pipe are symmetrically provided with detection plates, the detection plates are connected with a plurality of third guide rods, the third guide rods penetrate through the dust collection pipe and then are connected with the pull rope plate, and a third spring is arranged between the pull rope plate and the dust collection pipe.

In the above scheme, preferably, the pulling rope plate is connected with the first pulling rope, the dust collection pipe is provided with a positioning plate matched with the first pulling rope, and the outer wall of the dust collection pipe is provided with a first electromagnet matched with the pulling rope plate.

In the above scheme, preferably, the dust collection pipe is internally provided with a first button and a second button which are matched with the jacking crystal, the first button is connected with the electromagnet, the turntable is provided with a second electromagnet which is matched with the bump, the second button is connected with the second electromagnet, and fourth springs are arranged between the first button and the dust collection pipe, and between the second button and the dust collection pipe.

In the above scheme, preferably, the process of the sweep frequency type electric cleaning device is as follows: s1: putting the rectangular crystal into an electric cleaning device, carrying out electric cleaning on the surface of the crystal, cooling and putting the rectangular crystal above a conveying hole of a conveying belt; s2: when the conveying belt conveys the crystal to the corresponding position of the jacking mechanism, the jacking shell on the jacking mechanism adsorbs the lower end face of the crystal through the suction hole, the crystal is jacked into the dust suction pipe by the air cylinder, and then the crystal is contacted with the first button to trigger the first electromagnet to adsorb the stay rope plate; s3: the detection plate is abutted against the side face of the crystal after the pull rope plate slides for a corresponding distance, and the first pull rope pulls the lug to approach the center of the rotary table for a corresponding distance according to the sliding distance of the pull rope plate; s4: the motor is started to rotate the rotary disc, so that the lug is in intermittent contact with the deflector rod, the knocking rod slides downwards when the deflector rod is in contact with the lug to pull the first spring, and the knocking rod knocks the lower end face of the crystal after the deflector rod is separated from the lug to enable unstable salts and dust adhered to the crystal to fall off and be sucked away by the dust suction pipe.

The invention has the beneficial effects that: the invention provides a cleaning device capable of removing unstable salts on the surface of a crystal after electric cleaning, and meanwhile, different knocking forces are provided according to different crystal sizes, so that small crystals cannot be damaged due to constant knocking forces, and the stability of a crystal product is greatly improved.

Drawings

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

FIG. 2 is an enlarged schematic view of the structure at A of the present invention.

FIG. 3 is a schematic cross-sectional view of the present invention.

FIG. 4 is a schematic view of the cylinder and the jacking shell of the present invention.

FIG. 5 is a cross-sectional view of the internal components of the jacking shell of the present invention.

FIG. 6 is a schematic perspective view of the bump and the knocking rod according to the present invention.

Fig. 7 is a schematic perspective view of the motor of the present invention.

FIG. 8 is a perspective view of the latch lever of the present invention.

Fig. 9 is a schematic perspective view of the detector plate of the present invention.

Detailed Description

The invention is described in further detail below with reference to the following figures and embodiments: referring to fig. 1-9, the sweep-frequency electric cleaning device comprises an electric cleaning device 1 and a conveyor 2, wherein the electric cleaning device 1 is a sweep-frequency electric cleaning device and is used for cleaning unstable ions on the surface of a quartz crystal, a rectangular quartz crystal is placed in the electric cleaning device 1, an electric field is applied, the temperature rises to the highest temperature at a speed of 20 ℃/h and is kept until the current density is reduced to a certain constant value, then the temperature is reduced to the room temperature at a speed of 20 ℃/h, and finally a power supply is turned off.

The conveyor 2 is arranged outside the electric cleaning device 1 and is fixedly connected with the electric cleaning device 1, and the crystal is placed on the conveyor 2 through a manipulator or an artificial hand after passing through the electric cleaning device 1; conveyer 2 includes frame 3 and conveyer belt 4, be equipped with the transfer port 5 of a plurality of equidistance on the conveyer belt 4, the crystal is placed on transfer port 5, the appearance that 5 outer fringe of transfer port are less than the crystal minimum size that needs the conveying, the crystal is the square crystal, transfer port 5 is the square hole body, the crystal center aligns with transfer port 5 center.

The conveyer 2 is a stepping conveyer, namely, a moving station is arranged at the adjacent conveying hole 5 during conveying, a jacking mechanism matched with the conveying hole 5 is arranged at one side, away from the electric cleaning device 1, of the conveyer 2, the jacking mechanism comprises an air cylinder 6 and a jacking shell 7, the jacking shell 7 is arranged at the end of an air cylinder shaft of the air cylinder 6, the jacking shell 7 can pass through the conveying hole 5 after being jacked by the air cylinder 6, the air cylinder 6 is fixedly arranged on the frame 3 and is arranged between the conveying belts 4, namely, the jacking shell 7 passes through the conveying hole 5 after being jacked by the air cylinder 6.

The upper end face of the jacking shell 7 is provided with a plurality of suction holes 8, the suction holes 8 can absorb the lower end face of a crystal, the suction holes 8 are preferably rubber suckers, the center of the jacking shell 7 is provided with a knocking rod 11 in a sliding manner, the upper end of the knocking rod 11 penetrates through the jacking shell 7 in a sliding manner, the end part of the knocking rod is preferably arranged between the upper end face of the rubber sucker and the upper end face of the jacking shell 7, the lower end of the knocking rod 11 is fixedly provided with a transverse spring plate 33, the knocking rod 11 is arranged at the center of the spring plate 33, first springs 31 are arranged between the two ends of the spring plate 33 and the inner top face of the jacking shell 7, the two ends of each first spring 31 are respectively fixed on the jacking shell 7 and the spring plate 33, and the first springs 31 are preferably tension springs.

The lower end of the knocking rod 11 is further provided with a shifting rod 32, the shifting rod 32 is perpendicular to the knocking rod 11 and is arranged in a shape like a plus sign with a spring plate 33, a cam mechanism matched with the shifting rod 32 is arranged on the side wall of the jacking shell 7, the cam mechanism comprises a motor 13 and a rotary table 14 arranged on the motor 13, a convex block 12 is arranged on the rotary table 14 in a sliding mode, and the convex block 12 can slide from the center of the rotary table 14 to the side far away from or close to the center of the rotary table 14.

The lug 12 is preferably a cam lug, a symmetrical first guide rod 41 is fixedly arranged on the end surface of the lug 12 close to the center of the rotary disc 14, a first guide plate 42 matched with the first guide rod 41 is arranged on the turntable 14, the first guide rod 41 penetrates through the first guide plate 42 in a sliding manner, the first guide rod 41 is sleeved with a second spring 43, two ends of the second spring 43 respectively abut against the convex block 12 and the first guide plate 42, a second pull rope 44 is fixedly arranged at one end of the convex block 12 close to the center of the rotary disc 14, the rotary disc 14 rotates to drive the convex block 12 to rotate and match with the shift lever 32, the shift lever 32 reciprocates along the rotary disc 14 and the outer edge of the convex block 12, that is, when the shift lever 32 contacts the top end of the arc of the protrusion 12, the shift lever 32 is located at the lowest position, the first spring 31 is stretched, and after the contact, the resetting force of the first spring 31 enables the knocking rod 11 to be ejected upwards in a sliding way, and the distance between the arc top end of the lug 12 and the center of the turntable 14 is in direct proportion to the force of the knocking rod 11 to be ejected upwards in a sliding way.

A pull rope sleeve 45 is fixedly arranged on the end face of the center of the rotary disc 14, the second pull rope 44 vertically penetrates through the pull rope sleeve 45 towards one side of the center of the rotary disc 14 and then penetrates out of an inner hole of the pull rope sleeve 45, a clamping block 46 is riveted to the end portion of the second pull rope 44, the clamping block 46 is in end face contact with the pull rope sleeve 45 when the second spring 43 is in a free stretching state, and the arc end top point of the convex block 12 is farthest away from the center of the rotary disc 14.

Be equipped with annular joint groove 47 on the joint piece 46, be equipped with joint pole 48 on the joint groove 47, joint piece 46 accessible joint groove 47 rotates on joint pole 48, joint pole 48 one end card is located on joint groove 47, and the other end is equipped with second guide bar 49 with joint pole 48 mutually perpendicular after extending to jacking shell 7 lateral wall, second guide bar 49 slides and locates on the baffle of jacking shell 7 inner wall, second guide bar 49 slides and wears to establish and sets firmly first stay cord 15 behind the baffle.

A dust suction pipe 21 corresponding to the jacking mechanism is arranged above the jacking mechanism, the lower end face of the dust suction pipe 21 is arranged above the conveying belt 4, the distance between the lower end face of the dust suction pipe 21 and the end face of the conveying belt 4 is larger than the maximum thickness of crystals to be cleaned, the center of the dust suction pipe 21 is aligned with the center of the corresponding conveying hole 5, detection plates 22 capable of detecting the width of the crystals are symmetrically arranged on the inner walls of the two sides of the dust suction pipe 21, the crystals are jacked into the dust suction pipe 21 by the jacking mechanism after being adsorbed by the suction holes 8, and then the width of the crystals can be detected through the transverse sliding of the detection plates 22.

The end face of one side of the detection plate 22 is provided with a plurality of hard rubber particles contacted with the surface of the crystal, the end face of the other side is symmetrically provided with a third guide rod 51, the third guide rod 51 penetrates through the pipe wall of the dust suction pipe 21 in a sliding manner, one end of the third guide rod 51 is connected with the detection plate 22 in the dust suction pipe 21, the other end of the third guide rod 51 is fixedly provided with a pull rope plate 52, a third spring 53 is sleeved on the third guide rod 51, and two ends of the third spring 53 respectively abut against the pull rope plate 52 and the outer wall of the dust suction pipe 21.

The outer wall of the dust collection pipe 21 is provided with a first electromagnet 55 matched with the pull rope plate 52, the pull rope plate 52 is preferably an iron thin plate, the third spring 53 is a thin spring, one of the pull rope plates 52 on two sides of the dust collection pipe 21 is fixedly connected with the first pull rope 15, the outer wall of the dust collection pipe 21 is provided with a positioning plate 54 matched with the first pull rope 15, and the first pull rope 15 penetrates through the positioning plate 54 and is connected with the second guide rod 49.

The dust collection pipe 21 is internally provided with a first button 61 electrically connected with the first electromagnet 55, the first button 61 is vertically arranged in the dust collection pipe 21, a fourth spring 63 is arranged between the first button 61 and the dust collection pipe 21, and after the crystal is jacked by the jacking mechanism, the upper end surface of the crystal can be in abutting contact with the first button 61, so that the first button 61 is triggered to electrify the first electromagnet 55.

In order to prevent the bump 12 from sliding relative to the turntable 14 during rotation, a second electromagnet capable of being attracted to the bump 12 is preferably arranged on the surface of the turntable 14, a second button 62 arranged in parallel with the first button 61 is arranged in the dust suction pipe 21, the second button 62 is preferably a delay button, the delay time can be set according to the action time of the detection plate 22, a fourth spring 63 is also arranged between the second button 62 and the dust suction pipe 21, the second button 62 is electrically connected with the second electromagnet, the bump 12 is preferably an iron bump, and when the upper end surface of the lifted crystal is in contact with the second button 62, the second electromagnet is electrified to attract the bump 12 after the second button 62 is delayed, so that the bump 12 is more firmly matched with the turntable 14.

The process of the sweep frequency type electric cleaning device comprises the following steps: s1: putting the rectangular crystal into an electric cleaning device, carrying out electric cleaning on the surface of the crystal, cooling, and putting the rectangular crystal above a conveying hole 5 of a conveying belt 4; s2: when the conveying belt 4 conveys the crystal to the corresponding position of the jacking mechanism, the jacking shell 7 on the jacking mechanism adsorbs the lower end face of the crystal through the suction hole 8, then the air cylinder 6 is started to jack the crystal into the dust suction pipe 21, and the crystal is contacted with the first button 61 to trigger the first electromagnet 55 to adsorb the stay cord plate 52; s3: the detecting plate 22 is abutted against the side face of the crystal after the pull rope plate 52 slides for a corresponding distance, the first pull rope 15 pulls the lug 12 to approach the center of the rotary table 14 for a corresponding distance according to the sliding distance of the pull rope plate 52, and meanwhile, the second electromagnet is adsorbed to the lug 12 after the second button 62 is delayed, and at the moment, the lug 12 and the rotary table 14 can be integrated; s4: the starting motor 13 rotates the rotary disc 14 to enable the convex block 12 to be in intermittent contact with the shift lever 32, the knocking rod 11 slides downwards when the shift lever 32 is in contact with the convex block 12 to pull the first spring 31, the knocking rod 11 knocks the lower end face of the crystal after the shift lever 32 is out of contact with the convex block 12, unstable salts and dust adhered to the crystal fall off and are sucked away by the dust suction pipe 21, the longer the sliding distance of the detection plate 22 is, namely the smaller the crystal is, the smaller the knocking force of the knocking rod 11 is, the crystals are guaranteed not to be damaged, and meanwhile, the salts and particles adhered to the surface of the crystal are knocked away and are sucked away from the dust suction pipe 21.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The sweep-frequency electric cleaning device comprises an electric cleaning device (1) and a conveyor (2); the method is characterized in that: the conveyor (2) comprises a rack (3) and a conveyor belt (4), the conveyor belt (4) is provided with a plurality of conveying holes (5) for conveying rectangular crystals, and the rack (3) is provided with a jacking mechanism matched with the conveying holes (5);

a knocking rod (11) and a convex block (12) matched with the knocking rod (11) are arranged in the jacking mechanism, the convex block (12) is movably arranged on a motor (13), a rotary table (14) matched with the convex block (12) is arranged on the motor (13), and the convex block (12) is connected with a first pull rope (15);

the machine frame (3) is provided with a dust suction pipe (21) matched with the crystals after jacking, the dust suction pipe (21) is provided with a detection plate (22) capable of detecting the size of the crystals, and the detection plate (22) is connected with the first pull rope (15).

2. A swept frequency electric cleaning device as claimed in claim 1, wherein: climbing mechanism includes cylinder (6) and jacking shell (7), be equipped with the hole of inhaling (8) of adsorbable crystal on jacking shell (7), strike pole (11) and slide and wear to locate in jacking shell (7), be equipped with first spring (31) between striking pole (11) and jacking shell (7).

3. A swept frequency electric cleaning device as claimed in claim 2, wherein: the upper end of the knocking rod (11) penetrates through the jacking shell (7), and the lower end of the knocking rod is provided with a shifting rod (32) matched with the convex block (12) and a spring plate (33) connected with the first spring (31).

4. A swept frequency electric cleaning device according to claim 3, wherein: the improved rotary table is characterized in that the protruding block (12) is a cam block, a first guide rod (41) is arranged on the protruding block (12), a first guide plate (42) matched with the first guide rod (41) is arranged on the rotary table (14), a second spring (43) is arranged between the first guide plate (42) and the protruding block (12), and a second pull rope (44) is arranged on the protruding block (12).

5. A swept frequency electric cleaning device according to claim 4, wherein: a rope pulling sleeve (45) is fixedly arranged at the center of the rotary disc (14), and a clamping block (46) is arranged after the second pulling rope (44) penetrates through the center of the rope pulling sleeve (45).

6. A swept frequency electric cleaning device according to claim 5, wherein: be equipped with joint groove (47) on joint piece (46), be equipped with joint pole (48) in joint groove (47), joint pole (48) one end links to each other with joint groove (47), and the other end with be equipped with second guide bar (49) that link to each other with first stay cord (15), second guide bar (49) slide and locate in jacking shell (7).

7. A swept frequency electric cleaning device according to claim 6, wherein: the dust collection pipe is characterized in that detection plates (22) are symmetrically arranged on two sides of the dust collection pipe (21), the detection plates (22) are connected with a plurality of third guide rods (51), the third guide rods (51) penetrate through the dust collection pipe (21) and then are connected with a pull rope plate (52), and third springs (53) are arranged between the pull rope plate (52) and the dust collection pipe (21).

8. A swept frequency electric cleaning device as claimed in claim 7, wherein: the pull rope plate (52) is connected with the first pull rope (15), the positioning plate (54) matched with the first pull rope (15) is arranged on the dust collection pipe (21), and the first electromagnet (55) matched with the pull rope plate (52) is arranged on the outer wall of the dust collection pipe (21).

9. A swept frequency electric cleaning device as claimed in claim 8, wherein: be equipped with in dust absorption pipe (21) with jacking back crystal matched with first button (61) and second button (62), first button (61) link to each other with electro-magnet (55), be equipped with on carousel (14) with lug (12) matched with second electro-magnet, second button (62) link to each other with the second electro-magnet, be equipped with fourth spring (63) between first button (61) and second button (62) and dust absorption pipe (21).

10. The process of the swept frequency electric cleaning device according to claim 9, comprising the following steps: s1: the rectangular crystal is put into an electric cleaning device to electrically clean the surface of the crystal, and the rectangular crystal is put above a conveying hole (5) of a conveying belt (4) after being cooled; s2: when the conveying belt (4) conveys the crystals to the corresponding position of the jacking mechanism, the jacking shell (7) on the jacking mechanism adsorbs the lower end face of the crystals through the suction holes (8), the crystals are jacked into the dust suction pipe (21) through the air cylinder (6), and then the crystals are contacted with the first button (61) to trigger the first electromagnet (55) to adsorb the stay rope plate (52); s3: the detection plate (22) is abutted against the side face of the crystal after the pull rope plate (52) slides for a corresponding distance, and the first pull rope (15) pulls the lug (12) to approach the center of the rotary table (14) for a corresponding distance according to the sliding distance of the pull rope plate (52); s4: a motor (13) is started to rotate a turntable (14), so that a bump (12) is intermittently contacted with a shift lever (32), when the shift lever (32) is contacted with the bump (12), a knocking rod (11) slides downwards to pull a first spring (31), and after the shift lever (32) is separated from the bump (12) to be contacted, the knocking rod (11) knocks the lower end face of the crystal, so that unstable salts and dust adhered to the crystal fall off and are sucked away by a dust suction pipe (21).