CN114210642A - Ultrasonic cleaner suitable for vehicle parts and using method thereof - Google Patents

Abstract

The invention belongs to the field of ultrasonic cleaners, and particularly relates to an ultrasonic cleaner suitable for vehicle parts and a using method thereof. The ultrasonic cleaner suitable for the vehicle parts comprises a frame, a frame cavity is formed in the frame, an iron collecting mechanism is arranged in the frame cavity, an ultrasonic generator is arranged in the frame cavity, a dividing frame capable of dividing the frame cavity into two bottom connecting parts basically is fixedly arranged on the frame, a swing motor is fixedly arranged on the frame, a swing main rotating shaft capable of freely rotating in the dividing frame is fixedly arranged on the swing motor, swing mechanisms capable of swinging around the swing main rotating shaft are symmetrically arranged on the swing main rotating shaft, a rotation cleaning mechanism is arranged on the swing mechanism, and a transmission mechanism is arranged between the swing main rotating shaft and the rotation cleaning mechanism. The ultrasonic cleaner is suitable for vehicle parts and a using method thereof.

Description

Ultrasonic cleaner suitable for vehicle parts and using method thereof

Technical Field

The invention belongs to the field of ultrasonic cleaners, and particularly relates to an ultrasonic cleaner suitable for vehicle parts and a using method thereof.

Background

The ultrasonic cleaning is to utilize the cavitation, acceleration and direct current action of ultrasonic waves in liquid to directly and indirectly act on liquid and dirt, so that a dirt layer is dispersed, incubated and stripped to achieve the purpose of cleaning. Therefore, the ultrasonic cleaning method can achieve the effect of completely cleaning the objects, and particularly has good effect on cleaning deep holes, blind holes and precise objects. But still has some problems when it is used for cleaning automobile parts containing more oil stains and scrap iron. The specific problems of ultrasonic cleaning are as follows:

1. when the automobile parts containing more oil stains and scrap iron are cleaned, the cleaned oil stains still float on the upper part of the cleaning liquid, and the cleaned oil stains may be stained again when the parts are taken.

2. When the automobile parts containing more oil stains and scrap iron are cleaned, the cleaned scrap iron is accumulated in the cleaning liquid, so that the cleaning effect is influenced, and the repeated use and the recycling of the cleaning liquid are adversely affected.

3. In the cleaning process, the positions of the parts are fixed, and the parts which are partially stacked or bent and the parts are difficult to clean, so that the cleaning effect is poor.

4. During cleaning, or in the case where stains have been washed but still cannot completely leave the parts, this is taken into account.

The ultrasonic cleaner suitable for the vehicle parts and the use method thereof are designed in conclusion.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an ultrasonic cleaner adaptive to vehicle parts and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: an ultrasonic cleaner adapting to vehicle parts and a using method thereof are carried out by matching with the ultrasonic cleaner adapting to the vehicle parts, the ultrasonic cleaner suitable for the vehicle parts comprises a frame, wherein a frame cavity is formed in the frame, the machine frame is provided with an iron collecting mechanism in the cavity of the machine frame, the machine frame is provided with an ultrasonic generator in the cavity of the machine frame, a dividing frame which can divide the frame cavity into two parts with connected bottoms is fixedly arranged on the frame, a swing motor is fixedly arranged on the machine frame, a swing main rotating shaft which can freely rotate in the dividing machine frame is fixedly arranged on the swing motor, the swing mechanism is characterized in that swing mechanisms capable of swinging around the main swing shaft are symmetrically arranged on the main swing shaft, a rotation cleaning mechanism is arranged on the swing mechanisms, and a transmission mechanism is arranged between the main swing shaft and the rotation cleaning mechanism.

Preferably, the iron collecting mechanism includes the frame, the frame 1 the internal set has the iron collecting frame, the iron collecting motor has set firmly in the iron collecting frame, the iron collecting pivot has set firmly on the output of iron collecting motor, set firmly in the iron collecting pivot with the iron collecting rotary drum of frame chamber butt, evenly be equipped with a plurality of iron collecting blades on the outer periphery of iron collecting rotary drum, every the magnet piece that can adsorb iron fillings sets firmly on the lateral surface of iron collecting blade, the iron collecting spout has been seted up in the frame, be equipped with in the iron collecting spout can reciprocating sliding and can with the iron collecting slider that the adsorbed iron fillings of magnet piece were scraped, the iron collecting slider with the iron collecting spring has set firmly between the iron collecting spout.

Preferably, the swing mechanism comprises a swing main rotating shaft, swing sliding bodies are symmetrically and fixedly arranged on the swing main rotating shaft along a geometric central line of the dividing rack, swing sliding grooves are formed in each swing sliding body, each swing sliding block capable of sliding in a reciprocating mode is arranged in each swing sliding groove, a swing spring is fixedly arranged between each swing sliding block and each swing sliding groove, a swing sliding rod extending out of each swing sliding body is fixedly arranged on each swing sliding block, a swing rack ring is fixedly arranged on each swing sliding rod, and a long rotating shaft and a short rotating shaft capable of rotating freely are respectively arranged on the two swing rack rings.

Preferably, rotate the clearance mechanism and include rotate long pivot and rotate short pivot, rotate long pivot with the rotating housing has set firmly between the swing motor altogether, the outer periphery evenly is equipped with a plurality of rotating blade that can stir rivers outside the rotating housing, the rotating housing evenly sets up the rotation through-hole of a plurality of dischargeable iron fillings.

Preferably, the rotating case is uniformly provided with a plurality of turning chutes, each turning chute is internally provided with a turning slide block which can slide in a reciprocating manner and can toggle the part in the rotating case or drive the part in the rotating case to rotate in a limited manner, the rotating case is uniformly provided with a plurality of turning hydraulic chutes with the same number as the turning slide blocks, the rotating case is internally provided with a turning hydraulic channel which communicates each turning hydraulic chute with the turning chute, each turning hydraulic chute is internally provided with a turning hydraulic slide block which can slide freely according to the gravity direction and can push hydraulic oil in the turning hydraulic chute into the turning chute through the turning hydraulic channel so as to drive the turning slide block to move, the rotating case is internally provided with a plurality of turning auxiliary chutes with the same number as the turning slide blocks in a clamping manner, and each turning auxiliary chute is internally provided with a turning auxiliary slide block which can slide in a reciprocating manner and is fixedly connected with the turning slide block, and a turning auxiliary spring is fixedly arranged between each turning auxiliary sliding block and the turning auxiliary sliding chute.

Preferably, two arc chutes are opened on the rotating shell, each arc chute is provided with a freely sliding sealing arc slide block and each sliding sealing arc slide block is provided with a plugging block on the sealing arc slide block, the opening of the rotating shell is provided with a sealing arc which is convenient to control, and the rotating shell is rotated by the sealing arc.

Preferably, the transmission mechanism comprises a main swing rotating shaft, a rotary motor is fixedly arranged on the main swing rotating shaft, a driving rotating shaft is fixedly arranged at the output end of the rotary motor, a driving belt wheel is fixedly arranged on the driving rotating shaft, a driven belt wheel is fixedly arranged on the long rotating shaft, and a transmission belt capable of transmitting force and moving is arranged on the driving belt wheel and the driven belt wheel.

Has the advantages that:

the invention provides an ultrasonic cleaner adapting to vehicle parts and a using method thereof by improvement, compared with the prior art, the ultrasonic cleaner has the following improvements and advantages:

1. the rack cavity is basically divided into two parts by dividing the rack, one part is cleaned, the other part is cleaned, and parts are taken, so that the aim of not polluting the cleaned parts can be realized.

2. Through rotating vane's rotation, limited basic stirring rivers drive iron fillings and gather iron collection rotary drum one side to along with iron collection rotary drum rotates through magnet piece adsorption of iron fillings, scrape down iron fillings through iron collection slider again.

3. Through the rotation of rotating the casing, realize partly piling up or zigzag spare part and spare part etc. the effective clearance of the part that is difficult to clear up.

4. Through the rotation of the rotating shell and the ordered movement of the turning sliding block, the oil stain is thoroughly cleaned and cut.

Drawings

FIG. 1 is a flow chart of the design;

FIG. 2 is a front cross-sectional view of the present design;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is a cross-sectional view of C-C of FIG. 2;

FIG. 6 is a cross-sectional view D-D of FIG. 3;

FIG. 7 is a cross-sectional view of E-E in FIG. 3;

FIG. 8 is a cross-sectional view F-F of FIG. 4;

FIG. 9 is a cross-sectional view taken along line G-G of FIG. 2;

in the figure, a machine frame 10, a machine frame cavity 11, an iron collecting motor 12, an iron collecting machine frame 13, an iron collecting rotating shaft 14, an ultrasonic generator 15, an iron collecting rotary drum 16, an iron collecting blade 17, an iron collecting slide block 18, an iron collecting slide groove 19, an iron collecting spring 20, a dividing machine frame 21, a swinging main rotating shaft 22, a turning slide block 23, a rotating short rotating shaft 24, a sealing arc slide groove 25, a sealing arc plate 26, a rotating through hole 27, a rotating machine shell 28, a rotating blade 29, a transmission belt 30, a driving belt pulley 31, a driving rotating shaft 32, a rotating motor 33, a swinging motor 34, a swinging machine frame ring 35, a rotating long rotating shaft 36, a driven belt pulley 37, a sealing arc plate handle 38, a sealing arc plate slide column block 39, a swinging slide body 40, a swinging slide groove 41, a swinging slide block 42, a swinging spring 43, a swinging slide rod 44, a turning hydraulic slide groove 45, a turning hydraulic slide block 46, a turning auxiliary slide block 47, a turning auxiliary spring 48, a turning auxiliary spring, a turning slide block, A turning auxiliary chute 49, a turning chute 50, a turning hydraulic control channel 51 and a magnet piece 52.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 2, an ultrasonic cleaner adapted to a vehicle part and a method for using the same are provided, which is performed in cooperation with an ultrasonic cleaner adapted to a vehicle part, the ultrasonic cleaner suitable for the vehicle parts comprises a frame 10, a frame cavity 11 is formed in the frame 10, an iron collecting mechanism is arranged in the frame cavity 11 of the frame 10, an ultrasonic generator 15 is arranged in the frame cavity 11 of the frame 10, a dividing frame 21 capable of dividing the frame cavity 11 into two bottom connected parts basically is fixedly arranged on the frame 10, a swing motor 34 is fixedly arranged on the frame 10, a swing main rotating shaft 22 capable of freely rotating in the dividing frame 21 is fixedly arranged on the swing motor 34, swing mechanisms capable of swinging around the swing main rotating shaft 22 are symmetrically arranged on the swing main rotating shaft 22, a rotation cleaning mechanism is arranged on the swing mechanism, and a transmission mechanism is arranged between the swing main rotating shaft 22 and the rotation cleaning mechanism.

As shown in fig. 2 and 9, the iron collecting mechanism includes a frame 10, an iron collecting frame 13 is fixedly arranged in the frame 1, an iron collecting motor 12 is fixedly arranged on the iron collecting frame 13, an iron collecting rotating shaft 14 is fixedly arranged on an output end of the iron collecting motor 12, an iron collecting rotating drum 16 abutted against the frame cavity 11 is fixedly arranged on the iron collecting rotating shaft 14, a plurality of iron collecting blades 17 are uniformly arranged on an outer circumferential surface of the iron collecting rotating drum 16, a magnet piece 52 capable of adsorbing iron chips is fixedly arranged on an outer side surface of each iron collecting blade 17, an iron collecting chute 19 is arranged on the frame 10, an iron collecting slide block 18 capable of sliding back and forth and scraping the iron chips adsorbed by the magnet piece 52 is arranged in the iron collecting chute 19, and an iron collecting spring 20 is fixedly arranged between the iron collecting slide block 18 and the iron collecting chute 19.

As shown in fig. 2, 3, 4, and 7, the swing mechanism includes a main swing shaft 22, swing sliders 40 are symmetrically and fixedly disposed on the main swing shaft 22 along a geometric center line of the dividing frame 21, a swing chute 41 is disposed in each swing slider 40, a swing slider 42 capable of sliding back and forth is disposed in each swing chute 41, a swing spring 43 is fixedly disposed between each swing slider 42 and the swing chute 41, a swing slider 44 extending out of the swing slider 40 is fixedly disposed on each swing slider 42, a swing frame ring 35 is fixedly disposed on each swing slider 44, and a long rotation shaft 36 and a short rotation shaft 24 capable of rotating freely are respectively disposed on the two swing frame rings 35.

As shown in fig. 2, 3, 4 and 7, the rotary cleaning mechanism includes a long rotary shaft 36 and a short rotary shaft 24, a rotary housing 28 is fixedly arranged between the long rotary shaft 36 and the swing motor 34, a plurality of rotary blades 29 capable of stirring water flow are uniformly arranged on the outer circumferential surface of the rotary housing 28, and a plurality of rotary through holes 27 capable of discharging iron chips are uniformly arranged on the rotary housing 28.

As shown in fig. 2, 4 and 8, the rotating casing 28 is uniformly provided with a plurality of flipping chutes 50, each flipping chute 50 is provided with a flipping slider 23 capable of sliding back and forth and poking the parts in the rotating casing 28 or driving the parts in the rotating casing 28 to rotate in a limited manner, the rotating casing 28 is uniformly provided with a plurality of flipping hydraulic chutes 45 having the same number as that of the flipping sliders 23, the rotating casing 28 is provided with a flipping hydraulic passage 51 communicating each flipping hydraulic chute 45 with the flipping chute 50, each flipping hydraulic chute 45 is provided with a flipping hydraulic slider 46 capable of sliding freely according to the gravity direction and driving the pressing hydraulic oil in the flipping hydraulic chute 45 into the flipping chute 50 through the flipping hydraulic passage 51 to drive the flipping slider 23 to move, the rotating casing 28 is provided with a plurality of flipping auxiliary chutes 49 having the same number as that of the flipping sliders 23, each flipping auxiliary chute 49 is provided with a flipping auxiliary slider 47 capable of sliding back and forth and fixedly connected with the flipping slider 23, a turning auxiliary spring 48 is fixedly arranged between each turning auxiliary sliding block 47 and the turning auxiliary sliding groove 49.

As shown in fig. 2, 4, and 5, two sealing arc chutes 25 are formed in the rotating case 28, a sealing arc sliding block 39 capable of sliding freely is disposed in each sealing arc chute 25, a sealing arc 26 capable of sealing the opening of the rotating case 28 is fixedly disposed on each sealing arc sliding block 39, and a rotating case 28 convenient for controlling the rotation of the sealing arc 26 is fixedly disposed on the sealing arc 26.

As shown in fig. 2, 3, 4, and 6, the transmission mechanism includes a swing main rotating shaft 22, a rotation motor 33 is fixedly disposed on the swing main rotating shaft 22, a driving rotating shaft 32 is fixedly disposed at an output end of the rotation motor 33, a driving pulley 31 is fixedly disposed on the driving rotating shaft 32, a driven pulley 37 is fixedly disposed on the rotation long rotating shaft 36, and a transmission belt 30 capable of transmitting force and motion is disposed on the driving pulley 31 and the driven pulley 37.

Initial position: the rotating housing 28 is located on the side of the housing chamber 11 where the ultrasonic generator 15 is located. Hydraulic oil is arranged in the turning hydraulic chute 45.

The ultrasonic cleaner suitable for the vehicle parts comprises the following specific use steps:

the first step is as follows: and putting the parts to be cleaned. The sealing arc plate handle 38 drives the sealing arc plate 26 to slide, and the sealing arc plate 26 drives the sealing arc plate sliding column block 39 to slide on the sealing arc sliding chute 25 of the rotating shell 28, so that the sealing arc plate 26 opens the opening of the rotating shell 28. The parts to be cleaned are placed in the interior of the rotating housing 28.

The second step is that: the rotating shell rotates for cleaning and ultrasonic cleaning. The ultrasonic generator 15 is started by power supply to perform ultrasonic cleaning. The rotation motor 33 is powered on to start, the rotation motor 33 drives the driving rotation shaft 32 to rotate, the driving rotation shaft 32 drives the driving pulley 31 to rotate, the driving pulley 31 drives the transmission belt 30 to rotate, the transmission belt 30 drives the driven pulley 37 to rotate, and the driven pulley 37 drives the rotation long rotation shaft 36 to rotate. Rotating the long shaft 36 rotates the rotating housing 28. The parts to be cleaned inside the rotary case 28 are rotated.

The third step: the parts to be cleaned are shaken to separate dirt. Along with the rotation of the rotating shell 28, the turning hydraulic slide block 46 slides along the position which can reduce the gravitational potential energy under the turning hydraulic slide groove 45 under the influence of gravity, and the turning hydraulic slide groove 45 extrudes the hydraulic oil in the turning hydraulic slide groove 45 to enter the turning slide groove 50 through the turning hydraulic channel 51, and pushes the turning slide block 23 to drive the turning auxiliary slide block 47 to overcome the resistance of the turning auxiliary spring 48, so that the turning slide block 23 slides out of the turning slide groove 50. The shaking cleaning of the cleaning parts by the turning slide block 23 is realized.

The fourth step: and collecting scrap iron. With the rotation of the rotating blade 29, the iron pieces are accumulated on one side of the iron-collecting drum 16 by the constantly stirred water flow. The iron collecting motor 12 is started by power supply, the iron collecting motor 12 drives the iron collecting rotating shaft 14 to rotate, the iron collecting rotating shaft 14 drives the iron collecting rotating cylinder 16 to rotate, the iron collecting rotating cylinder 16 drives the iron collecting blades 17 to rotate, the iron collecting blades 17 drive the magnet piece 52 to rotate, and iron scraps are continuously adsorbed along with the rotation of the magnet piece 52. And as the magnet piece 52 rotates, the iron chips on the magnet piece are continuously scraped off by the iron-collecting slide block 18.

The fifth step: and taking the cleaned parts. The swing motor 34 is started by power, the swing motor 34 drives the swing main rotating shaft 22 to rotate, the swing main rotating shaft 22 drives the swing sliding body 40 to rotate, the swing sliding body 40 drives the swing sliding block 42 to rotate, the swing sliding block 42 drives the swing sliding rod 44 to rotate, the swing sliding rod 44 drives the swing frame ring 35 to rotate, the swing motor 34 drives the rotation long rotating shaft 36 and the rotation short rotating shaft 24 to rotate, under the action of gravity of the part, the rotating shell 28 and the part, the rotation long rotating shaft 36 and the movable sealing arc-shaped sliding groove 25 move, the swing frame ring 35 drives the swing sliding rod 44 to move, the swing sliding rod 44 drives the swing sliding block 42 to move, and the swing sliding block 42 overcomes the swing spring 43 to move. And the total length of the oscillating slider 40 and the oscillating slider 44 is extended to finally pass over the bottom of the split frame 21, and the rotary case 28 and its attached parts are brought into the frame chamber 11 side of the non-ultrasonic generator 15. The sealing arc plate handle 38 drives the sealing arc plate 26 to slide, and the sealing arc plate 26 drives the sealing arc plate sliding column block 39 to slide on the sealing arc sliding chute 25 of the rotating shell 28, so that the sealing arc plate 26 opens the opening of the rotating shell 28. The cleaned parts are removed from the interior of the rotating housing 28.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. An ultrasonic cleaner adaptive to vehicle parts and a using method thereof are matched, the method is carried out by the ultrasonic cleaner adaptive to the vehicle parts, the ultrasonic cleaner adaptive to the vehicle parts comprises a rack (10), a rack cavity (11) is formed in the rack (10), an iron collecting mechanism is arranged in the rack cavity (11) of the rack (10), an ultrasonic generator (15) is arranged in the rack cavity (11) of the rack (10), a dividing rack (21) capable of dividing the rack cavity (11) into two parts with connected bottoms is fixedly arranged on the rack (10), a swing motor (34) is fixedly arranged on the rack (10), a swing main rotating shaft (22) capable of freely rotating in the dividing rack (21) is fixedly arranged on the swing motor (34), and swing mechanisms capable of swinging around the swing main rotating shaft (22) are symmetrically arranged on the swing main rotating shaft (22), the swing mechanism is provided with a rotary cleaning mechanism, and a transmission mechanism is arranged between the swing main rotating shaft (22) and the rotary cleaning mechanism.

2. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 1, wherein: the iron collecting mechanism comprises the frame (10), the frame (10) is fixedly provided with an iron collecting frame (13) in the frame (1), an iron collecting motor (12) is fixedly arranged on the iron collecting machine frame (13), an iron collecting rotating shaft (14) is fixedly arranged on the output end of the iron collecting motor (12), an iron collecting rotary drum (16) which is abutted against the rack cavity (11) is fixedly arranged on the iron collecting rotary shaft (14), a plurality of iron collecting blades (17) are uniformly arranged on the outer circumferential surface of the iron collecting rotary drum (16), a magnet piece (52) capable of adsorbing iron scraps is fixedly arranged on the outer side surface of each iron collecting blade (17), an iron collecting chute (19) is arranged on the frame (10), an iron collecting slide block (18) which can slide in a reciprocating manner and can scrape the iron scraps adsorbed by the magnet piece (52) is arranged in the iron collecting chute (19), and an iron collecting spring (20) is fixedly arranged between the iron collecting sliding block (18) and the iron collecting sliding groove (19).

3. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 1, wherein: the swing mechanism comprises a swing main rotating shaft (22), swing sliding bodies (40) are symmetrically and fixedly arranged on the swing main rotating shaft (22) along a geometric central line of the split rack (21), swing sliding chutes (41) are formed in the swing sliding bodies (40), each swing sliding block (42) capable of sliding in a reciprocating mode is arranged in each swing sliding chute (41), each swing sliding block (42) and a swing spring (43) are fixedly arranged between the swing sliding chutes (41), each swing sliding block (42) is fixedly provided with a swing sliding rod (44) extending out of the swing sliding body (40), each swing sliding rod (44) is fixedly provided with a swing frame ring (35), and each swing frame ring (35) is provided with a long rotating shaft (36) and a short rotating shaft (24) which can rotate freely.

4. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 1, wherein: rotate clearance mechanism and include rotate long pivot (36) and rotate short pivot (24), rotate long pivot (36) with rotary housing (28) has set firmly between swing motor (34) altogether, the outer periphery evenly is equipped with a plurality of rotating vane (29) that can stir rivers outside rotary housing (28), a plurality of rotation through-holes (27) that can discharge iron fillings are evenly seted up in rotary housing (28).

5. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 4, wherein: the rotary machine shell (28) is uniformly provided with a plurality of turning chutes (50), each turning chute (50) is internally provided with a turning slide block (23) which can slide in a reciprocating manner and can turn parts in the rotary machine shell (28) or drive the parts in the rotary machine shell (28) to rotate in a limited manner, the rotary machine shell (28) is uniformly provided with a plurality of turning hydraulic chutes (45) the number of which is consistent with that of the turning slide blocks (23), each turning hydraulic chute (28) is internally provided with a turning hydraulic channel (51) which communicates each turning hydraulic chute (45) with the turning chute (50), each turning hydraulic chute (45) is internally provided with a turning hydraulic slide block (46) which can freely slide according to the gravity direction and can extrude hydraulic oil in the turning hydraulic chute (45) into the turning chute (50) through the turning hydraulic channel (51) so as to drive the turning slide block (23) to move, a plurality of turning auxiliary sliding grooves (49) with the same number as the turning sliding blocks (23) are clamped in the rotary shell (28), a turning auxiliary sliding block (47) which can slide in a reciprocating manner and is fixedly connected with the turning sliding blocks (23) is arranged in each turning auxiliary sliding groove (49), and a turning auxiliary spring (48) is fixedly arranged between each turning auxiliary sliding block (47) and the turning auxiliary sliding groove (49).

6. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 4, wherein: it seals arc spout (25), every to have seted up two on rotation casing (28) it can be free gliding to seal arc spout (25) and be equipped with in arc spout (25) seals arc slide block (39), every but it has the shutoff to seal to have set firmly on arc slide block (39) rotate casing (28) open-ended and seal arc (26), it is convenient for control to have set firmly on arc (26) to seal arc (26) pivoted rotation casing (28).

7. The ultrasonic cleaner adapted to vehicle parts and the method of using the same according to claim 4, wherein: transfer mechanism includes swing main pivot (22), swing main pivot (22) are gone up and are set firmly rotation motor (33), the output that rotates motor (33) has set firmly initiative pivot (32), initiative pivot (32) are gone up and are set firmly driving pulley (31), it has set firmly driven pulley (37) to rotate long pivot (36), driving pulley (31) with but be equipped with transmission belt (30) of transmission power and motion on driven pulley (37).

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