CN220311181U - Shock-absorbing structure of ultrasonic cleaner - Google Patents

Abstract

The utility model discloses a damping structure of an ultrasonic cleaning machine, relates to the technical field of ultrasonic cleaning equipment, and aims to solve the problem that the damping protection effect is not ideal due to single ultrasonic cleaning damping measures at present; including the shock attenuation support, fit suspension in the ultrasonic cleaner inner tube all around through fixed curb plate and X type movable rod with shock attenuation gyro wheel laminating, and utilize fixed section of thick bamboo, piston post and damping spring to support fixedly to ultrasonic cleaner inner tube bottom, rubber material's shock attenuation gyro wheel produces elastic deformation antidetonation, reduce the harm that causes the inner tube when rolling, simultaneously, it opens extension buffer spring to assist X type movable rod, and the magnetic force that repels each other between the magnetic block carries out horizontal shock attenuation buffering to ultrasonic cleaner inner tube, promote the gas in the piston post extrusion buffer air cavity when the inner tube produces vertical vibrations, utilize the compression of gas and damping spring's cooperation to eliminate the vertical vibrations of inner tube, the shock attenuation protection effect to ultrasonic cleaner inner tube has been comprehensively improved.

Description

Shock-absorbing structure of ultrasonic cleaner

Technical Field

The utility model relates to the technical field of ultrasonic cleaning equipment, in particular to a damping structure of an ultrasonic cleaning machine.

Background

The ultrasonic wave propagates in the liquid to make the liquid vibrate together with the cleaning tank at the ultrasonic frequency, and the liquid and the cleaning tank vibrate at their own natural frequency, which is the sound wave frequency, so that people hear the buzzing sound. With the continuous development of the cleaning industry, more and more industries and enterprises apply ultrasonic cleaners.

When the ultrasonic cleaner is used, vibration is easy to generate, a damping structure is absent, the service life of the ultrasonic cleaner is easy to reduce after long-time use, and the conventional ultrasonic cleaner is provided with a damping spring for damping so as to prolong the service life of equipment. The patent publication No. CN214600747U discloses a damping protector for an ultrasonic cleaner, which adopts springs arranged vertically and horizontally to damp the inner cylinder of the ultrasonic cleaner. However, the single damping spring adopted in the current ultrasonic cleaning has single measures, and the damping effect is not ideal.

In order to solve the above problems, a damping structure of an ultrasonic cleaning machine is provided.

Disclosure of Invention

The utility model aims to provide a damping structure of an ultrasonic cleaning machine, which adopts the device to work, thereby solving the problem of unsatisfactory damping protection effect caused by single current ultrasonic cleaning damping measures in the background.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a shock-absorbing structure of ultrasonic cleaner, includes the shock-absorbing support that sets up on ultrasonic cleaner casing bottom plate, and the shock-absorbing support is used for carrying out shock attenuation protection to equipment, the shock-absorbing support includes the well word mounting panel of fixed connection on ultrasonic cleaner casing bottom plate and the shock-absorbing seat at well word mounting panel top, the shock-absorbing seat is used for fixed ultrasonic cleaner inner tube, and the terminal top of well word mounting panel fixedly connected with fixed side board respectively, the installation spout has been seted up on the lateral wall of fixed side board orientation ultrasonic cleaner inner tube, the spacing pole of installation spout through activity block X type movable rod one end support arm both sides is connected it, the mounting groove has been seted up respectively to the two support arm ends of X type movable rod other end, movable mounting has the shock-absorbing gyro wheel between the mounting groove inner wall, and X type movable rod is provided with buffer spring between the upper and lower two support arm lateral walls of shock-absorbing gyro wheel one end, the X type movable rod bottom fixedly connected with suspension pole of shock-absorbing gyro wheel homonymy, it is provided with first magnetic path to hang the jib fixedly connected with on the fixed side board lateral wall, it is provided with the second magnetic path to correspond first support arm gomphosis department on the first magnetic path.

Further, the same four groups of shock-absorbing seats are respectively arranged, and each group of shock-absorbing seats is arranged at the top of the intersection of the transverse plates and the longitudinal plates of the cross mounting plate.

Further, the shock mount includes fixed section of thick bamboo and the buffering air cavity that sets up in the inside fixed section of thick bamboo of fixed connection in well word mounting panel top, and the activity block has the piston post in the buffering air cavity, and the piston post top extends to the buffering air cavity port outside at fixed section of thick bamboo top, and piston post top fixedly connected with bracing piece, the piston post top fixedly connected with damping spring in the bracing piece outside.

Further, the fixed cylinder is of a round table type structure with a small upper part and a large lower part, the top end of the fixed cylinder is embedded with a sealing gasket, and the sealing gasket is arranged at the top port of the buffer air cavity.

Further, the shock-absorbing roller is a member made of rubber materials, and one end of the shock-absorbing roller, which is far away from the X-shaped movable rod, is attached to the inner cylinder of the ultrasonic cleaning machine.

Further, one support arm of the X-shaped movable rod passes through a limiting hole on the other support arm, the limiting hole is arranged in the middle of the support arm of the X-shaped movable rod, and the two support arms are movably connected through a movable pin.

Further, the suspension rod is arranged at the bottom of the lower support arm at one end of the X-shaped movable rod, which is far away from the buffer spring, and the suspension rod is arranged close to the shock-absorbing roller.

Further, the first magnetic block is closely suspended above the bottom plate of the cross mounting plate, and the same-name magnetic poles of the first magnetic block and the second magnetic block are oppositely arranged.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the damping structure of the ultrasonic cleaner, the damping rollers are attached to the periphery of the inner cylinder of the ultrasonic cleaner through the cooperation of the fixed side plates and the X-shaped movable rods, the transverse vibration of the inner cylinder of the ultrasonic cleaner is buffered through the deformation generated by the damping rollers made of rubber materials, the damage to the inner cylinder is reduced through the rolling of the damping rollers, meanwhile, the X-shaped movable rods are assisted to stretch the damping springs, the first magnetic blocks and the second magnetic blocks repel each other to damp and buffer the inner cylinder of the ultrasonic cleaner, and the transverse damping protection effect on the inner cylinder of the ultrasonic cleaner is enhanced through the cooperation of various damping measures, so that the damping structure is convenient and practical.

2. According to the damping structure of the ultrasonic cleaner, the inner cylinder of the ultrasonic cleaner is supported and fixed through the fixed cylinder, the piston column and the damping spring, the piston column is pushed to squeeze the gas in the buffer air cavity when the inner cylinder of the ultrasonic cleaner generates longitudinal vibration, the longitudinal vibration of the inner cylinder of the ultrasonic cleaner is eliminated by the compression of the gas and the cooperation of the damping spring, the longitudinal vibration protection and elimination effect of the inner cylinder of the ultrasonic cleaner is fully ensured, the purpose of vibration friction noise reduction is realized, and the ultrasonic cleaner is convenient to use.

Drawings

FIG. 1 is a schematic view of the overall assembly structure of the present utility model;

FIG. 2 is a schematic view of the mounting structure of the shock mount and the inner cylinder of the ultrasonic cleaner of the present utility model;

FIG. 3 is a schematic view of a shock mount according to the present utility model;

FIG. 4 is a schematic view of an X-shaped movable rod and a first magnetic block mounting structure of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3A according to the present utility model;

FIG. 6 is a schematic perspective view of a shock mount according to the present utility model;

fig. 7 is a cross-sectional view of a shock mount of the present utility model.

In the figure: 1. an ultrasonic cleaner housing; 2. a shock absorbing bracket; 21. a cross mounting plate; 22. a shock absorption seat; 221. a fixed cylinder; 222. a buffer air cavity; 223. a piston column; 224. a support rod; 225. damping springs; 226. a sealing gasket; 23. fixing the side plates; 231. a second magnetic block; 24. installing a chute; 25. an X-shaped movable rod; 251. suspending the rod; 252. a first magnetic block; 26. a limit rod; 27. a mounting groove; 28. damping idler wheels; 29. and a buffer spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1, the damping structure of an ultrasonic cleaner of the present utility model includes a damping bracket 2 disposed on a bottom plate of a square-structure ultrasonic cleaner housing 1, where the damping bracket 2 is used to fix a cleaning inner cylinder inside the ultrasonic cleaner housing 1 and to perform damping protection on the cleaning inner cylinder.

The utility model is further described below with reference to examples.

Embodiment one:

referring to fig. 1-5, a damping structure of an ultrasonic cleaner, a damping bracket 2 includes a cross mounting plate 21 fixedly connected to a bottom plate of a housing 1 of the ultrasonic cleaner and a damping seat 22 fixedly connected to a top of the cross mounting plate 21, the damping seat 22 is used for fixing an inner cylinder of the ultrasonic cleaner, the top of a tail end of the cross mounting plate 21 is fixedly connected with a fixed side plate 23, a side wall of the fixed side plate 23 facing the inner cylinder of the ultrasonic cleaner is provided with a mounting chute 24, the mounting chute 24 is connected with a limit rod 26 on two sides of one end support arm of an X-shaped movable rod 25 through a movable joint, one support arm of the X-shaped movable rod 25 passes through a limit hole on the other support arm, the limit hole is formed in the middle of the support arm of the X-shaped movable rod 25, the two support arms are movably connected through a movable pin, mounting grooves 27 are respectively formed at the tail ends of the two support arms at the other end of the X-shaped movable rod 25, damping rollers 28 are movably mounted between inner walls of the mounting grooves 27, the damping rollers 28 are members made of rubber materials, one end of the damping rollers 28, which are far away from the X-shaped movable rod 25, are arranged around the inner cylinder of the ultrasonic cleaner, and two side walls of the X-shaped movable rod are bonded, and two side walls of the upper and lower support arms, which are far away from one end of the damping springs 29 are respectively arranged.

The bottom of the support arm of the X-shaped movable rod 25 on the same side of the shock-absorbing roller 28 is fixedly connected with a suspension rod 251, the bottom of the suspension rod 251 is fixedly connected with a first magnetic block 252, a second magnetic block 231 is embedded and arranged on the side wall of the fixed side plate 23 at the position corresponding to the first magnetic block 252, the suspension rod 251 is arranged at the bottom of the lower support arm of the end, far away from the buffer spring 29, of the X-shaped movable rod 25, the suspension rod 251 is close to the shock-absorbing roller 28, the first magnetic block 252 is arranged above the bottom plate of the cross mounting plate 21 in a close manner, and the same-name magnetic poles of the first magnetic block 252 and the second magnetic block 231 are oppositely arranged.

Specifically, when the inner tube of the ultrasonic cleaner is ultrasonically cleaned by cleaning liquid under the action of the ultrasonic transducer, when the inner tube is vibrated by ultrasonic energy, the damping roller 28 made of rubber is attached to the outer wall of the periphery of the inner tube under the support of the fixed side plate 23 and the X-shaped movable rod 25, the damping roller 28 is subjected to buffer absorption through self elastic deformation, meanwhile, the damping roller 28 rolls along the outer wall of the periphery of the inner tube, vibration abrasion between the inner tube and the outer shell can be reduced, the vibration of the inner tube is driven by sliding and stretching the left end and the right end of the X-shaped movable rod 25 through the damping roller 28, at the moment, the vibration of the inner tube is further buffered by the X-shaped movable rod 25 through the sliding and stretching buffer spring 29, so that the vibration degree of the inner tube of the ultrasonic cleaner is reduced, when the X-shaped movable rod 25 is driven by sliding and stretching, the first magnetic block 252 at the bottom of the support arm 251 of the X-shaped movable rod 25 is moved to be close to the second magnetic block 231 on the side wall of the fixed side plate 23, and the vibration of the inner tube 25 is buffered through the magnetic force of the magnetic block repulsive with the same name, so that the vibration of the inner tube 25 is further restrained, and the ultrasonic cleaner is further cleaned, and vibration is protected by the vibration of the ultrasonic cleaner through the vibration and the vibration.

Embodiment two:

referring to fig. 3, 6-7, in a damping structure of an ultrasonic cleaning machine, four identical groups of damping seats 22 are respectively provided, and each group of damping seats 22 is disposed at the top of the intersection of the transverse plates and the longitudinal plates of the cross mounting plate 21.

The shock mount 22 includes fixed section of thick bamboo 221 of fixed connection in the cross mounting panel 21 top and sets up in the inside buffering air cavity 222 of fixed section of thick bamboo 221, and the interior movable block of buffering air cavity 222 has piston post 223, and piston post 223 top extends to the outside of the buffering air cavity 222 port at fixed section of thick bamboo 221 top, and piston post 223 top fixedly connected with bracing piece 224, the piston post 223 top fixedly connected with damping spring 225 in the bracing piece 224 outside, damping spring 225 and the top of piston post 223 are all fixedly connected with in ultrasonic cleaner inner tube bottom.

The fixed cylinder 221 is of a truncated cone structure with a small upper part and a large lower part, the top end of the fixed cylinder 221 is embedded with a sealing gasket 226, the sealing gasket 226 is arranged at the top port of the buffer air cavity 222, and the sealing gasket 226 is movably sleeved outside the piston column 223.

Specifically, when the inner cylinder of the ultrasonic cleaner generates longitudinal vibration, the inner cylinder vibration drives the piston column 223 to move downwards, the lower end of the piston column 223 moves downwards to shrink in the buffer air cavity 222 in the fixed cylinder 221 due to vibration, the lower end of the piston column 223 compresses air in the buffer air cavity 222, the longitudinal vibration of the inner cylinder of the ultrasonic cleaner is buffered and damped through the air in the buffer air cavity 222 matched with the damping spring 225, and meanwhile, the piston column 223 is suspended by the air in the buffer air cavity 222 to avoid vibration friction, so that the purposes of damping and noise reduction are achieved, and the longitudinal damping protection of the inner cylinder of the ultrasonic cleaner is effectively enhanced.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a shock-absorbing structure of ultrasonic cleaner, includes shock-absorbing support (2) that set up on ultrasonic cleaner casing (1) bottom plate, and shock-absorbing support (2) are used for carrying out shock attenuation protection, its characterized in that to equipment: the shock mount (2) include fixed connection in cross mounting board (21) on ultrasonic cleaner casing (1) bottom plate and fixed connection in shock mount (22) at cross mounting board (21) top, shock mount (22) are used for fixed ultrasonic cleaner inner tube, and terminal top fixedly connected with fixed curb plate (23) respectively of cross mounting board (21), install spout (24) on fixed curb plate (23) orientation ultrasonic cleaner inner tube's lateral wall, install spout (24) and connect it through gag lever post (26) of activity block X type movable rod (25) one end support arm both sides, mounting groove (27) have been seted up respectively to the two support arm ends of X type movable rod (25) other end, movable mounting has shock attenuation gyro wheel (28) between mounting groove (27) inner wall, and be provided with buffer spring (29) between the upper and lower both sides wall that shock attenuation gyro wheel (28) one end were kept away from to X type movable rod (25), suspension rod (251) bottom fixedly connected with suspension arm (251) of shock attenuation gyro wheel (28) homonymy, suspension arm (251) bottom fixedly connected with first magnetic block (252) of suspension arm (251), fixed block (252) corresponding to first magnetic block (252) on fixed side plate (252) is provided with magnetic block (231).

2. The shock absorbing structure of an ultrasonic cleaning machine according to claim 1, wherein: the shock-absorbing seats (22) are respectively provided with four identical groups, and each group of shock-absorbing seats (22) is arranged at the top of the intersection of the transverse plates and the longitudinal plates of the cross mounting plate (21).

3. The shock absorbing structure of an ultrasonic cleaning machine according to claim 2, wherein: the shock mount (22) include fixed section of thick bamboo (221) of fixed connection in cross mounting panel (21) top and set up in the inside buffering air cavity (222) of fixed section of thick bamboo (221), the activity block has piston post (223) in buffering air cavity (222), and piston post (223) top extends to the buffering air cavity (222) port outside at fixed section of thick bamboo (221) top, and piston post (223) top fixedly connected with bracing piece (224), and piston post (223) top fixedly connected with damping spring (225) in bracing piece (224) outside.

4. A shock absorbing structure of an ultrasonic cleaning machine according to claim 3, wherein: the fixed cylinder (221) is of a truncated cone-shaped structure with a small upper part and a large lower part, the top end of the fixed cylinder (221) is embedded with a sealing gasket (226), and the sealing gasket (226) is arranged at the top port of the buffer air cavity (222).

5. The shock absorbing structure of an ultrasonic cleaning machine according to claim 1, wherein: the damping roller (28) is a member made of rubber materials, and one end of the damping roller (28) away from the X-shaped movable rod (25) is attached to the inner cylinder of the ultrasonic cleaning machine.

6. The shock absorbing structure of an ultrasonic cleaning machine according to claim 5, wherein: one support arm of the X-shaped movable rod (25) passes through a limiting hole on the other support arm, the limiting hole is arranged at the middle part of the support arm of the X-shaped movable rod (25), and the two support arms are movably connected through a movable pin.

7. The shock absorbing structure of an ultrasonic cleaning machine according to claim 1, wherein: the suspension rod (251) is arranged at the bottom of the lower support arm at one end of the X-shaped movable rod (25) far away from the buffer spring (29), and the suspension rod (251) is arranged close to the shock-absorbing roller (28).

8. The shock absorbing structure of an ultrasonic cleaning machine according to claim 1, wherein: the first magnetic block (252) is closely suspended above the bottom plate of the cross mounting plate (21), and the same-name magnetic poles of the first magnetic block (252) and the second magnetic block (231) are oppositely arranged.