RU171617U1 - Ultrasonic cleaner - Google Patents

Abstract

The invention relates to ultrasonic machines for cleaning bottles with a washing solution using ultrasonic vibrations from various contaminants. The purpose of the invention is to improve the design by replacing the continuous movement of the bottles with a discrete one at intervals in the zone of ultrasonic exposure, simplifying the design by replacing the bottle moving device with space for simpler products that allow you to work with bottles of any shape and size without readjustment. howl cleaning, containing a frame, a bath with installed emitters, a device for moving bottles in space, a drive, a power supply, characterized in that the machine drive is capable of discrete movement of bottles by 180 °, the device for moving bottles is made in the form of a frame with rulers on which clamps are mounted with the possibility of clamping bottles under the neck, the power supply unit is made one for the total number of emitters, and the bathtub is made oval in shape. The drive of the device is configured to adjust the interval finding the bottles in the area of ultrasonic cleaning. The nodes of the clamps are made in the form of spring-loaded clamps that are triggered when the frame stops in the vertical position. The device is controlled by one power supply unit. The ultrasonic cleaning device is designed to clean glass bottles with a washing solution using ultrasonic vibrations, can also be used to rinse bottles and ultrasonic treatment of bottles in a solution of hydrochloric acid in order to restore the characteristics of the glass. 3 ill.

Description

The utility model relates to ultrasonic machines for cleaning bottles with a washing solution using ultrasonic vibrations from various contaminants.

Similar devices are known. They include a bathtub with ultrasonic emitters. The difficulty of cleaning bottles is that the bottles are placed either in sections with nests that are designed for only one type of bottle size and the presence of guides at the bottom of the bath, or in containers. When passing through the zone of action of ultrasonic emitters, the presence of a large number of partitions impedes the uniform distribution of the acoustic field inside the bath, thereby reducing the power of ultrasonic exposure.

A device for ultrasonic cleaning is known, which is used to remove various contaminants from the surface of small small and medium parts, laboratory instruments, medical instruments. The device comprises a bathtub filled with a liquid medium, with a container placed in it and equipped with a lid, in which an ultrasonic piezo emitter is integrated. The emitter is connected to a metal radiating plate located with the possibility of acoustic contact in working position with a liquid medium (see RF Patent 2184625 C2, IPC V08V 3/12, 2002).

A disadvantage of the known device is the constructive impossibility of using hollow containers, in particular bottles, for cleaning, as well as the unreliability of the acoustic contact of piezoelectric emitters with a liquid washing medium, since the latter are mounted on the lid of the bathtub.

A known ultrasonic bottle washing machine, in which the bottles located in the nests of the sections of the drum, mounted on racks, are moved by the operator rotating the rotation mechanism into the cleaning zone. For the smooth movement of the bottles inside the bath, guides are drawn together by ties, installed in the center of the drum. The machine is made on the basis of a three-dimensional structure on the basis of the main composite units: a rectangular-shaped bathtub with emitters, a drum with guides inside the bathtub, a control unit, a drum rotation mechanism (see RF patent No. 543438).

The disadvantage of this device is the complexity of the design of the drum with sections and sockets for each bottle, the presence of guides on the bottom of the bath, which significantly reduce the power of ultrasonic exposure to the bottles, the rectangular shape of the bath, which creates dead zones during ultrasonic exposure, as well as the presence of a helm mounted on one the end of the drum shaft to perform manual rotation of the drum.

The closest in technical essence to the claimed solution is an ultrasonic bottle washing machine designed to clean glass bottles from various contaminants, containing a bath with installed emitters, a device for moving bottles in space, a drive, power supplies (see RF Patent for an industrial design No. 53945).

The disadvantage of this machine is the complexity of the design of the device for moving bottles in the space, made in the form of a drum located inside the bathtub, consisting of two disks, tightened by couplers, angled sections with nests for bottles, which are designed for one type of bottle and when changing to another type bottles, it is necessary to replace the entire drum, which is structurally difficult, since it entails the dismantling of the gear motor. In addition, the partitions of the sections with bottle sockets and the guides located at the bottom of the bath affect the uniform distribution of the acoustic field inside the bath, thereby reducing the power and effectiveness of ultrasonic vibrations. A disadvantage is the continuous movement of the nests with bottles in the ultrasonic cleaning zone due to the use of a drive represented by a gear motor in the design, therefore there is no stop of the drum in the cleaning zone and, accordingly, there is no adjustment of the time spent by the bottles in the cleaning zone, which depends on the nature and intensity pollution. The disadvantage is the presence of a control unit with power supplies for each ultrasonic emitter, which greatly complicates the design and control of the machine, and also requires a frame for attaching power supplies.

The purpose of the utility model is to improve the design by replacing the continuous movement of the bottles with a discrete one at intervals in the zone of ultrasonic exposure, simplifying the design by replacing the device for moving bottles in space with simpler products that allow working with bottles of any shape and size without readjustment.

This goal is achieved in that the ultrasonic cleaning device containing a frame, a bath with mounted emitters, a device for moving bottles in space, a drive, a power supply, characterized in that the machine drive is capable of discrete movement of the bottles 180 °, the bottle moving device is made in in the form of a frame with rulers on which clamps are mounted with the possibility of clamping bottles under the neck, the power supply unit is designed for the total number of emitters, and the bathtub is made oval.

The frame is mounted on a shaft, which is located in the bearings, and is driven by a rotary pneumatic cylinder. The drive of the device is represented by a rotary pneumatic cylinder and is made with the possibility of discrete movement of the bottles by 180 °. The device is controlled by one power supply unit equipped with a time relay, which regulates the location of the bottles in the coverage area of ultrasonic emitters.

The technical result consists in replacing the continuous movement of the bottles in the ultrasonic cleaning zone with a discrete one, i.e. a certain adjustable interval of bottles in the cleaning zone is carried out. In addition, the proposed design of the ultrasonic cleaning device turned out to be much simpler by replacing the drum with installed sections with bottle sockets and guides on the bottom of the bathtub with a bottle moving unit in the space consisting of a vertical frame with horizontal rulers on which clamps are mounted with the possibility of bottle clamping under the neck. In connection with these, it became possible to work with bottles of any shape without readjustment. The proposed bath design, which has an oval shape, has a number of advantages: the absence of dead zones during the operation of ultrasonic emitters, the reduction in the consumption of washing solution, and the absence of accumulation of contaminants in the corners of the bath.

The inventive utility model is shown in the drawings.

In FIG. 1 shows an ultrasonic cleaner, general view; FIG. 2 is a side view, in FIG. 3 - design of the bottle retainer.

The ultrasonic cleaning device comprises a frame 1, on which a bath 2 is mounted, at the bottom of which ultrasonic emitters 3 are located, at the opposite ends of the frame 1 are a bearing assembly 4 and a pneumatic cylinder 5, One end of the shaft 6 is located in the bearing assembly 4, and the other is connected to a rotary pneumatic cylinder 5, which rotates the frame 7 mounted on the shaft 6. The frame 7 is designed, with two rulers 8 fixed on it with locks 14, to move the bottles 180 ° in space. The device is controlled by a power supply 9 on the front panel of which there is a Start key 12 and a time relay 13, on which the time spent by the bottles in the ultrasonic cleaning zone is set. Bath 2 is filled with washing solution 10 to a certain level. In the clamps 14 of the rulers 8, clamping the bottles under the neck, bottles 11 are installed.

The latch 14, designed to clamp the bottles under the neck, contains: a prism 15, which is designed to center the neck of the bottle, an emphasis 16, which, under the influence of the lever 17 and the spring 18, exerts pressure on the neck of the bottle, thereby fixing it.

The example shows the operation of the ultrasonic cleaner while moving 12 bottles, but the number of bottles may be more.

The bath is filled with detergent solution 10, the bottles 11 are installed in the retainers 14 of the line 8, which is in the upper position. Rotary pneumatic cylinder 5 frame 7, with installed bottles 11, moves 180 ° to the lower position. When turning, the bottles are filled with detergent solution 10. Time relay 13 regulates the specific time spent by the bottles in the ultrasonic cleaning zone. During this period of time, the bottles 11 are installed in the retainers 14 of the line 8, which is in the upper position. Next, the pneumatic cylinder 5 is activated and the frame 7 is rotated 180 °. When you turn the water from the bottles 10 flows back into the bath 2. Then the cycle repeats.

During ultrasonic cleaning, the bottles are motionless for a certain period of time, which depends on the amount and nature of contaminants, which significantly improves the quality of cleaning. The design of the proposed model allows you to discretely move at the same time the required number of bottles.

Replacing the continuous movement with a discrete one, the operator gets the opportunity to change the processed bottles to the next ones, without using extra time. In addition, when using a ruler with clamps, there was no need for a rotary drum on which sections with bottle sockets and guides are located, which ensured an improvement in the uniformity of the distribution of the acoustic field inside the bathtub, thereby increasing the efficiency of ultrasonic emitters.

Improving the design, consisting in the use of one power supply, has allowed to simplify the design by eliminating the frame for mounting power supplies.

The ultrasonic cleaning device is designed to clean glass bottles with a washing solution using ultrasonic vibrations, it can also be used to rinse bottles and ultrasonic treatment of bottles in an acid solution in order to restore the characteristics of the glass.

Claims (1)

An ultrasonic bottle cleaning device containing a frame, a bathtub with installed emitters, a bottle moving device in space, a drive, power supplies, characterized in that the machine drive is capable of discrete movement of the bottles 180 °, the bottle moving device is made in the form of a ruler frame, on which the clamps are mounted with the possibility of clamping bottles under the neck, the power supply unit is made one for the total number of emitters, and the bathtub is made oval.

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