CN216245028U - Ice making machine - Google Patents

Abstract

The utility model relates to an ice maker, which comprises an ice maker main body, wherein the ice maker main body is provided with an ice maker inner cavity, a water storage tank and an ice making component for forming ice cubes therein are arranged in the ice maker inner cavity, the water storage tank is communicated with the ice making component through a pipeline, the water storage tank is communicated with a water source through a water inlet pipeline, the water inlet pipeline is provided with a control valve, the ice maker main body is provided with a sterilizer, the sterilizer comprises an ozone generator, an air outlet of the ozone generator is communicated with the water storage tank through an air outlet pipeline, the ozone generator is provided with a control switch, the ice maker main body is provided with a controller, the control valve and the control switch are electrically connected with the controller, and the controller is used for controlling the control valve to be opened and simultaneously controlling the control switch to be opened. The utility model has simple structure and low cost, ensures the sterilization effect, is not easy to break down, and prolongs the service life.

Description

Ice making machine

Technical Field

The utility model belongs to the technical field of ice making equipment, and particularly relates to an ice making machine.

Background

Ice making machines on the market are susceptible to contamination by microorganisms such as bacteria, yeasts, fungi and molds. The bacteria of tap water filtered to remove residual chlorine are more serious, and ice cube bacteria superscripts provided by some famous fast food restaurants are often exposed to the medium. This not only seriously affects people's health, but also brings serious trouble to the operation activities of the catering industry.

At present, ozone sterilization and disinfection are applied to part of ice making machine products. However, ozone is a strong oxidant and is a health and environmental hazard. Short term exposure can irritate the eyes and respiratory tract, may have an effect on the central nervous system, leading to impaired alertness and performance, and inhalation of ozone gas may cause pulmonary edema. Repeated or prolonged inhalation of gas may have an effect on the lungs and the concentration needs to be tightly controlled.

In view of the foregoing, it is desirable to provide an ice maker that is low in cost and less likely to malfunction while ensuring sterilization effects.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an ice maker which is low in cost, ensures the sterilization effect and is not easy to cause failure.

The above purpose is realized by the following technical scheme: an ice maker comprises an ice maker main body, wherein the ice maker main body is provided with an ice maker inner cavity, a water storage tank and an ice making component used for forming ice cubes therein are arranged in the ice maker inner cavity, the water storage tank is communicated with the ice making component through a pipeline, the water storage tank is communicated with a water source through a water inlet pipeline, the water inlet pipeline is provided with a control valve, the ice maker main body is provided with a sterilizer, the sterilizer comprises an ozone generator, an air outlet of the ozone generator is communicated with the water storage tank through an air outlet pipeline, the ozone generator is provided with a control switch, the ice maker main body is provided with a controller, the control valve and the control switch are electrically connected with the controller, and the controller is used for controlling the control valve to be opened and simultaneously controlling the control switch to be opened.

According to the utility model, ice is made in the ice making component, during the ice making process, the ozone generator of the sterilizer is controlled to generate ozone, and the ozone directly enters the ice making water in the water storage tank, so that bacteria in the ice making water of the ice making machine are killed, water is supplemented to the water storage tank, ozone input disinfection is carried out simultaneously, fresh water is ensured to be disinfected in time, after water supplementing is stopped, the control valve is controlled to be closed, the control switch is controlled to be closed simultaneously, and the phenomenon that the ozone concentration is too high and the ozone concentration is effectively controlled is avoided. The utility model has simple structure and low cost, ensures the sterilization effect, is not easy to break down, and prolongs the service life.

The technical scheme is that a liquid level sensor used for detecting the liquid level of the water storage tank is arranged in the water storage tank, and the liquid level sensor is in communication connection with the controller and transmits a detected liquid level signal to the controller. The controller compares the received liquid level signal with a preset liquid level minimum value and a preset liquid level maximum value, controls the control valve to be opened and controls the control switch to be opened when the minimum value is reached, and performs ozone input disinfection while replenishing water to the water storage tank to ensure that newly-fed water is disinfected in time; and when the maximum value is reached, the control valve is controlled to be closed, and the control switch is controlled to be closed.

The further technical scheme is that the liquid level sensor is a floating ball type liquid level meter.

The ice maker is provided with an ozone concentration detector for detecting the concentration of ozone in the cavity of the ice maker, the ice maker is provided with a display screen, and the ozone concentration detector transmits the detected ozone concentration information to the display screen for display. So set up, ozone concentration detector real-time detection ice machine internal ozone volume to show on the display screen, the user can be clear convenient knows the ozone concentration of ice machine inner chamber, and the manual control ozone generator of being convenient for opens and stops, and is safer.

The technical scheme is that the ozone concentration detector is in communication connection with the controller and transmits detected ozone concentration information to the controller. When the concentration of the ozone is higher than the preset value, the controller controls the ozone generator to stop gas production and gas supply.

The further technical scheme is that an air outlet of the ozone generator is communicated with an air pump, and an air outlet of the air pump is connected with the air outlet pipeline.

The ice maker is further provided with a power supply, and the air pump, the ozone concentration detector and the ozone generator are electrically connected with the power supply.

Compared with the prior art, the ozone disinfection device has the advantages that the controller is used for controlling the water supplement in the ice making machine and simultaneously carrying out ozone disinfection on newly supplemented ice making water, the structure is simple, the cost is low, the equipment is not easy to break down while the sterilization effect is ensured, and the service life is prolonged; the ozone concentration detector detects the ozone amount in the ice maker in real time and displays the ozone amount on a display screen, so that real-time monitoring is facilitated; in addition, the concentration of ozone in the ice maker can be strictly controlled through the controller, and the sterilization effect and safety are ensured.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model.

Fig. 1 and 2 are partially schematic sectional views of ice makers from different viewing angles according to an embodiment of the present invention.

In the figure:

1 ice maker main body 2 water storage tank 3 ice making mechanism 4 controller

5 ozone generator 6, air pump 7, power supply 8 and air outlet pipeline

9 liquid level sensor 10 ozone concentration detector 11 control valve

Detailed Description

The present invention will now be described in detail with reference to the drawings, which are given by way of illustration and explanation only and should not be construed to limit the scope of the present invention in any way. Furthermore, features from embodiments in this document and from different embodiments may be combined accordingly by a person skilled in the art from the description in this document.

Embodiments of the present invention as follows, referring to fig. 1 and 2, an ice maker, includes an ice maker main body 1, the ice maker main body 1 is provided with an ice maker inner cavity, a water storage tank 2 and an ice making component for forming ice cubes therein are arranged in the ice maker inner cavity, the water storage tank 2 is communicated with the ice making component through a pipeline, the water storage tank 2 is communicated with a water source through a water inlet pipeline, the water inlet pipeline is provided with a control valve 11, the ice maker main body 1 is provided with a sterilizer which comprises an ozone generator 5, the air outlet of the ozone generator 5 is communicated with the water storage tank 2 through an air outlet pipeline 8, the ozone generator 5 is provided with a control switch, the ice maker main body 1 is provided with a controller 4, the control valve 11 and the control switch are both electrically connected with the controller 4, the controller 4 is used for controlling the control valve 11 to be opened and controlling the control switch to be opened at the same time.

In the utility model, ice is made in an ice making component, and in the ice making process, the ozone generator 5 of the sterilizer is controlled to generate ozone which directly enters into the ice making water in the water storage tank 2, so that bacteria in the ice making water of the ice making machine are killed, water is supplemented to the water storage tank 2, ozone input disinfection is carried out simultaneously, fresh water is ensured to be disinfected in time, after water supplementation is stopped, the control valve 11 is controlled to be closed, the control switch is controlled to be closed simultaneously, and the phenomenon that the concentration of the ozone is too high and the concentration of the ozone is effectively controlled is avoided. The utility model has simple structure and low cost, ensures the sterilization effect, is not easy to break down, and prolongs the service life.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 2, a liquid level sensor 9 for detecting a liquid level of the water storage tank 2 is disposed in the water storage tank 2, and the liquid level sensor 9 is in communication connection with the controller 4 and transmits a detected liquid level signal to the controller 4. The controller 4 compares the received liquid level signal with a preset liquid level minimum value and a preset liquid level maximum value, controls the control valve 11 to be opened and controls the control switch to be opened when the liquid level signal reaches the minimum value, and performs ozone input disinfection while replenishing water to the water storage tank 2 to ensure that newly-fed water is disinfected in time; when the maximum value is reached, the control valve 11 is controlled to be closed and the control switch is controlled to be closed.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 2, the liquid level sensor 9 is a floating ball type liquid level meter.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1 and fig. 2, the ice making machine is provided with an ozone concentration detector 10 for detecting the concentration of ozone in the cavity of the ice making machine, the ice making machine is provided with a display screen, and the ozone concentration detector 10 transmits the detected ozone concentration information to the display screen for displaying. By the arrangement, the ozone concentration detector 10 detects the amount of ozone in the ice maker in real time and displays the ozone amount on the display screen, so that a user can clearly and conveniently know the ozone concentration in the inner cavity of the ice maker, the start and stop of the ozone generator 5 can be conveniently and manually controlled, and the ozone concentration detector is safer.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the ozone concentration detector 10 is in communication connection with the controller 4 and transmits the detected ozone concentration information to the controller 4. When the concentration of the ozone is higher than the preset value, the controller 4 controls the ozone generator 5 to stop generating and supplying the gas.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, an air outlet of the ozone generator 5 is communicated with an air pump 6, and an air outlet of the air pump 6 is connected to the air outlet pipe 8.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the ice maker is provided with a power supply 7, and the air pump 6, the ozone concentration detector 10 and the ozone generator 5 are electrically connected to the power supply 7.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The ice maker is characterized in that the water storage tank is communicated with a water source through a water inlet pipeline, the water inlet pipeline is provided with a control valve, the ice maker body is provided with a sterilizer, the sterilizer comprises an ozone generator, an air outlet of the ozone generator is communicated with the water storage tank through an air outlet pipeline, the ozone generator is provided with a control switch, the ice maker body is provided with a controller, the control valve and the control switch are electrically connected with the controller, and the controller is used for controlling the control valve to be opened and controlling the control switch to be opened simultaneously.

2. The ice-making machine of claim 1, wherein a level sensor is disposed within said water storage tank for detecting a level of water in said water storage tank, said level sensor being in communication with said controller and transmitting a detected level signal to said controller.

3. The ice-making machine of claim 2, wherein said level sensor is a float level gauge.

4. The ice maker as claimed in any one of claims 1 to 3, wherein the ice maker is provided with an ozone concentration detector for detecting the concentration of ozone in the cavity of the ice maker, the ice maker is provided with a display screen, and the ozone concentration detector transmits the detected ozone concentration information to the display screen for display.

5. The ice-making machine of claim 4, wherein said ozone concentration detector is communicatively coupled to said controller and communicates detected ozone concentration information to said controller.

6. The ice-making machine of claim 5, wherein an air outlet of said ozone generator is connected to an air pump, and an air outlet of said air pump is connected to said air outlet pipe.

7. The ice-making machine of claim 6, wherein said ice-making machine is provided with a power source, and said air pump, ozone concentration detector and ozone generator are electrically connected to said power source.

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