CN204196878U - A kind of vehicle wheel drum automatic spray washer - Google Patents

Abstract

The utility model discloses a kind of vehicle wheel drum automatic spray washer, and described spray thrower comprises: switch; Shutoff valve, is electrically connected with described switch, by described switch open or closedown, to control described shutoff valve conducting or disconnection; Air receiver, for storing gas; Reducing valve, connects described air receiver and described shutoff valve; Fluid box, is connected with described shutoff valve, for storage of liquids; Temperature sensor, for detecting the current temperature value of described wheel hub; Electromagnetic valve, is connected with described fluid box; Nozzle, is connected with described electromagnetic valve; Temperature controller, be connected with described switch, described temperature sensor and described electromagnetic valve simultaneously, the information comprising described current temperature value that described temperature controller sends for receiving described temperature sensor, and control described electromagnetic valve according to described current temperature value.

Description

A kind of vehicle wheel drum automatic spray washer

Technical field

The utility model relates to technical field of traffic transportation, particularly relates to a kind of vehicle wheel drum automatic spray washer.

Background technology

Vehicle wheel drum spray thrower is used widely as the visual plant ensureing vehicle safety travel.Existing vehicle wheel drum spray thrower comprises air pressure manual type spray thrower, electrodynamic type spray thrower and microcomputer spray thrower.

Described air pressure manual type spray thrower needs manual operation, and needs repeatedly to operate the spray that just can carry out continuing, and driver needs to carry out spray operation when driving simultaneously, is unfavorable for traffic safety.Described electrodynamic type spray thrower is by consuming electric energy, spraying, but the electric energy which consumes is more, causes use cost higher.And microcomputer spray thrower is by microcomputer, control the need of spray or when spray, this spray mode precision is high, and response is fast, but cost is high, price.

Therefore, be necessary to propose a kind ofly to be beneficial to that traffic safety, cost are low, the vehicle wheel drum automatic spray washer of convenient operation.

Utility model content

The application provides a kind of vehicle wheel drum automatic spray washer, solves vehicle wheel drum spray thrower in prior art and is unfavorable for that traffic safety, cost are higher and is not easy to the technical matters that operates.

The application provides a kind of vehicle wheel drum automatic spray washer, and described spray thrower comprises: switch; Shutoff valve, is electrically connected with described switch, by described switch open or closedown, to control described shutoff valve conducting or disconnection; Air receiver, for storing gas; Reducing valve, connects described air receiver and described shutoff valve; Fluid box, is connected with described shutoff valve, for storage of liquids; Temperature sensor, for detecting the current temperature value of described wheel hub; Electromagnetic valve, is connected with described fluid box; Nozzle, is connected with described electromagnetic valve; Temperature controller, be connected with described switch, described temperature sensor and described electromagnetic valve simultaneously, the information comprising described current temperature value that described temperature controller sends for receiving described temperature sensor, and control described electromagnetic valve according to described current temperature value.Wherein, when described shutoff valve and described solenoid valve conduction, the gas of described air receiver is via after described reducing valve decompression, enter in described fluid box by described shutoff valve, liquid in described fluid box discharges fluid box under the gas pressure of described gas, described nozzle is entered, to spray described wheel hub by described electromagnetic valve.

Preferably, describedly control described electromagnetic valve according to described current temperature value, specifically for: judge whether described current temperature value is greater than a preset temperature threshold value; If so, described solenoid valve conduction is then controlled.

Preferably, described spray thrower also comprises aie escape valve, and described aie escape valve is arranged on described fluid box, and when described aie escape valve is opened, the gas in described fluid box can be discharged by described aie escape valve.

Preferably, described spray thrower also comprises charging valve, and described charging valve arranges on described fluid box, when described charging valve is opened, injects liquid by described charging valve in described fluid box.

Preferably, described spray thrower also comprises dispersing valve, and described dispersing valve is arranged on described fluid box, and when described dispersing valve is opened, the liquid in described fluid box can be discharged by described dispersing valve.

Preferably, the number of described nozzle and described temperature sensor is two, and described two temperature sensors are all connected with described temperature controller, are respectively used to the current temperature value of detection two wheel hubs; Described two nozzles are all connected with described electromagnetic valve, are respectively used to spray described two wheel hubs.

The application's beneficial effect is as follows:

Above-mentioned vehicle wheel drum automatic spray washer controls described shutoff valve and temperature controller by a switch simultaneously, thus make described shutoff valve and described electromagnetic valve be in conducting state, can spray described wheel hub 110, thus reach the effect that wheel hub is lowered the temperature, solve vehicle wheel drum spray thrower in prior art and be unfavorable for that traffic safety, cost are higher and be not easy to the technical matters that operates.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, below the accompanying drawing used required in describing embodiment is briefly described, apparently, the accompanying drawing in the following describes is only embodiments more of the present utility model.

Fig. 1 is the structural schematic block diagram of a kind of vehicle wheel drum automatic spray washer of the application one better embodiment;

Fig. 2 is the structural schematic block diagram of the application by a kind of vehicle wheel drum automatic spray washer of a better embodiment;

Fig. 3 is the structural schematic block diagram of the application's a kind of vehicle wheel drum automatic spray washer of a better embodiment again.

Detailed description of the invention

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Embodiment one

Fig. 1 is the structural schematic block diagram of a kind of vehicle wheel drum automatic spray washer of the application one better embodiment.As shown in Figure 1, described vehicle wheel drum automatic spray washer 100 comprises switch 10, shutoff valve 20, air receiver 30, reducing valve 40, fluid box 50, temperature sensor 60, electromagnetic valve 70, nozzle 80, temperature controller 90.

Described switch 10 can be unlocked or cut out.

Described shutoff valve 20 is electrically connected with described switch 10, is opened or is closed, to control the conducting of described shutoff valve 20 or disconnection by described switch 10.In the present embodiment, when described switch 10 is opened, described shutoff valve 20 is in conducting state, the materials such as gas can pass through described shutoff valve 20, when described switch 10 cuts out, described shutoff valve 20 is in off-state, and the materials such as gas are not by described shutoff valve 20.

Described air receiver 30 is for storing gas.

Described reducing valve 40 is for reducing pressure to gas, and described reducing valve 40 connects described air receiver 30 and described shutoff valve 20.When described shutoff valve 20 is in conducting state, the gas in described air receiver 30 can be discharged, after reducing valve 40 reduces pressure, by described shutoff valve 20.

Described fluid box 50 is connected with described shutoff valve 20, and described fluid box 50 is for storage of liquids.Fluid box 50 adopts circular white pig iron skin to make, and makes fluid box 50 corrosion resistant, not yielding.In the present embodiment, described liquid is specially water, in other embodiments, described liquid can for other can be used in cool liquid, as fluid etc.When described shutoff valve 20 conducting, described gas, by after described shutoff valve 20, enters described fluid box 50, makes to there is certain air pressure in fluid box 50, thus force the liquid in described fluid box 50 to be discharged.

Described temperature sensor 60 is arranged at the side of wheel hub 110, for detecting the current temperature value of described wheel hub 110, and the information comprising this current temperature value is sent.In the present embodiment, described temperature sensor 60 is specially temp probe.

Described electromagnetic valve 70 is connected with described fluid box 50, and described electromagnetic valve 70 can be in conducting or off-state.Described nozzle 80 is connected with described electromagnetic valve 70.When described electromagnetic valve 70 is in conducting state, the liquid of discharging in described fluid box 50 can enter described nozzle 80 by described electromagnetic valve 70, to spray described wheel hub 110.

Described temperature controller 90 is connected with described switch 10, described temperature sensor 60 and described electromagnetic valve 70, the information comprising described current temperature value that described temperature controller 90 sends for receiving described temperature sensor 60, and control the conducting of described electromagnetic valve 70 or disconnection according to described current temperature value.Wherein, when described shutoff valve 20 and described electromagnetic valve 70 conducting, the gas of described air receiver 30 is via after described reducing valve 40 decompression, enter in described fluid box 50 by described shutoff valve 20, liquid in described fluid box 50 discharges fluid box 50 under the gas pressure of described gas, described nozzle 80 is entered, to spray described wheel hub 110 by described electromagnetic valve 70.

Particularly, when described switch 10 is opened, the conducting of described shutoff valve 20, after gas in described air receiver 30 is reduced pressure by described reducing valve 40, enter in described fluid box 50 by described shutoff valve 20, make to there is certain air pressure in fluid box 50, thus force the liquid in described fluid box 50 to be discharged, and enter described electromagnetic valve 70; While described switch 10 is opened, described temperature controller 90 is started working, and receives the information comprising the current temperature value of wheel hub 110 of described temperature sensor 60 transmission, judges that whether current temperature value is more than a preset temperature threshold value; When current temperature value is greater than described preset temperature value, controls described electromagnetic valve 70 and open, make the liquid of discharging in described fluid box 50 can enter described nozzle 80 by described electromagnetic valve 70, to spray described wheel hub 110.And switch 10 is when disconnecting, described shutoff valve 20 and described electromagnetic valve 70 are all in off-state, do not affect vehicle.

By set temperature sensor 60, thus the Current Temperatures of wheel hub can be detected, when Current Temperatures reaches preset temperature threshold value, the conducting of temperature controller 90 Controlling solenoid valve 70, liquid can enter nozzle 80 by electromagnetic valve 70, wheel hub 110 is sprayed, thus reaches the effect that wheel hub is lowered the temperature.

In the present embodiment, the number of described temperature controller 90, described temperature sensor 60, described electromagnetic valve 70 and described nozzle 80 is one.In other embodiments, when needing there being two wheel hubs 110 to spray, also can be set to can spray separately the wheel hub of in two 110, particularly, described temperature controller 90, described electromagnetic valve 70, described temperature sensor 60 and described nozzle 80 are all set to two, a temperature controller 90, electromagnetic valve 70, temperature sensor 60 and a nozzle 80 form one group, spray a wheel hub 110.Accordingly, when the number of described wheel hub 110 is not limited to two, the number of described temperature controller 90, described electromagnetic valve 70, described temperature sensor 60 and described nozzle 80 can be set according to the number of described wheel hub, make it possible to spray separately each wheel hub 110.

In other embodiments, as shown in Figure 2, the number of described temperature controller 90 and described electromagnetic valve 70 is one, described temperature sensor 60 and described nozzle 80 are two, described two temperature sensors 60 are connected with described temperature controller 90, for detecting the temperature of two wheel hubs 110 respectively, described two nozzles 80 are connected with described electromagnetic valve 70, for spraying two wheel hubs 110 respectively, now, if when the temperature of any one wheel hub 110 in described two wheel hubs 110 is greater than preset temperature threshold value, then temperature controller 90 controls described electromagnetic valve 70 and is in conducting state, liquid can enter two nozzles 80 by described electromagnetic valve 70, two wheel hubs 110 are sprayed simultaneously.Certainly, in actual application, when the number of described wheel hub 110 is not limited to two, and when can spray simultaneously, the number of the wheel hub 110 that can spray as required arranges the number of described nozzle 80 and described electromagnetic valve 70, make the number of described nozzle 80 and described electromagnetic valve 70 corresponding with the number of described wheel hub 110, can spray described wheel hub 110 simultaneously.

Set a described temperature controller 90, described electromagnetic valve 70, two described temperature sensors 60 and two described nozzles 80 are one group of spray group, two wheel hubs 110 are sprayed.Again as shown in Figure 3, when the wheel hub number needing to spray is 4, two groups of spray groups can be set, respectively two groups of wheel hubs be sprayed, that is, four wheel hubs 110 are equally assigned into two groups, often organize employing one group of spray group and spray.In other embodiments, when the number of described wheel hub 110 is multiple, the mode of mean allocation can not be adopted, and the number of each assembly in spray group can adjust as required, specifically no longer describes in detail.

Above-mentioned vehicle wheel drum automatic spray washer controls described shutoff valve 20 and temperature controller 90 by a switch 10 simultaneously, thus make described shutoff valve 20 and described electromagnetic valve 70 be in conducting state, can spray described wheel hub 110, thus reach the effect that wheel hub is lowered the temperature, solve vehicle wheel drum spray thrower in prior art and be unfavorable for that traffic safety, cost are higher and be not easy to the technical matters that operates.

Particularly, described spray thrower 100 also comprises aie escape valve 91, and described aie escape valve 91 is arranged on described fluid box 50, when described aie escape valve 91 is opened, gas in described fluid box 50 can be discharged by described aie escape valve 91, thus the pressure in described fluid box 50 is reduced.

Particularly, described spray thrower 100 also comprises charging valve 92, and described charging valve 92 arranges on described fluid box 50, when described charging valve 92 is opened, injects liquid by described charging valve 92 in described fluid box 50.

Particularly, described spray thrower 100 also comprises dispersing valve 93, and described dispersing valve 93 is arranged on described fluid box 50, and when described dispersing valve 93 is opened, the liquid in described fluid box 50 can be discharged by described dispersing valve 93.In addition, described spray thrower 100 also comprises safety valve 94, for adjusting air pressure in described fluid box 50 in safe range.

Above-mentioned vehicle wheel drum automatic spray washer controls described shutoff valve 20 and temperature controller 90 by a switch 10 simultaneously, thus make described shutoff valve 20 and described electromagnetic valve 70 be in conducting state, can spray described wheel hub 110, thus reach the effect that wheel hub is lowered the temperature, solve vehicle wheel drum spray thrower in prior art and be unfavorable for that traffic safety, cost are higher and be not easy to the technical matters that operates.

Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (6)

1. a vehicle wheel drum automatic spray washer, is characterized in that, described spray thrower comprises:

Switch;

Shutoff valve, is electrically connected with described switch, by described switch open or closedown, to control described shutoff valve conducting or disconnection;

Air receiver, for storing gas;

Reducing valve, connects described air receiver and described shutoff valve;

Fluid box, is connected with described shutoff valve, for storage of liquids;

Temperature sensor, for detecting the current temperature value of described wheel hub;

Electromagnetic valve, is connected with described fluid box;

Nozzle, is connected with described electromagnetic valve;

Temperature controller, be connected with described switch, described temperature sensor and described electromagnetic valve simultaneously, the information comprising described current temperature value that described temperature controller sends for receiving described temperature sensor, and control described electromagnetic valve according to described current temperature value;

Wherein, when described shutoff valve and described solenoid valve conduction, the gas of described air receiver is via after described reducing valve decompression, enter in described fluid box by described shutoff valve, liquid in described fluid box discharges fluid box under the gas pressure of described gas, described nozzle is entered, to spray described wheel hub by described electromagnetic valve.

2. spray thrower as claimed in claim 1, is characterized in that, describedly controls described electromagnetic valve according to described current temperature value, specifically for:

Judge whether described current temperature value is greater than a preset temperature threshold value;

If so, described solenoid valve conduction is then controlled.

3. spray thrower as claimed in claim 1 or 2, it is characterized in that, described spray thrower also comprises aie escape valve, and described aie escape valve is arranged on described fluid box, and when described aie escape valve is opened, the gas in described fluid box can be discharged by described aie escape valve.

4. spray thrower as claimed in claim 1 or 2, it is characterized in that, described spray thrower also comprises charging valve, and described charging valve arranges on described fluid box, when described charging valve is opened, injects liquid by described charging valve in described fluid box.

5. spray thrower as claimed in claim 1 or 2, it is characterized in that, described spray thrower also comprises dispersing valve, and described dispersing valve is arranged on described fluid box, and when described dispersing valve is opened, the liquid in described fluid box can be discharged by described dispersing valve.

6. spray thrower as claimed in claim 1, it is characterized in that, the number of described nozzle and described temperature sensor is two, and described two temperature sensors are all connected with described temperature controller, are respectively used to the current temperature value of detection two wheel hubs; Described two nozzles are all connected with described electromagnetic valve, are respectively used to spray described two wheel hubs.