CN1070784C

CN1070784C - Accessory structure for vehicle air-conditioner

Info

Publication number: CN1070784C
Application number: CN96121403A
Authority: CN
Inventors: 赤泽廉正
Original assignee: Individual
Current assignee: Chi Zeming
Priority date: 1996-11-08
Filing date: 1996-11-08
Publication date: 2001-09-12
Anticipated expiration: 2016-11-08
Also published as: CN1182016A

Abstract

The present invention relates to an auxiliary device which is used for a vehicle air conditioner and can improve air in a vehicle. The auxiliary device comprises a solvent feeding pipeline which is connected with a solvent flow spraying device arranged at the upstream side of a heat exchanger in an air inlet pipeline of the air conditioner; the bottom of the solvent feeding pipeline is provided with a receiving device separated from a solvent source; the receiving device is arranged in a specific position in the vehicle and placed in a containing space, for example, a toolbox. The solvent source, for example, a full container, is separated from the receiving device, which can prevent the solvent source from fracture or damage; when necessary, the receiving device of which the form corresponds to solvent receives the solvent coming from the solvent source so as to clean a heat exchanger or supply balmy or other kinds of solvent performing functions.

Description

The auxiliary device that is used for air conditioner for vehicles

The present invention relates to a kind of auxiliary device that is used for air conditioner for vehicles, it is to infeed air conditioner for vehicles to absorb extraneous air or inner air improves environment in the vehicle from the Air Conditioning admission line by cleaning as the evaporator of H Exch and other parts or with spices or other solvent that works.

For as mentioned above like that by the cleaning evaporator or infeed spices or solvent that other works improves air in the vehicle, one solvent nozzle is arranged on the upstream side of the H Exch in the Air Conditioning admission line, a flexible pipe that is communicated with described nozzle is drawn out in the vehicle, a container that is full of solvent that is placed in the casing is installed near operating seat or the front stall, and the bottom of described flexible pipe is fitted on the solvent discharge orifice of the container that is filled.Yet, if the container that is filled is placed near operating seat or the front stall, because the container that is filled will obtain the expulsion force of solvent with the sealing with the gas that is full of, the container that is full of when then temperature build-up makes the situation of the gas superheat that is full of in owing to daylight direct irradiation or vehicle will break.

Therefore, main purpose of the present invention provides a kind of auxiliary device that is used for air conditioner for vehicles, it can or infeed spices or solvent that other works improves air in the vehicle by cleaning heat exchanger, this realizes by following steps: with a solvent feed pipe be arranged on the Air Conditioning admission line in the upstream side of H Exch on the solvent streams jetting system be connected, bottom at described solvent feed pipe is provided with the receiving device that separates mutually with solvent source, described receiving device is fixed on the certain location in the vehicle, and put into one and be not heated to hi-heat accommodation space, for example tool box and control box, the container that described solvent source for example is full of separates with described receiving device simultaneously, prevent that thus described solvent source from breaking or damage, and take out solvent source in use and then from described accommodation space, and nozzle is inserted in the nozzle guide bracket.

Another object of the present invention provides a kind of auxiliary device that can suitably infeed solvent that is used for air conditioner for vehicles, it is by described receiving device being provided with a guide bracket, the nozzle of solvent source is used for when infeeding solvent nozzle location, so that can be positioned in and be achieved on the guide bracket of receiving device to solvent source.

A different purpose of the present invention provides a kind of auxiliary device that is used for air conditioner for vehicles that can improve control ability, it is by forming a taper on described guide bracket, if the optimum position of donor solvent is achieved so that the nozzle of solvent source can enter nozzle guide by described taper near described guide bracket from a bevelled direction.

Another object of the present invention provides a kind of auxiliary device that is used for air conditioner for vehicles that can prevent safely that the solvent adverse current is moving, and it is to be achieved by between the bottom part that infeeds pipeline at described guide bracket and solvent the moving holdout device of an adverse current being set.

Another different purpose of the present invention provides a kind of auxiliary device that is used for air conditioner for vehicles that can stop in the solvent path that dust and external material adhered to and invaded guide bracket, and it is to be achieved by a closing appliance that is used to seal the solvent path of described guide bracket is set on the inboard of a port lid that is used to cover described guide bracket.

Explanation by following embodiment also can easily be understood other purpose of the present invention.

Fig. 1 illustrates a lateral plan that is used for the auxiliary device of air conditioner for vehicles of the present invention;

Fig. 2 is the three-dimensional view of a nozzle;

Fig. 3 is the cutaway view of a receiving element;

Planar view when Fig. 4 is a state after a receiving element is in port lid spare and is removed;

Fig. 5 is the explanation scheme drawing of described port lid spare;

Fig. 6 is the explanation scheme drawing that solvent infeeds;

Fig. 7 is the description of operation scheme drawing of cleaning fluid foamy;

Fig. 8 is the cutaway view that another embodiment of receiving element is shown;

Fig. 9 is the cutaway view that a different embodiment of described receiving element is shown.

Specifically describe a preferred embodiment of the present invention with reference to the accompanying drawings.

These accompanying drawings show an auxiliary device that is used for air conditioner for vehicles, and the composition of described air conditioner for vehicles is described at first in Fig. 1, it is provided with the conversion casing 3 of an inner/outer air, described conversion casing has an extraneous air inlet port 1 and an inner air inlet port 2, is provided with the change-over gate 6 of the inner/outer air of an air inlet that is used to select Air Conditioning by the blower fan 5 of blower motor 4 transmissions and in described casing 3.

In the next stage of the blowing plant of forming like this 7, a cooling arrangement 9 is set by a connecting pipe 8.Described cooling arrangement 9 is equipped with the evaporator 11 as H Exch in cooler casing 10.On the cooler casing 10, just under evaporator 11, form a discharge side 10a.

Described evaporator 11 is evaporating plants that are connected in the refrigerating cycle, and plays a part to absorb ambient heat.

In the next stage of cooling arrangement 9, be connected with a heater control device 12, to transmit the warm-up control signal.In this device 12, a temperature booster fuse is arranged, an air mix door, a ventilator door, a defogger door, a heated door and a blending box, and by means of these conversion, Air Conditioning (cold air or hot air) is blown some essential positions that enter in vehicle from described defroster vent, draft outlet and heat outlet.

In the air conditioner for vehicles that constitutes like this, an example as the Air Conditioning admission line, be arranged on the nozzle 13 that is equipped with communicating pipe 8 on the upstream side of evaporator 11, this nozzle is used for a kind of solvent fluid (a) is sprayed to the almost whole zone of evaporator 11 front sides.

A kind of elongated cylinder form that described nozzle 13 has an osed top front end 13a as shown in Figure 2, made by synthetic resin, and the injection orifice 14 with paired structure, injection hole 14 are to be perforated to form on the position of the front surface of facing the evaporator 11 shown in the dotted arrow direction among Fig. 1.

A nozzle neck 13c at nearly bead 13b place forms on a taper pipe, diameter on its front end 13a is less, and bigger at the diameter of bead 13b side, and a plurality of formation integrally on the excircle of the projection 13d with triangular cross section at described neck that is inserted into and stops on described rubber communicating pipe 8.Thereby, having only by the perforation on described communicating pipe 8, nozzle 13 can be installed immediately and reliably.Certainly, can also adopt bonded assembly measure that bead 13b was bonded on communicating pipe 8.

And, on described bead 13b, integrally form a projection that is used for marking when mounted, this projection is almost consistent with the injection direction of solvent fluid (a) can make so that when nozzle is installed, prevent the mistake of nozzle installation direction nozzle 13 facing to and be installed on the correct direction.The leading end of rubber tube 15 (solvent feed pipe) utilizes its elasticity fastening force (elastic restoring force) to be fixed on the joint 13f of nozzle 13.

The bottom end side of rubber tube 15 is drawn to be entered in the vehicle, it is connected with a receiving element 17 made from synthetic resin, adopt suitable method (bond, be spirally connected, clamping connection or paste) with the tacky on two sides band, as shown in Figure 3 receiving element 17 is fixed near the certain location operating seat or the front stall, for example on an ad-hoc location on front, side or the bottom surface of an instrument carrier panel 16.

Described receiving element 17 fully separates and the (see figure 6) that insulate with a container A that is full of solvent as solvent source, its concrete composition be as shown in Fig. 3 to Fig. 6.

Specifically, spacer 19 by a ring-type integrally forms a bead 20 on a mainboard 18, and shown in mainboard 18 supermedial almost columniform guide brackets 21 and form a solvent path 23 between the outwards outstanding joint 22 from the outer peripheral portion of described spacer 19, and on the offside of spacer 19 on the mainboard 18, integrally form a ring-type seat ring 25 that is used for support holes cover piece 24, form the main body side of receiving element 17 thus.

Described guide bracket 21 is the nozzle N that are used for locating the container A (a kind of carry-along gassiness container) that is filled, it is inserted into when infeeding solvent, and on guide bracket 21, form a taper 21a, its outside diameter is big and inside diameter is less, and forms one be used to the ring-shaped step 26 that prevents that nozzle from too much inserting on the inboard of described taper 21a.

Described port lid spare 24 removably screws in seat ring 25, and as the solvent path that seals guide bracket 21, a projection 24a who is the closing appliance of taper 21a specifically integrally forms in port lid spare 24 inboards, and the outer periderm of port lid spare 24 is processed dismounting and installation to help part 24 cursorily.In Fig. 5, as the example of a coarse processing, knurled portions 24b shown in the figure still can also adopt other coarse processing.

The profile of joint 22 is the ratchet shape of many conical structures as shown in Figure 4, and the bottom of rubber tube 14 is assembled and is fixed on the joint 22 by means of effectively utilizing its elasticity fastening force.

By this way, fully separate, just the container A that is filled can be seated in the tool box or control box of vehicle by the container A that receiving element 17 and portability type are filled.

At this, some available examples of solvent fluid (a) include liquid cleaner, can cleaning solvent foamy (water, phosphoric acid, Softanol 70, methyl proxitol MGF and other suitable mixture), water, spices, pharmaceutical chemicals, aromatic, deodorizer, disinfectant, antiseptic, bactericide and the fungicide of cleaning, they or can use separately or can use with compound (cmpd).Iff in order in vehicle, to obtain aroma effect, then can only use a kind of container that is full of perfume solvent.

Part

13,14,15,17 shown in Fig. 2 can use in groups, and part 13 to 15 and 17 can additionally be connected on the vehicle, perhaps can integrally make when making vehicle.

The course of action of the auxiliary device that is used for air conditioner for vehicles of Gou Chenging is as described below like this.

When cleaning evaporator 11, after removal hole cover piece 24 from receiving element 17 as shown in Figure 3, the nozzle N of the container A that is full of is being inserted in the solvent path 23 in the taper 21a guiding by guide bracket 21 as shown in Figure 6, and cleaning fluid is forced out from nozzle 13, cleaning fluid is infeeded in the rubber tube 15 by solvent path 23 and from described front end flow nozzle 13 then, and spray to the almost whole zone of evaporator 11 front surfaces from a plurality of injection orifices 14, so that the radiating gill with complicated shape (not shown) of evaporator can almost entirely be cleaned fully, and the fluid after cleaning course is just from the just discharge of the discharge side 10a under evaporator 11.As needs, then a discharging hose can be connected on the discharge side 10a, and the fluid after the cleaning course is discharged vehicle.

At this, drive fan 5 when spraying cleaning fluid from injection orifice 14, cleaning fluid further arrives the inside of the radiating gill with complicated shape, so that can further improve cleaning effect.

The order of using solvent fluid can be can washer solvent foamy and pharmaceutical chemicals, in this order, be disinfectant or antiseptic for example, perhaps can washer solvent foamy, clean water and pharmaceutical chemicals, perhaps liquid detergent and antiseptic, and after cleaning course, can be air-supplied, heating installation, hot air or cold air carry out drying to evaporator by bottom end opening side from rubber tube 15.

Specifically, when the solvent fluid (a) from nozzle 13 ejection is a kind of can cleaning fluid foamy the time, if the size of nozzle 13 with communicating pipes 8 the in-to-in bottom-to-top-height compare shorter like that as shown in Figure 7, then from nozzle 13 ejection can cleaning fluid foamy just because characteristic that can fluid foamy, and be ejected into like that as shown in Figure 7 on the whole region in front (being whole surface) of the upstream side of evaporator 11, can clean whole evaporator 11 effectively, and circulation by Air Conditioning, can can carry out effective cleaning to the inside of whole evaporator 11 by cleaning fluid foamy, so the compact dimensions of nozzle 13 and make the installation of nozzle 13 on air conditioner for vehicles more easy.

Briefly, rubber tube 15 be arranged on the Air Conditioning admission line (from air inlet 1,2 pipelines to evaporator 11) nozzle 13 on the vaporizer upstream side on is connected, the receiving element 17 that separates with the container A that is full of solvent is arranged on the bottom of rubber tube, and receiving element 17 is on the ad-hoc location that is fixed in the vehicle, so the container A that solvent source for example is filled is to separate mutually with receiving element 17, and be to be placed at one not to be heated to hi-heat accommodation space, for example in tool box or the control box, so that can prevent breaking or damaging of solvent source.When in use, solvent container A is taken out accommodation space, and insert in the nozzle guide bracket, clean evaporator 11 then or supply with dulcet or other effective solvent, so that can improve air in the vehicle.

As a kind of solvent fluid (a), because liquid cleaner, can cleaning agent foamy, the mixed cmpd cleaning agent of spices and aromatic, spices, aromatic, deodorizer, disinfectant, antiseptic, bactericide, fungicide and other solvent can or use with mixing individually or, by the effect of selecting just can obtain to clean from the solvent fluid (a) of nozzle 13 ejections, perhaps dulcet, deodorizing, the sterilization or mycocidal effect, can clean the inside of A/C thus, prevent the smell of disliking or obtain Bactericidal or mycocidal effect.

In addition, be used for when infeeding solvent the guide bracket 21 that the nozzle 13 to the container A that is filled positions because described receiving element 17 is provided with, therefore the nozzle N by the container A that will be filled is positioned on the guide bracket 12 of receiving element 17 just donor solvent suitably.

Moreover, owing on described guide bracket 21, be formed with taper 21a, if the nozzle N that makes the container A that is filled then can import the optimum position that described solvent infeeds with nozzle by described taper 21a, so that tighten control ability near to guide bracket.

In addition, the jut 24a that is used to seal the solvent path 23 of guide bracket 21 is arranged in the port lid spare 24, so that cover described guide bracket 21 at least, and can prevent that dust and foreign matter from adhering to or invading in the solvent path 23 of described guide bracket 21 effective and safe.

Fig. 8 illustrates another embodiment of described receiving element 17, port lid spare 24 is that elastic component 27 by a horizontal U-shaped integrally is connected on the seat ring 25 of annular in this embodiment, and by means of concavo-convex connecting element 28 at protuberance that forms on the port lid spare 24 and the recess that on seat ring 25, forms, can immediately break or connect these

parts

24,25, strengthen the control ability when blind hole cover piece 24 thus and prevented the losing of part 24 when open hole cover piece 24.

Furtherly, solvent path 23 centre portion is provided with a check valve 32 by having of forming of valve seat 29, ball valve 30 and spring 31 and described circular step 26 same purposes to prevent the reverse flow of solvent fluid (a).

Like this, owing on the solvent path 23 between the bottom of described guide bracket 21 and rubber tube 15, be provided with check valve 32, therefore just can stop the reverse flow of solvent reliably.

In the embodiment of Fig. 8, other part also has and in the foregoing embodiments same effect and effect, and with identical parts in the aforementioned figures be to represent in Fig. 8 with same label, thereby omitted detailed explanation to them.

Fig. 9 shows another different embodiment of described receiving element 17, the diameter of described in this embodiment joint 22 is greater than the diameter of the joint shown in the previous embodiment, and can disassemble from receiving element 17 by means of threaded connection, prevent part 33 and on joint 22, removably be provided with a reverse flow that is used to prevent the reverse flow of solvent.

Described reverse flow prevent part 33 comprise one be threaded into joint 22 and pipe fitting 34, being used on described pipe fitting 34 closed on the front end circulate solvent a plurality of perforation 35 and be assembled in the periphery of described pipe fitting 35 and under the solvent pressure effect, expand and distortion to allow a pipe fitting 36 of solvent circulation, wherein, when solvent pressure is removed, hole 35 prevents reverse flow thus owing to the contraction that the material restoring force of described pipe fitting 36 is produced is closed.

In this embodiment, the bottom of described rubber tube 15 is connected to the inside of joint 22 and is communicated with.

By this way, be arranged on the solvent path between the bottom of guide bracket 21 and rubber tube 15, just can stop the reverse flow of solvent safely because reverse flow prevents part 33.

In the embodiment of Fig. 9, other part also has and in the foregoing embodiments same effect and effect, and with identical parts in the aforementioned figures be to represent in Fig. 9 with same label, thereby omitted detailed explanation to them.

Corresponding section between the composition of the present invention and aforesaid embodiment is:

Air Conditioning admission line of the present invention is corresponding to 11 the pipeline from air inlet 1,2 to evaporator in described embodiment, and after this similarly has:

Described H Exch is corresponding to described evaporator 11; Described ejection of solvent device is corresponding to described nozzle 13; Described solvent infeeds pipeline corresponding to described rubber tube 15; Described solvent source is corresponding to the described container A that is filled; Described receiving device is corresponding to described receiving element 17; The anti-locking apparatus of described reverse flow prevents part 33 corresponding to described check valve 32 or reverse flow; And described closing appliance is corresponding to described jut 24, yet it must be noted that the present invention is not restricted to illustrated embodiment.

For example, in Fig. 1 to Fig. 7, evaporator 11 is arranged on the next stage of fan in air conditioner for vehicles, but be arranged in the air conditioner for vehicles of this form on the next stage of evaporator at fan, nozzle 13 can be set on the upstream side of evaporator, so as not with the rotary motion trace interference of described inner/outer air switching door.

In these embodiments, only used one group by member 13 to 15 and 17 component parts of being formed, but can adopt the component parts of many groups, described nozzle 13 can be arranged on the different position of upstream side of the upstream side of evaporator 11 and fan, and can use

member

15 and 17 independently for each solvent.

And described solvent infeeds pipeline can be without rubber tube 15 but pitch tube or metallic conduit, and the structure of nozzle 13 also is not restricted to illustrated embodiment.

Claims

1. auxiliary device that is used for air conditioner for vehicles, it is to be used for sucking extraneous air or inner air from an Air Conditioning admission line in an air conditioner for vehicles, it comprises:

Be arranged on the solvent that at least one flow of solvent jetting system on the upstream side of a H Exch in the Air Conditioning admission line and is used for solvent is fed to described flow of solvent jetting system and infeed pipeline; It is characterized in that:

Separate with a solvent source, must the time be used to receive the bottom that infeeds pipeline from the receiving device of the solvent of solvent source and described solvent and be connected and be communicated with, and

Described receiving device is on the specific plate that is fixed in the vehicle.

2. the auxiliary device that is used for air conditioner for vehicles as claimed in claim 1 is characterized in that, is formed with a guide bracket that is used for the nozzle of location solvent source when infeeding solvent on described receiving device.

3. the auxiliary device that is used for air conditioner for vehicles as claimed in claim 2 is characterized in that, is formed with a taper on described guide bracket, and its diameter on the outside is bigger, and the diameter on the inboard is less.

4. the auxiliary device that is used for air conditioner for vehicles as claimed in claim 2 is characterized in that, the anti-locking apparatus of the reverse flow of solvent is arranged on described guide bracket and described solvent infeeds between the bottom of pipeline.

5. the auxiliary device that is used for air conditioner for vehicles as claimed in claim 2, it is characterized in that, described receiving device has a port lid spare that is used for covering at least described guiding device, and is formed for sealing the closing appliance of the solvent path of described guide bracket in the inside of described port lid spare.