WO2007042154A1

WO2007042154A1 - High-pressure cleaning unit

Info

Publication number: WO2007042154A1
Application number: PCT/EP2006/009440
Authority: WO
Inventors: Gabriele Bonezzi
Original assignee: Alfred Kärcher Gmbh & Co. Kg
Priority date: 2005-10-11
Filing date: 2006-09-28
Publication date: 2007-04-19
Also published as: DE102005050009B4; DE102005050009A1

Abstract

The invention relates to a high-pressure cleaning unit having a drive unit and a swash-plate pump which has a swash-plate chamber having a swash plate and pistons which bear against the latter, and to a pump head having a pump space, into which the pistons dip and which is flow-connected via an upstroke pump and a suction line to a suction inlet and via a pressure valve and a pressure line to a pressure outlet. In order to develop the high-pressure cleaning unit in such a way that it can be manufactured more cost-effectively, it is proposed according to the invention that the pump head has an outer housing and an inner housing, the outer housing being manufactured from metal and having flow channels for forming the suction and pressure lines, and the inner housing consisting of plastic and being injection-moulded into the flow channels of the outer housing and lining the latter.

Description

High-pressure cleaner

The invention relates to a high-pressure cleaning device with a drive motor and a swash plate pump having a swash plate chamber with a swash plate and adjoining piston and a pump penknff with a pump chamber into which the plungers and immersed via a suction valve and a suction line with a suction inlet and is in fluid communication with a pressure outlet via a pressure valve and a pressure line.

By means of such high-pressure cleaning devices, a cleaning liquid, usually water, can be placed under a pressure of more than 100 bar. The cleaning liquid may be supplied to the high-pressure cleaner via the suction inlet, and the pressurized cleaning liquid is discharged through the pressure outlet. At the pressure outlet, an output line, such as a high-pressure hose can be connected, which carries at its free end a spray nozzle, so that the pressurized cleaning liquid can be directed to an object to be cleaned.

The high-pressure cleaning device has a swash plate which is driven in rotation by the drive motor and abut against the plurality of pistons, which are moved by the swash plate parallel to the longitudinal axis of the swash plate pump back and forth and submerge in the pump chamber, so that cleaning liquid from the suction via the suction valve in sucked in the pump chamber and then discharged via the pressure valve under high pressure in the pressure line. The pump head is subject to high pressure Pressure of the cleaning fluid of a strong mechanical stress, which he must have a high dimensional accuracy in order to ensure proper functioning, in particular of the suction and the pressure valve. The high dimensional accuracy required for the pumphead usually requires a costly manufacturing process. The pump head may for example consist of a cast metal with dimensionally molded flow lines.

Object of the present invention is to develop a high-pressure cleaning device of the type mentioned in such a way that it can be produced more cheaply.

This object is achieved in a high-pressure cleaner of the generic type according to the invention that the pump head has an outer housing and an inner housing, wherein the outer housing is made of metal and flow channels for forming the suction and the pressure line and wherein the inner housing consists of plastic and in the flow channels of the outer housing is injected and these lined.

It has surprisingly been found that the pump head can be produced more cheaply by providing an existing metal outer housing, which already has flow channels, but these still do not have to have the required for the function of the swash plate pump high dimensional accuracy. The dimensional accuracy is ensured by injecting into the flow channels of the outer casing a plastic material which lines the flow channels. The outer casing forms part of the injection mold for injecting the plastic material, and the injected plastic material becomes the high dimensional accuracy the pump head ensured. The inner housing forms the relevant for the function of the swash plate pump forming part, for example, can already form the valve seat for the suction and / or pressure valve and may also have stops for conditioning of other pump parts, such as an exhaust valve or an injector for supplying a cleaning chemical that can be used for example in the pressure line and abut the corresponding stops of the inner housing. Despite the relatively complicated construction of the pump head of the swash plate pump, the outer housing can be inexpensively made of metal. The outer housing provides the structure of the pump head, whereby it can be manufactured with relatively large dimensional tolerances, so that cost-effective manufacturing processes can be used. The inner housing made of plastic material is injected into the outer housing, wherein a high dimensional accuracy can be achieved inexpensively by means of the injection molding process. The required due to the high pressures mechanical load capacity of the pump head is ensured by the metallic outer housing and the high dimensional accuracy is ensured by the existing plastic plastic inner housing.

It is advantageous if the pump head has a swashplate chamber facing rear head portion on which a swash plate chamber facing away from the front head part is fixed, wherein the two head parts each having a flow channels exhibiting outer metal housing and an injected into the flow channels and this lining inner housing made of plastic exhibit. Both the outer housing and the inner housing of the two head parts can each be made in one piece from a uniform material, in particular, the inner housing can be formed as one-piece plastic moldings. The two head parts are preferably releasably connectable to each other, in particular they can be screwed together. It is advantageous if the inner housing of the rear and front head part intermesh positively, because the positive connection simplifies the positioning of the front head part at the rear head part during assembly of the pump head.

It can be provided, for example, that one of the two inner housing forms a trough-like receptacle, in which a collar-like projection of the other inner housing is preferably immersed with the interposition of a sealing element. The sealing element used is preferably a sealing ring, in particular an O-ring. The trough-like receptacle can be formed, for example, from the inner housing of the front head portion, preferably from the receptacle, a pressure outlet facing front portion of the pressure line extends, which extends to the pressure outlet and wherein in the receptacle facing collar preferably from the pump space outgoing rear portion of the Discharge line opens. The two pressure line sections can be connected in a simple manner flow-tight during installation of the pump head by inserting the collar into the trough-like receptacle.

The rear head part preferably has suction and pressure valves, wherein the inner housing of the rear head part forms at least one valve seat for a suction and / or pressure valve. For proper operation of the suction or pressure valve whose valve seat must be made with very high dimensional accuracy. This can, as explained above, in a simple manner by injection zen of the inner housing in the metal-made outer housing of the rear head part can be ensured.

It is advantageous if the front head part has a bypass valve which opens and closes a bypass line which connects the pressure line to the suction line and is molded into the inner housing of the front head part as a function of the pressure in the pressure line. The bypass valve forms a safety valve, which releases a direct connection to the suction line when an overpressure in the pressure line occurs. It may be provided, for example, that a spray nozzle used for the high-pressure cleaning device can be closed by the user during operation of the swash plate pump. It then builds up pressure in the pressure line, due to which the bypass valve opens and releases the connection from the pressure line to the suction line, so that the swash plate pump continuously transfers cleaning fluid from the suction line via the pumping space into the pressure line, from which the cleaning fluid returns to the suction line is returned. The flow connection between the pressure line and the suction line can be produced in a structurally simple manner, that a bypass line is formed in the inner housing of the front head part. It is advantageous in this case if the bypass line gradually widens starting from the pressure line, because this gives the possibility to use in the suction line facing end portion of the bypass line a fitting of the prefabricated bypass valve, in particular to press. In such an embodiment, the bypass valve can be immersed in the suction line and mounted in a simple manner during assembly of the pump head via the suction inlet. To enhance the cleaning effect, it is advantageous if the cleaning liquid can be mixed with a cleaning chemical, such as a soap solution. For this purpose, the front head portion of a preferred embodiment of the high-pressure cleaner according to the invention on a chemical connection, which is connected via a connecting line with an arranged in the pressure line injector, wherein the outer housing of the front head portion has a flow channel for forming the connecting line, which is lined from the inner housing of the front head part is. Injectors for admixing a cleaning chemical in the pressurized cleaning fluid are known per se to a person skilled in the art. They have a cross-sectional constriction and in the region of the cross-sectional constriction, a cleaning chemical supplied to the injector can be mixed via a transverse bore due to the Venturi effect occurring at the cross-sectional constriction. The feeding of the cleaning chemical is carried out according to the invention via the lined from the inner casing of the front head part connecting line, which ensures a flow connection between a chemical connection and the pressure line.

It is particularly advantageous if the drive motor of the high-pressure cleaning device can be switched on and off as a function of the pressure prevailing in the pressure line. For this purpose, it is advantageous if the outer housing of the front head part has a at least partially lined from the inner housing of the front head portion recess which receives a control member for pressure-dependent switching off the drive motor and which is connected via a control line to the pressure line, wherein the outer housing of the front head part a Control channel for forming the control line, which is lined by the inner housing of the front head part. The control member may be movably mounted in the recess, it may bei- For example, be formed in the form of a control piston which carries a switch plunger, which cooperates with a micro-switch. The control piston can be acted upon via the control line with the pressure prevailing in the pressure line pressure and move in response to this pressure, the switch plunger on the microswitch to or from this. This makes it possible to turn off the drive motor by means of the microswitch and the switch plunger as soon as the pressure prevailing in the pressure line increases above a maximum value. Conversely, the drive motor is switched on again as soon as the pressure in the pressure line drops below a predetermined minimum value. The control piston can be held displaceably in the recess. For this purpose, at least the area surrounding the control piston of the recess is lined by the inner housing of the front head part, so that the control piston with the interposition of a sealing element, preferably an O-ring, rests on the inner housing of the front head part flow-tight.

As already explained, the outer housing of the head part is made of metal. Preferably, it is designed as an aluminum die-cast part.

For the production of the inner housing of the head part preferably a polyamide material is used.

The supply of cleaning liquid to the suction inlet takes place in a preferred embodiment of the invention via a suction nozzle, which is connectable to the suction inlet and made of metal, tube-like outer part and an existing plastic, injected into the outer part and this lining inner part. The inner part can in this case pass through the metallic outer part. It is advantageous if the inner part of the suction nozzle is positively connected to the inner housing of the pump head.

Thus, for example, be provided that the inner part of the suction nozzle has a projecting over the outer part end piece, which dips with the interposition of a sealing element in the region of the suction inlet into the inner housing of the pump head. This allows a particularly simple installation of the suction at the suction inlet by the protruding over the outer part end piece is inserted in the region of the suction inlet into the inner casing of the pump head. In addition, a releasable connection, for example a screw connection, may be provided between the outer part of the suction nozzle and the outer housing of the pump head.

The pump head may also include a discharge nozzle, which is connectable to the pressure outlet and a metal-made, tube-like outer part and a plastic existing, injected into the outer part and this lining inner part.

According to the embodiment of the suction nozzle, it is also advantageous for the discharge nozzle when its inner part is positively connected to the inner housing of the pump head. For this purpose, it can be provided that the inner part of the pressure nozzle has a protruding over the outer part end piece, which dips with the interposition of a sealing element in the region of the pressure outlet in the inner housing of the pump head. The following description of a preferred embodiment of the invention serves in conjunction with the drawings for further explanation. Show it :

FIG. 1 shows a partial longitudinal section of a high-pressure cleaning device according to the invention; and

FIG. 2 shows a longitudinal section of a front head part of a pump head of the high-pressure cleaning device.

The high-pressure cleaning device is shown in the drawing by the reference numeral 10 and includes a known per se and therefore only partially shown in the drawing drive motor 12, the motor shaft 13 is rotatably connected to a swash plate 15. The swash plate 15 is disposed in a swash plate chamber 16 which is bounded by a motor flange 18 and an integrally projecting from this collar 19. On the collar 19, a piston guide 21 is mounted with a plurality of parallel to the longitudinal axis of the motor shaft 13 aligned guide sleeves, wherein in the drawing, only a guide sleeve 23 is shown. The guide sleeves 23 each take a parallel to the longitudinal direction of the motor shaft 13 back and forth displaceable piston 25 which bears with a rounded end face 26 frontally of the swash plate 15 and is biased by a compression spring 27 in the direction of the swash plate 15.

On the piston guide 21, a pump head 30 is mounted frontally, which forms in combination with the piston guide 21 and the swash plate 15, a swash plate pump 32 which is driven by the drive motor 12. The pump head 30 includes a rear of the swash plate 15 The head end 34 has a metallic outer die 37 formed as an aluminum die casting, and an inner case 38 made of a polyamide material and injected into the outer case 37 while being supported on the outer case 37 the swash plate 15 facing away from the front of the rear head portion 34 forms a projecting beyond the outer housing 37 collar 39.

The outer housing 37 defines a pumping space 41 and a first suction line section 42, which opens into the pumping space 41, and a first pressure line section 43, which starts from the pumping space 41. Both the pumping space 41 and the first suction line section 42 and the first pressure line section 43 are lined by the inner housing 38 of the rear head portion 34, wherein the inner housing 38, the shaping part for the pump chamber 41, the first Saugleitungsabschnitt 42 and the first pressure line section 43 by ensures the dimensional accuracy of these parts. The inner housing 38 forms in the region of the first Saugleitungsabschnittes 42 a valve seat 47 for a suction valve 46, and in the region of the first pressure line section 43, the inner housing 38 forms a valve seat 48 for a pressure valve 49.

The front head part 35 also comprises an outer housing 51 made of metal in the form of an aluminum die-cast part and an inner housing 52 made of plastic, namely a polyamide material and injected into the outer housing 51. In the outer housing 51, a first flow channel 54, which forms a second Saugleitungsabschnitt 55, and a second flow channel 57, which forms a second pressure line section 58, formed. In addition, in the outer housing 51 is a cross-sectionally substantially U-shaped and in the free end face 60 of the pump. Penkopfes 30 opening recess 61 is formed, which is connected via a third flow channel 64 and a control channel 65 to the second pressure line section 58. Further, in the outer housing 51, a passage 67 is formed, which connects the recess 61 with the rear head portion 34 facing the rear side 68 of the front head portion 35.

The inner housing 52 lines the flow channels 54, 57 and 64 as well as the control channel 65 and extending from the passage 67 to the height of the third flow channel 64 portion of the recess 61. The lined from the inner housing 52 third flow channel 64 forms a connecting line 70 and the lined from the inner housing 52 control channel 65 forms a control line 71, which connect the recess 61 with the pressure line section 58.

The front head part 35 is placed on the rear head part 34, and by means not shown in the drawing connecting screws, the two head parts 34, 35 releasably connected to each other. The projecting from the outer housing 37 of the rear head portion 34 collar 39 dips here in a formed by the inner housing 52 trough-shaped receptacle 73 with the interposition of a collar 39 circumferentially surrounding the sealing ring 74. Starting from the trough-shaped receptacle 73, the second pressure line section 58 extends to a Pressure outlet 76 to which a not shown in the drawing discharge nozzle or an output line, such as a high pressure hose can be connected. In the trough-shaped receptacle 73 opens the second suction line 55, which emanates from a suction inlet 78 of the pump head 30. The inner housing 52 defines the trough-shaped receptacle 73 adjacent an intermediate wall 80 between the second pressure line section and the second Saugleitungsabschnitt 55. In the intermediate wall 80, a bypass line 81 is formed, which extends starting from the second pressure line section 58 stages. In the second suction line section 58 facing the end portion of the bypass line 81, a connecting piece 83 of a bypass valve 84 is pressed, which is disposed within the second Saugleitungsabschnitts 55 and 30 can be introduced through the suction inlet 78 during assembly of the pump head.

The second pressure line section 58 extends parallel to the longitudinal axis of the motor shaft 13, and at the level of obliquely to the longitudinal axis of the motor shaft 13 aligned connecting line 70, an injector 86 is inserted into the second pressure line section 58, through which the cross section of the second pressure line section 58 in the flow direction he cleaning liquid first is reduced and then expanded again. In the region of the greatest cross-sectional constriction, the injector 86 has a transverse bore 87, which is in flow communication via the connecting line 70 with a chemical connection 89 latched into the recess 61. The chemical connection 89 has a connection nipple 90, to which a supply line for a cleaning chemical, for example for a soap solution, can be connected.

Upstream of the injector 86, the second pressure line section 58 receives an outlet valve 92, the valve housing 93 of the rear side 68 protruding over the trough-shaped receptacle 73 protrudes and immersed in the collar 39 of the inner housing 38 of the rear head portion 34. In the recess 61, a control member is slidably held in the form of a control piston 95, to which a switching plunger 96 is formed, which passes through the passage 67 with its free end portion for actuating a known per se and therefore not shown in the drawing microswitch, with the help the drive motor 12 can be switched on and off as a function of the pressure prevailing in the second pressure line section 58 in the usual way.

The pump head 30 also includes a suction port 100 having a tubular outer part 101 made of metal and an injected into the outer part 101 inner part 102 which protrudes with an end portion 103 via the outer part 101 and immersed in the suction inlet 78. Between the inner part 102 of the suction nozzle 100 and the inner housing 52 of the front head part 35 thus there is a positive connection. In addition, the metallic outer part 101 of the suction nozzle 100 is detachably connected via connecting screws 104 with the metallic outer housing 51 of the front head part 35.

For operation of the high-pressure cleaner 10, the pistons 25 are driven by the swash plate 15 to reciprocate, during a suction stroke via the first Saugleitungsabschnitt 52 and the second Saugleitungsabschnitt 55 suction cleaning liquid from the suction inlet 58 and during a pressure stroke, the pressurized cleaning liquid via the first pressure line section 53 and the second pressure line section 58 to the pressure outlet 76. If, during operation of the high-pressure cleaning device 10, the user discontinues the discharge of cleaning liquid by closing a spray nozzle, the pressure within the second pressure line section 58 increases. This results in the control piston 58 being moved in the direction of the rear side 68 is shifted, so that the switching plunger 96 actuates the cooperating with this microswitch and consequently the drive motor 12 is turned off. On the other hand, due to the pressure increase, the bypass valve 84 opens, so that via the bypass line 81 an immediate flow connection between the second pressure line section 58 and the second suction line section 55 is released.

The pump head 30 of the high-pressure cleaning device 10 can be produced inexpensively. For this purpose, the outer housing 37 and 51 of the two head parts 34, 35 are inexpensively manufactured by die casting, where they already have the required for the function of the pump head 30 flow channels and recesses, which can be made with large dimensional tolerances. In the outer housing 37 and 51, the inner housing 38 and 52 are then injected, which form the shaping of the function of the pump head 30 parts and ensure the required high dimensional accuracy. For mounting the pump head 30 then the inner housing 38 and 52 can be positively connected to each other and the outer housing 37 and 51 can be screwed together by means not shown in the drawing connecting screws.

Claims

PATE CLAIMS

1. High-pressure cleaner with a drive motor and a swash plate pump having a swash plate chamber with a swash plate and adjoining this piston and a pump head with a pump chamber into which the plungers and the via a suction valve and a suction line with a suction inlet and a pressure valve and a pressure line is in fluid communication with a pressure outlet, characterized in that the pump head (30) has an outer housing (37, 51) and an inner housing (38, 52), wherein the outer housing (37, 51) is made of metal and flow channels to Forming the suction and the pressure line (42, 55, 43, 58), and wherein the inner housing (38, 52) consists of plastic and in the flow channels (42, 55, 43, 58) of the outer housing (37, 51) is injected and this lines.

2. High-pressure cleaning device according to claim 1, characterized in that the pump head (30) one of the swash plate (15) facing the rear head portion (34) on which a swash plate (15) facing away from the front head part (35) is fixed, the two Head parts (34, 35) each having a flow channels exhibiting outer housing (37, 51) made of metal and an injected into the flow channels and this lining inner housing (38, 52) made of plastic.

3. High-pressure cleaning device according to claim 2, characterized in that the inner housing (38, 52) of the rear and front head part (34, 35) engage in a form-fitting manner.

4. High-pressure cleaning device according to claim 3, characterized in that one of the two inner housing (52) forms a trough-like receptacle (73) into which a collar-like projection of the other inner housing (38) is immersed.

5. High-pressure cleaning device according to claim 2, 3 or 4, characterized in that the rear head part (34) has the suction and pressure valves (46, 49), wherein the inner housing (38) of the rear head part (34) at least one valve seat (47 , 48) for a suction or pressure valve (46, 49) is formed.

6. High-pressure cleaning device according to one of claims 2 to 5, characterized in that the front head part (35) has a bypass valve (84) having a pressure line (43, 58) with the suction line (42, 55) connecting and into the inner housing (52) of the front head part (35) formed by the bypass line (81) in response to the pressure in the pressure line (43, 58) opens and closes.

7. High-pressure cleaning device according to one of claims 2 to 6, characterized in that the front head part (35) has a chemical connection (89) via a connecting line (70) with a in the pressure line (43, 58) arranged injector (86). wherein the outer housing (51) of the front head part (35) has a flow channel (64) for forming the connecting line (70), from the inner housing (52) of the front head part (35) is lined.

8. High-pressure cleaning device according to one of claims 2 to 7, characterized in that the outer housing (51) of the front head part (35) at least partially from the inner housing (52) of the front head part (35) lined recess (61) having a control member (95) for pressure-dependent shutdown of the drive motor (12) receives and which is connected via a control line (71) to the pressure line (43, 58), wherein the outer housing (51) of the front head part (35) has a control channel (65) for training the control line (71), which is lined by the inner housing (52) of the front head part (35).

9. High-pressure cleaning device according to one of the preceding claims, characterized in that the outer housing (37, 51) of the pump head (30) is designed as an aluminum die casting.

10. High-pressure cleaning device according to one of the preceding claims, characterized in that the inner housing (38, 52) of the pump head (30) is made of a polyamide material.

11. High-pressure cleaning device according to one of the preceding claims, characterized in that the pump head (30) connectable to the suction inlet (78) suction nozzle (100) having a tubular outer part made of metal (101) and a plastic, in the outer part (101) injected and lining this inner part (102).

12. High-pressure cleaning device according to claim 11, characterized in that the inner part (102) of the suction nozzle (100) with the inner housing (38, 52) of the pump head (30) is positively connected.

13. High-pressure cleaning device according to claim 12, characterized in that the inner part (102) of the suction nozzle (100) via the outer part (102) projecting end piece (103) which in the region of the suction inlet (78) into the inner housing (38, 52 ) of the pump head (30) is immersed.