DE19631795C2 - Whirlpool system with an air supply device to the whirlpool nozzle - Google Patents

Description

The invention relates to a whirlpool system with a Air supply device to the whirl pool nozzle.

From the documents DE 39 28 464 A1, DE 34 20 714 A1 and G 84 16 982.6 a device is known for using whirlpool systems Water, through a complex electrical and electronic control, which requires several electro valves to clean. The Whirl pool nozzles based on the Venturi or water jet pump principle work, are provided with a supply air pipe system. That under pressure inflowing water automatically carries the air with it Form air / water jet as long as the water is under pressure through the Whirlpool jets are flowing. At the time of the whirlpool with water is filled, but the whirlpool jets are not in operation, this increases Water, according to the natural law of communicating tubes, also in the supply air pipes, up to the same height of the whirlpool bath filling, there the whirlpool jets expediently far below the Whirlpool tub filling are attached. The pressure water pump has due to the design, a suction connection and a pressure connection. The The pump housing of the pressurized water pump is usually arranged that the pump housing never runs completely empty. From the above Writings is a device known at the lowest point of the pump housing a drain connection is provided, which during operation of the Whirlpools, is closed by an electromagnetic valve.

In US 5 079 784 A a whirlpool system is described in which the Air is supplied via nozzles at the nozzles, but the nozzles are not are connected to a piping system. However, none Information about the type or mode of operation of valves made.

From US 3,672,359 a whirlpool system is known which without a separate system of pipelines for the air supply needs that would run full of water when the pressure was switched off. Briefly  However, water that has entered is not necessarily completely removed from the Pipe lugs removed.

DE 36 36 328 A1 is an example of a drain valve described.

The disadvantages of whirlpool systems with electronically controlled valves are as follows:
The supply air pipe system of the whirlpool jets is contaminated by the water in the whirlpool bath filling. It is cleaned by water which flows through the supply air pipe system the next time the spa is used again. This cleaning option is controlled with appropriate solenoid valves. The dirt is then mostly dry and can only be hygienically cleaned with disinfectants. The control is complex and requires maintenance. The electromagnetic valves must be electrically insulated from the whirlpool bath water in order to exclude electrical currents and thus endanger the whirlpool users. Another disadvantage is that the water that is in the supply air pipes when the pressurized water pump is started up must first be sucked out of the supply air pipe system according to the Venturi principle. The result is that the air / water jet that is actually required is delayed.

The invention is based on the object of a whirlpool bath system develop, which automatically ensures a residual water drainage, as well as being perfect on the unsanitary supply air pipe system can do without.

The device according to the invention achieves the task as follows:
Since whirl pool nozzles work according to the water jet pump principle, it is possible to generate a high vacuum with them. This is, according to claim 1, used according to the invention that the supply air pipe system is completely eliminated and replaced by a mechanically independent check valve for each whirlpool nozzle. This check valve allows the supply air required for the air / water jet to flow automatically when the pressurized water pump pumps water through the whirl pool nozzles. During the time when the whirlpool jets are not working, the polluted water flows towards the check valves, but not through the check valves to the outside. The advantage of the invention is that the supply air pipe system can be completely eliminated for this reason. Another advantage of the device according to the invention is that if the air / water jet cannot flow freely at its outlet opening, water is prevented from escaping through the check valves. The hygienic advantage is that no pipes are installed in the entire whirlpool system that are contaminated by standing water. Another advantage of the invention is that the air / water jet starts immediately when the pressurized water pump is started up. The residual water emptying of the pressure water pump is, according to claim 2, solved according to the invention in that a quantity-dependent flow preventer is connected to the lowest point of the pump housing. This opens into the suction pipe of the pressure water pump. The suction pipe of the pressurized water pump empties itself because it is arranged with a corresponding slope between the pressurized water pump and the whirlpool bath drain and the whirlpool bath lock, when the whirlpool system is emptied. If the pressurized water pump is working in the operation of the whirlpool system, then the same water pressure is at the pressure connection as on the pressurized water connection of the quantity-dependent flow preventer, which immediately prevents the pressure water from flowing through, since the quantity of pressurized water flowing through immediately closes the quantity-dependent flow preventer. The quantity-dependent flow preventer opens again as soon as the pressure water pump stops working. The now pressureless water can flow out of the pressurized water pump.

An embodiment of the device according to the invention is in the Drawing shown and is described in more detail below.

Show it

Fig. 1 side view of a whirlpool system,

Fig. 2 is a longitudinal section through Whirlpooldüse,

Fig. 3a longitudinal section through an open dose-dependent Durchflußverhinderer,

Fig. 3b longitudinal section through a closed quantity-dependent flow preventer.

In Fig. 1 is seen an embodiment of the device according to the invention, from the whirlpool bathtub body 6, the whirlpool jets 8 are arranged consisting of the water underneath the spa shell mirror 7. The suction connection 5 of the pressure water pump 3 is connected to the whirlpool bath outlet 9 . The drain connection 11 is provided at the lowest point of the pressure water pump 3 . The quantity-dependent flow preventer 2 is arranged with a slope towards the whirlpool bath closure 10 at the drain connection 11 . The pressure water pipe 12 is arranged with a slope in the direction of the pressure connection 4 of the pressure water pump 3 . At the end of the pressurized water pipes 12 are the whirl pool nozzles 8 , which are arranged in the whirlpool tub wall 20 . A check valve 1 is arranged on each whirl pool nozzle 8 .

Fig. 2 shows the whirlpool nozzle 8 which is connected to the pressurized water pipes 12 . The water flows through the nozzle 19 and entrains the necessary supply air at the outlet opening 13 , which flows through the check valve housing 14 . The supply air presses the sealing plate 16 in the direction of the spring 15 and thus allows the necessary supply air to flow in through the air inlet opening 17 . The air / water jet thus formed then enters the whirlpool tub through the air / water jet outlet opening 18 .

Fig. 3a shows the volume-dependent flow preventer 2 consisting of the housing 21 in which a sealing plate 22 is arranged so that the water can flow from the pressurized water connection 24 around the sealing plate 22 and through the spring 23 to the whirlpool bath closure 10 . If the water now flows too quickly, the sealing plate 22 closes, against the spring pressure of the spring 23 as shown in FIG. 3b, and the flow of water is immediately prevented. After relieving the sealing washer 22 , the spring 23 opens the quantity-dependent flow preventer 2 again and the state which has now occurred again corresponds to that from FIG. 3a.

Claims (2)

1. whirlpool systems with an air supply device to the whirl pool nozzle, characterized in that a non-return valve ( 1 ) is arranged on the whirl pool nozzle ( 8 ), which opens when water flows through the whirl pool nozzle ( 8 ) and feeds the ambient air directly to the water. 2. whirlpool system according to claim 1, characterized in that a quantity-dependent flow preventer ( 2 ) is provided at the emptying connection ( 11 ) for emptying the residual water of the water supply lines.