CZ15983U1 - Connection of bath-room heat-exchange apparatus - Google Patents

Description

(54) Utility model name:

Connection of bathroom exchanger

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CZ 15983 Ul

Connection of bathroom exchanger

Technical field

The technical solution concerns the connection of a bathroom heat exchanger, whose solution is used in the installation of shower or bath boxes placed in buildings inhabited by people, which creates savings in the consumption of hot water.

BACKGROUND OF THE INVENTION

At present, a number of solutions are known which are intended to generate hot water savings in the sanitary cleaning process represented by showering. Savings are achieved, for example, with shower nozzles with rotatable sliding filters that reduce the number of through holes and minimize flow holes. Given that the need to warm the human body with hot water can not achieve this way, because with less dispensing of hot water, the person usually shower longer, the methods of trapping heat from the waste water were solved.

The principle of taking part of the energy from the wastewater after shower is known from the Czechoslovak document Heat exchanger for the use of the heat of the used shower water according to the certificate CS 272297 of the German applicants. The thermal energy saving according to this solution consists in the solution of the shower floor grate as follows: during showering the heated water falls from the shower end onto the stepping grate, under which the flow coil is placed, through which the pressurized cold water flows. After the flow, the cold water is partially heated by the water from the shower, which, before being discharged into the drain, wets parts of the wave-shaped pipeline that continues into the shower mixer. Here, the heated water is mixed with the hot water so that the desired temperature is generated for the shower. Due to a certain warming-up of the cold water supplied by the hot water flow from the shower, some savings are achieved when mixing with hot water. This will reduce the consumption of hot water supplied to the mixer.

The disadvantage of said solution is that the dispersion of the hot water shower is not always directed so as to optimally heat the entire surface of the cold water snake. Therefore, there is also fluctuation in the heating of the cold pressurized water. Thus, the mixer mixer receives water of varying temperature, forcing the shower to fine-tune the optimum shower water temperature unless the shower is equipped with an automatic regulator. Also, when operating the shower nozzle, the flow exchanger is only washed in some parts, which reduces the efficiency of the solution.

The essence of the technical solution

These drawbacks are eliminated by the connection of the bathroom exchanger according to a utility model, which is based on the fact that the vessel of the bathroom exchanger is provided with a non-pressurized shower water inlet and a non-pressurized shower water outlet. Inside the tank of the bathroom exchanger is placed a corrugated pipeline of pressure heated water of the exchanger. The pressurized heated water line of the exchanger is shaped so that its length as large as possible with the largest possible surface is inserted into the space of the bathroom exchanger vessel while allowing non-pressurized shower water to flow while washing its surface.

Advantageously, the inlet of the non-pressurized shower water is connected to the drain pipe of the shower well. The bath exchanger container is inserted directly into the space under the shower sump for easy short connection. The heat exchanger pressure water line is connected by the inlet end to the cold water pressure line, the outlet end to the exchanger pressure water line. This is further interconnected by the inlet to the shower mixer. Pressure shower hot water inlet is also connected to the shower mixer. The shower mixer outlet is connected to a pressure mixed shower water pipe.

Said solution has a number of advantages over the prior art. The biggest advantage is that the transfer of heat from the wastewater after showering is maximally utilized, since all the shower volume

The hot water U1 must pass through the bathroom exchanger vessel and the surface of all the heat exchanger pressurized water piping in which the countercurrent cold pressurized water from the water supply system flows inside the pipes will be washed. This water has a temperature of 8 to 12 ° C. Through the passage in the container of the heat exchanger, heat is transferred and the cold water is heated from the hot waste water to a temperature of 21 to 25 ° C. Hot water used for showers has an average temperature of 37 to 40 ° C. The heat produced by increasing the heating of the newly supplied water by a temperature of 12 to 15 ° C is thus obtained. capacity. Another significant advantage is that the solution can be adapted to the already manufactured shower enclosures as well as to the bathtubs which are equipped with a shower. It is used under the shower or bath. It is only necessary to deal with the installation of pressure cold water inlet piping and outlet of the heat exchanger pressure water piping, which is connected to the shower mixer. The water outlet is easily adaptable to an embedded bathroom heat exchanger.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of a bathroom exchanger connection is shown in the accompanying drawings, in which Fig. 1 represents a schematic diagram of the connection of the individual pipes and the essential elements which are interconnected. Giant. 2 shows the application of one of the variants of the shower enclosure.

Example of technical solution

Example 1

The connection of the bathroom exchanger consists of a bathroom exchanger vessel 1, which is provided with an inlet 2 of non-pressure shower water and an outlet 3 of non-pressure shower water. Inside the vessel 1 of the heat exchanger there is a pipeline 5 of the pressure heated water of the heat exchanger. The inlet 2 of the non-pressurized shower water is connected to the drain pipe 12 of the shower well 11. The exchanger water line 5 is connected via the inlet end to the cold water line 4, the outlet end to the exchanger pressure water line 6, which is further interconnected 8. The inlet mixer 8 is connected to the inlet of the pressurized hot water pipe 7 and the outlet of the shower mixer 8 is connected to the pressurized mixed shower water pipe 9. It is provided with a shower end 10.

The connection of the bathroom exchanger is intended to utilize the heat that is drained by the waste water after shower into the sewer. This waste heat is captured by the connection of the bathroom exchanger, which is located in the gap below the shower tub or shower box, as shown in Fig. 2 of an exemplary embodiment. During the shower, the waste water is concentrated in the shower sump 11, from where it flows through the siphon into the space of the container I of the bathroom exchange35. Here, the hot water, which still has a relatively high temperature after taking a shower, bypasses the heat exchanger hot water line 5, transfers it to 12 to 15 ° C from its heat capacity and flows through the outlet on the opposite side of the 1. into the sewage system. Thus, the cold water supplied to the bathroom exchanger is heated and is fed through the exchanger pressure water line 6 to the shower mixer 8. Here, this hot water is mixed with the hot water. Thus, a starting shower water having a temperature of about 40 ° C is formed by adding a lower amount of hot water. This leads to substantial energy savings in the home.

Cleaning of the copper pipes placed in the container of the bathroom exchanger is almost unnecessary, as the use of shampoo and soap in the shower cleans the exchanger in parallel with its car. To maintain high efficiency of the heat exchanger but is nevertheless advisable once a '/ ₂ in pour a small amount of a concentrated solution of detergent powder into a shower waste sump where a state of intense dissolution impurities. It is also possible to use an ecological cleaner that cleans the organic coating on the exchanger pipes with the help of bacteria.

-2EN 15983 Ul

Example 2

The connection is the same as in Example 1, except that there is a difference in the location of the outlet 3 of the non-pressurized shower water. In Example 1 of Figures 1 and 2, the inlet 2 of the non-pressurized shower water is located in the vessel 1 of the bathroom exchanger from the left and the outlet 3 of the non-pressurized shower water is located on the right. In this second embodiment, the inlet 2 of the non-pressurized shower water is located in the container and the bathroom exchanger from the left, and the outlet 3 of the non-pressurized shower water is also located on the left. In order for this non-pressurized shower water outlet 3 to drain water that has passed the entire length of the vessel and the bathroom exchanger and thereby transfer its heat to the pressure exchanger hot water line 5, this non-pressurized shower water outlet 3 is provided with to the opposite right wall of the bathroom exchanger vessel 1 so that the non-pressurized shower water, which has flowed over the entire length of the vessel and the bathroom exchanger, flows through this auxiliary pipe to the non-pressurized shower water outlet 3 and then flows into the sewer. This variant of placing the inlet 2 and outlet 3 of the non-pressurized shower water from one side of the exchanger has the advantage of easier assembly, but also of checking the tightness of the joints of the vessel and the flue gas exchanger.

Industrial applicability

The solution is advantageous for use in small industrial production facilities by entrepreneurs in the mechanical engineering sector.

Claims (2)

PROTECTION REQUIREMENTS 20 1. Bathroom heat exchanger connection, characterized in that the bathroom heat exchanger vessel (1) is provided with a non-pressurized shower water inlet (2) and a non-pressurized shower water outlet (3), and a pipe (5) is arranged inside the bathroom exchanger vessel (1) pressure heated water exchanger. Connection according to claim 1, characterized in that the inlet (2) of a non-pressure shower 25 of the water is connected to the drain sump (12) of the shower sump (11) and the exchanger pressurized heated water line (5) is connected to the inlet end with the pressurized cold water line (4), with an exchanger pressurized water pipe (6), which is further connected to an inlet of the shower mixer (8) to which the inlet of a pressurized hot water pipe (7) is connected, and the outlet of the shower mixer (8) is connected to the pipe Pressurized mixed shower water.