RU163367U1 - MIXING WEATHER CONTROL UNIT - Google Patents

Abstract

A weather control mixing unit comprising a circulation pump, an electronic control unit, temperature sensors, control valves with an actuator and auxiliary equipment, characterized in that all components of the unit are installed on the pipeline instead of the standard water-jet elevator on existing seats, while safety equipment is used as auxiliary equipment valve for increasing pressure in the heating system, safety sensor for protecting the pump from dry running and thermal break tra at the input and output of the mixing unit.

Description

The claimed utility model relates to installations intended for use as part of the circuits of heat supply systems, for example, the circuit of a heating system, process heat supply, etc.

It is well known that auxiliary equipment in the form of centrifugal (circulation) pumps and control valves (control valve) is available as a part of thermal units (see, for example, the meaning of the word “thermal point” in the Great Soviet Encyclopedia).

The placement of the components of heating units (circulation pumps) is associated with the allocation of separate, sometimes significant, areas for each of these components, as well as the need to attach equipment to the walls of the premises or to install metal structures in the form of a frame for equipment, which does not guarantee full access to it during repair and maintenance. At the same time, there are a number of difficulties that the construction and installation organization has to overcome during the installation of control and pumping equipment. So, often the difficulty lies in the correct selection of the required equipment, taking into account the hydraulic characteristics of the heat point, coordination of the type of equipment, organization of its delivery and installation, its adjustment, and carrying out this type of work requires significant time and material costs.

The disadvantages listed above are amplified many times if it becomes necessary to organize construction in remote and inaccessible areas, as a rule, which do not have developed infrastructure and / or are not able to provide the proper level of organization of construction and installation works.

Given these shortcomings, block heating units were developed and introduced, the use of which is possible when organizing heating systems for household and household objects from central heating networks. These items include CetePunkt series block heat points (see http://www.online-teplo.ru/tepl.htm). Also known is the equipment node of the heat supply circuit (utility model No. 98061, published September 27, 2010), adopted as a prototype. Known node consists of a circulation pump and auxiliary equipment. All components of the assembly are mounted on a supporting frame. The pump is located within the above frame. The section of the collector distributing the coolant is located on top of the supporting frame.

The well-known block heating units are fully factory-ready for connecting buildings to the heating network, and their disadvantages include the impossibility of installation without reconstruction and welding, insufficiently compact placement of the main equipment, which significantly increases the area required for installation of equipment.

The proposed utility model solves the problem of increasing the compactness of both the constituent units of a heat supply installation, and such installations as a whole, as well as increasing the versatility and mobility of such nodes.

That is, the installation of the proposed mixing unit for weather regulation occurs without reconstruction of the thermal unit as a whole, by changing the water-jet elevator to the proposed unit. Mounting (landing) places of the model correspond to the geometric dimensions of the water-jet elevator design VTI Mosenergo No. 1 ... 7. (www.rosteplo.ru/w/elevators)

The set result is achieved by the fact that in the mixing unit of weather regulation, consisting of at least one circulation pump, electronic control unit, temperature sensors, control valve with actuator and auxiliary equipment connected by piping, the connection dimensions of standard water-jet elevators are observed and to connect to existing heat points, reconstruction and welding are not required. As auxiliary equipment, a safety valve against pressure increase in the heating system, a sensor for protecting the pump from dry running and thermomanometers at the input and output from the mixing unit were used. A distinctive ability of the proposed mixing unit is its compactness, it does not require a support-bearing frame, a collector that distributes the coolant. All equipment is located on the pipeline.

The utility model is illustrated by a diagram (Fig. 1) and a general view image (Fig. 2)

The proposed mixing unit for weather regulation is the main component of the circulating systems for heating liquids used in heat supply. Structurally, it consists of a control valve 1, a circulation pump 2, an electronic control unit 3, temperature sensors 4 and a connecting pipe 5, which are its main components, and a set of auxiliary equipment: a safety valve against overpressure in the heating system, a safety sensor to protect the pump from dry running and thermomanometers at the input and output of the mixing unit (not shown). The technical characteristics of the elements can be different and are determined both by the operating conditions of the unit and the required amount of heat released, calculated on the basis of the heat consumption of the building, reduced to the loads and seats of water-jet elevators. In the diagram of FIG. 1 shows the connection to the existing pipelines of the heat unit (T-11 input from the heat network, T-21 return of the heat network, respectively T-1 and T-2 building heating system).

The main distinguishing feature of the weather control mixing unit is its compactness and mobility, due to the placement of the entire set of equipment within the mounting dimensions of a standard water-jet elevator. It should also be noted that any of the elements of the claimed utility model has convenient access during its operation (for the purpose of repair, prevention, maintenance, etc.).

Essentially, the claimed unit is a module that is completely ready for inclusion in the heat supply network and is fully debugged in accordance with the customer’s operational requirements, and its preparation for operation essentially only includes installation of existing flange joints instead of a standard water-jet elevator, as well as connection to control systems and power supply.

Such a mobile design, coupled with the overall compactness of the placement of technological equipment, can significantly reduce the requirements for the size of the areas allocated to heat points.

Among the advantages of the compact design of the unit should also include the fact that during its operation the presence of service personnel in the spaces between the after-sales service is excluded, which, in turn, ensures an increase in the level of labor safety. Access to the equipment during operation is carried out from any convenient for service side, which allows for the possibility of repair work and scheduled maintenance work.

The claimed mixing unit can be used as a part of almost any heat point, both put into operation and newly mounted, while ensuring the supply of a coolant with the required heat supply parameters.

Claims (1)

A weather control mixing unit comprising a circulation pump, an electronic control unit, temperature sensors, control valves with an actuator and auxiliary equipment, characterized in that all components of the unit are installed on the pipeline instead of the standard water-jet elevator on existing seats, while safety equipment is used as auxiliary equipment valve for increasing pressure in the heating system, safety sensor for protecting the pump from dry running and thermal break tra at the input and output of the mixing unit.

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