RU210970U1 - VENTILATION UNIT - Google Patents

Abstract

The utility model relates to ventilation, in particular to autonomous ventilation units with forced air circulation, namely to ventilation devices with separated heater stages, and can be used for ventilation and air conditioning at semi-industrial and domestic facilities by means of supply and exhaust ventilation of small rooms with limited mounting/dismantling space. The technical result of the claimed utility model is to increase the ease of maintenance of the unit, which consists in optimizing the possibility of mounting/dismantling in a limited space of the main block components of the device. The specified technical result is achieved due to the fact that the ventilation unit consists of a housing with a lid, equipped with technical means for air ventilation, the said technical means are made in the form of block elements, each of which is connected to the housing by means of a quick-disconnectable electrical connector with a cut-in joint, with one part electrical connector is located inside the housing, and the second - on the said block element. 4 w.p. f-ly, 3 ill.

Description

The utility model relates to ventilation, in particular to autonomous ventilation units with forced air circulation, namely to ventilation devices with separated heater stages, and can be used for ventilation and air conditioning at semi-industrial and domestic facilities by means of supply and exhaust ventilation of small rooms with limited mounting/dismantling space.

A supply and exhaust unit with a plate recuperative heat exchanger is known from the state of the art (Patent RU 2538516 C1, 01/10/2015, F24F7/06, F24F7/08), having inlet and outlet openings for supply air, inlet and outlet openings for exhaust air to the respective zones of the extract air inlet to the unit and the outlet of the extract air from the unit, the filter element of the inlet supply air, the heating element of the outgoing supply air, the heating element for extract air, the condensate drain pan from the plate heat exchanger, bypass valve connected to the control unit, supply air and exhaust fans, moreover, the bypass valve is located between the exhaust air outlet zone from the unit and the exhaust air inlet zone into the unit with the possibility of exhaust air circulation through the plate recuperative heat exchanger in a closed circuit with the bypass valve open in mode having defrosting of a plate recuperative heat exchanger, moreover, the control unit is connected to the supply fan with the possibility of its shutdown in the specified mode.

The prior art also known method of operation of the supply and exhaust ventilation unit (Patent RU 2652539 C2, 04/13/2016, F24F7 / 00), which consists of a housing, one supply and one exhaust fan, a damper with an electric drive and a control unit, while in the housing there are supply and exhaust ducts for supply air and exhaust air to the respective zones of air inlet to the unit and air outlet from the unit, moreover, with the help of sensors distributed over the inner surface of the unit and the control unit, they control and/or operate the unit, while the unit is running in the "supply" mode and the "exhaust" mode; in the “supply” mode, air is supplied using the supply fan, when the exhaust fan is turned off and the exhaust duct is blocked by a damper, and in the “exhaust” mode, the supply fan is turned off, the supply duct is blocked by a damper and air is extracted using the exhaust fan, while level control parameter in the room, set by the control unit, is carried out using a sensor when the unit is operating in the “exhaust” mode, and the device is switched from the “exhaust” mode to the “supply” mode automatically when the parameter level drops below that set by the control unit.

The closest technical solution is the control device for the supply ventilation unit (Patent RU 154824 U1, 09/10/2015, F24F7/00), which includes a housing in which the electric speed switch of the fan of the supply ventilation unit is located, moreover, the device additionally contains a fan connected to the speed switch fan, a switching unit with an air conditioner adapted to receive a signal from an air speed sensor in the air conditioner duct.

The main disadvantage of the above technical solutions is the inconvenience of servicing ventilation devices during installation/dismantling of the main elements of the block components of these installations.

The technical result of the claimed utility model is to increase the ease of maintenance of the unit, which consists in optimizing the possibility of mounting/dismantling in a limited space of the main block components of the device.

The specified technical result is achieved due to the fact that the ventilation unit consists of a housing with a lid, equipped with technical means for air ventilation, the said technical means are made in the form of block elements, each of which is connected to the housing by means of a quick-disjoint electrical connector with a cut joint, with one part the electrical connector is located inside the housing, and the second on the mentioned block element.

Block elements can be fixed to the internal parts of the housing by means of quick-release fasteners and/or equipped with locks and/or latches. Moreover, block elements may contain at least one fan unit, at least one ventilation flow control unit, at least one control unit, and at least one power supply unit. At the same time, the ventilation flow adjustment unit can be made with at least one damper, at least one built-in controller, at least one damper rotation drive, at least one solid-state relay, and at least at least with one heating element. In addition, the fan assembly may include at least one fan and at least one fan speed controller.

Said block elements are connected to the housing by means of a quick-disconnectable electrical connector with a cut-in joint, wherein one part of the electrical connector is an electrical connector socket and is located inside the housing on the housing itself, and the second part, the plug of the electrical connector joint, is located on the said block element.

The sockets of the joint of the electrical connector are connected to a terminal box removed from the housing, to which power is supplied. The wires from the sockets of the junction of the electrical connector lie inside the "sandwich" type case, which is a two-layer metal box with heat and noise insulating material inside, the connection can lie at the bottom of the device case.

The essence of the utility model is illustrated by drawings, which show a particular case of the proposed ventilation unit:

in fig. 1 shows a basic modular block diagram of the ventilation unit; in fig. 2 - a socket of a twenty-four-pin female joint of an electrical connector; on figure 3 - a plug of a twenty-four-pin socket joint of an electrical connector, where:

1 - body;

2 - block elements of the device;

3 - fork of the articulation of the electrical connector;

4 - socket of the articulation of the electrical connector;

5 - fan unit;

6 - block for adjusting the ventilation flow;

7 - control unit;

8 - power supply.

A special case of the implementation of the ventilation unit can be made as follows: the ventilation unit consists of a housing 1 with a lid or a door, equipped with technical means for air ventilation, and the said technical means are made in the form of block elements 2, each of which is connected to the housing 1 by means of a quick-disconnectable electrical connector with a cut-in joint, while one part of the electrical connector - the socket of the joint of the electrical connector 4 is located inside the housing 1, and the second - the plug of the joint of the electrical connector 3 on the mentioned block element 2. The block elements 2 can be fixed to the internal parts of the housing 1 by means of quick-release fasteners and /or equipped with locks and/or latches (not shown in the figures). Moreover, block elements 2 may contain at least one fan unit 5, at least one ventilation flow control unit 6, at least one control unit 7, and at least one power supply unit 8. In this case, the unit adjustment of the ventilation flow 6 can be performed with at least one damper, at least one built-in controller, at least one damper rotation drive, at least one solid state relay, and at least one with one heating element (not shown in the figures). In addition, the fan unit 5 may contain at least one fan and at least one speed controller (not shown in the figures).

The ventilation unit is used as follows: if it is necessary to quickly replace the technical means of air ventilation, made in the form of block elements 2 of the device, first turn off the device and open the cover or door of the housing 1. Then, disconnect it from the housing 1 by disconnecting the plugs 3 from the sockets 4 quick disconnect electrical connectors one or more block elements 2 to be replaced or serviced: fan block 5, and/or ventilation flow adjustment block 6, and/or control unit 7, and/or power supply 8. After that, these block elements 2 are removed from the housing 1 , new block elements 2 are installed in their place by connecting the plug of the articulation of the electrical connector 3 on the block element 2 with the socket of the articulation of the electrical connector 4 in the housing 1, then the block element 3 can be additionally fixed in the housing by means of quick-release fasteners, which can be additionally equipped with locks and/or latches. After that, close the lid or door of the housing 1 and turn on the device again.

The specified technical result is achieved due to the implementation in the design of the ventilation unit of block elements connected by means of quick-disconnectable electrical connectors with a cut joint of parts mounted on the device body and on block elements, which allows you to quickly connect or disconnect these block elements. Thus, the ease of maintenance of the unit is increased with the optimal possibility of quick installation / dismantling of the main block components of the device as a whole without the use of lock connectors and cables.

Technical solutions coinciding with the totality of the essential features of the claimed utility model have not been identified, which allows us to conclude that the claimed utility model complies with such a patentability condition as "novelty".

Claims (5)

1. Ventilation unit, consisting of a housing with a lid, equipped with technical means for air ventilation, characterized in that the said technical means are made in the form of block elements, each of which is connected to the housing by means of a quick-disjoint electrical connector with a female joint, while one part of the electrical connector is located inside the body, and the second - on the mentioned block element. 2. The ventilation unit according to claim 1, characterized in that the block elements are fixed to the internal parts of the housing by means of quick-release fasteners and/or are equipped with locks and/or latches. 3. The ventilation unit according to claim 1, characterized in that the block elements contain at least one fan unit, at least one ventilation flow adjustment unit, at least one control unit, and at least one power unit. 4. The ventilation unit according to claim 3, characterized in that the ventilation flow adjustment unit is made with at least one damper, at least one built-in controller, at least one damper rotation drive, at least with one solid state relay, and at least one heating element. 5. The ventilation unit according to claim 3, characterized in that the fan unit comprises at least one fan and at least one fan speed controller.

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