RU170690U1 - Switchgear for automatic gas fire extinguishing installation - Google Patents

Abstract

The switchgear of an automatic gas fire extinguishing installation belongs to the field of fire fighting equipment, to automatic gas fire extinguishing installations. The switchgear of the automatic gas fire extinguishing installation contains an electromagnetic drive and a housing with axial inlet and outlet fittings that are connected to the main supplying gaseous fire extinguishing substances (GOTV) from the GOTV source, and the GOTV supply line to the protected room, respectively. In the housing, the flow part of which is made in the form of a pipe, a removable saddle and a locking element are placed at the inlet, blocking / opening the GOTV supply to the protected room. The locking element is a piston with a seal and a nozzle located above the flow part of the device. The clamping of the locking body to the seat in the initial state is provided by the spring. The connection of the cavity of the inlet fitting and the cavity above the piston is carried out by the bypass channel in the nozzle. The over-piston cavity at the outlet to the atmosphere is hermetically sealed with a nipple. The nipple is screwed into the holder with the starting device installed, which in turn also contains a housing with an electromagnet, a manual start lever with a sealed safety check against unauthorized activation. 1 ill.

Description

The inventive utility model relates to the field of fire fighting equipment, to automatic gas fire extinguishing installations.

At present, various automatic gas fire extinguishing systems are used in which gaseous extinguishing agents (GOTV) are used, for example, liquefied gases: HFC 23, HFC 125KH, 227ea HFC, hexafluor sulfur, etc., as well as compressed gases: nitrogen, gaseous argon, etc. .

The composition of each such installation includes various units, among which, on the output line, when protecting various rooms with one installation, to ensure the supply of GOTV in only one direction, i.e. only in the room where the fire hazard was created, special switchgears were installed in front of each protected room.

Various designs of switchgears for automatic gas fire extinguishing systems are known.

Known shut-off and start-up device for installation of carbon dioxide fire extinguishing according to the patent of the Russian Federation for the invention No. 2321438, A62C 37/38, F16K 31/00, 2006. The shut-off and start-up device contains a pneumatic cylinder with a piston and a rod connected to the valve of the switchgear connected to the main with the feed READY In the housing of the electromagnetic drive, a launch chamber is made, connected to the pneumatic cylinder using the bypass channel. The chamber is constantly in communication with the motive gas cylinder through the inlet channel. The bypass channel is equipped with an end-loaded spring-loaded locking element, the rod of which is connected to the armature of the electromagnet with the possibility of opening the bypass channel when moving the armature and gas bypass from the chamber to the pneumatic cylinder. In this case, the starting drive is equipped with a manual drive made in the form of a handle connected with a rod located inside the sleeve with longitudinal grooves made in it. A transverse pin is fixed in the rod, the protruding ends of which are located in the grooves of the sleeve with the possibility of relative movement of the sleeve and rod within the length of the grooves, and the opposite end of the sleeve is fastened to the rod of the locking member.

This device also has large weight and size characteristics due to the use of a stimulating launch cylinder with a system of pipelines and channels.

A distribution device for an automatic gas fire extinguishing installation according to the utility model patent No. 85828, A62C 37/38, F16K 31/05, 2009 is also known. The device comprises a supporting body in which a shut-off element is installed that shuts off / opens the GOTV supply to the protected room and is equipped with a pneumatic drive valve type, including a cylinder, a piston and a rod connected to a movable working element of the locking element. To start the pneumatic actuator there is an incentive source of compressed gas, made in the form of a pneumatic chamber, consisting of a cylinder with a bottom and a cover, located coaxially to the bearing body and rigidly connected to it. To start the pneumatic actuator, there is a main electromagnetic-type starting device, including a housing with an electromagnet placed on it and installed so that the axis of the armature of the electromagnet is located in a plane parallel to the axis of the pneumatic chamber. The cavity of the cylinder of the pneumatic chamber is connected to the working cavity above the piston of the pneumatic actuator through a normally closed first valve of the electromagnetic starting device, the stem of which is connected to the armature of the electromagnet. To switch on the switchgear in the event of a sudden power outage, there is a backup device for manually starting the pneumatic actuator, the handle of which is connected through the rod to the second normally closed valve of the electromagnetic starting device. To prevent failure of the switchgear during an unexpected pressure drop above the pneumatic actuator piston, a third normally open valve is installed between the electromagnetic starting device housing and the induction tube, and to prevent false switching of the switchgear when the first and second valves are leaking, a fourth normally open valve is installed on the case.

The device allows for reliable operation in emergency situations and the supply of GOTV from the automatic installation of gas fire extinguishing in the required direction, but has a complex structure, has large weight and size characteristics, therefore, has a high cost.

Known locking and starting device for automatic fire fighting installations according to the patent of the Russian Federation for the invention No. 2114661, A62C 37/38, 1997, which comprises a housing with pressure, deluge and induction chambers, a spring-loaded main locking organ having a cup shape, the end of which overlaps the deluge chamber, a two-way solenoid control valve that blocks the channels that connect the induction chamber to the pressure chamber and drainage, while the main locking element is equipped with open position locks, made and in the form of locking elements arranged in the main body of the blocking member and cooperating with the housing formed in the annular groove.

When the device is activated, the spring-loaded locking elements provide reliable fixation of the main locking element in the open state and the transfer of the device to its original state is impossible without partial disassembly of the locking and starting device.

A distribution device for an automatic gas fire extinguishing installation is also known according to the utility model patent No. 155307 A32C 37/00, 2015. A distribution device for an automatic gas fire extinguishing installation relates to the field of fire fighting equipment, to automatic gas fire extinguishing installations. The switchgear of the automatic gas fire extinguishing installation contains an electromagnetic drive and a housing with inlet and outlet fittings that are connected to the main supplying gaseous extinguishing substances (GOTV) from the GOTV source, and the GOTV supply line to the protected room, respectively. In the case, the flow part of which is made in the form of a square, a shut-off element is placed at the entrance, blocking / opening the supply of GOTV to the protected room. The locking body, which is a plate with a sealant, is connected through a rod to a pneumatic cylinder piston located above the flow part of the device. The clamping of the locking body to the seat in the initial state is provided by the spring. The cavity of the inlet fitting and the cavity above the piston are connected by a bypass channel, which at the entrance to the cavity above the piston is hermetically sealed by the spring-loaded armature of the electromagnetic drive. The electromagnetic drive also includes a housing with an electromagnet, a manual start lever with a safety check against unauthorized switching on, and a reset button.

The device has due to the housing in the form of a square a large intrinsic equivalent length, a complex structure, has large weight and size characteristics, therefore, has a high cost.

The task to which the claimed utility model is directed is to expand the arsenal of existing technical means of automatic gas fire extinguishing, simplify the design, reduce weight and size characteristics and cost, reduce the complexity of manufacturing and installation.

The task is achieved in that the switchgear of the automatic gas fire extinguishing installation contains an electromagnetic drive and a housing with axial inlet and outlet fittings that are connected to the main supplying gaseous fire extinguishing substances (GOTV) from the GOTV source, and the GOTV supply line to the protected room, respectively. In the housing, the flow part of which is made in the form of a pipe, a removable saddle and a locking element are placed at the inlet, blocking / opening the GOTV supply to the protected room. The locking body is a piston with a seal and a nozzle located above the flow part of the device. The clamping of the locking body to the seat in the initial state is provided by the spring. The connection of the cavity of the inlet fitting and the cavity above the piston is carried out by the bypass channel in the nozzle. The over-piston cavity at the outlet to the atmosphere is hermetically sealed with a nipple. The nipple is screwed into the holder on which the starting device is mounted. The starting device includes a case with an electromagnet, a manual start handle with a sealed safety check against unauthorized switching on. After operation, the starting device is returned with a special key to its original state.

The technical result provided by the given set of features is to simplify the design, significantly reduce the equivalent length, reduce the overall dimensions and cost of the switchgear of the automatic gas fire extinguishing installation while maintaining the reliability of the operation.

The drawing shows a General view of the inventive switchgear automatic installation of gas fire.

The proposed switchgear of an automatic gas fire extinguishing installation includes a housing 1 with axial inlet and outlet fittings 8, the flow part of which is made in the form of a pipe, at the entrance of which there is a removable seat 12, overlapped by a locking member, which is a piston 2 with a seal and a nozzle 3 located above flowing part of the device. The clamping of the locking member to the seat in the initial state is ensured by the spring 6. The cavity of the inlet fitting (13) and the cavity above the piston (14) are connected by the bypass channel in the nozzle 3 of the locking member. The supra-piston cavity (14) at the outlet to the atmosphere is sealed by a nipple 4. The nipple is screwed into the holder 11, on which the starting device is installed 7. The starting device includes a housing with an electromagnet, a manual start lever 9 with a sealed safety check 10 against unauthorized inclusion. After operation, the starting device is returned with a special key, for which the starting device must be removed from the holder.

The proposed switchgear automatic installation of gas fire in the initial state is closed. Tightness is achieved by tightly fitting the locking member to the end surface of the seat 3 due to the force of the spring 6, as well as due to the excessive pressure of the GOTV in the input cavity (13) of the switchgear. To open the switchgear, it is necessary to apply voltage to the starting device 7 for at least 1 second. In this case, the rod of the device extends and, clicking on the nipple, opens the exhaust channel in the housing 1. The pressure of the GOTV in the supra-piston cavity (14) drops sharply and the piston 2, due to the GOTV pressure at the inlet, overcomes the force of the spring 6 and moves the locking element, opening the flow part of the device . The switchgear will remain open while overpressure is applied to the inlet. The area of the hole in the nozzle 3 is much smaller than the area of the open hole in the nipple 4, which prevents the leakage of pressure into the piston cavity (14) and closes the device. To reduce the losses of GOTV into the atmosphere, the piston in the upper position abuts against the housing 1 and blocks the pressure supply to the nipple 4. On the housing of the starting device 7 there is a manual start handle 9 for forcibly opening the nipple 4 in the absence of a supply voltage. To force the switchgear to open, it is necessary to break the seal, pull out the safety pin 10 and turn the manual start handle 9 by 90 °. To return the switchgear to its original state, it is necessary to remove the input pressure, while the shut-off element under the influence of the spring 6 will return to the seat 12, return the handle 9 to its original position and fix it with a check 10, remove the starting device, and the nipple 4 will close the exhaust channel in the housing 1 , return the starting device 7 to its original state with a special key, while the rod will move inward and will not be able to open the nipple 4, install the starting device 7 on the holder 11.

Claims (1)

Switchgear of an automatic gas fire extinguishing installation, characterized in that it contains an electromagnetic drive and a housing with axial inlet and outlet fittings connected to a main supplying gaseous fire extinguishing substances (GOTV) from the GOTV source, and a GOTV supply line to the protected room, respectively, while flowing part of the housing is made in the form of a pipe, at the entrance of which there is a removable saddle, blocked by a locking member, which is a piston with a seal and a nozzle, times placed above the flow part of the device, while the locking member is pressed into the seat in the initial state by a spring, and the inlet fitting cavity and the cavity above the piston are connected by a bypass channel in the nozzle, the over-piston cavity at the outlet to the atmosphere is sealed by a nipple, the nipple is screwed into the holder with the a starting device, which in turn also contains a housing with an electromagnet, a manual start lever with a sealed safety check against unauthorized activation, in The launch device is returned with a special key.

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