DE3703689A1 - Electrical resistance unit for use in a fire damp protection region - Google Patents

Abstract

Electrical installations are accommodated in a housing, which is encapsulated in a pressure resistant manner, in fire damp protection and explosion protection regions, for example in underground coal mining. If the electrical installation consists, for example, of a control device for an underground railway, then braking resistors are required. Until now, such braking resistors were accommodated in separate encapsulated housings, which were connected to the housing of the main installation via flexible cables. The dedicated housing for the braking resistors was required to be able to dissipate the heat energy occurring. In order to create a design which can be handled easily and saves space, and in the case of which it is possible to dispense with external cable connections between the main installation and the braking resistor units, the invention proposes to couple a heat sink rigidly to the housing of the main installation, in which heat sink commercially available heating cartridges are seated in holes. The electrical cables between the heating cartridges and connections of the main installation pass through a connection, which can be released - if required - only from the interior of the housing, through a wall in the housing. Cooling channels to pass water through are constructed in the heat sink. <IMAGE>

Description

The invention relates to electrical resistance unit for use in a firedamp protection and Explosion protection area in connection with an electri main plant, especially in connection with a a main system with flameproof encapsulation.

It is known to convert electrical energy into Thermal energy electrical resistance units to ver turn.

This problem occurs among other things with electromotive Drives on in which braking resistors when braking electrical energy in Thermal energy is implemented. Is with great thermal energy appropriate quantities, appropriate measures must be taken be met by the in a given period of time delivering falling thermal energy to a coolant to Example of ambient air or cooling water.

The removal of electri is particularly problematic thermal energy gained in firedamp protection and explosion protection areas, such as wise in underground coal mining operations.

With electric underground transport systems are in usually electrical main systems provided before according to the written e.g. according to the type of protection "flameproof Encapsulation "are executed. It is practically not possible the braking resistors within the pressure-resistant Housing of the main system. That is why the braking resistor units in a separate Ge  arranged and connected to the main via flexible cables plant connected. Apart from the fact that such an An order of several, connected by flexible cables Units is bulky and difficult to handle the cable duct in the housing because of the safety safety regulations complex. The special training of electrical resistance units, especially brakes resistance units for use in the underground Mining is therefore very complex.

The invention has for its object an electri cal resistance unit of the type mentioned give, which is not only inexpensive to manufacture, son which is also space-saving and relative easy handling of the main system with the resistor unity allowed.

This problem is solved with an electrical contr Stand unit of the type mentioned as follows:

• - There are several commercially available heaters in a heat sink cartridges arranged,
• - The heat sink is rigid at an opening on the outside side of the housing of the main system, and
• - Electrical conductors lead from the heating cartridges the housing opening to the main system within the Housing.

Through the use of commercially available heating cartridges known per se, which by themselves are not fireproof or explosion-proof need, there is no need to design and produce special heating resistance elements. The firedamp or explosion protection is through the design of the heat sink and its attachment to the housing of the Main plant guaranteed. Due to the rigid coupling of the heating pa tronen receiving heat sink to the housing of the main system, ins  special to the firedamp-protected housing of the main system, ent falls the previously required flexible connection between the housing the main system and the housing housing the resistance units unit as well as the cable bushings in the respective housing. There this simplifies the handling of the main system in connection with the resistance unit considerably. Lead through the housing opening the electrical conductors from the heating cartridges without external ones Line connections directly into the interior of the main system housing. Plug connections can be provided to simplify installation. In addition to the connections for the heating cartridges can through the housing opening can also be made of electrical cables with tempera sensors and similar components are connected, which inventory are part of a control and monitoring device.

The heat sink according to the invention is in particular on Flanged housing. Especially for main systems that are in have the type of protection "flameproof enclosure", it is particularly advantageous if the heat sink with only accessible from the inside of the main system housing Fasteners is attached. In the case of the called ten type is partially required that the pressure-resistant housing can only be opened if by a special mechanical locking ensures that the electrical devices in the housing are de-energized are. If now - as I said, the fasteners for the heat sink only from the inside of the case are accessible, forms the mechanical Locking the housing simultaneously the mechanical Fuse for connecting the resistance unit. To the To remove the resistance unit from the housing, first of all the case can be opened, which is only possible if  a switch disconnector was opened beforehand.

The heat sink can basically be made of metal or plastic or ceramic or any other good heat conductor Material. The heat sink preferably exists made of cast iron. Several holes are distributed in it ordered, each of which holds a heating cartridge. The elongated heating cartridges are preferably axially in the cylindrical heat sink arranged. In a simple one Embodiment is the cylindrical heat sink with a Face on the outside of the main housing location attached. Since this attachment may be un is cheap because the heat sink is relatively far from that Projecting housing, the invention sees as be particularly preferred embodiment, a 90 ° angle connector to use. This can be from an angle tube stand, which is filled with resin. The resin fills the space between the electrical conductors that from the heating cartridges to the front of the connector to lead. There may be connector elements that to socket elements on the inside of the housing wall fit.

Basically, the heat sink according to the invention can Delivery of thermal energy to a gaseous or to a liquid heat transfer medium should be suitable. If the Heat transfer medium that absorbs the heat energy must be, for example, air, the heat sink has cooling ribs so that the heat is effectively transferred to the air becomes.

However, the heat sink preferably has cooling channels and connections for cooling water. That the heat sink around rinsing and rinsing cooling water is from the  falling thermal energy is heated.

If necessary, the warm water or the warm air can change widely used, for example for heating.

In a particularly simple, effective and inexpensive Embodiment provides the invention that the approximately cylindrical body made of a good heat-conducting material, such as Cast iron, which consists of several axially parallel bores Includes the cartridge heater and an external thread that sits tight on the cylindrical heat sink outside a piece of pipe sits that cools with the external thread snake forms that of the external thread, preferably at least one radial channel extends from its end section, that leads to at least one axial channel in the heat sink, and that on the free end face of the heat sink a water inlet and a water outlet connection are provided. Next a single axial channel, the longitudinal axis with the longitudinal axis of the heat sink matches, several can axially parallel channels can be provided by the inner End of the radial channel or radial channels to the free end face of the heat sink where the Water outlet is located.

This embodiment of the invention enables a be particularly inexpensive manufacture and also points out all the advantages listed above.  

The following is an embodiment of the invention explained in more detail with reference to the drawing. Show it:

Fig. 1 is a longitudinal sectional view of a unit flanged to the outer wall of a pressure-resistant housing of a main system electrical braking resistor, and

FIG. 2 is a sectional view along the line II-II in FIG. 1.

A housing 1 , which is only indicated in fragments in FIG. 1 and which is of the “flameproof encapsulation” type of protection, contains as the main electrical system, for example, the entire control device for an electromotively driven underground railway. The electrical energy generated when braking the train must be destroyed, that is, converted into heat. For this purpose, a braking resistor element is provided, which according to the invention is flanged to the rear of the housing 1 in the exemplary embodiment shown.

The housing rear wall 2 carries a heat sink carrier 3 in its upper region. The heat sink support 3 is designed as an angle connector 4 consisting of a 90 ° angle tube 5 , which is filled with a sealing compound 6 , for example epoxy resin. The two angle tube ends are designed as flanges.

The angle tube 5 is fastened with screws 7 from the inside of the housing 1 . A plug insert of the angle connector 4 protrudes into the interior of the housing 1 , where plugs 8 make an electrical connection to socket elements, which are encased in the interior of a receiving part 9 of cast resin.

At the end of the angle tube 5 pointing downwards in the drawing, a cylindrical heat sink 11 made of cast metal is screwed with screws 10 .

In the heat sink 11 , holes 12 are distributed uniformly at the corners of a pentagon, each of which accommodates a commercially available heating cartridge 13 . Each heating cartridge 13 is electrically connected to parts of the main system via electrical conductors embedded in the sealing compound 6 and the plugs 8 and the socket elements located in the receiving part 9 .

A standard external thread is formed on the peripheral surface of the heat sink 11 . On the external thread sits a pipe section 15 , also made of cast iron, which is sealed in the upper and lower area by means of two O-rings 21 . The pipe section 15 thus forms a cooling coil together with the external thread 14 of the heat sink 11 . At the free front end of the heat sink 11 , which is additionally supported on the rear wall 2 of the housing 1 with the aid of a support plate 16 , there are a water inlet and a water outlet connection 17th The water inlet 17 (arrow direction) is formed in a ring piece 20 , which sits at the end of the heat sink 11 .

The water inlet connection shown on the right in Fig. 1, which is designed as a plug connection, a guided cooling water passes through the cooling coil formed by the thread 14 and the pipe section 15 on a helical path along the cooling coil to the upper end region of the heat sink 11 , around from there to flow via three radial channels 18 to an axial channel 19 . The axis of the axial channel 19 coincides with the longitudinal axis of the cylindrical heat sink 11 . The water flows out of the water outlet connection 17 through the axial channel 19 . The water heated when flowing through the heat sink 11 can be used for other purposes or the heat energy contained in it can be partially released via a heat exchanger that only serves cooling purposes.

Modifications to the exemplary embodiment described above are possible. An elongated connector can be used instead of the angled connector. The cooling body can also be screwed or welded directly to the rear wall 2 of the housing with a piece formed with it.

It's not just use as a braking resistor unit possible, but the resistance unit can can be used wherever electrical energy must be converted into thermal energy. Instead of what cooling, a device can also be provided, via which the heat energy is released into the ambient air will give.

Claims (9)

1. Electrical resistance unit for use in a firedamp protection and explosion protection area in connection with an electrical main system, in particular with a pressure-resistant encapsulation, the main system, characterized by the following features:

• - Several commercially available heating cartridges ( 13 ) are arranged in a heat sink ( 11 ),
• - The heat sink ( 11 ) is rigidly attached to an opening on the outside ( 2 ) of the housing ( 1 ) of the main system, and
• - From the heating cartridges ( 13 ) lead electrical conductors through the housing opening to the main system within the housing ( 1 ).

2. Resistance unit according to claim 1, characterized in that the heat sink ( 11 ) is flanged to the housing ( 1 , 2 ). 3. Resistance unit according to claim 1 or 2, characterized in that the heat sink ( 11 ) is fastened with fastening means ( 7 ) accessible only from the inside of the housing ( 1 , 2 ). 4. Resistance unit according to one of claims 1 to 3, characterized in that the heat sink is an approximately cylindrical metal block, for example cast iron block, in which a plurality of holes ( 12 ) are arranged, each of which receives a heating cartridge ( 13 ). 5. Resistance unit according to one of claims 1 to 4, characterized in that the heat sink has a connecting piece ( 4 ) which consists of a pipe section ( 5 ) filled with casting resin ( 6 ) with a connecting flange. 6. Resistance unit according to one of claims 1 to 5, characterized in that the heat sink ( 11 ) has a 90 ° angle connector ( 4 ). 7. Resistance unit according to one of claims 1 to 6, characterized in that the cooling body ( 11 ) has cooling channels ( 14 , 18 , 19 ) and connections ( 17 ) for cooling water. 8. Resistance unit according to one of claims 1 to 7, characterized in that the approximately cylindrical heat sink ( 11 ) consists of a good heat-conducting material, such as cast iron, which contains a plurality of axially parallel bores for receiving the heating cartridges ( 13 ) and an external thread ( 14 ) has that on the cylindrical heat sink ( 11 ) a pipe piece ( 15 ) sits on the outside, which forms a cooling coil with the external thread ( 14 ), that of the external thread ( 14 ) before preferably from its end section, at least one radial channel ( 18 ), which leads to at least one axial channel ( 19 ) in the heat sink ( 11 ), and that a water inlet and water outlet connection ( 17 ) are provided on the free end face of the heat sink ( 11 ). 9. Resistance unit according to one of claims 1 till 8, characterized, that the resistance unit is a braking resistor for forms an electric motor drive.