CN203192787U

CN203192787U - Silicon controlled cooling device used for intermediate frequency furnace

Info

Publication number: CN203192787U
Application number: CN 201320057496
Authority: CN
Inventors: 宋富强; 沈迪; 张朝阳; 李强
Original assignee: Xinxing Energy Equipment Co Ltd
Current assignee: Xinxing Energy Equipment Co Ltd
Priority date: 2013-01-31
Filing date: 2013-01-31
Publication date: 2013-09-11
Anticipated expiration: 2023-01-31

Abstract

The utility model relates to a silicon controlled cooling device used for an intermediate frequency furnace. A water tank is provided with a water inlet, a water outlet, and a reflux inlet. The water outlet is communicated with a water inlet of each silicon controlled cooling device through distribution of a water outlet pipe and a water pump in a sealing manner. Each water outlet of the silicon controlled cooling device is communicated with the reflux inlet on the transparent glass water tank through reflux pipes in a sealing manner. The device is convenient to use and convenient to observe, and cooling effect is good.

Description

A kind of intermediate frequency furnace controllable silicon cooling device

Technical field

The utility model belongs to heating furnace water cooling field, particularly a kind of intermediate frequency furnace controllable silicon cooling device.

Background technology

At present, domestic intermediate frequency furnace heating all adopts controllable silicon to control, and controllable silicon produces big calorimetric in running, if heat can not in time distribute, may burn out controllable silicon.The general Enclosed Type Circulating Cooling Water System that adopts of controllable silicon cooling, but owing to be closed system, outlet pipeline and return line pressure reduction are less, make that the cooling water flow velocity is less, influence cooling effect.

Summary of the invention

In order to overcome the shortcoming of prior art, the utility model provides a kind of intermediate frequency furnace controllable silicon cooling device, and it is easy to use, is convenient to observe good cooling results.

The technical scheme in the invention for solving the technical problem is: water inlet, delivery port and refluxing opening are arranged on the water tank, delivery port communicates with the water inlet sealing of each controllable silicon cooler respectively by the shunting of outlet pipe, water pump, and each controllable silicon cooler delivery port seals by return duct and refluxing opening on the transparent glass water tanks and communicates.

The utlity model has following advantage: 1), water pump released recirculated cooling water by transparent glass water tanks after, by the bus-bar shunting, flow into each piece controllable silicon and cool off separately, because the shunting of bus-bar makes cooling effectiveness improve greatly.2), after the recirculated cooling water cooling, be back to transparent glass water tanks by water pipe.Be convenient to by observing the flow velocity that water pipe refluxes, can judge rapidly that water pipe will take place to stop up or water pipe leaks, in order to search fault rapidly, the accident that prevents enlarges.3), the transparent glass water tanks water inlet is positioned at directly over the transparent glass water tanks left side, with gauze it is covered at ordinary times, prevent that foreign material from entering water tank, communicate with outside air in the water tank, this circulatory system is semi-enclosed circulating cooling system like this, and the flow velocity of recirculated cooling water can not reduce greatly because of stress problems.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the utility model schematic diagram.

Embodiment

As shown in Figure 1, water inlet 2, delivery port 3 and refluxing opening 4 are arranged on the water tank 1 of clear glass, delivery port 3 communicates with the water inlet sealing of each controllable silicon cooler 7 respectively by 5 shuntings of outlet pipe 8, water pump, and each controllable silicon cooler 7 cooling delivery port seals by return duct 10 and refluxing opening 4 on the water tank 1 and communicates.

Described delivery port 3 communicates with the water inlet sealing of each controllable silicon cooler 7 respectively by outlet pipe 8, water pump 5, bus-bar 6 and collecting pipe 9.

Described water tank 1 long 600mm, wide 400mm, high 400mm.

Described outlet pipe 8 is Φ 40mm metal tube, and collecting pipe is Φ 10mm metal tube.

Every collecting pipe is corresponding one by one with the controllable silicon of its cooling, respectively refluxing opening mark one by one above reflux tank.

Claims

1. intermediate frequency furnace controllable silicon cooling device, it is characterized in that: water inlet (2), delivery port (3) and refluxing opening (4) are arranged on the water tank of clear glass (1), delivery port (3) communicates with the water inlet sealing of each controllable silicon cooler (7) respectively by the shunting of outlet pipe (8), water pump (5), and each controllable silicon cooler (7) cooling delivery port seals by return duct (10) and refluxing opening (4) on the water tank (1) and communicates.

2. intermediate frequency furnace according to claim 1 controllable silicon cooling device is characterized in that: described delivery port (3) communicates with the water inlet sealing of each controllable silicon cooler (7) respectively by outlet pipe (8), water pump (5), bus-bar (6) and collecting pipe (9).

3. intermediate frequency furnace according to claim 1 controllable silicon cooling device is characterized in that: the long 600mm of described water tank (1), wide 400mm, high 400mm.

4. intermediate frequency furnace according to claim 1 controllable silicon cooling device, it is characterized in that: described outlet pipe (8) is Φ 40mm metal tube, and collecting pipe is Φ 10mm metal tube.