CN204902459U - Water heat preservation formula continuity of operation's disappearance mould baking house - Google Patents

Abstract

The utility model discloses a water heat preservation formula continuity of operation's disappearance mould baking house, including the room body, the room is internal to have two isolated drying chambers, and the upper portion of the room body is equipped with the air and heats the ware, and induction -pipe that lower part that the air heated the ware was equipped with all is equipped with air purifier in two drying chambers, and the upper end of drying chamber is equipped with the interface of breathing in, an inside cladding in the interlayer cavity of drying chamber that is equipped with of wall of the room body, layer intracavity is sufficient to have a thermal wastewater, and upper portion that the air heated the ware is equipped with a pair of intake pipe, and interlayer cavity is worn out from last under to the intake pipe, and the part that interlayer cavity was put into to this intake pipe is spiral heat transfer section. The utility model discloses a can keep warm to the drying chamber, reduce the heat and scatter and disappear, and it is fast to disappear the stoving of mould, the application is nimble, realizes drying in succession the operation, and has practiced thrift a large amount of energy.

Description

The evaporative pattern drying room that a kind of water heat preserving type is worked continuously

Technical field

The utility model relates to the drying and processing technology of evaporative pattern, particularly relates to the evaporative pattern drying room that a kind of water heat preserving type is worked continuously.

Background technology

At present, evaporative pattern is widely used in work casting, needs carry out bake drying to evaporative pattern and leave standstill process in the production of evaporative pattern.

Baking room is often adopted to process evaporative pattern in prior art, the way of existing baking room directly in baking room, carries out defeated hot gas, hot gas is allowed directly to carry out drying and processing to evaporative pattern, after tape input hot gas a period of time, when stopping leaving standstill one section in conveying room to be dried after cooling, master workers enter in baking room again and take out the evaporative pattern after drying.

This conventional method has following shortcoming: the source of the gas that the structure the first, heating air is introduced is outside air, is input in baking room after outside air heating, and energy consuming ratio is comparatively large, and oven dry elapsed time is long; The second, traditional drying cavity is indoor not to the insulation construction of inner hot gas, and the hot gas of such drying cavity indoor easily runs off partial heat, so also indirectly adds oven dry energy consumption; Three, baking room cannot the oven dry operation carrying out evaporative pattern of continuous circulation, and can only complete after a collection of evaporative pattern dries, wait for and go to take out evaporative pattern after it leaves standstill cooling, the operation of such discontinuous, greatly reduces operating efficiency.

It is worth mentioning that in addition, in the manufacture craft of evaporative pattern, can produce a large amount of thermal wastewaters, the thermal wastewater of generation has higher problem, and traditional way does not utilize these thermal wastewaters.

Utility model content

The utility model, in order to solve the above-mentioned deficiency of prior art, proposes the evaporative pattern drying room that a kind of water heat preserving type is worked continuously.

In order to solve the problems of the technologies described above, the utility model is by the following technical solutions: the evaporative pattern drying room that a kind of water heat preserving type is worked continuously, comprise room body, there are in described room body two isolated drying chambers, the top of described room body is provided with an air heat-producing machine, the bottom of described air heat-producing machine is provided with two snorkels extend into respectively in the drying chamber of both sides, and be all provided with the air purifier of inserting in drying chamber connecting snorkel in two drying chambers, the upper end of described drying chamber is provided with air-breathing interface; The wall interiors of described room body is provided with the interlayer cavity that is coated on drying chamber, and full in described interlayer cavity have thermal wastewater, and the upper end of described interlayer cavity is provided with thermal wastewater inlet pipe, and lower end is provided with buried thermal wastewater and goes out pipe; The top of described air heat-producing machine is provided with a pair air inlet pipe, and described air inlet pipe passes described interlayer cavity from top to bottom, and the part that this air inlet pipe inserts interlayer cavity is screw type heat exchanging segment, and described air-breathing interface is connected to the upper end of heat exchanging segment.

Further, the partition wall between described drying chamber and drying chamber is provided with a ventilation blower fan.

Further, described air inlet pipe is provided with air exhauster and pressure air valve.

Further, electronic thermometer and electronic moisture meter is provided with in described drying chamber.

Operation principle of the present utility model is, the thermal wastewater produced in the evaporative pattern technological process of production is punched in interlayer cavity by thermal wastewater inlet pipe, when in interlayer cavity, water level reaches expection height, thermal wastewater goes out pipe and starts draining, and now thermal wastewater inlet pipe continues to be fed into waste water, so just ensure the mobility of thermal wastewater in interlayer cavity, ensure the homogeneous temperature of the waste water in interlayer cavity, material is thus formed the water insulation construction of a coated baking room.

And carrying out drying chamber, air heat-producing machine first heats air, the hot gas heated is transported in one of them drying chamber, the evaporative pattern in drying chamber is allowed to carry out drying and processing, after evaporative pattern is dried certain hour, stop conveying hot gas, allow the evaporative pattern in this limit drying chamber carry out standing radiating treatment, leave standstill master worker after certain hour until evaporative pattern and can take out the evaporative pattern of oven dry.

In this section of time of repose, air heat-producing machine works on, toward the other input of drying chamber on one side hot gas, drying and processing is carried out to other evaporative pattern on one side, open ventilation blower fan simultaneously, the hot gas left standstill in process drying chamber is allowed to be drained in addition while need hot air seasoning indoor, so not only accelerate the standing cooling effectiveness of drying chamber on one side, and accelerate the efficiency of oven dry evaporative pattern of second half drying chamber, accomplish to kill two birds with one stone, what greatly reduce air heat-producing machine heats consumption, save hot gas supply time widely, and improve drying efficiency.

After evaporative pattern here completes cooling process, take out dried evaporative pattern, put into again and need dry evaporative pattern, and now other evaporative pattern on one side completes hot air seasoning process, carry out next step cooling process, now air heat-producing machine changes again hot gas throughput direction, ventilation blower fan is started working again, rotate backward, by other while the hot gas carrying out the drying chamber of cooling process returns again the drying chamber being sent to this side, circular treatment like this, has accomplished successional oven dry operation.

And in supplying gas, the intake method of air inlet pipe first allows outside air enter in screw type heat exchanging segment, and then allow the gas in air inlet pipe and thermal wastewater carry out heat exchange, improve the temperature in air inlet pipe, so just achieve and the air that will heat in air inlet pipe is preheated, so just greatly reduce the energy consumption of heat-producing machine, save a large amount of energy.

Compared with prior art, the hot gas of the respective outer side edges air heat-producing machine of the bilateral drying chamber that the utility model adopts distributes, can accomplish that both sides are dried to work continuously, greatly increase drying efficiency, enhance productivity, and air heat-producing machine coordinates ventilation blower fan can realize the hot gas conveying conversion of both sides baking room neatly, greatly increase drying rate, accomplish to work continuously, save mass energy, the full interlayer cavity having thermal wastewater adopted, isothermal holding can be carried out in drying chamber, reduce the heat loss in drying chamber, and the temperature of the suction air in screw type air inlet pipe can be improved by heat exchange, decrease the consumption heating air of air heat-producing machine, operating efficiency widely.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

Below in conjunction with drawings and Examples, utility model is described in detail.

As shown in Figure 1, the evaporative pattern drying room that the water heat preserving type that the utility model proposes is worked continuously, comprise room body 1, there are in room body 1 two isolated drying chambers 2, the top of room body 1 is provided with an air heat-producing machine 3, the bottom of air heat-producing machine 3 is provided with in two snorkel 4, two drying chambers extending in the drying chamber of both sides respectively and is all provided with the air purifier 5 of inserting in drying chamber connecting snorkel 4, and the upper end of drying chamber 2 is provided with air-breathing interface 6.

The wall interiors of room body 1 is provided with the interlayer cavity 7 that is coated on drying chamber 2, and full in interlayer cavity 7 have thermal wastewater, and the upper end of interlayer cavity 7 is provided with thermal wastewater inlet pipe 8, and lower end is provided with buried thermal wastewater and goes out pipe 9.

The top of air heat-producing machine 3 is provided with a pair air inlet pipe 10, and air inlet pipe 10 passes described interlayer cavity 7 from top to bottom, and the part that air inlet pipe 10 inserts interlayer cavity 7 is screw type heat exchanging segment 11, and air-breathing interface 6 is connected to the upper end of heat exchanging segment 11.Partition wall 12 between drying chamber and drying chamber is provided with a ventilation blower fan 13.Air inlet pipe 5 is provided with air exhauster 14 and pressure air valve 15.Electronic thermometer and electronic moisture meter is provided with in drying chamber 2.

In the utility model, heat-producing machine is provided with in air heat-producing machine 5, heat-producing machine is electrical heating air-making heat structure and air supply plant, and with a controller, controller and electronic thermometer and electronic moisture meter, carry out gas transmission according to the feedback data of electronic thermometer and electronic moisture meter and control air supply plant and send in drying chamber.

Above-described embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the utility model patent and protection domain should be as the criterion with appended claims.

Claims (4)

1. the water heat preserving type evaporative pattern drying room of working continuously, it is characterized in that: comprise room body (1), there are in described room body (1) two isolated drying chambers (2), the top in described room body (1) is provided with an air heat-producing machine (3), the bottom of described air heat-producing machine (3) is provided with two snorkels (4) extend into respectively in the drying chamber of both sides, all be provided with the air purifier (5) of inserting in drying chamber connecting snorkel (4) in two drying chambers, the upper end of described drying chamber (2) is provided with air-breathing interface (6); The wall interiors in described room body (1) is provided with the interlayer cavity (7) that is coated on drying chamber (2), full in described interlayer cavity (7) have thermal wastewater, and the upper end of described interlayer cavity (7) is provided with thermal wastewater inlet pipe (8), lower end is provided with buried thermal wastewater and goes out pipe (9); The top of described air heat-producing machine (3) is provided with a pair air inlet pipe (10), described air inlet pipe (10) passes described interlayer cavity (7) from top to bottom, and the part that this air inlet pipe (10) inserts interlayer cavity (7) is screw type heat exchanging segment (11), described air-breathing interface (6) is connected to the upper end of heat exchanging segment (11).

2. the water heat preserving type according to claim 1 evaporative pattern drying room of working continuously, is characterized in that: the partition wall (12) between described drying chamber and drying chamber is provided with a ventilation blower fan (13).

3. the water heat preserving type according to claim 1 evaporative pattern drying room of working continuously, is characterized in that: described air inlet pipe (5) is provided with air exhauster (14) and pressure air valve (15).

4. the water heat preserving type according to claim 1 evaporative pattern drying room of working continuously, is characterized in that: be provided with electronic thermometer and electronic moisture meter in described drying chamber (2).