KR101211599B1 - Steam Generator For Mold System - Google Patents

Abstract

The present invention relates to a steam generator and a mold temperature control system using the same to heat the water with the electrothermal heater to generate steam and to supply the high temperature steam to the place of use. The steam generator includes a cylindrical pressure vessel (3) having a length (L) larger than the diameter (D), which is fixedly installed upright; An electrothermal heater 11 installed in the transverse direction through the side plate of the pressure vessel at a lower position of the pressure vessel; A water supply unit for detecting a water level inside the pressure vessel and supplying water based on the result; It characterized in that it comprises a steam discharge portion for discharging the steam generated as installed on the upper portion of the pressure vessel (3).

Description

Steam Generator for Mold System

The present invention relates to a steam generator, and more particularly to a steam generator for a mold for heating the water with an electrothermal heater to generate steam and supply this high temperature steam to the place of use.

In the mold for injection molding a synthetic resin, the temperature of the mold must be precisely controlled to improve the appearance of the product. In order to maintain the surface precision for the gloss of the product it is necessary to control the temperature of the mold in a short time to a high temperature or a low temperature, the mold heating apparatus is required.

In order to heat the mold, high temperature steam was widely used. For this purpose, a device for generating a steam from a boiler and supplying it into the mold to indirectly heat the mold was prevalent. However, these systems had to be equipped with a separate boiler system, so the size of the auxiliary equipment was too large. Thus, a mobile mold heating apparatus has been provided for instantaneously heating water and supplying directly to one or a series of molds.

In the above system, hot water was used as a heat medium to transfer heat to the mold. When hot water is used, a large amount of energy is required due to the high specific heat of water. There was a problem of ascension.

This problem can be solved by using steam as the heat medium. By heating a small amount of water, a large amount of steam can be produced and its specific heat is low, making it easy to control the temperature.

However, since the system using steam must have a heating unit for heating water and a control unit (including a receiver) for controlling the generated steam, the scale has to be increased. Therefore, in order to efficiently heat the mold in a short time by using steam, the desire to conveniently control the mold temperature without having a complicated facility had to be abandoned.

On the other hand, the biggest problem encountered in systems for using steam as the heat medium and for heating water through the electric heater is related to the electric heater. The type of electric heater is generally provided with dry and wet type, which are not compatible with each other. In the case of using a dry heater, a short circuit occurs frequently when it comes into contact with moisture, causing a problem of shortening of the heater and a short lifetime of the heater.

An object of the present invention for the above problem is to provide a steam generator that can be used in a system for generating steam to control the temperature of the injection mold. More specifically, an object of the present invention is to provide a steam generator which has a compact configuration in order to provide mobility and space efficiency, and which does not have a risk of failure of the heat transfer heater as a heat generating means.

Another object of the present invention is to provide a mold temperature control device using the steam generator.

The above purpose is to heat the water supplied to generate steam and supply it to the user,

A cylindrical pressure vessel having a length larger than the diameter as fixed and installed upright; An electrothermal heater installed in the transverse direction through the side plate of the pressure vessel at a lower position of the pressure vessel; A water supply unit for detecting a water level inside the pressure vessel and supplying water based on the result; It is achieved by a steam generator characterized in that it comprises a steam discharge for discharging the steam generated as installed on the upper portion of the pressure vessel.

According to a feature of the present invention, the ratio of the diameter and the length may be 1: 1.5 to 3.0.

According to another feature of the present invention, a shield means for indirectly contacting the steam discharge port with the steam pressure generated around the steam outlet through which the steam is discharged may be provided on the pressure vessel.

According to another object of the present invention; A cylindrical pressure vessel having a length larger than the diameter of the upright fixed installation, a heat transfer heater which is installed in a transverse direction through the circumferential wall of the pressure vessel at a lower position of the pressure vessel, and steam generated by being installed at an upper portion of the pressure vessel. Steam generator for discharging the steam generator, characterized in that it comprises a water supply for detecting the water level inside the pressure vessel and supplying water based on the result;

A steam supply unit for supplying steam generated by the steam generator to a mold;

If the temperature of the steam supplied to the mold to be installed in the steam supply is less than the set temperature includes a reheater for reheating the steam;

It is achieved by a mold temperature control system, characterized in that it is installed inside the frame of the hexahedral form that can be transported.

According to the above configuration, it is possible to generate steam by using a wet electrothermal heater, it is provided with a steam generator that can generate the steam itself and supply it to the immediate use. The wet electrothermal heater is operated in a stable manner in the water so that there is no problem caused by the failure of the electrothermal heater, and since the generated steam can be immediately taken out and used, there is no need for a facility for storing steam, thereby enabling a compact configuration. do.

In addition, by heating the mold using steam, the time for preparing the heat medium for heating the mold is shortened, and energy required for preparing the heat medium can be saved.

1 is a perspective view of a steam generator according to an embodiment of the present invention, Figure 2 is a schematic cross-sectional configuration.
3 is a perspective view of the shield means of the steam generator.
4 is a block diagram of a steam supply mold temperature control system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the specific content of the present invention. The steam generator 1 according to the invention can also be used to control the mold temperature, which is actually designed for this purpose. However, it is not necessary to limit the use to mold temperature control and can be widely used in various industrial sites requiring steam.

The steam generator 1 is for generating steam by heating the water supplied and supplying it to a place of use. The steam can maintain a sufficiently high temperature as it adjusts the pressure.

The core of the present invention is to set up the pressure vessel (3) is installed upright as shown as a place where steam is generated and further generated steam is stored. The pressure vessel 3 takes the form of a pressure resistant tank well known in the field of mechanical design that can cope with the high pressure inside. That is, the pressure vessel 3 has a cylindrical side plate 5 provided by bending and welding a metal plate cylindrically, and a hemispherical upper plate 7 and a lower plate 9 which are integrally welded to both sides of the cylindrical side plate 5. It is composed of The diameter D of the cylindrical side plate is smaller than the total length L or height of the pressure vessel.

According to an embodiment of the present invention, the ratio of the diameter D and the length L may be 1: 1.5 to 3.0. It is clear that the specific form of the pressure vessel 3 including the thickness and the material will be determined by how much the maximum pressure generated therein is set. The pressure vessel 3 is fixedly installed by a predetermined support means such as a leg (not shown).

A plurality of heat transfer heaters 11 are installed in the transverse direction through the side plate 5 of the pressure vessel in the lower position of the pressure vessel (3). The electrothermal heater 11 is rod-shaped, three are installed in a triangular form as shown in the embodiment of the present invention. The heat transfer heater 11 is wetted and waterproof, and functions properly even when completely immersed in water or a fluid. Installing multiple heat transfer heaters 11 is only a means for securing a heat generation amount. Therefore, the heat transfer heaters 3 do not necessarily have to be three. If multiple electric heaters are installed, the arrangement position will be determined for efficient heating.

In order to install the heat transfer heater 11, the lower end of the side plate of the pressure vessel 13 and the flange 15 is installed. It is clear that direct heating of the inner fluid, rather than indirectly heating the inner fluid by heating the pressure vessel 3, would be of great benefit in terms of thermal efficiency.

The pressure vessel 3 is maintained in a state in which water (用手, W) as a working fluid is filled to a height of 1/4 to 1/2 with respect to the pressure vessel height. The water must also be filled so that the electric heater 11 is completely submerged. The water supply unit detects the water level inside the pressure vessel 3 and supplies water through the water supply pipe 15 based on the result. The water supply pipe 15 is preferably installed at a position lower than the usual water level WL in the operating state.

The detection of the water level is performed by the normal water level sensor 17, which should be equipped with internal pressure and heat resistance temperature. The same is true for the various electrical appliances described below.

The steam discharge part discharges steam generated as being installed on the upper portion of the pressure vessel (3). Steam outlet portion steam outlet 19 is provided in the center of the upper plate (7) of the pressure vessel; Basically includes a steam discharge pipe 21 connected to the steam outlet (19). Furthermore, it may further include a pressure limiting means for limiting the pressure of the discharged steam to a certain range. The pressure limiting means may include a switch valve 23 for discharging the pressure to the outside when the abnormal pressure is high, and a pressure regulating valve 25 allowing only steam having a predetermined pressure or higher to be discharged to the discharge pipe.

It goes without saying that a series of sensing means may be added to convey information related to the internal state of the pressure vessel, such as temperature, pressure or saturation, to the control unit. Reference numeral 27 denotes a pressure sensor.

According to an embodiment of the present invention, a shield means 29 may be provided at the upper portion of the pressure vessel to allow the steam pressure generated indirectly to reach the steam outlet, around the steam outlet. As shown in FIG. 3, the shield means 29 is fixed to the upper plate 7 and may be a plate member having a cross section bent in a U shape. It is an expert opinion that the pressure of the generated steam is distributed in the form of a cone start as shown by the dashed-dotted line in FIG. The shield means is designed based on this point, and is intended to prevent the high pressure steam from being directed directly to the steam outlet, that is, to indirectly bypass the high pressure steam to the steam outlet 19.

According to the above configuration, the high temperature and high pressure steam formed from the water fills a wide space (S) of at least 1/2 of the pressure vessel. Therefore, a sufficient amount of vapor pressure is supplied to supply to the place of use (for example, a mold). Even when the steam pressure drops by continuously supplying steam to the outside, the steam is produced at a high speed by the direct heating method by the electrothermal heater 11, thereby compensating for the outgoing steam pressure.

Outside the pressure vessel, an insulating material (not shown), such as fiberglass, may be added to protect workers and peripherals from heat. In addition, it is necessary to add a cleaning means for discharging sediment, such as sludge which is laminated on the bottom inside the pressure vessel (3). To this end, the cleaning cover 33 which can be directly communicated inside the pressure vessel can be installed in the lower side plate (5). In parallel with this, a purge valve 35 capable of instantaneously discharging the precipitate may be installed in the center of the lower plate 9 of the pressure vessel.

Another aspect of the invention resides in a mold temperature control system 41 using the steam generator described above.

Since the steam generator 1 is as described above, repeated description is omitted.

The steam supply unit 43 is for supplying steam generated by the steam generator 1 to the mold M, and may include a reheater 45. The reheater 45 is optional for reheating the steam when the temperature of the steam supplied to the mold M does not reach the set temperature. The reheater 45 may serve as a controller for lowering the temperature of the steam when it is too high, and is for precisely controlling the temperature of the steam to the mold.

The most important point of the mold temperature control system of the present invention is that it is portable. To this end, the mold temperature control system is installed inside the frame 47 in the form of a cube. The moving wheel may be installed in the frame 47. The water supply unit may receive water from a storage tank 49 installed inside or on the frame 47 or may be supplied from the outside through a conduit.

The mold temperature control system of the present invention provides an optimal system for producing steam on the fly.

As mentioned above, the steam generator of the present invention can be widely used in addition to the purpose of controlling the mold temperature, and there may be a design change such that additional components are attached or removed in the common sense of the person skilled in the art according to the requirements of the use environment. .

One ; Steam generator 3; Pressure vessel
5; Shroud 7, 9; Top, bottom
11; Electric heater 15; Water Supply Pipe
17; Water level sensor 19; Steam outlet
23; Switch valve 25; Pressure regulating valve
27; Pressure sensor 29; Shield means
33; Lower cap 35; Purge valve
41; Steam mold temperature control system
43; Steam supply 45; Reheater
47; Frame M; mold

Claims (5)

delete To heat the water supplied to generate steam and supply it to the mold,
A cylindrical pressure vessel (3) having a length (L) larger than the diameter (D) as fixedly installed upright; An electrothermal heater 11 installed in the transverse direction through the side plate of the pressure vessel at a lower position of the pressure vessel 3; A water supply unit for detecting a water level inside the pressure vessel 3 and supplying water based on the result; A steam discharge unit for discharging steam generated as installed on the pressure vessel 3;
The vapor pressure generated around the steam outlet in which the steam is discharged to the upper portion of the pressure vessel (3) to indirectly contact the steam outlet, it is fixed to the upper plate (7) of the pressure vessel (3) and has a cross section Shield means 29 in the form of a plate bent in the U-shape;
A cleaning cover 33 installed below the side plate 5 of the pressure vessel 3 so as to be directly communicated with the pressure vessel 3;
A purge valve (35) installed at the center of the lower plate (9) of the pressure vessel (3) so as to discharge the precipitate in the pressure vessel (3) instantaneously;
Steam generator for a mold comprising a. 3. The steam generator according to claim 2, wherein the water is filled and maintained at a height of 1/4 to 1/2 with respect to the height of the pressure vessel (3). delete delete

Images