CN219427230U - Anti-blocking expansion type heating die cavity - Google Patents

Abstract

The utility model relates to the technical field of heating die cavities and discloses an anti-blocking expansion type heating die cavity, which comprises a high-temperature resistant shell, wherein the top of the high-temperature resistant shell is fixedly provided with a shell top end, the inside of the shell top end is provided with a heating exhaust port, the bottom of the high-temperature resistant shell is fixedly provided with a shell bottom end, the inside of the shell bottom end is provided with an air inlet port, the inside of the high-temperature resistant shell is fixedly provided with a high-temperature resistant preheater near the center, the top of the high-temperature resistant preheater is fixedly provided with a heater shell near the center, the top of the heater shell is fixedly provided with a detachable top cover, the top of the detachable top cover is fixedly provided with a heating die cavity column near the center, and the inside of the heating die cavity column is provided with a heating die cavity empty slot which can be used for heating, preserving and heating flowing liquid and gaseous mediums through the placement of the heating die cavity column.

Description

Anti-blocking expansion type heating die cavity

Technical Field

The utility model relates to the technical field of heating die cavities, in particular to an anti-blocking expansion type heating die cavity.

Background

There are many methods for heating a mold, for example, flame heating is a type of instantaneous heating of a mold by using a flame of a gas fuel, steam heating is a type of direct heating of a mold by steam, high-temperature steam is directly introduced into a complex cavity, and infrared heating is performed by using an infrared heating head or an infrared heating pipe, and is basically suitable for use in places such as houses, equipment parts, model factories, and the like.

In the prior art, the heating die cavity of part can receive the air and hinder, leads to heating effect not good, waste time, waste resource is unfavorable for the long-term work of equipment, reduces the work efficiency of equipment, and the heating die cavity of part can receive the influence that steam brought at the during operation for steam erosion phenomenon appears in the inside equipment, is unfavorable for equipment self maintenance, is unfavorable for equipment clearance, reduces the life of equipment, thereby leads to harm such as equipment security reduction.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides an anti-blocking expansion type heating mold cavity, so as to solve the above-mentioned problems in the prior art.

The utility model provides the following technical scheme: the utility model provides an anti-blocking expansion type heating die cavity, includes high temperature resistant shell, high temperature resistant shell's top fixed mounting has the shell top, the heating exhaust port has been seted up to the inside on shell top, high temperature resistant shell's bottom fixed mounting has the shell bottom, the air inlet has been seted up to the inside of shell bottom, high temperature resistant shell's inside is close to central fixed mounting has high temperature resistant pre-heater, high temperature resistant pre-heater's top is close to central fixed mounting has the heater shell, the top fixed mounting of heater shell has the detachable top end cover, the top of detachable top end cover is close to central fixed mounting has the heating die cavity post, the heating die cavity air groove has been seted up to the inside of heating die cavity post, high temperature resistant pre-heater's bottom is close to central fixed mounting has the hot cylinder shell, the inside of hot cylinder shell has seted up the hot cylinder air groove;

further, a heat dissipation upper hole is formed in the top of the high-temperature-resistant preheater, a heat dissipation lower hole is formed in the bottom of the high-temperature-resistant preheater, and a preheater cavity is formed in the high-temperature-resistant preheater.

Further, the top of heater shell is close to the center and has seted up the heating inner chamber, one side of heating die cavity post is close to center fixed mounting has the heating balance post, one side of heating die cavity post is close to bottom fixed mounting has the fixed column, one side fixed mounting of fixed column has the heater, the top of heater is close to the center and has seted up the heater recess, the bottom fixed mounting of fixed column has the heater bottom.

Further, the top of the hot cylinder shell is close to the center and fixedly provided with a hot cylinder front end, the top of the hot cylinder front end is close to one side and fixedly provided with an anti-blocking vent pipe, and one side of the hot cylinder front end is fixedly provided with a heat passing regenerator pipe.

Further, the anti-blocking vent pipe is provided with a plurality of equal-sized equidistant distribution at the top of the front end of the hot cylinder, the anti-blocking vent pipe is provided with a plurality of equal-sized equidistant distribution at the top of the heat regenerator pipe, and the anti-blocking vent pipe is a U-shaped pipe.

Furthermore, the heat dissipation upper holes are uniformly distributed at the top of the high-temperature-resistant preheater in a plurality of equal-size mode, and the heat dissipation lower holes are uniformly distributed at the bottom of the high-temperature-resistant preheater in a plurality of equal-size mode.

Further, a bottom inner cavity is formed in the bottom end of the shell.

Further, the heating die cavity column, the heating balance column, the heater, the fixing column and the bottom end of the heater are all positioned on the same horizontal line.

The utility model has the technical effects and advantages that:

1. the utility model can be used for heating up, preserving heat and heating flowing liquid and gaseous media through the placement of the heating cavity column, has the characteristics of small volume, high power and the like, can be used for preheating air before entering a boiler to a heating surface with a certain temperature through the placement of the high-temperature resistant preheater, is used for improving the heat exchange performance of the boiler, reduces the energy consumption, can be used for enhancing the air circulation through the placement of the anti-blocking vent pipe, has stable pressure, prevents the water seal from damaging the pipeline which is arranged and is communicated with the atmosphere, is beneficial to the improvement of the working efficiency, enhances the safety of equipment, has the advantages of simple and compact structure, high heat exchange efficiency and the like through the placement of the heat-conducting regenerator pipe, can sublimate solid phase substances deposited on the surface of a filler in the hot blowing process when cold air passes through the heat-conducting regenerator pipe, has the self-cleaning characteristic of the heat-conducting regenerator pipe, can be used for air entering the core of the heat-conducting regenerator, has the advantages of low volume, high power, wide application range, high reliability, high heat energy conversion efficiency, wide application, and the like.

2. The utility model can be used for fixing equipment to be more stable through the placement of the fixing column, is beneficial to strengthening the working efficiency of the equipment, improves the stability of the equipment, can be used for storing the equipment through the placement of the bottom end inner cavity, is beneficial to protecting the equipment base, strengthens the stability of the equipment, is beneficial to reasonably utilizing the equipment space, saves resources, can be used for stabilizing the average heating through the placement of the heating balance column, is beneficial to the uniform heating of the equipment, is beneficial to the stability of the equipment in working, and strengthens the balance degree of the equipment.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of the hot cylinder housing structure of the present utility model.

Fig. 3 is a schematic view of a heater housing according to the present utility model.

Fig. 4 is a schematic view of the structure of the high temperature resistant preheater of the present utility model.

Fig. 5 is a schematic view of the front end structure of the hot cylinder of the present utility model.

Fig. 6 is a schematic view of an anti-blocking vent pipe according to the present utility model.

FIG. 7 is a schematic view of a heated cavity column according to the present utility model.

The reference numerals are: 1. a high temperature resistant enclosure; 2. the bottom end of the shell; 3. a heater housing; 4. a removable top end cap; 5. the top end of the shell; 6. heating the exhaust port; 7. heating the mold cavity column; 8. heating the cavity empty groove; 101. a hot gas cylinder housing; 102. a hot air cylinder empty slot; 201. an air inlet port; 202. the front end of the hot cylinder; 301. a high temperature resistant preheater; 302. heating the balance column; 401. heating the inner cavity; 402. a heater groove; 501. a preheater cavity; 502. a heat dissipation lower hole; 601. a heat dissipation upper hole; 602. a bottom end inner cavity; 702. anti-blocking vent pipe; 801. a regenerator tube is opened; 802. fixing the column; 111. a heater; 222. the bottom end of the heater.

Detailed Description

The embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the present utility model, and the form of each structure described in the following embodiments is merely an example, and the anti-clogging and expansion type heating cavity according to the present utility model is not limited to each structure described in the following embodiments, and all other embodiments obtained by a person having ordinary skill in the art without making any inventive effort are within the scope of the present utility model.

Referring to fig. 1-7, the utility model provides an anti-blocking expansion type heating die cavity, which comprises a high temperature resistant shell 1, wherein the top of the high temperature resistant shell 1 is fixedly provided with a shell top 5, the inside of the shell top 5 is provided with a heating exhaust port 6, the bottom of the high temperature resistant shell 1 is fixedly provided with a shell bottom end 2, the inside of the shell bottom end 2 is provided with an air inlet port 201, the inside of the high temperature resistant shell 1 is fixedly provided with a high temperature resistant preheater 301 near the center, the top of the high temperature resistant preheater 301 is fixedly provided with a heater shell 3 near the center, the top of the heater shell 3 is fixedly provided with a detachable top cover 4, the top of the detachable top cover 4 is fixedly provided with a heating die cavity column 7 near the center, the inside of the heating die cavity column 7 is provided with a heating die cavity hollow 8, the bottom of the high temperature resistant preheater 301 is fixedly provided with a heating cylinder shell 101 near the center, and the inside of the heating cylinder shell 101 is provided with a heating cylinder hollow 102.

In a preferred embodiment, the top of the high temperature resistant preheater 301 is provided with a heat dissipation upper hole 601, the bottom of the high temperature resistant preheater 301 is provided with a heat dissipation lower hole 502, and the interior of the high temperature resistant preheater 301 is provided with a preheater cavity 501, so that by placing the high temperature resistant preheater 301, the heat dissipation fins in the interior can be used for preheating air before entering the boiler to a heating surface with a certain temperature, so that the heat exchange performance of the boiler is improved, and the energy consumption is reduced.

In a preferred embodiment, the top of the heater housing 3 is close to the center and provided with the heating cavity 401, one side of the heating cavity column 7 is close to the center and is fixedly provided with the heating balance column 302, one side of the heating cavity column 7 is close to the bottom and is fixedly provided with the fixing column 802, one side of the fixing column 802 is fixedly provided with the heater 111, the top of the heater 111 is close to the center and is provided with the heater groove 402, the bottom of the fixing column 802 is fixedly provided with the heater bottom 222, therefore, the heater has the advantages of small volume, high heating power, wide application range, long service life, high reliability and the like, the core of the heater principle is energy conversion, the most widely used electric energy is converted into heat energy, the device can be fixed by the arrangement of the fixing column 802, the device can be more stably, the working efficiency of the device can be enhanced, the stability of the device can be improved, the average heating can be stabilized by the arrangement of the heating balance column 302, the device can be uniformly heated, the stability of the device in working can be facilitated, the balance degree of the device can be enhanced, the flowing liquid state, the volume, the heating of the gaseous state medium can be heated, the heating power and the heating power are small, and the thermal insulation characteristics of heating power and the like are high.

In a preferred embodiment, the top of the hot cylinder housing 101 is fixedly provided with the hot cylinder front end 202 near the center, the top of the hot cylinder front end 202 is fixedly provided with the anti-blocking vent pipe 702 near one side, and one side of the hot cylinder front end 202 is fixedly provided with the heat passing regenerator pipe 801, so that the self-cleaning property of the heat passing regenerator pipe 801 is achieved by placing the heat passing regenerator pipe 801, and the heat exchange efficiency is high.

In a preferred embodiment, the anti-blocking vent pipe 702 has a plurality of equal-sized equidistant distributed at the top of the hot cylinder front end 202, and the anti-blocking vent pipe 702 has a plurality of equal-sized equidistant distributed at the top of the heat regenerator pipe 801, and the anti-blocking vent pipe 702 is a U-shaped pipe, so that the anti-blocking vent pipe 702 can be used for enabling air to circulate, stabilizing pressure, preventing water seal from damaging a pipeline which is arranged and communicated with the atmosphere, thereby being beneficial to improving working efficiency and enhancing safety of equipment.

In a preferred embodiment, the heat dissipation upper hole 601 has a plurality of equally large holes distributed on the top of the high temperature resistant preheater 301, and the heat dissipation lower hole 502 has a plurality of equally large holes distributed on the bottom of the high temperature resistant preheater 301, so that the heat dissipation lower hole 502 and the heat dissipation upper hole 601 can be used for dredging air, which is beneficial to air entering fluency and enhances working efficiency.

In a preferred embodiment, the bottom cavity 602 is formed in the bottom end 2 of the housing, so that the bottom cavity 602 can be used for storing equipment, protecting the equipment base, enhancing the stability of the equipment, reasonably utilizing the equipment space and saving resources.

In a preferred embodiment, the heating cavity column 7, the heating balance column 302, the heater 111, the fixing column 802 and the heater bottom end 222 are all on the same horizontal line, so that by placing the heating cavity column 7, the heating balance column 302, the heater 111, the fixing column 802 and the heater bottom end 222 on the same horizontal line, complex transportation is facilitated to be reduced in heating, the working speed of equipment is facilitated to be improved, and the working efficiency is improved to be faster and more convenient.

The working principle of the utility model is as follows: when the equipment is used, the equipment can be used for heating, preserving heat and heating flowing liquid and gaseous media through the placement of the heating cavity column 7, has the characteristics of small volume, high power and the like, can be used for discharging redundant gas through the placement of the heating exhaust port 6, so that the equipment is more stable, the service life of the equipment is prolonged, the working efficiency is accelerated, the safety and the stability of the equipment are enhanced, the placement of the high-temperature-resistant preheater 301 can be used for preheating air before entering a boiler to a heating surface with a certain temperature through the internal cooling fins, the heat exchange performance of the boiler is improved, the energy consumption is reduced, the placement of the anti-blocking vent pipe 702 can be used for enabling air to circulate, the pressure is stable, the pipeline which is arranged to be communicated with the atmosphere and is prevented from being broken by water seal is beneficial to the improvement of the working efficiency, the safety of the equipment is enhanced, the placement of the heat regenerator pipe 801 is adopted, the heat exchange device has the advantages of simple and compact structure, high heat exchange efficiency and the like, simultaneously, because cold and hot fluids alternately flow through the same flow channel space, solid phase substances deposited on the surface of a filler in a hot blowing period can be sublimated and taken away when cold gas passes through the heat regenerator pipe 801, the self-cleaning property of the heat regenerator pipe 801 is brought about, air can be dredged through the arrangement of the heat dissipation lower holes 502 and the heat dissipation upper holes 601, the air can be smoothly introduced, the working efficiency is enhanced, the heat exchange device has the advantages of small volume, high heating power, wide application range, long service life, high reliability and the like, the core of the heater principle is energy conversion, the most widely is that electric energy is converted into heat energy, the device can be fixed by the arrangement of the fixing column 802, the working efficiency of the device is enhanced, the stability of the device is enhanced, through placing of bottom inner chamber 602, can be used to storage device, be favorable to the protection to the equipment base, strengthen the stability of equipment, be favorable to the rational utilization equipment space, resources are saved, through the placing of heating balance post 302, can be used to stabilize the average heating, be favorable to equipment to be heated evenly, stability when being favorable to equipment to and strengthen the equilibrium degree of equipment, through the placing of heating die cavity post 7, can be used to the intensification of flowing liquid, gaseous medium, keep warm, heat, have characteristics such as small, power are big, through the placing that heating die cavity post 7, heating balance post 302, heater 111, fixed column 802 and heater bottom 222 are all in same horizontal line, be favorable to reducing complicated transport in the heating, be favorable to improving the operating speed of equipment, the strengthening efficiency makes the work more swiftly convenient.

Claims (8)

1. Anti-blocking expansion type heating die cavity comprises a high-temperature resistant shell (1), and is characterized in that: the top fixed mounting of high temperature resistant shell (1) has shell top (5), heating gas vent (6) have been seted up to the inside of shell top (5), the bottom fixed mounting of high temperature resistant shell (1) has shell bottom (2), air inlet (201) have been seted up to the inside of shell bottom (2), the inside of high temperature resistant shell (1) is close to central fixed mounting and has high temperature resistant pre-heater (301), the top of high temperature resistant pre-heater (301) is close to central fixed mounting and has heater shell (3), the top fixed mounting of heater shell (3) has detachable top end cover (4), the top of detachable top end cover (4) is close to central fixed mounting and has heating die cavity post (7), heating die cavity air groove (8) have been seted up to the inside of heating die cavity post (7), the bottom of high temperature resistant pre-heater (301) is close to central fixed mounting and has hot cylinder shell (101), hot cylinder air groove (102) have been seted up to the inside of hot cylinder shell (101).

2. An anti-clogging and expanding heated die cavity as recited in claim 1 wherein: the top of high temperature resistant pre-heater (301) has seted up heat dissipation upper hole (601), heat dissipation lower hole (502) have been seted up to the bottom of high temperature resistant pre-heater (301), pre-heater cavity (501) have been seted up to the inside of high temperature resistant pre-heater (301).

3. An anti-clogging and expanding heated die cavity as recited in claim 1 wherein: the top of heater shell (3) is close to the center and has seted up heating inner chamber (401), one side of heating die cavity post (7) is close to center fixed mounting has heating balance post (302), one side of heating die cavity post (7) is close to bottom fixed mounting has fixed column (802), one side fixed mounting of fixed column (802) has heater (111), heater recess (402) have been seted up near the center at the top of heater (111), the bottom fixed mounting of fixed column (802) has heater bottom (222).

4. An anti-clogging and expanding heated die cavity as recited in claim 1 wherein: the top of hot cylinder shell (101) is close to center fixed mounting and has hot cylinder front end (202), the top of hot cylinder front end (202) is close to one side fixed mounting and prevents blockking up breather pipe (702), one side fixed mounting of hot cylinder front end (202) has logical regenerator pipe (801).

5. An anti-clogging and expanding heated die cavity as recited in claim 4 wherein: the anti-blocking vent pipe (702) is provided with a plurality of equal-sized equidistant distribution at the top of the front end (202) of the hot cylinder, the anti-blocking vent pipe (702) is provided with a plurality of equal-sized equidistant distribution at the top of the heat regenerator pipe (801), and the anti-blocking vent pipe (702) is a U-shaped pipe.

6. An anti-clogging and expanding heated die cavity as recited in claim 2 wherein: the heat dissipation upper holes (601) are provided with a plurality of equal-sized equidistant holes which are distributed at the top of the high-temperature-resistant preheater (301), and the heat dissipation lower holes (502) are provided with a plurality of equal-sized equidistant holes which are distributed at the bottom of the high-temperature-resistant preheater (301).

7. An anti-clogging and expanding heated die cavity as recited in claim 1 wherein: the inside of shell bottom (2) has seted up bottom inner chamber (602).

8. A tamper resistant expandable heated mold cavity in accordance with claim 3, wherein: the heating die cavity column (7), the heating balance column (302), the heater (111), the fixing column (802) and the bottom end (222) of the heater are all positioned on the same horizontal line.