CN210193922U

CN210193922U - Oil cooling device of heat treatment furnace

Info

Publication number: CN210193922U
Application number: CN201920786439.XU
Authority: CN
Inventors: Jianming Qiu; 丘建明
Original assignee: SHENZHEN XIANLIDE HEATING TREATMENT CO LTD
Current assignee: SHENZHEN XIANLIDE HEATING TREATMENT CO LTD
Priority date: 2019-05-28
Filing date: 2019-05-28
Publication date: 2020-03-27
Anticipated expiration: 2029-05-28

Abstract

The utility model discloses an oil cooling device of a heat treatment furnace, which comprises a shell, an oil groove, an annular cavity, an oil outlet, an end cover, an oil suction pipe, an oil suction hole, a communicating pipe, a cooling cavity, a cooling liquid inlet joint, a cooling pipe, a spiral clapboard, a disk body, an output pipe, a circulating pump, an oil suction cavity, a cooling liquid outlet joint, a communicating hole and an input pipe; the utility model has the advantages of reasonable and simple structure, low production cost, convenient installation and complete functions, and ensures the long-time cooling effect of the cooling oil by circularly cooling the cooling oil in the oil groove; the inlet on the upper side of the input pipe in the utility model is positioned in the center of the inside of the oil suction cavity, so that the cooling oil at different positions around the oil groove can be simultaneously sucked and conveyed into the cooling cavity, and the overall cooling effect of the cooling oil is improved; the utility model discloses in the spiral baffle that sets up to improve the distance that the coolant oil flows greatly, just also ensured that the coolant oil passes through the refrigerated effect of cooling tube.

Description

Oil cooling device of heat treatment furnace

Technical Field

The utility model relates to the technical field of heat treatment, in particular to an oil cooling device of a heat treatment furnace.

Background

The heat treatment furnace is an industrial furnace for heat treatment of metal materials at rated temperature, the quality and performance of the heat treatment furnace are key for ensuring and improving the quality of heat treatment products, and the heat treatment furnace plays an important role in national economy; the development speed of foreign heat treatment furnaces is fast, the technical content of the foreign heat treatment furnaces is concentrated on 3E (Efficiency, environmental, Energy), namely, heat treatment equipment with high Efficiency, environmental protection and low Energy consumption is pursued, the purpose of rapid cooling is generally to take out heated materials and then carry out oil cooling, and the long-time cooling effect of the oil cooling device of the existing heat treatment furnace is poor, so that the heat treatment quality is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an oil cooling device of heat treatment furnace for solving the above-mentioned problem, the long-time cooling effect of the oil cooling device of having solved current heat treatment furnace is relatively poor to the problem of heat treatment quality has seriously been influenced.

In order to solve the above problem, the utility model provides a technical scheme: the oil cooling device of the heat treatment furnace has the innovation points that: the cooling device comprises a shell, an oil groove, an annular cavity, an oil outlet, an end cover, an oil suction pipe, an oil suction hole, a communicating pipe, a cooling cavity, a cooling liquid inlet joint, a cooling pipe, a spiral partition plate, a disk body, an output pipe, a circulating pump, an oil suction cavity, a cooling liquid outlet joint, a communicating hole and an input pipe; an oil groove is formed in the upper side of the shell, and a cooling cavity is formed in the lower side of the shell; the annular cavity is arranged in the inner wall of the periphery of the upper side of the shell, a plurality of oil outlets are uniformly arranged on the inner side of the annular cavity, and the periphery of the lower side of the annular cavity is communicated with the periphery of the inner outer side of the cooling cavity through a plurality of communicating pipes; the tray body is fixedly connected to the center of the bottom of the oil groove, and an oil suction cavity is arranged inside the tray body; a plurality of communicating holes are formed in the periphery of the outer side of the oil suction cavity; the oil suction pipes are provided with a plurality of oil suction holes, inlets at the lower sides of the oil suction pipes are respectively and fixedly connected to outlets at the outer sides of the corresponding communication holes, end covers are fixedly connected to openings at the upper sides of the oil suction pipes, and the periphery of the outer sides of the oil suction pipes is uniformly provided with the oil suction holes; the spiral partition plate is fixedly connected in the cooling cavity; the cooling pipe penetrates through the spiral partition plate and is fixedly connected into the cooling cavity, a cooling liquid inlet joint is fixedly connected to an inlet on the left side of the cooling pipe, and a cooling liquid outlet joint is fixedly connected to an outlet on the right side of the cooling pipe; the circulating pump is fixedly connected to the inside of the center of the lower side of the shell, an inlet on the upper side of the circulating pump is communicated with the center of the inside of the oil suction cavity through an input pipe, and an outlet on the lower side of the circulating pump is communicated with the center of the inside of the cooling cavity through an output pipe; the cooling liquid inlet joint is fixedly connected to the outer part of the left lower side of the shell; the cooling liquid outlet joint is fixedly connected to the outer portion of the right lower side of the shell.

Preferably, the oil suction pipes are vertically arranged.

Preferably, the communicating pipes are vertically arranged.

Preferably, the cooling tube is arranged in a serpentine shape.

Preferably, the outlet at the lower side of the output pipe is also positioned at the center of the spiral clapboard.

The utility model has the advantages that:

(1) the utility model has the advantages of reasonable and simple structure, low in production cost, simple to operate, it is multiple functional, carry out circulative cooling through the coolant oil to in the oil groove to the refrigerated effect of coolant oil long time has been ensured.

(2) The utility model provides an inlet pipe upside entry is located inhales the inside central authorities of oil chamber to can inhale simultaneously with different positions cooling oil all around in the oil groove and carry the cooling chamber, thereby improved the whole refrigerated effect of cooling oil.

(3) The utility model discloses in the spiral baffle that sets up to improve the distance that the coolant oil flows greatly, just also ensured that the coolant oil passes through the refrigerated effect of cooling tube.

(4) The utility model discloses in the annular chamber and the oil outlet that set up, then can be with the even oil groove of carrying of the coolant oil after the cooling to ensure the holistic temperature equilibrium of coolant oil, also just also improved the effect of using.

Drawings

For ease of illustration, the invention is described in detail by the following detailed description and accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a top view of a spiral separator plate.

1-a shell; 2-oil groove; 3-a ring cavity; 4-oil outlet holes; 5-end cover; 6-an oil suction pipe; 7-oil suction hole; 8-communicating pipe; 9-a cooling cavity; 10-coolant inlet joint; 11-a cooling tube; 12-a spiral separator; 13-a tray body; 14-an output pipe; 15-a circulation pump; 16-an oil suction chamber; 17-coolant outlet connection; 18-communicating holes; 19-input tube.

Detailed Description

As shown in fig. 1 and fig. 2, the following technical solutions are adopted in the present embodiment: an oil cooling device of a heat treatment furnace comprises a shell 1, an oil groove 2, an annular cavity 3, an oil outlet 4, an end cover 5, an oil suction pipe 6, an oil suction hole 7, a communicating pipe 8, a cooling cavity 9, a cooling liquid inlet joint 10, a cooling pipe 11, a spiral partition plate 12, a disc body 13, an output pipe 14, a circulating pump 15, an oil suction cavity 16, a cooling liquid outlet joint 17, a communicating hole 18 and an input pipe 19; an oil groove 2 is formed in the upper side of the shell 1, and a cooling cavity 9 is formed in the lower side of the shell 1; the annular cavity 3 is arranged in the inner wall of the periphery of the upper side of the shell 1, a plurality of oil outlets 4 are uniformly arranged on the inner side of the annular cavity 3, and the periphery of the lower side of the annular cavity 3 is communicated with the periphery of the outer side of the inner part of the cooling cavity 9 through a plurality of communicating pipes 8; the tray body 13 is fixedly connected to the center of the bottom of the oil groove 2, and an oil suction cavity 16 is arranged inside the tray body 13; a plurality of communicating holes 18 are formed in the periphery of the outer side of the oil suction cavity 16; the oil suction pipes 6 are provided with a plurality of inlets at the lower side of the oil suction pipes 6 and are respectively and fixedly connected with outlets at the outer sides of the corresponding communication holes 18, the openings at the upper sides of the oil suction pipes 6 are respectively and fixedly connected with the end covers 5, and the periphery of the outer side of the oil suction pipe 6 is uniformly provided with a plurality of oil suction holes 7; the spiral partition plate 12 is fixedly connected in the cooling cavity 9; the cooling pipe 11 is fixedly connected in the cooling cavity 9 through a spiral partition plate 12, a cooling liquid inlet joint 10 is fixedly connected at an inlet on the left side of the cooling pipe 11, and a cooling liquid outlet joint 17 is fixedly connected at an outlet on the right side of the cooling pipe 11; the circulating pump 15 is fixedly connected to the inside of the center of the lower side of the shell 1, an inlet on the upper side of the circulating pump 15 is communicated with the center of the inside of the oil suction cavity 16 through an input pipe 19, and an outlet on the lower side of the circulating pump 15 is communicated with the center of the inside of the cooling cavity 9 through an output pipe 14; the cooling liquid inlet joint 10 is fixedly connected to the outer part of the left lower side of the shell 1; the cooling liquid outlet joint 17 is fixedly connected to the outside of the lower right side of the shell 1.

Wherein the oil suction pipes 6 are vertically arranged; the communicating pipes 8 are vertically arranged; the cooling pipe 11 is arranged in a snake shape; the outlet on the lower side of the takeoff pipe 14 is also located at the center of the spiral partition 12.

The utility model discloses a user state does: the utility model has the advantages of reasonable and simple structure, low production cost, easy installation, multiple functions, when in use, firstly, the circulating pump 15 is started, thereby cooling oil in the oil groove 2 can be conveyed into the cooling cavity 9 to be cooled down through the cooling liquid flowing in the cooling pipe 11, and then the cooling oil is conveyed into the oil groove 2 through the communicating pipe 8, the annular cavity 3 and the oil outlet 4 in sequence, thereby ensuring the long-time cooling effect of the cooling oil, the inlet at the upper side of the input pipe 19 is positioned at the center inside the oil absorption cavity 16, thereby cooling oil at different positions around the oil groove 2 can be sucked and conveyed into the cooling cavity 9 at the same time, thereby improving the overall cooling effect of the cooling oil, and the spiral clapboard 12 is arranged, thereby greatly improving the flowing distance of the cooling oil, further ensuring the cooling effect of the cooling oil through the cooling pipe 11, and the annular cavity 3 and the oil outlet 4 are, the cooled cooling oil can be uniformly conveyed to the oil groove 2, so that the temperature balance of the whole cooling oil is ensured, and the use effect is improved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, which are only illustrative, but also various changes and modifications may be made without departing from the spirit and scope of the present invention, which fall within the scope of the present invention as claimed, which is defined by the appended claims and their equivalents.

Claims

1. An oil cooling device of a heat treatment furnace is characterized in that: the oil cooling device comprises a shell (1), an oil groove (2), an annular cavity (3), an oil outlet (4), an end cover (5), an oil suction pipe (6), an oil suction hole (7), a communicating pipe (8), a cooling cavity (9), a cooling liquid inlet joint (10), a cooling pipe (11), a spiral partition plate (12), a disc body (13), an output pipe (14), a circulating pump (15), an oil suction cavity (16), a cooling liquid outlet joint (17), a communication hole (18) and an input pipe (19);

an oil groove (2) is formed in the upper side of the shell (1), and a cooling cavity (9) is formed in the lower side of the shell (1);

the annular cavity (3) is arranged in the peripheral inner wall of the upper side of the shell (1), a plurality of oil outlets (4) are uniformly formed in the inner side of the annular cavity (3), and the periphery of the lower side of the annular cavity (3) is communicated with the periphery of the inner outer side of the cooling cavity (9) through a plurality of communicating pipes (8);

the tray body (13) is fixedly connected to the center of the bottom of the oil tank (2), and an oil suction cavity (16) is arranged inside the tray body (13);

a plurality of communicating holes (18) are formed in the periphery of the outer side of the oil suction cavity (16);

the oil suction pipes (6) are provided with a plurality of inlets at the lower side of the oil suction pipes (6) and are respectively and fixedly connected with outlets at the outer sides of the corresponding communication holes (18), the openings at the upper sides of the oil suction pipes (6) are all fixedly connected with end covers (5), and a plurality of oil suction holes (7) are uniformly arranged on the periphery of the outer side of the oil suction pipes (6);

the spiral partition plate (12) is fixedly connected in the cooling cavity (9);

the cooling pipe (11) penetrates through the spiral partition plate (12) and is fixedly connected into the cooling cavity (9), a cooling liquid inlet joint (10) is fixedly connected to the left inlet of the cooling pipe (11), and a cooling liquid outlet joint (17) is fixedly connected to the right outlet of the cooling pipe (11);

the circulating pump (15) is fixedly connected to the inside of the center of the lower side of the shell (1), an inlet on the upper side of the circulating pump (15) is communicated with the center of the inside of the oil suction cavity (16) through an input pipe (19), and an outlet on the lower side of the circulating pump (15) is communicated with the center of the inside of the cooling cavity (9) through an output pipe (14);

the cooling liquid inlet joint (10) is fixedly connected to the outer part of the left lower side of the shell (1);

and the cooling liquid outlet joint (17) is fixedly connected to the outer part of the right lower side of the shell (1).

2. The oil cooling device of a heat treatment furnace as claimed in claim 1, wherein: the oil suction pipes (6) are vertically arranged.

3. The oil cooling device of a heat treatment furnace as claimed in claim 1, wherein: the communicating pipes (8) are all vertically arranged.

4. The oil cooling device of a heat treatment furnace as claimed in claim 1, wherein: the cooling pipe (11) is arranged in a snake shape.

5. The oil cooling device of a heat treatment furnace as claimed in claim 1, wherein: the outlet at the lower side of the output pipe (14) is also positioned at the central position of the spiral clapboard (12).