CN210065846U - Decompression quenching device - Google Patents

Abstract

The utility model provides a decompression quenching device, which comprises a furnace body, a heating chamber, a cooling chamber, a pedestal, an aerating device and an aerating device, wherein the upper end inside the furnace body is the heating chamber, the right side of the heating chamber is communicated with the aerating device through a gas pipeline, the upper end of the heating chamber is provided with a feed opening, a leakage-proof plug is fixed on the feed opening, a tray is arranged in the heating chamber, the lower end of the heating chamber is a lifting groove, a lifting motor is arranged in the lifting groove, the front end of the lifting motor is provided with a lifting wheel, the lifting wheel is rotationally connected with a glancing object, the lower end of the heating chamber is a cooling chamber, the cooling chamber is provided with a cooling tray, the cooling tray is in sliding connection with the cooling chamber, the left side of the cooling chamber is communicated with the aerating device through a gas pipe, the front end of the cooling chamber is provided with a gas outlet, the upper end of the drying device is provided with the drying spray holes, and the device is convenient to use, energy-saving, environment-friendly and high in working efficiency. The utility model provides a decompression quenching device, which comprises a furnace body, a heating chamber, a cooling chamber, a pedestal, an aerating device and an aerating device, wherein the upper end inside the furnace body is the heating chamber, the right side of the heating chamber is communicated with the aerating device through a gas pipeline, the upper end of the heating chamber is provided with a feed opening, a leakage-proof plug is fixed on the feed opening, a tray is arranged in the heating chamber, the lower end of the heating chamber is a lifting groove, a lifting motor is arranged in the lifting groove, the front end of the lifting motor is provided with a lifting wheel, the lifting wheel is rotationally connected with a glancing object, the lower end of the heating chamber is a cooling chamber, the cooling chamber is provided with a cooling tray, the cooling tray is in sliding connection with the cooling chamber, the left side of the cooling chamber is communicated with the aerating device through a gas pipe, the front end of the cooling chamber is provided with a gas outlet, the upper end of the drying device is provided with the drying spray holes, and the device is convenient to use, energy-saving, environment-friendly and high in working efficiency.

Description

Decompression quenching device

Technical Field

The utility model relates to the field of machining, in particular to a decompression quenching device.

Background

Vacuum quenching refers to the smooth quenching of parts. The quenching and cooling of the parts are carried out in a vacuum furnace, and the quenching medium mainly comprises gas (such as inert gas), water, vacuum quenching oil and the like. Vacuum quenching has been widely applied to quenching of various carburized steels, alloy tool steels, high speed steels and stainless steels, and solution treatment of various aging alloys and hard magnetic alloys.

Most of the existing vacuum quenching devices are inconvenient to use, gas serving as a medium is wasted after the vacuum quenching devices are used, meanwhile, the existing vacuum quenching devices are not classified to process, the condition that the quenching efficiency is low is easily caused, and meanwhile, the sealing performance is not completely guaranteed between the classification processing and the hard quenching effect is achieved.

SUMMERY OF THE UTILITY MODEL

The technical problem solved by the utility model is to provide a decompression quenching device to solve the problems provided in the background technology.

The utility model provides a technical problem adopt following technical scheme to realize:

a decompression quenching device comprises a furnace body, a heating chamber, a cooling chamber, a base, an aerating device and an aerating device, wherein the upper end inside the furnace body is provided with the heating chamber, the right side of the heating chamber is communicated with the aerating device through a gas pipeline, the upper end of the heating chamber is provided with a feed opening, a leakproof plug is fixed on the feed opening, a tray is arranged in the heating chamber, a hollow hole is formed in the middle of the tray, the lower ends of two sides of the tray are fixedly connected with a rotary block, the lower end of the rotary block is fixedly connected with a rotary column, the lower end of the heating chamber is provided with a lifting groove, a lifting motor is arranged in the lifting groove, the front end of the lifting motor is provided with a lifting wheel, the lifting wheel is rotatably connected with a mysterious feeling, the lower end of the heating chamber is provided with the cooling tray, the cooling tray is slidably connected with the cooling chamber, the left side of the, the gas outlet is communicated with a right air pump, the gas outlet is arranged on the right side of the air pump, the base is arranged at the lower end of the furnace body, a spiral motor is arranged in the middle of the base, drying devices are arranged on two sides of the spiral motor, and drying spray holes are formed in the upper end of the drying devices.

The upper end of the spiral motor is fixedly connected with the spiral groove, the two sides of the cooling tray are slidably connected with the cooling chamber sliding groove, the lower end of the cooling tray is provided with a spiral column, and the lower end of the spiral column is arranged in the spiral groove.

The middle of the tray is provided with a hollow part, the lower end of the hollow part is provided with a rotating plate, the rotating plate is rotatably connected with the tray through a rotating plate shaft, the lower end of the rotating plate shaft is provided with a rotating plate gear, the lower end of the tray is provided with a rotating plate motor, the front end of the rotating plate motor is connected with one special gear, and grooves among the rotating plate gears are mutually clamped.

The upper end of the rotating plate is provided with a metal wire, the lower end of the rotating plate is provided with a sealing plate, and the sealing plates are connected in a sealing way.

Compared with the prior art, the beneficial effects of the utility model are that:

the lower end of the cooling chamber is provided with a gas recovery tank, and the left side of the gas recovery tank is communicated with the gas pump, so that unused gas can be recovered, energy consumption is reduced, and the cooling chamber is energy-saving and environment-friendly.

The middle of the tray is provided with a hollow part, the lower end of the hollow part is provided with a rotating plate, the rotating plate is rotatably connected with the tray through a rotating plate shaft, the lower end of the rotating plate shaft is provided with a rotating plate gear, the lower end of the tray is provided with a rotating plate motor, the front end of the rotating plate motor is connected with one special gear, grooves among the rotating plate gears are clamped, materials can be conveniently subjected to grading treatment when being heated, the use is convenient, meanwhile, the rotating plate can be isolated and sealed, and gas heat in a heating chamber is prevented from entering a cooling chamber.

The device carries out quenching work in two layers, and the upper end is heated and the lower end is cooled, so that the quenching effect can be fully ensured, and the working efficiency is high.

The tray and the cooling tray can move up and down to fully ensure the quenching effect and ensure that the material is quenched at various angles.

The upper end of the rotating plate is provided with a metal wire, the lower end of the rotating plate is provided with a sealing plate, the sealing plates are connected in a sealing manner, and all parts of the material are fully heated.

Drawings

FIG. 1 is a block diagram of the present invention;

fig. 2 is a structural view of the tray of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the specific drawings.

As shown in FIGS. 1-2,

example 1

A decompression quenching device comprises a furnace body 1, a heating chamber 2, a cooling chamber 3, a base 4, an aerating device 5 and an aerating device 6, wherein the upper end inside the furnace body 1 is the heating chamber 2, the right side of the heating chamber 2 is communicated with the aerating device 5 through a gas pipeline 61, the upper end of the heating chamber 2 is provided with a feed opening, a leakproof plug 24 is fixed on the feed opening, a tray 23 is arranged in the heating chamber 2, the middle of the tray 23 is provided with a hollow hole 232, the lower ends of two sides of the tray 23 are fixedly connected with a rotary block, the lower end of the rotary block is fixedly connected with a rotary column 231, the lower end of the heating chamber 2 is a lifting groove 21, a lifting motor 22 is arranged in the lifting groove 21, the front end of the lifting motor 22 is provided with a lifting wheel, the lifting wheel is rotatably connected with a glancing 231, the lower end of the heating chamber 2 is the cooling chamber 3, the cooling chamber 3 is, the lower extreme of cooling chamber 3 is equipped with gas recovery groove 64, and gas recovery groove 64 left side and air pump 63 intercommunication, and the 3 front ends in cooling chamber are equipped with the venthole, and the gas outlet communicates with right side air pump 7, and air pump 7 right side is equipped with gas outlet 73, and base 4 establishes at the furnace body 1 lower extreme, and the centre is equipped with screw motor 42 in base 4, and screw motor 42 both sides are equipped with drying device 41, and drying device 41 upper end is equipped with dry orifice 411.

Example 2

The difference between this embodiment and embodiment 1 is that the upper end of the spiral motor 42 is fixedly connected with the spiral groove 421, two sides of the cooling tray 31 are slidably connected with the cooling chamber chute 33, the lower end of the cooling tray 31 is provided with a spiral column 32, and the lower end of the spiral column 32 is arranged in the spiral groove 421.

When the screw motor starts to operate, the spiral groove 421 rotates to drive the cooling tray to move up and down.

Example 3

The difference between this embodiment and embodiment 1 is that, as shown in fig. 2, a hollow 232 is provided in the middle of the tray 23, a rotating plate 233 is provided at the lower end of the hollow, the rotating plate is rotatably connected to the tray 23 through a rotating plate shaft, a rotating plate gear 234 is provided at the lower end of the rotating plate shaft, a rotating plate motor 236 is provided at the lower end of the tray 23, the front end of the rotating plate motor 236 is connected to one of the special plate gears 234, and the rotating plate gears 234 are engaged with each other via grooves.

Example 4

The upper end of the rotating plate 233 is provided with a metal wire, and the lower end is provided with a sealing plate which is connected in a sealing way.

Before use, the inside of the device is dried through the drying spray holes 411 at the upper end of the drying device 41, then the inside gas is pumped by the air pump 7, when the device is used, materials are placed on the tray from the feed opening and are heated in the heating chamber 2, the corresponding gas is placed and flushed into the heating chamber 2 by the air charging device 5, after the heating is completed, the rotating plate 233 is opened, the materials fall to the upper end of the cooling tray 31, the gas needed by cooling is input into the gas charging device at the right side of the cooling chamber 3 to cool the materials, after the cooling is completed, the cooling tray moves downwards, the drying spray holes are dried, and finally the medium gas is recovered by the air pump 63 through the gas recovery tank 64 and is sent into the gas charging device 6.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a decompression guenching unit, includes furnace body, heating chamber, cooling chamber, base, aerating device and air entrainment device, its characterized in that: the upper end of the interior of the furnace body is provided with a heating chamber, the right side of the heating chamber is communicated with an inflating device through a gas pipeline, the upper end of the heating chamber is provided with a feed opening, a leakproof plug is fixed on the feed opening, a tray is arranged in the heating chamber, a hollow hole is arranged in the middle of the tray, the lower ends of two sides of the tray are fixedly connected with a rotary block, the lower end of the rotary block is fixedly connected with a rotary column, the lower end of the heating chamber is a lifting groove, a lifting motor is arranged in the lifting groove, the front end of the lifting motor is provided with a lifting wheel which is rotationally connected with a glancing object, the lower end of the heating chamber is a cooling chamber, the cooling chamber is provided with a cooling tray which is slidably connected with the cooling chamber, the left side of the cooling chamber is communicated with the inflating device through a gas pipe, the lower end of the cooling chamber is provided with, the middle of the base is provided with a spiral motor, two sides of the spiral motor are provided with drying devices, and the upper ends of the drying devices are provided with drying spray holes.

2. The reduced pressure quenching apparatus according to claim 1, wherein: the upper end of the spiral motor is fixedly connected with the spiral groove, the two sides of the cooling tray are slidably connected with the cooling chamber sliding groove, the lower end of the cooling tray is provided with a spiral column, and the lower end of the spiral column is arranged in the spiral groove.

3. The reduced pressure quenching apparatus according to claim 1, wherein: the middle of the tray is provided with a hollow part, the lower end of the hollow part is provided with a rotating plate, the rotating plate is rotatably connected with the tray through a rotating plate shaft, the lower end of the rotating plate shaft is provided with a rotating plate gear, the lower end of the tray is provided with a rotating plate motor, the front end of the rotating plate motor is connected with one special gear, and grooves among the rotating plate gears are mutually clamped.

4. The reduced pressure quenching apparatus according to claim 1, wherein: the upper end of the rotating plate is provided with a metal wire, the lower end of the rotating plate is provided with a sealing plate, and the sealing plates are connected in a sealing way.

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