CN203855610U - Heat treatment quenching device - Google Patents

Abstract

The utility model relates to a heat treatment quenching device. The heat treatment quenching device comprises a condensation tank, a water channel, a water outlet pipe and a water inlet pipe, wherein the water outlet pipe and the water inlet pipe are respectively arranged at the two sides of the water channel, one end of the water inlet pipe is communicated with the condensation tank, the other end of the water inlet pipe is inserted into the bottom of the water channel, one end of the water outlet pipe is communicated with the condensation tank, the other end of the water outlet pipe is arranged at the upper part of the side of the water channel, a water outlet hole which can communicate the water outlet pipe with the water channel is correspondingly formed in a joint of the water outlet pipe and the side of the water channel, a guide plate is arranged in the water channel close to the water inlet pipe, and a plurality of flow guiding holes are formed in the guide plate. The heat treatment quenching device adopts a condenser, so that cooling water can be cooled in a circulated manner; a multi-tube water inlet and water outlet manner is adopted, and the guide plate with the flow-guiding holes is additionally arranged in the water channel, so that fluctuation of water flow is increased, cooling efficiency is improved, and cooling effect is improved.

Description

Heat treatment quenching device

Technical field

The utility model relates to a kind of equipment for Heating Processing, particularly a kind of heat treatment quenching device.

Background technology

Thermal treatment is that metallic substance is placed on to heating in certain medium, insulation, cooling, by changing material surface or inner metallurgical structure, control a kind of metal working process of its performance, thermal treatment process comprises heating, insulation, cooling three processes, and quench, is method more conventional in process of cooling.

At present, existing heat treatment quenching device generally comprises cooling pool and cooling tower, by cooling tower, provide water coolant to cooling pool, the place of this hold facility is larger, invest also larger, and manufacture installation is also cumbersome, be unfavorable for the maintenance in later stage, and the cooling principle of existing heat treatment quenching device is generally to rely on naturally hitting of heat, realize the exchange of energy, the cooling performance of this mode is poor, and cooling efficiency is low, and part workpiece also can affect because local temperature is too high the quenching quality of workpiece.

Utility model content

The technical problems to be solved in the utility model is: in order to overcome the deficiencies in the prior art, provide a kind of simple in structure, the heat treatment quenching device that good cooling results and cooling efficiency are high.

The utility model solves the technical scheme that its technical problem adopts: a kind of heat treatment quenching device, comprise cooling cylinder, tank, rising pipe and water inlet pipe, described rising pipe and water inlet pipe lay respectively at tank both sides, described water inlet pipe one end is communicated with cooling cylinder, the other end of water inlet pipe stretches into bottom of gullet, described rising pipe one end is communicated with cooling cylinder, the rising pipe the other end is arranged on top, tank side, the corresponding posticum that can make rising pipe and tank be communicated with that is provided with in junction, side of described rising pipe and tank, in described tank, near water inlet pipe place, be provided with flow deflector, described flow deflector is provided with some pod apertures.

For constant feed trough provides water coolant, and the water coolant after using is recycled, thereby realize cooling water circulation utilization, in described cooling cylinder, be provided with water tank and condenser, described condenser is communicated with water tank, described rising pipe is communicated with condenser, and described water inlet pipe is communicated with water tank, and described water tank inside is provided with water pump.

In order to ensure enough water coolants, be provided in tank, the volume of water tank is greater than the volume of tank.

In order to increase cooling performance and to improve cooling efficiency,, described water inlet pipe and rising pipe all have three, three

Water inlet pipe is parallel to each other, and three rising pipes are parallel to each other, and the diameter of rising pipe and the equal diameters of water inlet pipe.

For water inlet in anti-water stopping trough, too much overflow, flooding quantity and aquifer yield are equated, water inlet pipe is parallel to each other, and three rising pipes are parallel to each other, and the diameter of rising pipe and the equal diameters of water inlet pipe.

In order to prevent water intake velocity to be greater than out water speed, make the water in tank overflow, on described flow deflector, the total area of the cross section of all pod apertures is greater than the cross section total area of three water inlet pipes.

In order to increase water conservancy diversion effect, to increase work efficiency, described flow deflector and flow deflector lower end vertical with tank bottom surface is connected with tank sealing bottom surface, and the height of flow deflector equates with tank height, and flow deflector two ends and tank two sides are tightly connected.

The beneficial effects of the utility model are: this heat treatment quenching device adopts condenser, makes water coolant can carry out circulating cooling, adopt multitube water inlet and water outlet, and in tank, set up the flow deflector with pod apertures, increase the fluctuation of current, increased cooling efficiency, improved cooling performance.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structural representation of the utility model heat treatment quenching device;

Fig. 2 is the internal structure schematic diagram of cooling cylinder of the present utility model;

In figure: 1. cooling cylinder, 2. tank, 3. rising pipe, 4. water inlet pipe, 5. flow deflector, 6. condenser, 7. water tank.

embodiment

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, basic structure of the present utility model is only described in a schematic way, so it only show the formation relevant with the utility model.

As depicted in figs. 1 and 2, a kind of heat treatment quenching device, comprise cooling cylinder 1, tank 2, rising pipe 4 and water inlet pipe 3, described rising pipe 4 and water inlet pipe 3 lay respectively at tank 2 both sides, described water inlet pipe 4 one end are communicated with cooling cylinder 1, the other end of water inlet pipe 4 stretches into tank 2 bottoms, described rising pipe 3 one end are communicated with cooling cylinder 1, rising pipe 3 the other ends are arranged on tank 2 tops, side, the corresponding posticum that can make rising pipe 3 and tank 2 be communicated with that is provided with in junction, side of described rising pipe 3 and tank 2, described tank 2 is interior is provided with flow deflector 5 near water inlet pipe 4 places, described flow deflector 5 is provided with some pod apertures.

For constant feed trough 2 provides water coolant, and the water coolant after using is recycled, thereby realize cooling water circulation utilization, in described cooling cylinder 1, be provided with water tank 7 and condenser 6, described condenser 6 is communicated with water tank 7, described rising pipe 3 is communicated with condenser 6, and described water inlet pipe 4 is communicated with water tank 7, and described water tank 7 inside are provided with water pump.

In order to ensure enough water coolants, be provided in tank 2, the volume of water tank 7 is greater than tank 2

Volume.

In order to increase cooling performance and to improve cooling efficiency, described water inlet pipe 4 and rising pipe 3 all have three,

Three water inlet pipes 4 are parallel to each other, and three rising pipes 3 are parallel to each other, and the equal diameters of the diameter of rising pipe 3 and water inlet pipe 4.

For the interior water inlet of anti-water stopping trough 2, too much overflow, flooding quantity and aquifer yield are equated, water inlet pipe 4 is parallel to each other, and three rising pipes 3 are parallel to each other, and the equal diameters of the diameter of rising pipe 3 and water inlet pipe 4.

In order to prevent water intake velocity to be greater than out water speed, make the water in tank 2 overflow, on described flow deflector 5, the total area of the cross section of all pod apertures is greater than the cross section total area of three water inlet pipes 4.

In order to increase water conservancy diversion effect, to increase work efficiency, described flow deflector 5 and flow deflector 5 lower ends vertical with tank 2 bottom surfaces are connected with tank 2 sealing bottom surfaces, and the height of flow deflector 5 highly equates with tank 2, water conservancy diversion

Plate 5 two ends and tank 2 two sides are tightly connected.

The water coolant that water tank is 7 li passes through water pump, via three water inlet pipes 4, enter in tank 2, because water coolant Shi San enters on road altogether, so the cooling-water flowing fluctuation in tank 2 can be larger, because tank 2 is provided with flow deflector 5, and flow deflector 5 is provided with some pod apertures, and the junction of flow deflector 5 and tank 2 is sealing, so when water coolant enter into tank 2 interior after, can the pod apertures from flow deflector 5 enter near in the tank 2 of rising pipe 3, because pod apertures has a lot, so just formed many current, enter in the tank 2 of opposite side, workpiece in this place's tank 2 is carried out to Cooling Quenching, when the water coolant water level in the tank 2 of opposite side exceeds posticum, water coolant will flow out along rising pipe 3, enter in condenser 6, 6 pairs of used water coolants of condenser carry out cooling, and then cooling good water coolant is transported in water tank 7, by water pump, squeezed in tank 2 again, form circulation.And in whole process, cooling-water flowing in tank 2 is many turnover simultaneously, increased the fluctuation of water coolant, the kinetic energy that is water coolant by a part of thermal power transfer and potential energy, improved cooling efficiency, and the whole current in tank 2 all go out the state of springing up, make workpiece quenching more even, improved the quality of product.

Compared with prior art, this heat treatment quenching device adopts condenser 6, makes water coolant can carry out circulating cooling, adopt multitube water inlet and water outlet, and in tank 2, set up the flow deflector 5 with pod apertures, increased the fluctuation of current, increase cooling efficiency, improved cooling performance.

The above-mentioned foundation desirable embodiment of the present utility model of take is enlightenment, and by above-mentioned description, relevant staff can, within not departing from the scope of this utility model technological thought, carry out various change and modification completely.The technical scope of this utility model is not limited to the content on specification sheets, must determine its technical scope according to claim scope.

Claims (6)

1. a heat treatment quenching device, it is characterized in that, comprise cooling cylinder (1), tank (2), rising pipe (3) and water inlet pipe (4), described rising pipe (3) and water inlet pipe (4) lay respectively at tank (2) both sides, described water inlet pipe (4) one end is communicated with cooling cylinder (1), the other end of water inlet pipe (4) stretches into tank (2) bottom, described rising pipe (3) one end is communicated with cooling cylinder (1), rising pipe (3) the other end is arranged on tank (2) top, side, the corresponding posticum that can make rising pipe (3) and tank (2) be communicated with that is provided with in junction, side of described rising pipe (3) and tank (2), in described tank (2), near water inlet pipe (4), locate to be provided with flow deflector (5), described flow deflector (5) is provided with some pod apertures.

2. heat treatment quenching device as claimed in claim 1, it is characterized in that, in described cooling cylinder (1), be provided with water tank (7) and condenser (6), described condenser (6) is communicated with water tank (7), described rising pipe (3) is communicated with condenser (6), described water inlet pipe (4) is communicated with water tank (7), and described water tank (7) inside is provided with water pump.

3. heat treatment quenching device as claimed in claim 2, is characterized in that, the volume of water tank (7) is greater than the volume of tank (2).

4. heat treatment quenching device as claimed in claim 1, it is characterized in that, described water inlet pipe (4) and rising pipe (3) all have three, and three water inlet pipes (4) are parallel to each other, three rising pipes (3) are parallel to each other, and the equal diameters of the diameter of rising pipe (3) and water inlet pipe (4).

5. heat treatment quenching device as claimed in claim 4, is characterized in that, the total area of the cross section of the upper all pod apertures of described flow deflector (5) is greater than the cross section total area of three water inlet pipes (4).

6. heat treatment quenching device as claimed in claim 1, it is characterized in that, described flow deflector (5) and flow deflector (5) lower end vertical with tank (2) bottom surface is connected with tank (2) sealing bottom surface, the height of flow deflector (5) highly equates with tank (2), and flow deflector (5) two ends and tank (2) two sides are tightly connected.