CN209276574U - A kind of potassium steel highly efficient cooling device - Google Patents

Abstract

The utility model relates to potassium steel highly efficient cooling devices, it can effectively solve contact with the bottom of pond of cooling bay after existing potassium steel enters cooling bay, the diffusion velocity that will lead to potassium steel bottom temp is slow, potassium steel heat is caused to be unevenly distributed, thus the problem of influencing the quality of potassium steel, its solve technical solution be, water inlet pipe is mounted on a side lower part of cooling bay, outlet pipe is mounted on another upper lateral part of cooling bay, sliding pond is vacantly provided in cooling bay, electric lifting pole is distributed with close to corner location in the bottom in sliding pond, bottom is equipped with interlayer in cooling bay, electric lifting pole is fixed on interlayer bottom surface and stretches out below interlayer to sliding pond, the classification that the utility model realizes potassium steel is cooling, improve the cooling effect of potassium steel, it is the innovation on potassium steel cooling device.

Description

A kind of potassium steel highly efficient cooling device

Technical field

The utility model relates to potassium steel production field, especially a kind of potassium steel highly efficient cooling device.

Background technique

Potassium steel refers to steel alloy of the manganese content 10% or more, is a kind of metal material high and wear-resisting with intensity, It is one of the material that modern people are commonly used, with the development of society, the horizontal continuous raising of people's lives, potassium steel Demand is also constantly increasing, people also constantly improve potassium steel production method, and potassium steel production process In, it is cooling with speed as soon as possible after potassium steel is heated to hot stage, so as to obtain single-phase body tissue when high temperature, remain to Room temperature, the method generallyd use are water quenchings, and people have also invented potassium steel cooling device according to water quenching, with the quick hair of science and technology Exhibition, the horizontal continuous raising of people's lives, requirement of the people for highly efficient cooling device is higher and higher, causes existing efficient Cooling device can not meet the requirement of people.

There are certain drawbacks in existing potassium steel cooling device, firstly, existing potassium steel is while cooling when in use It is cooled down frequently with classification, needs repeatedly to extract potassium steel, and existing cooling device extracts potassium steel inconvenience, also, existing Some potassium steel cooling devices generally use water circulation and maintain water temperature, control the cooling velocity of potassium steel, but its cooling velocity It is slow, finally, existing potassium steel can contact after entering cooling bay with the bottom of pond of cooling bay, it will lead to potassium steel bottom temp Diffusion velocity it is slow, cause potassium steel heat to be unevenly distributed, to influence the quality of potassium steel, be unsatisfactory for the use of people It is required that therefore, the problem of improvement and innovation of potassium steel cooling device are current urgent need to resolve.

Summary of the invention

For above situation, for the defect for solving the prior art, the purpose of the utility model is just to provide a kind of potassium steel Highly efficient cooling device can be solved effectively contact with the bottom of pond of cooling bay after existing potassium steel enters cooling bay, will lead to height The diffusion velocity of manganese steel bottom temp is slow, and potassium steel heat is caused to be unevenly distributed, to influence asking for the quality of potassium steel Topic.

The technical solution that the utility model solves is, including cooling bay, water inlet pipe and outlet pipe, water inlet pipe are mounted on cooling One side lower part in pond, outlet pipe are mounted on another upper lateral part of cooling bay, and sliding pond is vacantly provided in cooling bay, in sliding pond Bottom electric lifting pole is distributed with close to corner location, bottom is equipped with interlayer in cooling bay, and electric lifting pole is fixed on interlayer It on bottom surface and stretches out below interlayer to sliding pond, is fixedly installed with several groups agitating device on interlayer inner bottom surface, agitating device Interior tape stirring-head stretches out below interlayer to sliding pond, and controller, agitating device, electricity are embedded in the middle part of the cooling bay of rising pipe side Dynamic lifting column is connected with controller.

The classification that the utility model realizes potassium steel is cooling, improves the cooling effect of potassium steel, and be convenient for people Potassium steel after cooling is taken out, and the flowing of water can be accelerated, accelerates the diffusion of heat, accelerates the speed of potassium steel cooling, Finally, the integral heat sink of potassium steel can also be made more uniform, the quality of potassium steel is improved, is on potassium steel cooling device Innovation.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model.

Fig. 2 is the internal structure chart of the separation sleeve of the utility model.

Fig. 3 is the structure chart in the sliding pond of the utility model.

Fig. 4 is the structure chart of the bottom plate of the utility model.

In figure: 1, cooling bay；2, water inlet pipe；3, outlet pipe；4, pond is slided；5, electric lifting pole；6, interlayer；7, pedestal； 8, motor；9, speed reducer；10, separation sleeve；11, interior tape stirring-head；12, sliding shoe；13, pulley；14, outer steel；15, fixed Axis；16, live bearing；17, bottom plate；18, metal mesh；19, support column；20, controller；21, water temperature sensor.

Specific embodiment

Specific embodiment of the present utility model is described in further detail below in conjunction with attached drawing.

It is provided by Fig. 1-4, the utility model includes cooling bay, water inlet pipe and outlet pipe, and water inlet pipe 2 is mounted on cooling bay 1 A side lower part, outlet pipe 3 is mounted on another upper lateral part of cooling bay 1, and sliding pond 4 is vacantly provided in cooling bay 1, is being slided Electric lifting pole 5 is distributed with close to corner location in the bottom in pond 4, and bottom is equipped with interlayer 6 in cooling bay 1, and electric lifting pole 5 is fixed It on 6 bottom surface of interlayer and stretches out below interlayer 6 to sliding pond 4, is fixedly installed with several groups agitating device on 6 inner bottom surface of interlayer, The interior tape stirring-head 11 of agitating device stretches out below interlayer 6 to sliding pond 4, embedded with control in the middle part of the cooling bay 1 of 3 side of outlet pipe Device 20 processed, agitating device, electric lifting pole 5 are connected with controller 20.

In order to guarantee using effect, the agitating device includes pedestal 7, motor 8, speed reducer 9, separation sleeve 10 and interior magnetic With stirring-head 11, it is fixedly installed with motor 8 and speed reducer 9 on pedestal 7, the output shaft of motor 8 is connected with the input shaft of speed reducer 9 It connects, separation sleeve 10 is installed through bolt on the output shaft of speed reducer 9, the upper end of separation sleeve 10 is equipped with interior tape stirring-head 11, electricity Machine 8 and speed reducer 9 are connected with controller 20.

The inside two sides of the cooling bay 1 offer two groups of sliding grooves, and the both ends in sliding pond 4 are fixedly mounted There are two groups of sliding shoes 12, pulley 13 is housed on sliding shoe 12, four groups of sliding shoes 12 are respectively placed in four groups of sliding grooves through pulley 13, The friction between sliding pond 4 and cooling bay 1 can be reduced.

Outer steel 14 and fixing axle 15 are provided in the separation sleeve 10, and outer steel 14 is located at the upper of fixing axle 15 It is square, live bearing 16 is installed in fixing axle 15, interior tape stirring-head 11 is set on live bearing 16.

The lower end in the sliding pond 4 is welded with bottom plate 17, and bottom plate 17 is equipped with several through-holes to differ in size, in through-hole Equipped with metal mesh 18, water flow can cool down potassium steel, on bottom plate 17 by the lower end in contact of metal mesh 18 and potassium steel It is welded with the not contour support column 19 of several groups.

The controller 20 is singlechip controller or PLC programmable logic controller (PLC), is equipped with behaviour on controller 20 Make panel, the operation of entire cooling device is controlled by operation panel.

The inner bottom surface middle position of the cooling bay 1 is equipped with water temperature sensor 21, water temperature sensor 21 and controller 20 are connected, and are able to detect the water temperature of the cooling water inside cooling bay 1, and the outer wall of cooling bay 1 is equipped with power interface, and power supply connects Mouth connects extraneous power supply and is powered to entire cooling device.

The model Y-160M of the motor 8.

The service condition of the utility model is, in use, first by the water inlet pipe 2 of 1 two sides of cooling bay and outlet pipe 3 with Water pump connection, then sets the operation journey of entire highly efficient cooling device by the operation panel of the controller of 1 side of cooling bay Then sequence starts potassium steel highly efficient cooling device, the motor 8 inside interlayer 6, which is powered, to be run, the model Y-160M of motor 8, electricity The output shaft of machine 8 drives speed reducer 9 to run, and speed reducer 9 drives the outer steel 14 inside separation sleeve 10 to run after slowing down, outer steel 14 magnetic force can drive interior tape stirring-head 11 to rotate, and the interior rotation of tape stirring-head 11 drives water flow rotation, to accelerate water flow Flowing, then by potassium steel be sent into sliding pond 4 in, water flow can with the appearance face contact of potassium steel, quickly reduce potassium steel in The temperature in portion, then interior tape stirring-head 11 quickly sees the hot water stream on potassium steel periphery off, accelerates the diffusion of heat, accelerates high The speed of manganese steel cooling, improves the wear-resistant ability of high manganese steel material.

In cooling procedure, potassium steel is placed on inside sliding pond 4, the lifting of electric lifting pole 5 drives about 4 pond of sliding to transport It is dynamic, so that potassium steel repeatedly passes in and out the water surface, to realize that the classification of potassium steel is cooling, to improve the cooling effect of potassium steel Fruit, and can also facilitate after cooling down people take out potassium steel, it is more convenient, moreover, potassium steel through apparatus for supercooling low temperature at Carbide dispersion degree is higher in carbide and work the analysis tissue that carbon precipitation is precipitated in austenite after reason, in heating and insulating process It can occur the process of spheroidizing, austenite is substantially distributed with the second phase point of granular carbide of disperse, and such tissue is to mentioning The ability of high material shock resistance grinding abrasion is to improve wearability.

When potassium steel is cooling in sliding pond 4, slides and be provided with several groups support column 19 inside pond 4, and several groups branch The height of dagger 19 is inconsistent, and only sub-fraction is contacted with support column 19 after potassium steel enters sliding 4 inside of pond, and bottom plate Metal mesh 18 is opened up on 17, water flow can pass through metal mesh 18 and contact with potassium steel, so that making the top and bottom of potassium steel has Water flow is passed through, and enables to the integral heat sink of potassium steel more uniform, improves the quality of potassium steel, and entire potassium steel is high The relatively simple for structure of cooling device is imitated, easy to operate, using effect is more preferable relative to traditional approach, and the use for meeting people is wanted It asks, it is more practical.

Basic principles, main features, and advantages of the present invention has been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Only illustrate the principles of the present invention, on the premise of not departing from the spirit and scope of the utility model, the utility model is also It will have various changes and improvements, these various changes and improvements fall within the scope of the claimed invention.The utility model Claimed range is defined by the appending claims and its equivalent thereof.

Compared with prior art, the utility model has the advantage that

1, by the electric lifting pole of setting and sliding pond, when cooling, potassium steel is placed on inside sliding pond, it is cooled Electric lifting pole lifting is able to drive sliding pond and moves up and down in journey, so that potassium steel repeatedly passes in and out the water surface, to realize The classification of potassium steel is cooling, to improve the cooling effect of potassium steel, and takes out potassium steel convenient for people, more convenient；

2, by the agitating device of setting, agitating device uses electromagnetic agitation, can accelerate the flowing of water, quickly by Gao Meng The hot water on steel periphery is seen off, and the diffusion of heat is accelerated, to accelerate the speed of potassium steel cooling, improves the wear-resistant of high manganese steel material The ability of damage；

3, by the support column of setting, the height of support column is inconsistent, and potassium steel enters only one small behind sliding pond inside Part is contacted with support column, and metal mesh has been opened up on bottom plate, and water flow can pass through metal mesh and contact with potassium steel, to make There are water flow process in the top and bottom of potassium steel, enable to the integral heat sink of potassium steel more uniform, improve the matter of potassium steel Amount, and entire potassium steel highly efficient cooling device is relatively simple for structure, it is easy to operate, using effect relative to traditional approach more It is good, meet the requirement of people, it is practical, there is good economic and social benefit.

Claims (8)

1. a kind of potassium steel highly efficient cooling device, including cooling bay, water inlet pipe and outlet pipe, which is characterized in that water inlet pipe (2) peace Mounted in a side lower part of cooling bay (1), outlet pipe (3) is mounted on another upper lateral part of cooling bay (1), hanging in cooling bay (1) It is provided with sliding pond (4), is distributed with electric lifting pole (5) in the bottom of sliding pond (4) close to corner location, in cooling bay (1) Bottom is equipped with interlayer (6), and electric lifting pole (5) is fixed on interlayer (6) bottom surface and stretches out below interlayer (6) to sliding pond (4), Several groups agitating device is fixedly installed on interlayer (6) inner bottom surface, the interior tape stirring-head (11) of agitating device stretches out interlayer (6) To sliding pond (4), controller (20) are embedded in the middle part of the cooling bay (1) of outlet pipe (3) side, agitating device, electric up-down Column (5) is connected with controller (20).

2. potassium steel highly efficient cooling device according to claim 1, which is characterized in that the agitating device includes pedestal (7), motor (8), speed reducer (9), separation sleeve (10) and interior tape stirring-head (11) are fixedly installed with motor (8) on pedestal (7) It is connected with the output shaft of speed reducer (9), motor (8) with the input shaft of speed reducer (9), through spiral shell on the output shaft of speed reducer (9) Bolt is equipped with separation sleeve (10), and the upper end of separation sleeve (10) is equipped with interior tape stirring-head (11), and motor (8) and speed reducer (9) are equal It is connected with controller (20).

3. potassium steel highly efficient cooling device according to claim 1, which is characterized in that the inside of the cooling bay (1) Two sides offer two groups of sliding grooves, and the both ends of sliding pond (4) are fixedly installed with two groups of sliding shoes (12), sliding shoe (12) pulley (13) are housed on, four groups of sliding shoes (12) are respectively placed in four groups of sliding grooves through pulley (13).

4. potassium steel highly efficient cooling device according to claim 2, which is characterized in that setting in the separation sleeve (10) There are outer steel (14) and fixing axle (15), and outer steel (14) is located at the top of fixing axle (15), fixing axle is equipped on (15) Live bearing (16) is set with interior tape stirring-head (11) on live bearing (16).

5. potassium steel highly efficient cooling device according to claim 1, which is characterized in that the lower end in the sliding pond (4) It is welded with bottom plate (17), bottom plate (17) is equipped with several through-holes to differ in size, and through-hole is provided with metal mesh (18), and water flow can By the lower end in contact of metal mesh (18) and potassium steel, potassium steel is cooled down, bottom plate is welded with several groups etc. on (17) High support column (19).

6. potassium steel highly efficient cooling device according to claim 1, which is characterized in that the controller (20) is monolithic Machine controller or PLC programmable logic controller (PLC), controller are equipped with operation panel on (20).

7. potassium steel highly efficient cooling device according to claim 1, which is characterized in that the interior bottom of the cooling bay (1) Face middle position is equipped with water temperature sensor (21), and water temperature sensor (21) is connected with controller (20), outside cooling bay (1) Wall is equipped with power interface, and power interface connects extraneous power supply.

8. potassium steel highly efficient cooling device according to claim 2, which is characterized in that the model of the motor (8) Y-160M。