CN101979675A

CN101979675A - Jet cooling device for heat treatment furnace

Info

Publication number: CN101979675A
Application number: CN 201010562045
Authority: CN
Inventors: 郑秀凤; 徐芳; 蒋岳明
Original assignee: SUZHOU ZHONGMENZI TECHNOLOGY Co Ltd
Current assignee: SUZHOU ZHONGMENZI TECHNOLOGY Co Ltd
Priority date: 2010-11-29
Filing date: 2010-11-29
Publication date: 2011-02-23
Anticipated expiration: 2030-11-29
Also published as: CN101979675B

Abstract

The invention discloses a jet cooling device for a heat treatment furnace. The jet cooling device comprises a circulating fan, an air-cooling chamber, a bearing table, a heat exchanger, an air jet body and a first passage, wherein the circulating fan is provided with an air inlet and an air outlet; the upper part of the air-cooling chamber is communicated with the air inlet of the circulating fan; the bearing table is arranged inside the air-cooling chamber and is used for bearing a workpiece; the heat exchanger is arranged inside the air-cooling chamber and is positioned above the bearing table; the air jet body is arranged inside the air-cooling chamber; two ends of the first passage are respectively communicated with the air outlet of the circulating fan and the air jet body; a plurality of air jet holes facing the bearing table are formed on the air jet body; and the distribution density of the air jet holes is gradually reduced from a feeding end to a discharging end. The jet cooling device has large air jet quantity at the feeding end and can improve the cooling speed of a front section of the workpiece.

Description

Heat treatment furnace jet flow refrigerating unit

Technical field

The present invention relates to a kind of heat treatment furnace jet flow refrigerating unit.

Background technology

Existing heat treatment furnace " is managed bar high strength jet flow refrigerating unit " with the jet flow refrigerating unit referring to Chinese patent literature; publication number: ZL200920095852.8; this refrigerating unit comprises recirculation blower and is arranged on the heat exchanger of recirculation blower below; the air outlet left and right sides at recirculation blower is respectively arranged with lower channel; spray a large amount of high speed protective atmospheres from last lower channel workpiece is cooled off, can realize workpiece is sprayed wind up and down.Can not realize the leading portion requirement higher of workpiece to speed of cooling according to the jet flow refrigerating unit of this patent working.

Summary of the invention

Technical problem to be solved by this invention provides the fast heat treatment furnace of a kind of workpiece leading portion speed of cooling jet flow refrigerating unit.

For solving above technical problem, the present invention adopts following technical scheme:

A kind of heat treatment furnace jet flow refrigerating unit, it comprises the recirculation blower with blast inlet and air outlet, the air-cooling chamber that top is connected with the blast inlet of recirculation blower, be arranged on the plummer that is used for place work piece in the air-cooling chamber, be arranged on the heat exchanger that is positioned at the plummer top in the air-cooling chamber, be arranged on the first channel that interior spray wind body of air-cooling chamber and two ends are connected with the air outlet and the spray wind body of recirculation blower respectively, the length bearing of trend of spray wind body is consistent with the length bearing of trend of plummer, offer a plurality of spray wind holes on the spray wind body towards plummer, spray wind body is divided into a plurality of spray wind zone of arranging along its length direction, and the distribution density in the spray wind hole in a plurality of spray wind zone of spray wind body is successively decreased towards the direction of discharge end successively from feed end.

According to a concrete aspect of the present invention, arrangements of embarking on journey of the spray wind hole in the spray wind zone of each spray wind body, the spacing between the two adjacent spray wind holes during each is capable is equal.Stagger mutually between the spray wind hole of adjacent two row in the spray wind zone of each spray wind body.

According to another concrete aspect of the present invention, spray wind body comprises that lower plate, lid are located at the upper plate on the lower plate, and spray wind hole is opened on the lower plate, and spray wind body also has and is positioned at both sides and a plurality of return air channels that distribute along the length direction of lower plate.Preferably, the direction of axis line of return air channel and the angle between the vertical direction are between 0 °～45 °, and the angle of a plurality of return air channels can be identical or different.Preferably, the direction of axis line of the return air channel of close feed end and the angle between the vertical direction are less than the direction of axis line of the return air channel of close discharge end and the angle between the vertical direction.Most preferably, the direction of axis line and the angle between the vertical direction of the return air channel of close feed end are 0 °, and the direction of axis line and the angle between the vertical direction of the return air channel of close discharge end are 45 °.

According to the present invention, the jet flow refrigerating unit also further comprises the second passage that two ends communicate with the bottom of the air outlet of recirculation blower and air-cooling chamber respectively, offers a plurality of through holes that are connected with second passage on the plummer.Preferably, plummer also is divided into a plurality of spray wind zone of arranging along its length direction, and the distribution density of the through hole in a plurality of spray wind zone of plummer is successively decreased towards the direction of discharge end successively from feed end.Arrangements of embarking on journey of through hole in each spray wind zone of plummer, the spacing between the two adjacent through holes in each row is equal, staggers mutually between the adjacent two capable through holes.

Owing to take above technical scheme, the present invention compared with prior art has following characteristics:

The distribution density that spray wind body of the present invention has a spray wind hole from feed end towards a plurality of spray wind zone that the direction of discharge end is successively decreased successively, at air quantity one regularly, the spray air quantity maximum in the spray wind zone of close feed end, cooling performance is best, thereby workpiece one enters in the air-cooling chamber, and its leading portion is promptly cooled off rapidly.The present invention is particularly suitable for the cooling through the tubular workpiece after the heat treatment furnace processing.

Description of drawings

The present invention will be further described in detail below in conjunction with accompanying drawing and concrete embodiment:

Fig. 1 looks synoptic diagram for heat treatment furnace according to the present invention with the master of jet flow refrigerating unit;

Fig. 2 is the schematic top plan view according to plummer of the present invention;

Fig. 3 is according to the schematic top plan view of spray wind body of the present invention after removing its upper plate;

Fig. 4 is the structural representation after removing its local upper plate according to spray wind body of the present invention.

Wherein: 1, air-cooling chamber; 2, recirculation blower; 21, blast inlet; 22, air outlet; 3, spray wind body; 31, spray wind hole; 32,82, spray wind zone; 33, lower plate; 34, upper plate; 35, return air channel; 4, first channel; 5, second passage; 6, heat exchanger; 7, conveying belt; 8, plummer; 81, through hole; 9, water wall; 10, lower air chamber; 11, control air-valve.

Embodiment

As shown in Figures 1 to 3, the heat treatment furnace according to present embodiment comprises the recirculation blower 2 with blast inlet 21 and air outlet 22 with the jet flow refrigerating unit, the air-cooling chamber 1 that top is connected with the blast inlet 21 of recirculation blower 2, be arranged on the plummer 8 that is used for place work piece in the air-cooling chamber 1, be arranged on the heat exchanger 6 that is positioned at plummer 8 tops in the air-cooling chamber 1, be arranged on the spray wind body 3 that is positioned at plummer 8 tops in the air-cooling chamber 1, the first channel 4 that two ends are connected with the air outlet 22 and the spray wind body 3 of recirculation blower 2 respectively, the second passage 5 that two ends are connected with the bottom of the air outlet 22 of recirculation blower 2 and air-cooling chamber 1 respectively.

Plummer 8 is divided into two spaces up and down with air-cooling chamber 1, which is provided with the conveying belt 7 that is driven by actuating unit and moves (figure arrow direction be workpiece travel direction) from feed end to discharge end in order to drive workpiece.Spray wind body 3 and second passage 5 lay respectively in the upper space and lower space of air-cooling chamber 1, and the workpiece through plummer 8 is sprayed air cooling.As shown in Figure 2, plummer 8 is divided into a plurality of spray wind zone 82 from the feed end direction towards the discharge end direction.Each sprays and is equipped with a plurality of through holes 81 that are communicated with second passage 5 in the wind zone 82, and the density of the through hole 81 in a plurality of spray wind zone 82 is successively decreased towards the discharge end direction gradually from feed end, also promptly near the spray air quantity maximum in the spray wind zone of feed end, and near the spray air quantity minimum in the spray wind zone of discharge end.Wind comes out from recirculation blower 2, through behind the second passage 5, sprays to the bottom of workpiece from the through hole 81 of plummer 8, and the bottom of workpiece is directly cooled off.

Referring to Fig. 3 and Fig. 4, spray wind body 3 comprises that lower plate 33, lid are located at upper plate 34 on the lower plate 33, are opened in a plurality of on the lower plate 33 spray wind hole 31 and having towards plummer 8 and are positioned at both sides and a plurality of return air channels 35 that distribute along the length direction of described lower plate 33.Carry the wind of coming to be ejected into the top of workpiece downwards from spray wind hole 31 from first channel 4, afterwards, come back to the upper space of air-cooling chamber 1 with hot blast after the workpiece generation heat exchange from the return air channel 35 of both sides, after over-heat-exchanger 6 heat exchange, be converted to cold wind and enter recirculation blower 2.Spray wind body 3 is divided into a plurality of spray wind zone 32 of arranging along its length direction, the arrangement of embarking on journey of spray wind holes 31 in the spray wind zone 32 of each spray wind body 3, spacing between the two adjacent spray wind holes 31 in each row equates, stagger mutually between the spray wind hole 31 of adjacent two row, the distribution density in spray wind hole 31 is successively decreased towards the direction of discharge end successively from feed end.Thereby the spray air quantity that layout like this can improve feeding side improves the speed of cooling of the workpiece of this side, to reach the requirements at the higher level of thermal treatment process to the leading portion speed of cooling of workpiece.The direction of axis line of return air channel 35 and the angle between the vertical direction can be between 0 °～45 °, the angle of a plurality of return air channels 35 can be identical or different, in this example, the direction of axis line and the angle between the vertical direction of the return air channel 35 of close feed end are 0 °, the direction of axis line and the angle between the vertical direction of the return air channel 35 of close discharge end are 45 °, so, can strengthen the return air amount of feeding side, form the air-flow of contrary feedstock direction, accelerate the speed of cooling of workpiece leading portion.

In addition, can on first channel 4 and second passage 5, establish control valve 11 to regulate the flow of wind.

It is as follows to take present embodiment that workpiece is carried out the refrigerative working process:

At first; shielding gas enters respectively in the lower space of spray wind body 3 and air-cooling chamber 1 along first channel 4 and second passage 5 by the recirculation blower 2 of sealing; can regulate the air quantity that enters spray wind body 3 and lower air chamber 10 this moment by control air-valve 11; to guarantee jet flow refrigerative equilibrium up and down in the air-cooling chamber 1, avoid workpiece to be out of shape because of inhomogeneous cooling.Along with conveying belt 7 enters workpiece in the air-cooling chamber 1; when moving between spray wind body 3 and the plummer 8; can be by from cooling off in the spray wind hole 31 of spray wind body 3 with from the refrigerative shielding gas of through hole 81 ejections of plummer 8; these fast cold wind will be sprayed on workpiece on; lower surface; formed efficiently convective heat exchange on the workpiece surface this moment; cold wind is taken away the heat on the workpiece fast; make the workpiece fast cooling; cold wind becomes hot blast owing to having absorbed the heat on the workpiece; after water wall 9 coolings; enter upper space from return air channel 35; after heat exchanger 6 further coolings, change cold wind into, enter recirculation blower 2; recirculation blower 2 is sent to this part cold wind in first channel 4 and the second passage 5 by air outlet 22 again, and cold wind carries out recirculation.Because it is big than the discharge end place that the distribution density of spray wind hole 31 and through hole 81 is the feed end place, and return air channel 35 and workpiece feedstock direction are at an angle, changed the wind direction in the turnover air-cooling chamber 1, thereby change the distribution of air quantity in the air-cooling chamber 1, after guaranteeing that workpiece enters the jet flow refrigerating unit, have rational cooling curve, have enough cooling intensity, guarantee that it is the requirement of required best speed of cooling technology that workpiece is heat-treated.

The foregoing description only is explanation technical conceive of the present invention and characteristics, and its purpose is to allow the personage who is familiar with this technology can understand content of the present invention and enforcement according to this, can not limit protection scope of the present invention with this.All equivalences that spirit is done according to the present invention change or modify, and all should be encompassed within protection scope of the present invention.

Claims

1. heat treatment furnace jet flow refrigerating unit, it comprises the recirculation blower (2) of have blast inlet (21) and air outlet (22), the air-cooling chamber (1) that top is connected with the blast inlet (21) of described recirculation blower (2), be arranged on the plummer (8) that is used for place work piece in the described air-cooling chamber (1), be arranged on the heat exchanger (6) that is positioned at described plummer (8) top in the described air-cooling chamber (1), be arranged on the first channel (4) that interior spray wind body (3) of described air-cooling chamber (1) and two ends are connected with the air outlet (22) and the described spray wind body (3) of described recirculation blower (2) respectively, the length bearing of trend of described spray wind body (3) is consistent with the length bearing of trend of described plummer (8), offer a plurality of spray wind holes (31) on the described spray wind body (3) towards described plummer (8), it is characterized in that: described spray wind body (3) is divided into a plurality of spray wind zones (32) of arranging along its length direction, and the distribution density in the spray wind hole (31) in a plurality of spray wind zones (32) of described spray wind body (3) is successively decreased towards the direction of discharge end successively from feed end.

2. heat treatment furnace jet flow refrigerating unit according to claim 1 is characterized in that: arrangements of embarking on journey of the spray wind hole (31) in the spray wind zone (32) of each described spray wind body (3), the spacing between the two adjacent spray wind holes (31) in each row is equal.

3. heat treatment furnace jet flow refrigerating unit according to claim 2 is characterized in that: stagger mutually between the spray wind hole (31) of adjacent two row in the spray wind zone (32) of each described spray wind body (3).

4. heat treatment furnace jet flow refrigerating unit according to claim 1, it is characterized in that: described spray wind body (3) comprises that lower plate (33), lid are located at the upper plate (34) on the described lower plate (33), described spray wind hole (31) is opened on the described lower plate (33), and described spray wind body (3) also has and is positioned at both sides and a plurality of return air channels (35) that distribute along the length direction of described lower plate (33).

5. heat treatment furnace jet flow refrigerating unit according to claim 4, it is characterized in that: the direction of axis line of described return air channel (35) and the angle between the vertical direction are between 0 °～45 °, and the angle of a plurality of described return air channels (35) is identical or different.

6. heat treatment furnace jet flow refrigerating unit according to claim 5 is characterized in that: the direction of axis line of the described return air channel (35) of close feed end and the angle between the vertical direction are less than the direction of axis line of the described return air channel (35) of close discharge end and the angle between the vertical direction.

7. heat treatment furnace jet flow refrigerating unit according to claim 6, it is characterized in that: the direction of axis line and the angle between the vertical direction of the described return air channel (35) of close feed end are 0 °, and the direction of axis line and the angle between the vertical direction of the described return air channel (35) of close discharge end are 45 °.

8. heat treatment furnace jet flow refrigerating unit according to claim 1, it is characterized in that: described jet flow refrigerating unit also comprises the second passage (5) that two ends communicate with the bottom of the air outlet (22) of described recirculation blower (2) and described air-cooling chamber (1) respectively, offers the through hole (81) that a plurality of and described second passage (5) is connected on the described plummer (8).

9. heat treatment furnace jet flow refrigerating unit according to claim 8, it is characterized in that: described plummer (8) also is divided into a plurality of spray wind zones (82) of arranging along its length direction, and the distribution density of the through hole (81) in a plurality of spray wind zones (82) of described plummer (8) is successively decreased towards the direction of discharge end successively from feed end.

10. heat treatment furnace jet flow refrigerating unit according to claim 9, it is characterized in that: the arrangement of embarking on journey of the described through hole (81) in the spray wind zone (82) of each described plummer (8), spacing between the two adjacent described through holes (81) in each row equates, staggers mutually between the described through hole (81) of adjacent two row.