CN206556417U - A kind of meshbeltfurnace cooling system improved structure - Google Patents

Abstract

The utility model discloses a kind of meshbeltfurnace cooling system improved structure, the meshbeltfurnace cooling system, which includes, is provided with the inner core with workspace in shell, water inlet and delivery port, enclosure cavity, the two ends of shell are provided with the flange for connection；Water stream channel is formed between the outer surface of inner core and inner surface of outer cover, water inlet and delivery port are respectively communicated with water stream channel, provided with least one layer of deflector in water stream channel, water stream channel is separated into some flow-guiding channels by deflector；Wherein one end of deflector be connected with a wherein flange to be formed can dash closed structure, and the other end leaves the water conservancy diversion opening passed through for current.The utility model in cooling jacket by installing multilayer deflector additional, form multiple tracks flow-guiding channel, using reducing the chilling temperature of meshbeltfurnace cooling jacket during water circulation by the time of flow-guiding channel, so as to reach more preferable cooling effect, make that heat treated part hardness is more uniform and hardness number is higher.

Description

A kind of meshbeltfurnace cooling system improved structure

Technical field

The utility model is related to machining equipment technical field, and in particular to a kind of cooling body for meshbeltfurnace.

Background technology

Meshbeltfurnace is typically the guipure that is intermittently or serially advanced using machine driving by heating zone of the workpiece by temperature control, so Reach afterwards Technology for Heating Processing requirement equipment, typically by feeding part, bringing-up section, output section, hot air circulation, guipure transmission and The part such as temperature control system is constituted.It is mainly used in heating before the red punching of aluminium bar, copper rod, casting, glass and product annealing, small-sized zero The heat treatments such as part tempering.Meshbeltfurnace needs to set cooling system to carry out cooling treatment, traditional meshbeltfurnace cooling system to more than one piece System is most of to use sealed construction, and inside only has a water stream channel, and intake-outlet is distributed in cooling jacket（That is shell） Both sides.The shortcoming of this structure is, due to simply being compeled away cooling water pressure using pressure itself after cooling water injection, from And circulate to reach the purpose of work in cooling furnace, cause cooling jacket（Shell）Exist during interior cooling water circulation cooling down workpiece Cooling velocity is not fast enough, water temperature over-high and the problem of influence hardening heat, cause heat treated part hardness uneven or not up to standard.

Utility model content

It is more preferable that the technical problems to be solved in the utility model is to provide a kind of simple in construction, reasonable in design, cooling effect Meshbeltfurnace cooling system improved structure.

In order to solve the above technical problems, the utility model is adopted the following technical scheme that：A kind of meshbeltfurnace cooling system is improved Structure, the meshbeltfurnace cooling system, which includes in shell, water inlet and delivery port, enclosure cavity, to be provided with workspace Inner core, the two ends of shell are provided with the flange for connection；Current are formed between the outer surface of inner core and inner surface of outer cover Passage, water inlet and delivery port are respectively communicated with water stream channel, it is characterised in that：Provided with least one layer of deflector in water stream channel （It can generally be made of steel plate）, water stream channel is separated into some flow-guiding channels by deflector；Wherein one end of the deflector with A wherein flange connect to be formed can dash closed structure, and the other end leaves the water conservancy diversion opening passed through for current.

Further, the water inlet and delivery port are on the side wall of shell, and water inlet and delivery port difference position In the head and the tail two ends and discrete both sides of shell, water inlet connection is located at outermost flow-guiding channel, and delivery port is in the another of shell Side is also connected positioned at outermost flow-guiding channel.

Further, the deflector is provided with more than two layers, and water stream channel is separated into three road above water conservancy diversion and led to by deflector Road；Deflector is staggered in water stream channel, i.e., the head end of one layer deflector connects into sealing structure with corresponding flange, then The head end of the deflector adjacent with this layer of deflector is then water conservancy diversion opening, and sealing structure and water conservancy diversion opening are alternatively formed successively to be made to lead Circulation road constitutes back and forth reciprocal structure, current is flowed to and fro as walking "the" shape road, to extend the time of flowing, So as to improve the effect of cooling.

Further, the deflector is parallel to each other with shell.

Further, outermost deflector connects into sealing structure with the flange close to water inlet side；And constitute with The deflector of the flow-guiding channel of delivery port connection close to the flange of delivery port with connecting into sealing structure, and delivery port connects through shell The flow-guiding channel passed at this.

Cooling water is after water inlet entrance, and because the end seal of flow-guiding channel is closed, cooling water flows to another along flow-guiding channel End, the second flow-guiding channel of internal layer is flowed to from the water conservancy diversion opening of the other end, because the end of this flow-guiding channel is also closed, cooling Water continues to flow forward towards the other end, so repeats, and is to the last flowed out from the delivery port of opposite side, completes a cooling and follows Ring.

The utility model forms multiple tracks flow-guiding channel by installing multilayer deflector additional in cooling jacket, thus extension and Increase flowing time and effective surface area of the cooling water in water collar, dropped using during water circulation by the time of flow-guiding channel The chilling temperature of low meshbeltfurnace cooling jacket, so as to reach more preferable cooling effect, cooling effect is colder than traditional cooling jacket But effect has and is obviously improved, and makes that heat treated part hardness is more uniform and hardness number is higher.

Brief description of the drawings

Fig. 1 is the utility model planar structure schematic diagram；

Fig. 2 is the utility model longitudinal profile schematic diagram；

Fig. 3 is the utility model horizontal section schematic diagram.

In figure, 1 is shell, and 2 be flange, and 3 be inner core, and 4 be workspace, and 5 be water inlet, and 6 be delivery port, and 7 be deflector, 8 be flow-guiding channel, and 9 be water conservancy diversion opening.

Embodiment

In the present embodiment, reference picture 1, Fig. 2 and Fig. 3, the meshbeltfurnace cooling system improved structure, the meshbeltfurnace cooling system System, which includes, is provided with the inner core 3 with workspace 4 in shell 1, water inlet 5 and delivery port 6, the internal cavities of shell 1, shell 1 Two ends are provided with the flange 2 for connection；Water stream channel is formed between the outer surface of inner core 3 and the inner surface of shell 1, is intake Mouth 5 and delivery port 6 are respectively communicated with water stream channel；Provided with least one layer of deflector 7 in water stream channel, deflector 7 leads to current Road is separated into some flow-guiding channels 8；Wherein one end of the deflector 7 be connected with a wherein flange 2 formed can dash it is closed Structure, and the other end leaves the water conservancy diversion opening 9 passed through for current.

The water inlet 5 and delivery port 6 are on the side wall of shell 1, and water inlet 5 and delivery port 6 are respectively positioned at outer The head and the tail two ends and discrete both sides of shell 1, the connection of water inlet 5 are located at outermost flow-guiding channel 8, and delivery port 6 is another shell 1 Side is also connected positioned at outermost flow-guiding channel 8.

The deflector 7 is provided with two layers（Or more）, water stream channel is separated into three roads by deflector 7（Or more）Water conservancy diversion leads to Road 8；Deflector 7 is staggered in water stream channel, i.e., the head end of one layer deflector 7 connects into sealing knot with corresponding flange 2 Structure, then the head end of the deflector 7 adjacent with this layer of deflector 7 is then water conservancy diversion opening 9, and sealing structure and water conservancy diversion are alternatively formed successively Opening 9 makes flow-guiding channel 8 constitute back and forth reciprocal structure, current is flowed to and fro as walking "the" shape road, to extend The time of flowing, so as to improve the effect of cooling.

The deflector 7 is parallel to each other with shell 1.

Outermost deflector 7 connects into sealing structure with the flange 2 close to the side of water inlet 5；And constitute and delivery port 6 The deflector 7 of the flow-guiding channel 8 of connection connects into sealing structure with the flange 2 close to delivery port 6, and delivery port 6 connects through shell 1 The flow-guiding channel 8 passed at this.

Cooling water is after the entrance of water inlet 5, and because the end seal of flow-guiding channel 8 is closed, cooling water is flowed to separately along flow-guiding channel 8 One end, the second flow-guiding channel 8 of internal layer is flowed to from the water conservancy diversion opening 9 of the other end, because the end of this flow-guiding channel 8 is also sealed Close, cooling water continues to flow forward towards the other end, so repeats, to the last flowed out from the delivery port 6 of opposite side, complete one Individual cooling circulation.

The utility model is described in detail above, it is described above, only the preferred embodiment of the utility model and , it is when the utility model practical range can not be limited, i.e., all to make equivalent changes and modifications according to the application scope, it all should still belong to this In utility model covering scope.

Claims (5)

1. a kind of meshbeltfurnace cooling system improved structure, the meshbeltfurnace cooling system includes shell, water inlet and delivery port, outside The inner core with workspace is provided with shell internal cavities, the two ends of shell are provided with the flange for connection；In the appearance of inner core Water stream channel is formed between face and inner surface of outer cover, water inlet and delivery port are respectively communicated with water stream channel, it is characterised in that： Provided with least one layer of deflector in water stream channel, water stream channel is separated into some flow-guiding channels by deflector；The deflector Wherein one end be connected with a wherein flange to be formed can dash closed structure, and the other end leaves the water conservancy diversion passed through for current and opened Mouthful.

2. meshbeltfurnace cooling system improved structure according to claim 1, it is characterised in that：The water inlet and delivery port On the side wall of shell, and water inlet and delivery port, respectively positioned at the head and the tail two ends and discrete both sides of shell, water inlet connects Logical to be located at outermost flow-guiding channel, delivery port is also connected positioned at outermost flow-guiding channel in the opposite side of shell.

3. meshbeltfurnace cooling system improved structure according to claim 1, it is characterised in that：The deflector is provided with two layers More than, water stream channel is separated into three road above flow-guiding channels by deflector；Deflector is staggered in water stream channel, i.e., one layer The head end of deflector connects into sealing structure with corresponding flange, then the head end of the deflector adjacent with this layer of deflector is then to lead Stream opening, sealing structure and water conservancy diversion opening are alternatively formed successively makes flow-guiding channel constitute back and forth reciprocal structure.

4. meshbeltfurnace cooling system improved structure according to claim 3, it is characterised in that：The deflector and outer shell phase It is mutually parallel.

5. meshbeltfurnace cooling system improved structure according to claim 4, it is characterised in that：Outermost deflector is with leaning on The flange of nearly water inlet side connects into sealing structure；And constitute the deflector of flow-guiding channel that is connected with delivery port with it is close go out The flange at the mouth of a river connects into sealing structure, and delivery port is communicated to the flow-guiding channel at this through shell.