CN216245032U - Cooling device for non-ferrous metal calendering - Google Patents

Abstract

The application provides a cooling device that non ferrous metal calendering was used belongs to cooling technical field. The cooling device for non-ferrous metal rolling comprises a supporting component and an air cooling component. The supporting component comprises a supporting box and a belt conveyor, the electric cylinder is symmetrically and fixedly connected in the supporting box, the end of the piston rod of the electric cylinder is connected with the inner wall of the supporting box in a penetrating mode and fixedly connected with the upper surface of the supporting plate, the air cooler is installed in the supporting box, and the output end of the air cooler is communicated with the air outlet plate and the air outlet head. Through the design of this device, the design of conventional metal sheet calendering cooling device is optimized in overall design, realizes the all-round cooling design to the metal sheet on the one hand, makes its outer wall all can receive the forced air cooling, and simultaneously, on the other hand can adjust out the air-out plate position through this device in a flexible way, makes its dissipation that reduces the cooling air run off, wholly promotes the cooling effect.

Description

Cooling device for non-ferrous metal calendering

Technical Field

The application relates to the technical field of cooling, particularly, relate to a cooling device that non ferrous metal calendering used.

Background

At present, nonferrous metal, the non-ferrous metal in narrow sense is also called non-ferrous metal, which is a general name of all metals except iron, manganese and chromium, and the non-ferrous metal in broad sense also comprises non-ferrous alloy, the non-ferrous alloy is an alloy formed by adding one or more other elements by taking the non-ferrous metal as a base body, the non-ferrous metal smelting is a process of melting and reducing non-ferrous metal raw ore into metal ingots, blanks, dies and the like with certain purity, the metal ingots, blanks and dies formed after smelting and casting are subjected to rolling, forging or extrusion and other external force means to form the metal ingots, blanks and dies into required shapes or structural forms, namely rolling processing, the non-ferrous metal of finished products is basically cooled in a natural cooling or air cooling mode by referring to the design of a cooling device for rolling the non-ferrous metal, the subsequent processing is influenced by the long period of the natural cooling mode, and the conventional air cooling device cannot carry out all-round cooling on a metal plate, the upper surface can only be cooled basically, the cooling effect is reduced, and simultaneously, the air-cooled air outlet structure is basically not adjustable, so that when the air-cooled air outlet structure faces metals with different thicknesses, the cooling can not be flexibly adjusted, and the whole design is practical and low.

SUMMERY OF THE UTILITY MODEL

In order to compensate above not enough, the application provides a cooling device that non ferrous metal calendering was used, aims at improving the unable all-round cooling that cools off of air-cooled structure, and simultaneously, the air-cooled structure can not be adjusted in a flexible way, reduces the problem of cooling effect.

The embodiment of the application provides a cooling device that non ferrous metal calendering used, includes supporting component and air-cooled subassembly.

The supporting component comprises a supporting box and a belt conveyor, the belt conveyor is installed in the supporting box, the air cooling component comprises an air cooler, a supporting plate, an air outlet head and an electric cylinder, the air outlet plate is distributed at the bottom of the supporting plate at intervals, the air outlet head is fixedly connected to the periphery of the inner wall of the supporting box, the air outlet plate air outlet and the air outlet head air outlet are all arranged corresponding to the outer wall of the belt conveyor, the supporting plate is connected to the inside of the supporting box in a sliding mode, the electric cylinder is fixedly connected to the inside of the supporting box in a symmetrical mode, and the piston rod end of the electric cylinder is all penetrated through the inner wall of the supporting box and is fixedly connected to the upper surface of the supporting plate, the air cooler is installed in the supporting box, and the air cooler output end is communicated with the air outlet plate and the air outlet head.

In the implementation process, the device is placed near metal rolling equipment, the metal plate after production is conveyed by a belt conveyor according to the adjustment of actual conditions, the support installation of the belt conveyor is realized by a support box, an air cooler is started, the metal plate on the upper surface of the belt conveyor is finally discharged by an air outlet plate and the air outlet head through the design that the output end of the air cooler is communicated with the air outlet plate and the air outlet head, the metal plate on the upper surface of the belt conveyor is cooled in all directions, the cooling effect is improved, meanwhile, according to the difference of the thickness of the metal plate, an electric cylinder is started, the support plate is driven by the electric cylinder to descend, the air outlet plate is driven to descend to a proper position, the air loss dissipation of the air discharged by the air outlet plate is avoided to a certain extent, the metal plate upper surface is cooled in all directions, the flexibility and the adjustability are improved, and the design of the conventional metal plate rolling cooling device is integrally designed and optimized, realize the all-round cooling design to the metal sheet on the one hand, make its outer wall all can receive the forced air cooling, simultaneously, on the other hand can adjust the air-out plate position in a flexible way through this device, makes its dissipation that reduces the cooling air run off, wholly promotes the cooling effect.

In a specific embodiment, the air cooling assembly further comprises a water tank, the water tank is installed in the supporting box, the upper surface of the water tank is communicated with a bearing pipe, and the air inlet end of the air cooler is attached to the other end of the bearing pipe.

In the above-mentioned realization process, through the design of holding the pipe, make its moisture that is convenient for to be located the water tank discharge through holding the pipe, simultaneously, through air-cooler air inlet end with hold the design of tub other end laminating, make it absorb the moisture through the air-cooler, finally discharge, promote the cooling effect, during the in-service use, to adding water in the water tank, simultaneously, also can add the ice-cube, reduce temperature and the interior air temperature of water tank, promote the cooling effect.

In a specific embodiment, the upper surface of the water tank is communicated with a feeding pipe, and the outer wall of the water tank is respectively provided with an observation window and an air inlet.

In the implementation process, the water tank is conveniently added with water and ice blocks through the design of the inlet pipe, and meanwhile, the liquid amount in the water tank is conveniently observed through the design of the observation window, so that the water tank is conveniently ventilated through the design of the air inlet.

In a specific embodiment, air-out end intercommunication of air-cooler has accepted the head, it has first tuber pipe and second tuber pipe to accept the head bottom intercommunication respectively, the second go out the tuber pipe with go out the first intercommunication of wind.

In the implementation process, through the design of the bearing heads, the cold air in the air cooler is fed into the first air outlet pipe and the second air outlet pipe, and the air in the second air outlet pipe is finally fed into the four air outlet heads.

In a specific embodiment, the bottom of the first air outlet pipe is communicated with a hose, the bottom of the hose is communicated with a bearing pipe, and the bearing pipe is communicated with the air outlet plate.

In the implementation process, the air in the first air outlet pipe is finally sent into the three air outlet plates through the design of the hose and the bearing pipe, and finally the metal plate is cooled.

In a specific embodiment, the electric cylinder is located and keeps away from the equal fixedly connected with mounting bracket of piston rod one end, the electric cylinder all through mounting bracket fixed connection in support incasement.

In the implementation process, the electric cylinder is fixed through the design of the mounting frame and the overall design, and the electric cylinder is matched with the sliding connection design of the supporting plate to drive the three air outlet plates to move and adjust.

In a specific embodiment, the piston rod ends of the electric cylinders are fixedly connected with mounting plates, and the mounting plates and the supporting plates are all fixed through bolts.

In the implementation process, through the design of the mounting plate, the electric cylinder and the mounting plate are designed to be connected through bolts in the overall design, so that the electric cylinder is designed to be detachable, and subsequent maintenance and replacement are facilitated.

In a specific embodiment, the supporting box comprises a base, supporting blocks and a supporting seat, the supporting blocks are symmetrically and fixedly connected between the base and the supporting seat, a cover plate is clamped on the upper surface of the supporting seat, and the air cooler, the electric cylinder and the water tank are all installed in the supporting seat.

In the above-mentioned realization process, wholly constitute the supporting box through base, supporting shoe and supporting seat, realize supporting the installation of air-cooler, electric jar and water tank through the supporting seat, through the apron joint, be convenient for maintain supporting seat inside.

In a specific embodiment, a groove is formed in the upper surface of the base, the belt conveyor is installed in the groove, and the upper surface of the belt conveyor and the upper surface of the groove are located on the same horizontal line.

In the implementation process, the belt conveyor is convenient to mount through the groove design, and the metal plate is convenient to convey through the design of being located on the same horizontal line.

In a specific embodiment, the supporting block has symmetrically disposed mounting grooves on the side wall thereof, the air outlet head is mounted in the mounting grooves, and the supporting seat has a notch disposed on the side wall thereof, wherein the notch corresponds to the observation window and the air inlet.

In the above-mentioned realization process, through the mounting groove design, be convenient for install out the wind head, through the breach design, make it be convenient for observe the observation window and be convenient for the air intake air inlet.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic front view of an embodiment of the present disclosure;

fig. 2 is a schematic top view of an air cooling assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic bottom view of an air-cooled assembly according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view of a connection relationship between an air cooler and an air outlet plate according to an embodiment of the present application;

FIG. 5 is a schematic structural view of a support box provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of a belt conveyor according to an embodiment of the present application.

In the figure: 100-a support assembly; 110-a support box; 111-a base; 1111-grooves; 112-a support block; 1122-mounting groove; 113-a support base; 1131-notch; 1132 — a cover plate; 120-a belt conveyor; 200-an air-cooled assembly; 210-an air cooler; 211-a reception head; 2111-a first air outlet pipe; 2112-a second air outlet pipe; 212-a hose; 2121-a bearing pipe; 220-a support plate; 230-air outlet plate; 240-air outlet head; 260-electric cylinder; 261-a mounting frame; 262-a mounting plate; 270-a water tank; 271-a feed pipe; 272-a socket; 273-observation window; 274-air inlet.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1, the present application provides a cooling apparatus for rolling non-ferrous metal, which includes a support assembly 100 and an air cooling assembly 200.

Wherein, realize the support to forced air cooling subassembly 200 through supporting component 100, simultaneously, realize the transport to the metal sheet, realize the all-round cooling to the metal sheet through the design of forced air cooling subassembly 200, simultaneously, realize the regulation cooling of self, strengthen the cooling effect to the metal sheet.

Referring to fig. 1, 5 and 6, the support assembly 100 includes a support box 110 and a belt conveyor 120, the belt conveyor 120 is installed in the support box 110, the support box 110 includes a base 111, a support block 112 and a support base 113, the support block 112 is symmetrically and fixedly connected between the base 111 and the support base 113, a cover plate 1132 is clamped on the upper surface of the support base 113, the air cooler 210, the electric cylinder 260 and the water tank 270 are all installed in the support base 113, the support box 110 is integrally formed by the base 111, the support block 112 and the support base 113, the air cooler 210, the electric cylinder 260 and the water tank 270 are installed and supported by the support base 113, the internal maintenance of the support base 113 is facilitated by the clamping of the cover plate 1132, a groove 1111 is formed on the upper surface of the base 111, the belt conveyor 120 is installed in the groove 1111, and the upper surface of the belt conveyor 120 and the upper surface of the groove are located on the same horizontal line, installation grooves 1122 are symmetrically formed on the side walls of the support block 112, the air outlet head 240 is installed in the installation groove 1122, a notch 1131 is formed in the side wall of the support base 113, and the notch 1131 corresponds to the observation window 273 and the air inlet 274, respectively.

Referring to fig. 1, 2, 3 and 4, the air cooling assembly 200 includes an air cooler 210, a supporting plate 220, an air outlet plate 230, an air outlet head 240 and an electric cylinder 260, the air outlet plate 230 is distributed at the bottom of the supporting plate 220 at intervals, the air outlet head 240 is fixedly connected to the periphery of the inner wall of the supporting box 110, air outlets of the air outlet plate 230 and the air outlet head 240 are both arranged corresponding to the outer wall of the belt conveyor 120, and the metal plate on the upper surface of the belt conveyor 120 is conveniently cooled by the design of the corresponding arrangement.

In this application document, backup pad 220 sliding connection is in support box 110, electricity jar 260 symmetry fixed connection is in support box 110, and electricity jar 260 tailpiece all runs through in support box 110 inner wall and with backup pad 220 upper surface fixed connection, electricity jar 260 is located and keeps away from the equal fixedly connected with mounting bracket 261 of piston rod one end, electricity jar 260 all through mounting bracket 261 fixed connection in support box 110, through the mounting bracket 261 design, global design realizes fixing electricity jar 260, make its cooperation backup pad 220 sliding connection design drive three play aerofoil 230 and remove the regulation, the equal fixedly connected with mounting panel 262 of electricity jar 260 tailpiece, mounting panel 262 and the equal bolt fastening of backup pad 220, through mounting panel 262 design, global design realizes that electricity jar 260 and mounting panel 262 are the bolted connection design, make it be detachable design, be convenient for subsequent maintenance to tear open and change.

In this embodiment, the air cooler 210 is installed in the support box 110, and the output end of the air cooler 210 is communicated with the air outlet plate 230 and the air outlet head 240, the air outlet end of the air cooler 210 is communicated with the receiving head 211, the bottom of the receiving head 211 is respectively communicated with the first air outlet pipe 2111 and the second air outlet pipe 2112, the second air outlet pipe 2112 is communicated with the air outlet head 240, the cold air in the air cooler 210 is sent into the first air outlet pipe 2111 and the second air outlet pipe 2112 by the design of the receiving head 211, the air in the second air outlet pipe 2112 is finally sent into the four air outlet heads 240, the bottom of the first air outlet pipe 2111 is communicated with the hose 212, the bottom of the hose 212 is communicated with the receiving pipe 2121, the receiving pipe 2121 is communicated with the air outlet plate 230, the air in the first air outlet pipe 2111 is finally sent into the three air outlet plates 230 by the design of the hose 212 and the receiving pipe 2121, the metal plates are finally cooled, the hose 212 is a telescopic pipe, so that it can be adjusted up and down with the supporting plate 220 when it is actually used.

The air cooling assembly 200 further comprises a water tank 270, the water tank 270 is installed in the support box 110, the upper surface of the water tank 270 is communicated with a bearing pipe 272, the air inlet end of the air cooler 210 is attached to the other end of the bearing pipe 272, the design of the bearing pipe 272 facilitates the discharge of moisture in the water tank 270 through the bearing pipe 272, meanwhile, the air inlet end of the air cooler 210 is attached to the other end of the bearing pipe 272 to enable the air cooler 210 to absorb the moisture and finally discharge the moisture, thereby improving the cooling effect, in actual use, water is added into the water tank 270, meanwhile, ice blocks can be added to reduce the water temperature and the air temperature in the water tank 270, thereby improving the cooling effect, the upper surface of the water tank 270 is communicated with a feed pipe 271, the outer wall of the water tank 270 is respectively provided with an observation window 273 and an air inlet 274, the water and ice blocks are conveniently added into the water tank 270 through the feed pipe 271, and meanwhile, the design of the observation window 273, so that it is convenient to observe the amount of liquid in the water tank 270, and is designed to facilitate ventilation in the water tank 270 through the air inlet 274.

Specifically, the working principle of the cooling device for rolling the nonferrous metal is as follows: when in use, the device is placed near metal rolling equipment, the produced metal plate is conveyed by the belt conveyor 120 according to the adjustment of actual conditions, the air cooler 210 is started, the wet air in the water tank 270 is extracted and finally discharged by the receiving head 211, the first air outlet pipe 2111 and the second air outlet pipe 2112, and finally sent into the air outlet plate 230 and the air outlet head 240, the metal plate on the upper surface of the belt conveyor 120 is cooled in all directions, so that the cooling effect is improved, meanwhile, according to the difference of the thickness of the metal plate, the electric cylinder 260 is started, the electric cylinder 260 drives the support plate 220 to descend so as to drive the air outlet plate 230 to descend to a proper position, the air loss discharged by the air outlet plate 230 is avoided to a certain degree, the upper surface of the metal plate is cooled in all directions, the flexible adjustment is improved, and the design of the conventional metal plate rolling cooling device is optimized through the design of the device, realize the all-round cooling design to the metal sheet on the one hand, make its outer wall all can receive the forced air cooling, simultaneously, on the other hand can adjust out the play tuber plate 230 position in a flexible way through this device, makes its dissipation that reduces the cooling air run off, wholly promotes the cooling effect.

It should be noted that the specific model specifications of the belt conveyor 120, the air cooler 210 and the electric cylinder 260 need to be determined by model selection according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply of the belt conveyor 120, the air cooler 210 and the electric cylinder 260 and the principle thereof will be clear to those skilled in the art and will not be described in detail herein.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A cooling device for non-ferrous metal rolling is characterized by comprising

A support assembly (100), the support assembly (100) comprising a support box (110) and a belt conveyor (120), the belt conveyor (120) being mounted within the support box (110);

air-cooled subassembly (200), air-cooled subassembly (200) include air-cooler (210), backup pad (220), go out aerofoil (230), go out wind head (240) and electric jar (260), it distributes in to go out aerofoil (230) interval backup pad (220) bottom, it fixed connection in support box (110) inner wall is all around to go out wind head (240), go out aerofoil (230) air outlet with it all with belt conveyor (120) outer wall corresponds the setting to go out wind head (240), backup pad (220) sliding connection in support box (110), electric jar (260) symmetry fixed connection in support box (110), just electric jar (260) tailpiece of the piston rod all run through in support box (110) inner wall and with fixed surface is connected on backup pad (220), air-cooler (210) install in support box (110), and the output end of the air cooler (210) is communicated with the air outlet plate (230) and the air outlet head (240).

2. The cooling device for non-ferrous metal rolling according to claim 1, wherein the air cooling assembly (200) further comprises a water tank (270), the water tank (270) is installed in the support box (110), a bearing pipe (272) is communicated with the upper surface of the water tank (270), and an air inlet end of the air cooler (210) is attached to the other end of the bearing pipe (272).

3. The cooling device for non-ferrous metal rolling according to claim 2, characterized in that the upper surface of the water tank (270) is communicated with a feeding pipe (271), and the outer wall of the water tank (270) is respectively provided with a viewing window (273) and an air inlet (274).

4. The cooling device for non-ferrous metal rolling according to claim 1, wherein the air outlet end of the air cooler (210) is communicated with a receiving head (211), the bottom of the receiving head (211) is respectively communicated with a first air outlet pipe (2111) and a second air outlet pipe (2112), and the second air outlet pipe (2112) is communicated with the air outlet head (240).

5. The cooling device for non-ferrous metal rolling according to claim 4, characterized in that a hose (212) is communicated with the bottom of the first air outlet pipe (2111), a receiving pipe (2121) is communicated with the bottom of the hose (212), and the receiving pipe (2121) is communicated with the air outlet plate (230).

6. A cooling device for non-ferrous metal rolling according to claim 1, characterized in that the electric cylinders (260) are fixedly connected with mounting frames (261) at the ends far away from the piston rods, and the electric cylinders (260) are fixedly connected in the supporting box (110) through the mounting frames (261).

7. The cooling device for non-ferrous metal rolling according to claim 6, characterized in that the piston rod ends of the electric cylinders (260) are fixedly connected with mounting plates (262), and the mounting plates (262) and the supporting plates (220) are fixed by bolts.

8. A cooling device for non-ferrous metal rolling according to claim 3, wherein the supporting box (110) comprises a base (111), a supporting block (112) and a supporting base (113), the supporting block (112) is symmetrically and fixedly connected between the base (111) and the supporting base (113), a cover plate (1132) is clamped on the upper surface of the supporting base (113), and the air cooler (210), the electric cylinder (260) and the water tank (270) are all installed in the supporting base (113).

9. The cooling device for non-ferrous metal rolling according to claim 8, characterized in that the upper surface of the base (111) is provided with a groove (1111), the belt conveyor (120) is installed in the groove (1111), and the upper surface of the belt conveyor (120) and the upper surface of the groove (1111) are located at the same horizontal line.

10. The cooling device for non-ferrous metal rolling as claimed in claim 8, wherein the side walls of the supporting block (112) are symmetrically provided with mounting grooves (1122), the air outlet head (240) is mounted in the mounting grooves (1122), the side walls of the supporting seat (113) are provided with notches (1131), and the notches (1131) are respectively arranged corresponding to the observation window (273) and the air inlet (274).

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