CN218539792U - Cooling device for copper-titanium alloy heat treatment processing - Google Patents

Abstract

The utility model relates to the technical field of heat treatment cooling, and discloses a cooling device for copper-titanium alloy heat treatment processing, which comprises a cooling mechanism, wherein a conveying mechanism is arranged outside the cooling mechanism; the cooling mechanism comprises a machine tool, a heat treatment chamber is arranged inside the front end of the machine tool, a cooling chamber is arranged at the rear end of the heat treatment chamber, a cold water pipe is arranged inside the cooling chamber, a heat insulation layer is fixedly connected to the outside of the heat treatment chamber, a mold is movably connected inside the machine tool, and a sliding block is fixedly connected to the upper end of the mold. This cooling device for copper titanium alloy thermal treatment processing through straight guide rail drive guide block, drives the slider through the guide block and removes, and the lathe supports the slider bottom surface to make the slider drive the mould and move along the rectangular channel is inside, arrange the mould in the thermal treatment indoor portion, carry out the copper titanium alloy to the mould is inside and carry out thermal treatment, keep warm thermal-insulated to the thermal treatment room through the insulating layer, then the mould removes to the cooling chamber is inside.

Description

Cooling device for copper-titanium alloy heat treatment processing

Technical Field

The utility model relates to a heat treatment cooling technology field specifically is a copper titanium alloy cooling device for heat treatment process.

Background

According to patent publication CN 213951259U's a copper titanium alloy cooling device for thermal treatment processing, including the mould, the structure such as fixed block has all been welded to the upper surface both sides position of mould, and the device can realize the effect that thermal treatment and cooling independently go on, and can carry out continuous water-cooling operation to the copper titanium alloy after the thermal treatment, but inconvenient taking out in the copper titanium alloy chamber in the mould of follow behind the cooling of copper titanium alloy piece in this structure to influence machining efficiency.

Therefore, we propose a cooling device for heat treatment of copper-titanium alloy to solve the above problems in the background.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a copper titanium alloy cooling device for thermal treatment to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a cooling device for copper-titanium alloy heat treatment processing comprises a cooling mechanism, wherein a conveying mechanism is arranged outside the cooling mechanism;

the cooling mechanism comprises a machine tool, a heat treatment chamber is arranged in the front end of the machine tool, a cooling chamber is arranged at the rear end of the heat treatment chamber, a cold water pipe is arranged in the cooling chamber, a heat insulation layer is fixedly connected to the outside of the heat treatment chamber, a mold is movably connected in the machine tool, a sliding block is fixedly connected to the upper end of the mold, a guide block is fixedly connected to the upper end of the sliding block, and a straight guide rail is arranged on the outside of the guide block;

conveying mechanism includes the backup pad, backup pad upper end fixedly connected with roof, the inside sliding connection of roof has the removal seat, the inside threaded connection of removal seat has the long screw rod, the motor is installed to the long screw rod rear end, remove seat lower extreme fixedly connected with electric telescopic handle, electric telescopic handle lower extreme fixedly connected with air sucking disc, the roof below is provided with the conveying platform.

Through the technical scheme, the guide block is driven by the straight guide rail, the guide block is driven by the guide block to move, the machine tool supports the bottom surface of the slide block, so that the slide block drives the mold to move along the inside of the rectangular groove, the mold is arranged in the heat treatment chamber, copper-titanium alloy is subjected to heat treatment in the mold, the heat insulation layer is used for performing heat insulation on the heat treatment chamber, then the mold is moved to the inside of the cooling chamber, and the copper-titanium alloy in the mold is subjected to circulating cooling through the cold water pipe in the cooling chamber;

the mould that makes the lower extreme removes to the rectangular channel rear end through the guide block removal, electric telescopic handle through the top drives the pneumatic sucking disc decline, pneumatic sucking disc is fixed with the inside copper titanium alloy actuation of mould, it promotes to drive pneumatic sucking disc through electric telescopic handle, copper titanium alloy mentions after will cooling, it rotates to drive the long screw through the motor, it slides in the inboard roof to drive the removal seat through the long screw, remove copper titanium alloy to conveying bench side, make pneumatic sucking disc decline through electric telescopic handle, make copper titanium alloy steadily place at conveying bench upper surface, thereby make the conveying bench convey its conveying, the copper titanium alloy after this structure is convenient for cool off takes out and carries, the mould of being convenient for carries out cycle work once more, improve copper titanium alloy process velocity.

Preferably, a rectangular groove is formed in the machine tool, the cooling chamber is installed in the rectangular groove, and the bottom surface of the sliding block is in sliding connection with the upper ends of two sides of the rectangular groove.

The slide blocks at the two ends of the die are supported by the machine tool, so that the die is convenient to drive to move in the rectangular groove, and the copper-titanium alloy is convenient to thermally treat and independently and rapidly process through the interior of the thermal treatment chamber and the cooling chamber.

Preferably, there are two straight guide rails, and the two straight guide rails are symmetrically distributed on two sides of the machine tool.

Preferably, the number of the sliding blocks is two, and the two sliding blocks are symmetrically distributed at two ends of the mold.

Two guide blocks are driven by the two straight guide rails and respectively drive the two sliding blocks to move, and the connecting structure of the guide blocks and the straight guide rails is similar to that of the existing linear guide rails and is commonly used in the technical field of numerical control machines.

Preferably, the two ends of the top plate are fixedly connected with supporting plates, and the supporting plates are arranged on the outer sides of the straight guide rails.

Preferably, the pneumatic sucker is arranged above the rectangular groove of the machine tool, and the pneumatic sucker is arranged on the inner side of the sliding block.

The top plate is fixedly supported through the supporting plates at the two ends, the supporting plates are arranged on the outer sides of the straight guide rails, and the pneumatic sucker can conveniently descend to lift the copper-titanium alloy inside the die.

Preferably, the conveying table is fixedly connected to the rear end of the machine tool, and the conveying table is fixedly connected to the inner side of the bottom of the supporting plate.

Conveying platform fixed connection is in the lathe rear end, and the copper titanium alloy after being convenient for promote places, carries the copper titanium alloy after processing through the conveying platform, improves production speed.

Compared with the prior art, the utility model provides a copper titanium alloy cooling device for thermal treatment possesses following beneficial effect:

1. this cooling device is used in copper titanium alloy thermal treatment processing, it makes the mould of lower extreme remove to the rectangular channel rear end to remove through the guide block, electric telescopic handle through the top drives pneumatic chuck and descends, pneumatic chuck is fixed with the inside copper titanium alloy actuation of mould, it promotes to drive pneumatic chuck through electric telescopic handle, copper titanium alloy mentions after will cooling, it rotates to drive the long screw through the motor, it slides in the inboard of roof to drive the removal seat through the long screw, remove copper titanium alloy to conveying bench top, make pneumatic chuck descend through electric telescopic handle, make copper titanium alloy steadily place at conveying bench upper surface, thereby make the conveying bench convey its conveying, the copper titanium alloy after this structure is convenient for cool off takes out and carries, the mould of being convenient for carries out cycle work once more, improve copper titanium alloy process velocity.

2. This cooling device is used in copper titanium alloy thermal treatment processing, through straight guide rail drive guide block, it removes to drive the slider through the guide block, the lathe supports the slider bottom surface, thereby make the slider drive the mould and remove along the inside rectangular channel, arrange the mould in the heat treatment indoor portion, carry out the copper titanium alloy to the mould is inside to carry out heat treatment, it is thermal-insulated to keep warm to the heat treatment room through the insulating layer, then the mould removes to the cooling indoor portion, carry out circulative cooling to the inside copper titanium alloy of mould through the inside cold water pipe of cooling room, this structure makes the effect that the heat treatment and the cooling of copper aluminum alloy independently go on, guarantee the cooling effect, and rapid and stable, and convenient operation.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic top view of the present invention;

fig. 4 is a schematic diagram of the rear end structure of the present invention.

Wherein: 101. a machine tool; 102. a heat treatment chamber; 103. a cooling chamber; 104. a cold water pipe; 105. a thermal insulation layer; 106. a mold; 107. a slider; 108. a guide block; 109. a straight guide rail; 201. a support plate; 202. a top plate; 203. a movable seat; 204. a long screw; 205. a motor; 206. an electric telescopic rod; 207. a pneumatic suction cup; 208. and a transfer table.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-4.

A cooling device for copper-titanium alloy heat treatment processing comprises a cooling mechanism, wherein a conveying mechanism is arranged outside the cooling mechanism;

the cooling mechanism comprises a machine tool 101, a heat treatment chamber 102 is arranged in the front end of the machine tool 101, a cooling chamber 103 is arranged at the rear end of the heat treatment chamber 102, a cold water pipe 104 is arranged in the cooling chamber 103, a heat insulation layer 105 is fixedly connected to the outside of the heat treatment chamber 102, a mold 106 is movably connected in the machine tool 101, a slide block 107 is fixedly connected to the upper end of the mold 106, a guide block 108 is fixedly connected to the upper end of the slide block 107, and a straight guide rail 109 is arranged outside the guide block 108;

conveying mechanism includes backup pad 201, backup pad 201 upper end fixedly connected with roof 202, and the inside sliding connection of roof 202 has the removal seat 203, removes the inside threaded connection of seat 203 and has long screw 204, and motor 205 is installed to long screw 204 rear end, removes seat 203 lower extreme fixedly connected with electric telescopic handle 206, and electric telescopic handle 206 lower extreme fixedly connected with air chuck 207 is provided with conveying platform 208 below roof 202.

According to the technical scheme, the guide block 108 is driven by the straight guide rail 109, the guide block 108 drives the slide block 107 to move, the machine tool 101 supports the bottom surface of the slide block 107, so that the slide block 107 drives the mold 106 to move along the inside of the rectangular groove, the mold 106 is arranged inside the heat treatment chamber 102, copper-titanium alloy inside the mold 106 is subjected to heat treatment, the heat treatment chamber 102 is subjected to heat preservation and heat insulation through the heat insulation layer 105, then the mold 106 moves to the inside of the cooling chamber 103, and the copper-titanium alloy inside the mold 106 is subjected to circulating cooling through the cold water pipe 104 inside the cooling chamber 103;

the mould 106 that makes the lower extreme removes to the rectangular channel rear end through the removal of guide block 108, electric telescopic handle 206 through the top drives pneumatic chuck 207 and descends, pneumatic chuck 207 is fixed with the inside copper titanium alloy actuation of mould 106, it promotes to drive pneumatic chuck 207 through electric telescopic handle 206, copper titanium alloy mentions after will cooling, it rotates to drive long screw 204 through motor 205, it slides at roof 202 inboard to drive through long screw 204 to remove seat 203, remove copper titanium alloy to conveying platform 208 top, make pneumatic chuck 207 descend through electric telescopic handle 206, make copper titanium alloy steadily place at conveying platform 208 upper surface, thereby make conveying platform 208 convey it, the copper titanium alloy after this structure is convenient for the cooling takes out and carries, be convenient for mould 106 to carry out cycle work once more, improve copper titanium alloy process velocity.

A rectangular groove is formed in the machine tool 101, the cooling chamber 103 is installed in the rectangular groove, and the bottom surface of the sliding block 107 is in sliding connection with the upper ends of two sides of the rectangular groove.

The slide blocks 107 at the two ends of the die 106 are supported by the machine tool 101, so that the die 106 is convenient to drive to move in the rectangular groove, and the independent rapid processing of the heat treatment and cooling of the copper-titanium alloy is convenient through the interiors of the heat treatment chamber 102 and the cooling chamber 103.

The number of the straight guide rails 109 is two, and the two straight guide rails 109 are symmetrically distributed on two sides of the machine tool 101.

The number of the slide blocks 107 is two, and the two slide blocks 107 are symmetrically distributed at two ends of the die 106.

Two guide blocks 108 are driven by two straight guide rails 109, the two guide blocks 108 respectively drive the two sliding blocks 107 to move, and the connecting structure of the guide blocks 108 and the straight guide rails 109 is similar to that of the existing linear guide rail and is commonly used in the technical field of numerical control machines.

The supporting plates 201 are fixedly connected to two ends of the top plate 202, and the supporting plates 201 are arranged outside the straight guide rails 109.

The pneumatic chuck 207 is disposed above the rectangular groove of the machine tool 101, and the pneumatic chuck 207 is disposed inside the slide block 107.

The top plate 202 is fixedly supported by the support plates 201 at the two ends, and the support plates 201 are arranged outside the straight guide rail 109, so that the pneumatic suction cup 207 can descend to lift the copper-titanium alloy inside the die 106 conveniently.

The transmission table 208 is fixedly connected to the rear end of the machine tool 101, and the transmission table 208 is fixedly connected to the inner side of the bottom of the supporting plate 201.

Conveying table 208 fixed connection is in the lathe 101 rear end, and the copper titanium alloy after being convenient for promote places, carries the copper titanium alloy after processing through conveying table 208, improves production speed.

The utility model discloses a theory of operation: the guide block 108 is driven by the straight guide rail 109, the slide block 107 is driven to move by the guide block 108, the machine tool 101 supports the bottom surface of the slide block 107, so that the slide block 107 drives the die 106 to move along the inside of the rectangular groove, the die 106 is arranged inside the heat treatment chamber 102, copper-titanium alloy in the die 106 is subjected to heat treatment, the heat treatment chamber 102 is subjected to heat preservation and heat insulation by the heat insulation layer 105, then the die 106 moves to the inside of the cooling chamber 103, and the copper-titanium alloy in the die 106 is subjected to circulating cooling by the cold water pipe 104 in the cooling chamber 103, so that the structure has the effect of independently performing the heat treatment and cooling of the copper-aluminum alloy, ensures the cooling effect, is rapid and stable, and is convenient to operate;

the mould 106 that makes the lower extreme removes to the rectangular channel rear end through the removal of guide block 108, electric telescopic handle 206 through the top drives pneumatic chuck 207 and descends, pneumatic chuck 207 is fixed with the inside copper titanium alloy actuation of mould 106, it promotes to drive pneumatic chuck 207 through electric telescopic handle 206, copper titanium alloy mentions after will cooling, it rotates to drive long screw 204 through motor 205, it slides at roof 202 inboard to drive through long screw 204 to remove seat 203, remove copper titanium alloy to conveying platform 208 top, make pneumatic chuck 207 descend through electric telescopic handle 206, make copper titanium alloy steadily place at conveying platform 208 upper surface, thereby make conveying platform 208 convey it, the copper titanium alloy after this structure is convenient for the cooling takes out and carries, be convenient for mould 106 to carry out cycle work once more, improve copper titanium alloy process velocity.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a copper titanium alloy cooling device for thermal treatment, includes cooling body, its characterized in that: a conveying mechanism is arranged outside the cooling mechanism;

the cooling mechanism comprises a machine tool (101), a heat treatment chamber (102) is arranged inside the front end of the machine tool (101), a cooling chamber (103) is arranged at the rear end of the heat treatment chamber (102), a cold water pipe (104) is arranged inside the cooling chamber (103), a heat insulation layer (105) is fixedly connected outside the heat treatment chamber (102), a mold (106) is movably connected inside the machine tool (101), a sliding block (107) is fixedly connected to the upper end of the mold (106), a guide block (108) is fixedly connected to the upper end of the sliding block (107), and a straight guide rail (109) is arranged outside the guide block (108);

conveying mechanism includes backup pad (201), backup pad (201) upper end fixedly connected with roof (202), roof (202) inside sliding connection has removal seat (203), it has long screw rod (204) to remove seat (203) internal thread connection, motor (205) are installed to long screw rod (204) rear end, remove seat (203) lower extreme fixedly connected with electric telescopic handle (206), electric telescopic handle (206) lower extreme fixedly connected with pneumatic suction cup (207), roof (202) below is provided with conveying platform (208).

2. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the machine tool is characterized in that a rectangular groove is formed in the machine tool (101), the cooling chamber (103) is installed in the rectangular groove, and the bottom surface of the sliding block (107) is connected with the upper ends of two sides of the rectangular groove in a sliding mode.

3. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the number of the straight guide rails (109) is two, and the two straight guide rails (109) are symmetrically distributed on two sides of the machine tool (101).

4. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the number of the sliding blocks (107) is two, and the two sliding blocks (107) are symmetrically distributed at two ends of the die (106).

5. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the two ends of the top plate (202) are fixedly connected with supporting plates (201), and the supporting plates (201) are arranged on the outer sides of the straight guide rails (109).

6. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the pneumatic suction cup (207) is arranged above a rectangular groove of the machine tool (101), and the pneumatic suction cup (207) is arranged on the inner side of the sliding block (107).

7. The cooling device for copper-titanium alloy heat treatment processing according to claim 1, characterized in that: the conveying table (208) is fixedly connected to the rear end of the machine tool (101), and the conveying table (208) is fixedly connected to the inner side of the bottom of the supporting plate (201).

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