CN209773381U

CN209773381U - Aviation titanium alloy casting bonding wax production unit

Info

Publication number: CN209773381U
Application number: CN201920522265.6U
Authority: CN
Inventors: 王全
Original assignee: Dalian Source Sheng New Material Co Ltd
Current assignee: Dalian Source Sheng New Material Co Ltd
Priority date: 2019-04-17
Filing date: 2019-04-17
Publication date: 2019-12-13
Anticipated expiration: 2029-04-17

Abstract

An aviation titanium alloy casting bonding wax production unit belongs to the field of aviation titanium alloy casting bonding wax production equipment. Comprises a melting tank, a filtering tank, a transmission pipe, a heating air box, a standing tank and a stirring tank; melting tank bottom sets up bleeder valve A, and the pipeline one side of connecting bleeder valve A stretches into the filter tank, and the filter tank bottom sets up bleeder valve C and connects the transmission pipe, and the transmission pipe stretches into the jar that stews after passing heating bellows, and the tank bottom that stews sets up bleeder valve D, and the pipeline one end of connecting bleeder valve D stretches into the agitator tank, and the agitator tank bottom sets up bleeder valve B. The beneficial effects of the utility model are that use melting tank to use after melting the raw materials to filter the jar and the jar that stews in proper order to wax liquid, use the agitator tank to stir the wax liquid of self layering again after stewing and derive, heating bellows can keep warm to the wax liquid in the transmission pipe, prevents that wax liquid from solidifying in the transmission pipe.

Description

Aviation titanium alloy casting bonding wax production unit

Technical Field

The utility model relates to an aviation titanium alloy casting bonding wax production facility field especially relates to an aviation titanium alloy casting bonding wax production unit.

Background

At present, when the aviation titanium alloy casting adhesive wax is produced, a tank body is generally used for melting raw materials, then another tank body is used for standing and filtering wax liquid, and then the wax liquid is taken out for use, but impurities cannot be completely removed in a standing and filtering mode, and in addition, the aviation titanium alloy casting adhesive wax liquid can be layered in a standing process, so that the aviation titanium alloy casting adhesive wax is not beneficial to processing and production.

SUMMERY OF THE UTILITY MODEL

For solving current aviation titanium alloy casting bonding wax and standing still when producing and filtering can not reject the problem that wax liquid self layering still can lead to with impurity completely, the utility model provides an aviation titanium alloy casting bonding wax production unit.

In order to achieve the above object, the utility model adopts the following technical scheme: the aviation titanium alloy casting bonding wax production unit comprises a melting tank, a filtering tank, a transmission pipe, a heating bellows, a standing tank and a stirring tank; the bottom of the melting tank is provided with a discharge valve A, one side of a pipeline connected with the discharge valve A extends into the filtering tank, the bottom of the filtering tank is connected with a transmission pipe through a discharge valve C, the transmission pipe penetrates through the heating bellows and then extends into the standing tank, the bottom of the standing tank is provided with a discharge valve D, one end of the pipeline connected with the discharge valve D extends into the stirring tank, and the bottom of the stirring tank is provided with a discharge valve B; a filter screen is arranged in the filter tank; the heating air box comprises a box body and a chassis, the box body is arranged on the chassis, the box body is of a hollow structure and internally provided with a heating wire, and a transmission pipe penetrates through the hollow structure formed by the box body and the chassis; a support frame B is fixed at the top of the stirring tank, two ends of the support frame B are welded on the tank body of the stirring tank, the middle part of the support frame B is lifted and provided with a stirring motor B, and the stirring motor B is connected with a stirring shaft B extending into the stirring tank; the safety cover is installed at the opening of the top of the melting tank and comprises a fixed cover plate, a movable cover plate, a cover beam and a fixed ring, the fixed ring is clamped at the opening of the top of the melting tank, the cover beam is welded to the fixed ring, the cover plate is fixedly welded to one side of the cover beam, and the movable cover plate is connected to the other side of the cover beam through a hinge shaft.

Furthermore, a support frame A is fixed on the top of the melting tank, two ends of the support frame A are welded on the melting tank body, a stirring motor A is lifted up and installed in the middle of the support frame A, and the stirring motor A is connected with a stirring shaft A extending into the melting tank.

Further, set up two sets of stirring rake A on the (mixing) shaft A, first group stirring rake A is located (mixing) shaft A bottom, and second group stirring rake A is located first group stirring rake A top, and every group stirring rake comprises the stirring vane A that the symmetry set up, and first group stirring rake A is located X coordinate axis direction, and second group stirring rake A is located Y coordinate axis direction.

Furthermore, the inner wall of the filter tank is provided with a plurality of fulcrums positioned on the same horizontal plane, the support plate is placed on the fulcrums, the filter screen is covered on the support plate, the pressing ring is pressed on the filter screen, and the fulcrums, the support plate, the filter screen and the pressing ring are positioned between the discharge valve C and an opening of a pipeline connected with the discharge valve A.

Further, set up two sets of stirring rake B on the (mixing) shaft B, first group stirring rake B is located (mixing) shaft B bottom, and second group stirring rake B is located first group stirring rake B top, and every group stirring rake B comprises the stirring vane B that the symmetry set up, and first group stirring rake B is located X coordinate axis direction, and second group stirring rake B is located Y coordinate axis direction.

Furthermore, the bottom surface of the standing tank is of a conical structure, and a dirt discharging valve B is arranged at the lowest position of the bottom surface of the standing tank.

Furthermore, the bottom surface of the stirring tank is of a conical structure, and a dirt discharging valve A is arranged at the lowest position of the bottom surface of the stirring tank.

Furthermore, a fan is arranged on the inner wall of the box body of the heating air box.

The utility model has the advantages that: the wax liquid is filtered by the melting tank and the filtering tank and the standing tank after the raw materials are melted, the stirring tank is used for stirring and guiding out the wax liquid layered by the stirring tank after standing, and the heating air box can keep the temperature of the wax liquid in the transmission pipe and prevent the wax liquid from being solidified in the transmission pipe.

drawings

Fig. 1 is a schematic structural view of the present invention;

Fig. 2 is a schematic structural view of the filter tank of the present invention.

In the figure, 1, a transmission pipe, 2, a heating bellows, 3, a filter tank, 4, a pressing ring, 5, a filter screen, 6, a supporting plate, 7, a fulcrum, 8, a discharge valve C, 9, a discharge valve A, 10, a stirring motor A, 11, a supporting frame A, 12, a cover beam, 13, a stirring shaft A, 14, a stirring blade A, 15, a melting tank, 16, a standing tank, 17, a discharge valve D, 18, a dirt discharging valve B, 19, a stirring tank, 20, a supporting frame B, 21, a stirring motor B, 22, a stirring shaft B, 23, a stirring blade B, 24, a discharge valve B and 25, and a dirt discharging valve A are arranged in sequence.

Detailed Description

The aviation titanium alloy casting bonding wax production unit comprises a melting tank 15, a filtering tank 3, a transmission pipe 1, a heating air box 2, a standing tank 16 and a stirring tank 19; the tank bodies of the standing tank 1, the filtering tank 3, the melting tank 15 and the stirring tank 19 are all of a double-layer structure, heated medium oil is arranged in the tank, and the medium oil is circulated into the heating tank through a pipeline; a discharge valve A9 is arranged at the bottom of the melting tank 15, one side of a pipeline connected with a discharge valve A9 extends into the filtering tank 3, the bottom of the filtering tank 3 is connected with a transmission pipe 1 through a discharge valve C8, the transmission pipe 1 penetrates through the heating air box 2 and then extends into the standing tank 16, a discharge valve D17 is arranged at the bottom of the standing tank 16, one end of the pipeline connected with a discharge valve D17 extends into the stirring tank 19, and a discharge valve B24 is arranged at the bottom of the stirring tank 19; a filter screen 5 is arranged in the filter tank 3, and the filter screen 5 is a fine iron wire net and plays a role in filtering the wax liquid; the heating air box 2 comprises a box body and a chassis, the box body is arranged on the chassis, the box body is of a hollow structure and is internally provided with a heating wire, the heating wire is a resistance wire connected with a power supply, a fan is arranged on the inner wall of the box body of the heating air box 2, a transmission pipe 1 penetrates through the hollow structure formed by the box body and the chassis, and the preferable transmission pipe 1 is arranged on the chassis; a support frame B20 is fixed at the top of the stirring tank 19, two ends of the support frame B20 are welded on the tank body of the stirring tank 19, the middle of the support frame B20 is lifted and provided with a stirring motor B21, and the stirring motor B21 is connected with a stirring shaft B22 extending into the stirring tank 19; the safety cover is arranged at the opening at the top of the melting tank 15 and comprises a fixed cover plate, a movable cover plate, a cover beam 12 and a fixed ring, the fixed ring is clamped at the opening at the top of the melting tank 15, the cover beam 12 is welded on the fixed ring, the fixed cover plate is welded on one side of the cover beam 12 and is welded on the fixed ring or clamped on the fixed ring through a buckle, the other side of the cover beam 12 is connected with the movable cover plate through a hinge shaft, a hole used for penetrating through a stirring shaft A13 is formed in the fixed cover plate, and the fixed cover plate and the movable cover; preferably, the filter tank 3 is higher than the standing tank 16, the standing tank 16 is higher than the stirring tank 19, the melting tank 15 is placed on the platform, and the filter tank 3 is positioned below the discharge valve A9 to facilitate the flowing of the wax liquid; the retainer plate includes horizontal end and vertical end that the edge welded together, and the horizontal end is pressed at the top of the melting tank 15 jar body, and vertical end stretches into in the melting tank 15 and laminates with the inner wall of melting tank 15.

The top of the melting tank 15 is fixed with a support frame A11, two ends of the support frame A11 are welded on the tank body of the melting tank 15, the middle of the support frame A11 is lifted and provided with a stirring motor A10, and the stirring motor A10 is connected with a stirring shaft A13 extending into the melting tank 15.

Set up two sets of stirring rake A on the (mixing) shaft A13, first group stirring rake A is located (mixing) shaft A13 bottom, and second group stirring rake A is located first group stirring rake A top, and every group stirring rake comprises stirring vane A14 that the symmetry set up, and first group stirring rake A is located X coordinate axis direction, and second group stirring rake A is located Y coordinate axis direction.

The inner wall of the filter tank 3 is provided with a plurality of fulcrums 7 positioned on the same horizontal plane, the fulcrums 7 are welded bulges, the supporting plate 6 is placed on the fulcrums 7, a plurality of holes for wax liquid to pass through are formed in the supporting plate 6, the supporting plate 6 is covered with the filter screen 5, the pressing ring 4 is pressed on the filter screen 5, and the fulcrums 7, the supporting plate 6, the filter screen 5 and the pressing ring 4 are positioned between the discharge valve C8 and an opening of a pipeline connected with the discharge valve A9.

Set up two sets of stirring rake B on the (mixing) shaft B22, first group stirring rake B is located (mixing) shaft B22 bottom, and second group stirring rake B is located first group stirring rake B top, and every group stirring rake B comprises stirring vane B23 that the symmetry set up, and first group stirring rake B is located X coordinate axis direction, and second group stirring rake B is located Y coordinate axis direction.

The bottom surface of the standing tank 16 is of a conical structure, and the lowest part of the bottom surface of the standing tank 16 is provided with a dirt discharging valve B18. The bottom surface of the stirring tank 19 is of a conical structure, and the lowest part of the bottom surface of the stirring tank 19 is provided with a dirt discharging valve A25.

A filtering tank 3 and a standing tank 16 are arranged to sequentially filter the wax liquid so as to completely filter impurities.

The above description is only the specific implementation manner of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the design of the present invention within the technical scope of the present invention.

Claims

1. The aviation titanium alloy casting bonding wax production unit is characterized by comprising a melting tank (15), a filtering tank (3), a conveying pipe (1), a heating air box (2), a standing tank (16) and a stirring tank (19); a discharge valve A (9) is arranged at the bottom of the melting tank (15), one side of a pipeline connected with the discharge valve A (9) extends into the filtering tank (3), the bottom of the filtering tank (3) is connected with a transmission pipe (1) through a discharge valve C (8), the transmission pipe (1) penetrates through the heating air box (2) and then extends into the standing tank (16), a discharge valve D (17) is arranged at the bottom of the standing tank (16), one end of the pipeline connected with the discharge valve D (17) extends into the stirring tank (19), and a discharge valve B (24) is arranged at the bottom of the stirring tank (19); a filter screen (5) is arranged in the filter tank (3); the heating air box (2) comprises a box body and a chassis, the box body is arranged on the chassis, the box body is of a hollow structure and internally provided with a heating wire, and the transmission pipe (1) penetrates through the hollow structure formed by the box body and the chassis; a support frame B (20) is fixed at the top of the stirring tank (19), two ends of the support frame B (20) are welded on the tank body of the stirring tank (19), the middle part of the support frame B (20) is lifted and provided with a stirring motor B (21), and the stirring motor B (21) is connected with a stirring shaft B (22) extending into the stirring tank (19); the safety cover is installed at melting tank (15) top opening part, and the safety cover includes fixed cover plate, removable cover, bent cap (12) and retainer plate, the retainer plate card is at melting tank (15) top opening part, and the welding has bent cap (12) on the retainer plate, bent cap (12) one side welded fastening apron, and the movable cover is connected through the hinge to bent cap (12) opposite side.

2. The aviation titanium alloy casting bonding wax production unit according to claim 1, wherein a support frame A (11) is fixed to the top of the melting tank (15), two ends of the support frame A (11) are welded to the body of the melting tank (15), a stirring motor A (10) is lifted up and mounted in the middle of the support frame A (11), and the stirring motor A (10) is connected with a stirring shaft A (13) extending into the melting tank (15).

3. The aviation titanium alloy casting bonding wax production unit as claimed in claim 2, wherein two groups of stirring paddles A are arranged on the stirring shaft A (13), the first group of stirring paddles A is positioned at the bottom of the stirring shaft A (13), the second group of stirring paddles A is positioned above the first group of stirring paddles A, each group of stirring paddles consists of symmetrically arranged stirring blades A (14), the first group of stirring paddles A is positioned in the X coordinate axis direction, and the second group of stirring paddles A is positioned in the Y coordinate axis direction.

4. The aviation titanium alloy casting bonding wax production unit according to claim 1, wherein the inner wall of the filter tank (3) is provided with a plurality of fulcrums (7) located on the same horizontal plane, the support plate (6) is placed on the fulcrums (7), the support plate (6) is covered with the filter screen (5), the pressing ring (4) is pressed on the filter screen (5), and the fulcrums (7), the support plate (6), the filter screen (5) and the pressing ring (4) are located between the discharge valve C (8) and an opening of a pipeline connected with the discharge valve A (9).

5. The aviation titanium alloy casting bonding wax production unit as claimed in claim 1, wherein two sets of stirring paddles B are arranged on the stirring shaft B (22), the first set of stirring paddles B is positioned at the bottom of the stirring shaft B (22), the second set of stirring paddles B is positioned above the first set of stirring paddles B, each set of stirring paddles B is composed of symmetrically arranged stirring blades B (23), the first set of stirring paddles B is positioned in the X coordinate axis direction, and the second set of stirring paddles B is positioned in the Y coordinate axis direction.

6. The aviation titanium alloy casting bonding wax production unit as claimed in claim 1, wherein the bottom surface of the standing tank (16) is of a conical structure, and a dirt discharge valve B (18) is arranged at the lowest position of the bottom surface of the standing tank (16).

7. The aviation titanium alloy casting bonding wax production unit as claimed in claim 1, wherein the bottom surface of the stirring tank (19) is of a conical structure, and a dirt discharge valve A (25) is arranged at the lowest position of the bottom surface of the stirring tank (19).

8. The aviation titanium alloy casting bonding wax production unit as claimed in claim 1, wherein a fan is mounted on the inner wall of the heating wind box (2).