CN209849843U - Aluminium liquid chute is assembled to locate mode - Google Patents

Abstract

The positioning type assembled aluminum liquid launder is formed by assembling a straight-flow launder, a three-way launder, a turning launder and a heat-preservation double-chamber filter box. The straight flow grooves are divided into three types: one end of the A-type straight flow groove is provided with a positioning boss, and the other end of the A-type straight flow groove is provided with a positioning groove; positioning bosses are manufactured at two ends of the B-type direct current groove; positioning grooves are formed at two ends of the C-shaped straight flow groove; the positioning groove is a U-shaped groove, and when the positioning boss is spliced with the positioning groove, the positioning boss can be vertically placed above the positioning groove. Positioning bosses are manufactured at one ends of the three-way flow groove, the turning flow groove and the filter box, and positioning grooves are manufactured at the other ends of the three-way flow groove, the turning flow groove and the filter box; one end of the heat-preservation double-chamber filter box is a filter chamber, and the other end is a settling chamber. The end surface of each outer end after the aluminum liquid launder is assembled is one end for manufacturing the positioning groove. This aluminium liquid chute is convenient for fix a position, assembles swiftly, and stable in structure installs more accurately, saves time, improves work efficiency, has solved the easy dislocation that produces when current aluminium liquid chute assembles, assembles insecure problem.

Description

Aluminium liquid chute is assembled to locate mode

Technical Field

The utility model relates to an aluminium liquid chute is assembled to locate mode belongs to aluminium processing production facility field.

Background

In the production process of aluminum products, molten aluminum after being smelted needs to be shunted to a mold with a shape required by casting through an aluminum liquid launder. For example, in the casting process of the aluminum bar, when the aluminum liquid flows out of the smelting furnace to the launder, the aluminum liquid can be used as a straight-flow launder, a turning launder or a three-way launder, then the aluminum liquid is filtered by the filter box, then enters the diverter tray through the launder, passes through the sleeve crystallizer and is finally cast into the aluminum bar. The aluminum liquid launder needs to be matched with a ceramic filter box and a matched ceramic filter plate for use, and aims to effectively remove impurities with various fineness reaching the micron level in aluminum water, so that the aluminum water is changed into stable laminar flow, and then the required product is obtained by punching. Because the length, the shunting position and the whole shape of the launder are different due to different casting workshop sites, the molten aluminum launder and the aluminum molten steel launder prefabricated member must be customized in advance according to actual requirements in reproduction, and then the launder is put into production after being assembled. And in the chute assembling process, because the current chute is not provided with the location, the dislocation is easily generated between the two chutes during the assembly, even a very slight gap in the production can also lead the chute interface to generate the aluminum leakage phenomenon, the flowing of aluminum liquid is influenced, and the potential safety hazard exists. Therefore, it is necessary to develop an aluminum liquid launder which can improve the above problems.

Disclosure of Invention

An object of the utility model is to the not enough of above-mentioned prior art, provide one kind and can make according to customer's designing requirement, need not reprocessing during the assembly and can the direct mount, the location of being convenient for, assemble swiftly, stable in structure installs more accurate locate mode and assembles aluminium liquid chute.

The utility model discloses a realize above-mentioned purpose through following technical scheme:

the utility model provides an aluminium liquid chute is assembled to locate mode, is assembled by straight-flow groove, tee bend chute, turn chute and heat preservation double-chamber rose box and forms which characterized in that: the direct current grooves are divided into three types; one end of the A-type straight flow groove is provided with a positioning boss, and the other end of the A-type straight flow groove is provided with a positioning groove; positioning bosses are manufactured at two ends of the B-type direct current groove; positioning grooves are formed at two ends of the C-shaped straight flow groove; the groove shape of the positioning groove is of a U-shaped structure, and when the positioning boss is spliced with the positioning groove, the positioning boss can be vertically placed from the upper part of the positioning groove; one end of the three-way flow groove, the turning flow groove and the filter box is provided with a positioning boss, and the other end of the three-way flow groove, the turning flow groove and the filter box is provided with a positioning groove; one end of the heat-preservation double-chamber filter box is a filter chamber, the other end of the heat-preservation double-chamber filter box is a settling chamber, a communicated channel is arranged at the bottom of the filter chamber connected with the settling chamber, a liquid inlet is formed in the upper end of the left side wall of the filter chamber, a liquid outlet is formed in the upper end of the right side wall of the settling chamber, a boss matched with a ceramic filter plate and having an inclination angle of 45 degrees is formed in the middle of the inner cavity of the filter chamber, an acute angle A is kept between the inner wall of the box body below the boss and the vertical direction, the upper surface of the ceramic filter plate placed on the boss is flush with the bottom surface of the; the end surface of each outer end of the aluminum liquid launder after being assembled is one end for manufacturing a positioning groove.

Compared with the prior art, the utility model beneficial effect lie in:

this aluminium liquid chute is assembled to locate mode is assembled by straight-flow groove, tee bend chute, turn chute and two room rose boxes that keep warm and is formed, can make according to customer's designing requirement, but direct mount during the assembly, through boss and recess cooperation, the location of being convenient for is assembled swiftly, stable in structure, aluminium liquid laminar flow is steady, and the installation is more accurate, saves time, improves work efficiency, assembles not target in place when having avoided current aluminium liquid chute to use, has the gap, assembles not firm problem.

Drawings

FIG. 1 is a schematic structural view of an assembled positioning type assembled aluminum liquid launder;

FIG. 2 is a schematic structural diagram of an A-type DC trough;

FIG. 3 is a schematic structural diagram of a type B DC trough;

FIG. 4 is a schematic structural diagram of a C-type DC slot;

FIG. 5 is a schematic view of the structure of the three-way sluice;

FIG. 6 is a schematic view of a turning launder;

FIG. 7 is a schematic view of the structure of the filtration tank;

FIG. 8 is a schematic structural diagram of a straight-flow slot assembly;

FIG. 9 is a schematic cross-sectional view of the thermal insulation double-chamber filter box with a ceramic filter plate.

In the figure: 1. a straight flow groove; 1-1, A type straight flow groove; 1-2, B type straight flow groove; 1-3, C type straight flow groove; 2. a three-way launder; 3. a turning launder; 4. a heat preservation double-chamber filter box; 4-1, filtering chamber; 4-2, a settling chamber; 4-3 liquid inlet; 4-4, a liquid outlet; 4-5, a channel; 5. positioning the boss; 6. a positioning groove; 7. a ceramic filter plate.

Detailed Description

The positioning type assembled aluminum liquid launder is formed by assembling a straight-flow tank 1, a three-way launder 2, a turning launder 3 and a heat-preservation double-chamber filter box 4, wherein the straight-flow tank 1 is divided into three types; one end of the A-type straight flow groove 1-1 is provided with a positioning boss 5, and the other end is provided with a positioning groove 6, as shown in figure 2; positioning bosses 5 are manufactured at two ends of the B-type straight flow groove 1-2, as shown in figure 3; positioning grooves 6 are formed at two ends of each C-shaped straight flow groove 1-3, as shown in figure 4; the groove shape of the positioning groove 6 is a U-shaped structure, and when the positioning boss 5 and the positioning groove 6 are spliced, the positioning boss 5 can be vertically placed from the upper part of the positioning groove 6; as shown in fig. 5, 6 and 7, one end of the three-way launder 2, the turning launder 3 and the double-chamber heat-preservation filter tank 4 is provided with a positioning boss 5, and the other end is provided with a positioning groove 6; as shown in fig. 7, one end of the heat-preservation double-chamber filter box 4 is a filter chamber 4-1, the other end is a settling chamber 4-2, a communicated channel 4-5 is arranged at the bottom of the connection between the filter chamber 4-1 and the settling chamber 4-2, a liquid inlet 4-3 is arranged at the upper end of the left side wall of the filter chamber 4-1, and a liquid outlet 4-4 is arranged at the upper end of the right side wall of the settling chamber 4-2; as shown in fig. 9, a boss with an inclination angle of 45 degrees is manufactured in the middle of the inner cavity of the filtering chamber 4-1, the inner wall of the box body below the boss keeps an acute angle A with the vertical direction, the upper surface of the ceramic filtering plate 7 placed on the boss is flush with the bottom surface of the liquid inlet 4-3, an arc-shaped slope surface with a high left end and a low right end is manufactured at the bottom of the filtering chamber 4-1, and the height of the slope surface is gradually reduced from the left end of the filtering chamber 4-1 to the channel direction; as shown in figure 1, the end surface of each outer end of the assembled aluminum liquid launder is one end for manufacturing a positioning groove 6.

This aluminium liquid chute is assembled to locate mode, in the concrete use:

firstly, the assembly preparation is made according to the customized route, and the required launders of various types from the outlet of the smelting furnace to the diverter plate are arranged in sequence for hoisting. When the straight flow groove 1 and the straight flow groove 1 are spliced, the positioning boss 5 can be aligned with the positioning groove 6 from top to bottom directly during hoisting because the positioning groove 6 is a U-shaped groove hollowed above; as shown in fig. 1, a straight flow groove 1 is respectively assembled on a liquid inlet 4-3 and a liquid outlet 4-4 at two ends of a heat-preservation double-chamber filter box 4, one end of a positioning boss 5 manufactured on the heat-preservation double-chamber filter box 4 is matched with one end of a positioning groove 6 of an A-type straight flow groove 1-1, and one end of the heat-preservation double-chamber filter box 4, which is provided with the positioning groove 6, is matched with one end of a positioning boss 5 of another A-type flow groove 1-1; the bottom surfaces of the liquid inlet 4-3 and the liquid outlet 4-4 are flush with the bottom surface of the inner cavity of the straight flow groove 1, so that stable laminar flow can be ensured when the aluminum liquid flows through; when the straight flow groove 1 is spliced with the three-way flow groove 2 or the turning flow groove 3, attention is paid to splicing after aligning the positioning boss 5 with the positioning groove 6, and attention is paid to the consistency of the opening directions of the three-way flow groove 2 and the turning flow groove 3 with the designed aluminum liquid flow path; and after the assembly of the aluminum liquid launder is finished, assembling the aluminum liquid launder with the aluminum liquid launder prefabricated member. Because the terminal surface of aluminium liquid chute outer end need with cooperation such as smelting pot and reposition of redundant personnel dish, so when the design, need pay attention to the terminal surface of each outer end for making positioning groove 6 after guaranteeing the chute assembly.

Through the positioning effect that location boss 5 and positioning groove 6 match, can make aluminium liquid chute assemble, accomplish fast and assemble, assemble the back because location boss 5 and positioning groove 6's cooperation for aluminium liquid chute overall structure is stable, the cooperation uses heat preservation double-chamber rose box 4 and ceramic filter 7, reducible aluminium liquid flow drop, thereby more do benefit to the type of dashing of follow-up processing, the bottom surface of filter chamber 4-1 sets up to arc domatic in addition and more does benefit to making aluminium liquid flow to the passageway from the bottom of filter chamber 4-1 and get into precipitation chamber 4-2 better, make the bottom of filter chamber 4-1 reduce aluminium liquid and detain. By using the positioning type assembled aluminum liquid launder, the installation can be more accurate, the working time is saved, and the working efficiency is improved.

The above description is only a preferred embodiment of the present invention, and the above illustration does not limit the essence of the present invention in any form, and any simple modification or variation of the above embodiments based on the technical essence of the present invention and equivalent embodiments which may be changed or modified to equivalent variations by using the technical essence of the present invention by those of ordinary skill in the art after reading the present description still belong to the technical solution of the present invention without departing from the essence and scope of the present invention.

Claims (1)

1. The utility model provides an aluminium liquid chute is assembled to locate mode, is assembled by straight-flow groove (1), tee bend chute (2), turn chute (3) and two rooms rose box (4) that keep warm and forms its characterized in that: the straight flow grooves (1) are divided into three types; one end of the A-type straight flow groove (1-1) is provided with a positioning boss (5), and the other end is provided with a positioning groove (6); positioning bosses (5) are respectively manufactured at two ends of the B-type straight flow groove (1-2); positioning grooves (6) are formed at two ends of the C-shaped straight flow groove (1-3); the groove shape of the positioning groove (6) is a U-shaped structure, and when the positioning boss (5) and the positioning groove (6) are spliced, the positioning boss (5) can be vertically placed in from the upper part of the positioning groove (6); one end of the three-way launder (2), the turning launder (3) and the double-heat-preservation-chamber filter box (4) is provided with a positioning boss (5), and the other end is provided with a positioning groove (6); one end of the heat-preservation double-chamber filter box (4) is a filter chamber (4-1), and the other end is a settling chamber (4-2); a communicated channel (4-5) is arranged at the bottom of the connection between the filter chamber (4-1) and the settling chamber (4-2); a liquid inlet (4-3) is arranged at the upper end of the left side wall of the filtering chamber (4-1), and a liquid outlet (4-4) is arranged at the upper end of the right side wall of the settling chamber (4-2); a boss which is matched with the ceramic filter plate (7) and has an inclination angle of 45 degrees is manufactured in the middle of the inner cavity of the filter chamber (4-1), and an acute angle A is kept between the inner wall of the box body below the boss and the vertical direction; the upper surface of the ceramic filter plate (7) after being placed on the boss is flush with the bottom surface of the liquid inlet (4-3); an arc-shaped slope surface with a high left end and a low right end is manufactured at the bottom of the filtering chamber (4-1), and the height of the slope surface is gradually reduced from the left end of the filtering chamber (4-1) to the direction of the channel; the end surface of each outer end of the aluminum liquid launder after being assembled is one end for manufacturing a positioning groove (6).