CN211588520U - Aluminium liquid filter equipment for aluminium casting - Google Patents

Abstract

The utility model discloses an aluminium liquid filter equipment is used in aluminium casting, the filtering component includes the rose box, ceramic filter A, ceramic filter B, buckle A, buckle B, electric putter, buckle C, the spring post, buckle D, the button, heat insulating board A, heat insulating board B, rose box inner wall constitutes first buckle fixed area with heat insulating board A's clearance, the position department at first buckle fixed area center is equipped with electric putter, first buckle fixed area uses electric putter as symmetry axis fixedly connected with buckle B, the electric putter top is equipped with buckle A, buckle A's one end fixed connection is in ceramic filter A's lower surface both sides. The utility model discloses buckle A is installed to porcelain filter A, presses porcelain filter A hard and makes its buckle A downstream push buckle B open to the left and right sides, thereby buckle B can block buckle A and realize that ceramic filter A is fixed, thereby start electric putter and make its push rod extension release buckle A from buckle B and realize the dismantlement of ceramic filter A.

Description

Aluminium liquid filter equipment for aluminium casting

The technical field is as follows:

the utility model relates to an aluminium liquid filters technical field, specifically is an aluminium liquid filter equipment for aluminium casting.

Background art:

aluminum is a silver-white light metal and is ductile. The commodity is usually made into rod, sheet, foil, powder, strip and thread. An oxide film that prevents corrosion of the metal can be formed in humid air. The aluminum powder is heated in the air to burn violently and emit dazzling white flame. Is easy to dissolve in dilute sulfuric acid, nitric acid, hydrochloric acid, sodium hydroxide and potassium hydroxide solution, and is difficult to dissolve in water. The relative density was 2.70. Melting point 660 ℃. Boiling point 2327 ℃. The aluminum element is second to oxygen and silicon in the earth crust, and is the most abundant metal element in the earth crust. The development of three important industries, namely aviation, building and automobile, requires the material characteristics to have the unique properties of aluminum and its alloy, which greatly facilitates the production and application of the new metal aluminum. The application is very extensive aluminium and can see everywhere in our life, and aluminium can produce the waste residue at the in-process that melts, directly influences the quality of foundry goods, and many filter equipment's filter screen are fixed connection on the existing market, and the filter screen is dismantled inconveniently. Therefore, a molten aluminum filtering device for aluminum casting is provided.

The utility model has the following contents:

an object of the utility model is to provide an aluminium liquid filter equipment is used in aluminium casting to solve the problem that proposes among the above-mentioned background art.

The utility model discloses by following technical scheme implement: an aluminum liquid filtering device for aluminum casting, comprising:

the filter assembly comprises a filter box, a ceramic filter plate A, a ceramic filter plate B, a buckle A, a buckle B, an electric push rod, a buckle C, a spring column, a buckle D, a button, a heat insulation plate A, a heat insulation plate B, a spring B and a connecting block, wherein a first buckle fixing area is formed by the clearance between the inner wall of the filter box and the heat insulation plate A, a second buckle fixing area is formed by the clearance between the heat insulation plate A and the heat insulation plate B, the electric push rod is arranged at the position of the center of the first buckle fixing area, the buckle B is fixedly connected to the first buckle fixing area by taking the electric push rod as a symmetrical shaft, the buckle A is arranged above the electric push rod, one end of the buckle A is fixedly connected to two sides of the lower surface of the ceramic filter plate A, the buckle C is arranged at the position of the center of the second buckle fixing area, and, the second buckle fixing area is fixedly connected with a buckle D by taking the buckle C as a symmetrical axis;

a conduit assembly.

As further preferable in the present technical solution: the utility model discloses a solar energy collector, including filter box inner wall, buckle D, spring post, buckle D, spring post includes T shape slider, spring A and T shape sleeve, one side fixedly connected with heat insulating board A of filter box inner wall, heat insulating board A upper surface is equipped with ceramic filter A, one side fixedly connected with heat insulating board B of heat insulating board A, second buckle fixed area uses buckle C to be equipped with quantity for four spring post as the symmetry axis, the both ends difference fixed connection of spring post is fixed connection in heat insulating board A and heat insulating board B, buckle D below is equipped with the slide rail, slide rail fixed connection is in second buckle fixed area inner wall, buckle D's bottom is equipped with the slider, slider and slide rail sliding connection, one side of buckle D's bottom.

As further preferable in the present technical solution: the pipeline assembly comprises a feeding pipeline, a slag discharging pipeline A, a slag discharging pipeline B, a discharging pipeline and a valve, the top of the outer side of the filter box is communicated with the feeding pipeline, the top of the other side of the filter box is communicated with the slag discharging pipeline A, the slag discharging pipeline A is provided with the slag discharging pipeline B below, the slag discharging pipeline B is communicated with the filter box, the discharging pipeline is provided with the discharging pipeline below the slag discharging pipeline B, and the discharging pipeline is communicated with the filter box.

As further preferable in the present technical solution: and valves are arranged at the pipe orifices of the feeding pipeline, the slag discharging pipeline A, the slag discharging pipeline B and the discharging pipeline.

As further preferable in the present technical solution: and a trapezoidal landslide is fixedly connected below the ceramic filter plate B.

As further preferable in the present technical solution: the filter box top is connected with the box cover through a bearing in a rotating mode, and the top of the box cover is fixedly connected with a handle.

The utility model has the advantages that: the porcelain filter A is provided with a buckle A, the porcelain filter A is pressed down hard to enable the buckle A to move downwards to push the buckle B away towards the left side and the right side, then the buckle B can clamp the buckle A to achieve fixing of the ceramic filter A, and an electric push rod is started to enable the push rod to extend to push the buckle A out of the buckle B to achieve dismounting of the ceramic filter A. The ceramic filter plate B is provided with the buckle C, the ceramic filter plate B is pressed down hard to enable the buckle C to move downwards to push the buckle D away from the left side and the right side, and then the buckle D can clamp the buckle C to fix the ceramic filter plate A. According to the button, the button can slide towards the left side and the right side due to the fact that the button is hinged through the connecting rod, the buckle C is not clamped by the buckle D any more, and therefore the ceramic filter plate B is detached.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is an enlarged view of the structure of the region X in fig. 1 according to the present invention;

fig. 3 is an enlarged view of the structure of the Y region in fig. 1 according to the present invention;

fig. 4 is a bottom view of the clip D of the present invention;

fig. 5 is a schematic structural view of the spring post of the present invention.

In the figure: 1. a filter assembly; 101. a filter box; 102. a ceramic filter plate A; 103. a ceramic filter plate B; 104. a buckle A; 105. a buckle B; 106. an electric push rod; 107. a buckle C; 108. a spring post; 109. a buckle D; 110. a button; 111. a heat insulation plate A; 112. a heat insulation board B; 113. a trapezoidal landslide; 114. a bearing; 115. a box cover; 116. a handle; 117. a spring B; 118. a connecting rod; 119. a first snap fixation area; 120. a second snap fixation area; 121. connecting blocks; 122. a T-shaped slider; 123. a spring A; 124. a T-shaped sleeve; 125. a tension spring; 126. a slide rail; 127. a slider; 2. a conduit assembly; 201. a feed conduit; 202. a slag discharge pipeline A; 203. a slag discharge pipeline B; 204. a discharge pipeline; 205. and (4) a valve.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Examples

Referring to fig. 1-5, the present invention provides a technical solution: an aluminum liquid filtering device for aluminum casting, comprising:

the filtering component 1 comprises a filtering box 101, a ceramic filtering plate A102, a ceramic filtering plate B103, a buckle A104, a buckle B105, an electric push rod 106, a buckle C107, a spring column 108, a buckle D109, a button 110, a heat insulation plate A111, a heat insulation plate B112, a spring B117 and a connecting block 121, wherein a first buckle fixing area 119 is formed by a gap between the inner wall of the filtering box 101 and the heat insulation plate A111, a second buckle fixing area 120 is formed by a gap between the heat insulation plate A111 and the heat insulation plate B112, the electric push rod 106 is arranged at the center of the first buckle fixing area 119, the buckle B105 is fixedly connected to the first buckle fixing area 119 by taking the electric push rod 106 as a symmetrical axis, the buckle A104 is arranged above the electric push rod 106, one end of the buckle A104 is fixedly connected to two sides of the lower surface of the ceramic filtering plate A102, the buckle C107 is arranged at the center of the second buckle fixing area 120, one, the second buckle fixing area 120 is fixedly connected with a buckle D109 by taking the buckle C107 as a symmetry axis;

a pipe assembly 2.

In this embodiment, specifically: the spring columns 108 comprise T-shaped sliders 122, springs A123 and T-shaped sleeves 124, one side of the inner wall of the filter box 101 is fixedly connected with a heat insulation plate A111, the upper surface of the heat insulation plate A111 is provided with a ceramic filter plate A102, one side of the heat insulation plate A111 is fixedly connected with a heat insulation plate B112, the second buckle fixing area 120 is provided with four spring columns 108 by taking a buckle C107 as a symmetry axis, two ends of each spring column 108 are respectively and fixedly connected to the heat insulation plate A111 and the heat insulation plate B112, a sliding rail 126 is arranged below the buckle D109, the sliding rail 126 is fixedly connected to the inner wall of the second buckle fixing area 120, the bottom end of the buckle D109 is provided with a slider 127, the slider 127 is in sliding connection with the sliding rail 126, one side of the bottom of the buckle D109 is provided with a; the installation of the heat insulation board a111 and the heat insulation board B112 can keep the temperature in the filter box 101 and prevent the parts in the first buckle fixing area 119 and the second buckle fixing area 120 from being affected by too high temperature, the slide rail 126 below the buckle D109 can prevent the buckle D109 from sliding right and left correctly and preventing from moving downwards when the button 110 is pressed down again, and the tension spring 125 can restore the pushed buckle D109.

In this embodiment, specifically: the pipeline assembly 2 comprises a feeding pipeline 201, a slag discharging pipeline A202, a slag discharging pipeline B203, a discharging pipeline 204 and a valve 205, the top of the outer side of the filter box 101 is communicated with the feeding pipeline 201, the top of the other side of the filter box 101 is communicated with the slag discharging pipeline A202, the slag discharging pipeline B203 is arranged below the slag discharging pipeline A202, the slag discharging pipeline B203 is communicated with the filter box 101, the discharging pipeline 204 is arranged below the slag discharging pipeline B203, and the discharging pipeline 204 is communicated with the filter box 101; make things convenient for the aluminium liquid feeding through setting up charge-in pipeline 201, conveniently let the slag charge that filters out discharge through setting up slag charge discharge pipe way A202 and slag charge discharge pipe way B203, conveniently let aluminium liquid discharge through setting up ejection of compact pipeline 204.

In this embodiment, specifically: the openings of the feeding pipeline 201, the slag discharging pipeline A202, the slag discharging pipeline B203 and the discharging pipeline 204 are respectively provided with a valve 205, and the aluminum liquid can flow out of the pipelines only when needed by arranging the valve 205.

In this embodiment, specifically: a trapezoidal landslide 113 is fixedly connected below the ceramic filter plate B103; the arrangement of the trapezoidal landslide 113 can facilitate the discharge of the filtered aluminum liquid from the discharge pipeline 204.

In this embodiment, specifically: the upper part of the filter tank 101 is rotatably connected with a tank cover 115 through a bearing 114, and the top of the tank cover 115 is fixedly connected with a handle 116; the opening of the lid 115 is facilitated by a handle 116.

The operating principle or the structural principle is that aluminum liquid is poured into a filter box 101 through a feeding pipeline 201, the filter box 101 is internally provided with an insulating plate A111 and an insulating plate B112 which can ensure that the temperature of the aluminum liquid is not reduced during filtering, wherein the insulating plate A111 and the insulating plate B112 are made of aluminum silicate, the types of the insulating plate A111 and the insulating plate B112 are gsl234tt, the aluminum liquid reaches a ceramic filter plate B103 after being filtered by the ceramic filter plate A102, the mesh number of the ceramic filter plate A102 is 200 meshes/inch, the mesh number of the ceramic filter plate B103 is 500 meshes/inch, the angles between the ceramic filter plate A102 and the ceramic filter plate B103 and the horizontal plane are inclined by 30 to 40 degrees, the ceramic filter plate A102 and the ceramic filter plate B103 are made of ceramic fibers, the types of the ceramic filter plate A102 and the ceramic filter plate B103 are 3#, as the residual material slag on the inclined filter plates A102 and the ceramic filter plate B103 can be discharged from a slag discharge pipeline A202 and a slag discharge, the filtered aluminum liquid flows to the trapezoidal landslide 113 and is discharged from the discharge pipeline 204. The ceramic filter plate A102 is provided with a buckle A104, the ceramic filter plate A102 is pressed down by force to enable the buckle A104 to move downwards to push a buckle B105 to the left and the right, then the buckle B105 can clamp the buckle A104, and therefore the ceramic filter plate A102 is fixed, an electric push rod 106 is started to enable the push rod to extend to push the buckle A104 out of the buckle B105, and therefore the ceramic filter plate A102 is detached. The ceramic filter plate B103 is provided with a buckle C107, the buckle D109 is pushed open towards the left side and the right side by pressing the ceramic filter plate B103 forcefully to enable the buckle C107 to move downwards, and then the buckle D109 clamps the buckle C107, so that the ceramic filter plate A102 is fixed. The button 110 is pressed, and the button 110 is hinged through the connecting rod 118, so that the buckle D109 slides towards the left and the right, the buckle C107 is not clamped by the buckle D109, and the ceramic filter plate B103 is detached.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An aluminum liquid filtering device for aluminum casting is characterized by comprising:

the filter assembly (1), the filter assembly (1) comprises a filter box (101), a ceramic filter plate A (102), a ceramic filter plate B (103), a buckle A (104), a buckle B (105), an electric push rod (106), a buckle C (107), a spring column (108), a buckle D (109), a button (110), a heat insulation plate A (111), a heat insulation plate B (112), a spring B (117) and a connecting block (121), a first buckle fixing area (119) is formed by a gap between the inner wall of the filter box (101) and the heat insulation plate A (111), a second buckle fixing area (120) is formed by a gap between the heat insulation plate A (111) and the heat insulation plate B (112), the electric push rod (106) is arranged at the center of the first buckle fixing area (119), the buckle B (105) is fixedly connected with the electric push rod (106) as a symmetrical shaft in the first buckle fixing area (119), the buckle A (104) is arranged above the electric push rod (106), one end of the buckle A (104) is fixedly connected to two sides of the lower surface of the ceramic filter plate A (102), a buckle C (107) is arranged at the center of the second buckle fixing area (120), one end of the buckle C (107) is fixedly connected to two sides of the lower surface of the ceramic filter plate B (103), and the buckle D (109) is fixedly connected to the second buckle fixing area (120) by taking the buckle C (107) as a symmetry axis;

the device comprises a pipeline assembly (2), the top of the outer side of the filter box (101) is communicated with a feeding pipeline (201) of the pipeline assembly (2), the top of the other side of the filter box (101) is communicated with a slag discharge pipeline A (202), and a discharge pipeline (204) of the pipeline assembly (2) is communicated with the filter box (101).

2. The aluminum liquid filtering device for aluminum casting as claimed in claim 1, wherein: the spring columns (108) comprise T-shaped sliding blocks (122), springs A (123) and T-shaped sleeves (124), one side of the inner wall of the filter box (101) is fixedly connected with a heat insulation plate A (111), the upper surface of the heat insulation plate A (111) is provided with a ceramic filter plate A (102), one side of the heat insulation plate A (111) is fixedly connected with a heat insulation plate B (112), the second buckle fixing area (120) is provided with four spring columns (108) by taking buckles C (107) as symmetrical axes, two ends of each spring column (108) are respectively and fixedly connected to the heat insulation plate A (111) and the heat insulation plate B (112), sliding rails (126) are arranged below the buckles D (109), the sliding rails (126) are fixedly connected to the inner wall of the second buckle fixing area (120), the bottom ends of the buckles D (109) are provided with sliding blocks (127), and the sliding blocks (127) are connected with the sliding rails, one side of the bottom of buckle D (109) is equipped with connecting block (121), connecting block (121) and button (110) are articulated through connecting rod (118), two fixedly connected with extension spring (125) between connecting block (121).

3. The aluminum liquid filtering device for aluminum casting as claimed in claim 1, wherein: pipeline component (2) include charge-in pipeline (201), slag charge drain pipe A (202), slag charge drain pipe B (203), ejection of compact pipeline (204) and valve (205), slag charge drain pipe A (202) below is equipped with slag charge drain pipe B (203), slag charge drain pipe B (203) and rose box (101) intercommunication, slag charge drain pipe B (203) below is equipped with ejection of compact pipeline (204).

4. The aluminum liquid filtering device for aluminum casting as claimed in claim 3, wherein: and valves (205) are arranged at the pipe orifices of the feeding pipeline (201), the slag discharging pipeline A (202), the slag discharging pipeline B (203) and the discharging pipeline (204).

5. The aluminum liquid filtering device for aluminum casting as claimed in claim 1, wherein: the lower part of the ceramic filter plate B (103) is fixedly connected with a trapezoidal landslide (113).

6. The aluminum liquid filtering device for aluminum casting as claimed in claim 1, wherein: the upper part of the filter box (101) is rotatably connected with a box cover (115) through a bearing (114), and the top of the box cover (115) is fixedly connected with a handle (116).

Images