CN215628106U - Steel core aluminium deoxidier piece is with casting auxiliary structure - Google Patents

Abstract

The utility model discloses a casting auxiliary structure for a steel-cored aluminum deoxidizer block, and relates to the technical field of steel making. The device comprises a placing mechanism, four fixing mechanisms and a stabilizing mechanism, wherein the placing mechanism comprises a placing plate, a placing groove is formed in the middle of the top end of the placing plate along the vertical central line of the placing plate, the four fixing mechanisms comprise four hydraulic cylinders, fixing plates are fixedly connected to the middle of the bottom ends of the four hydraulic cylinders, the stabilizing mechanism comprises a counterweight ball, a fixing rod and a screw rod, and the stabilizing mechanism is fixed in the middle of the bottom end of the placing mechanism. According to the utility model, the fixing block and the extrusion plate move forwards, then the position of the die is extruded and fixed by the forward movement of the extrusion plate, the counterweight ball rotates in the hollow limiting ball through the universal ball to complete time-delay shaking, and further, a reverse force for shaking the placing plate is generated, so that the two forces are offset to reduce the shaking degree, and thus, the steel core aluminum deoxidizer block is of a casting auxiliary structure, the danger is reduced, and the limitation is reduced.

Description

Steel core aluminium deoxidier piece is with casting auxiliary structure

Technical Field

The utility model belongs to the technical field of steel making, and particularly relates to a casting auxiliary structure for a steel-cored aluminum deoxidizer block.

Background

In the steel-making process, pig iron is put into a steel-making furnace to be smelted according to a certain process to obtain steel, a steel-cored aluminum deoxidizer is required to be applied in the steel-making process, the steel-cored aluminum deoxidizer is a product which is added into molten iron to enable the steel to have certain characteristics or meet certain requirements, casting and shaping are required to be utilized in the production of the steel-cored aluminum deoxidizer, but the steel-cored aluminum deoxidizer still has the following defects in practical use:

1. the mould needs to be placed and fixed in the steel core aluminum deoxidizer casting process, and the existing steel core aluminum deoxidizer block adopts a casting auxiliary structure, so that the moulds with different radiuses are not convenient to fix, and the limitation is large;

2. solution needs to be poured in the steel core aluminum deoxidizer casting process, and the existing steel core aluminum deoxidizer block uses a casting auxiliary structure, and can shake when the solution is poured into a mold, so that the danger of the steel core aluminum deoxidizer block is increased.

Therefore, the existing casting auxiliary structure for the steel-cored aluminum deoxidizer block cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a casting auxiliary structure for a steel-cored aluminum deoxidizer block, which is characterized in that a round rod is driven to move forwards along the interior of a hydraulic rod through the working of a hydraulic cylinder so as to drive a fixed block and an extrusion plate to move forwards and further extrude and fix the position of a die through the forward movement of the extrusion plate, a counterweight ball rotates in a hollow limiting ball through a universal ball to complete time-delay shaking, and further reverse force for shaking the placement plate is generated, so that the two forces are offset to reduce the shaking degree, and the casting auxiliary structure for the steel-cored aluminum deoxidizer block is reduced in danger and limitation.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a casting auxiliary structure for a steel-cored aluminum deoxidizer block, which comprises a placing mechanism, four fixing mechanisms and a stabilizing mechanism, wherein the placing mechanism comprises a placing plate, a placing groove is formed in the middle of the top end of the placing plate along the vertical central line of the placing plate, the four fixing mechanisms comprise four hydraulic cylinders, the middle parts of the bottom ends of the four hydraulic cylinders are fixedly connected with a fixing plate, the stabilizing mechanism comprises a counterweight ball, a fixing rod and a screw rod, the stabilizing mechanism is fixed in the middle of the bottom end of the placing mechanism, the four fixing mechanisms are uniformly fixed in the middle parts of the four outer walls of the placing mechanism, a mold can be conveniently placed in the placing groove, and the positions of the hydraulic cylinders are fixed through the matching use of the fixing plate and the placing plate.

Further, place board bottom four corners and evenly linked firmly four supporting legs, four joint grooves have evenly been seted up to standing groove bottom inner wall, and four through-holes have evenly been seted up to standing groove middle part inner wall, support fixedly the position of placing the board through the supporting leg, carry on spacingly through the through-hole to the round bar, prevent that the round bar from taking place the skew when removing.

Furtherly, four pneumatic cylinder one end middle part has linked firmly the hydraulic stem, and four inside equal sliding connection of hydraulic stem have a round bar, four fixed plate one end all is fixed in places four outer walls of board and corresponds position department, drives the round bar through pneumatic cylinder work and moves forward along the inside of hydraulic stem, and then drives fixed plate and slide bar and move forward along the joint groove.

Furtherly, four the adjacent one end of round bar all has linked firmly the fixed block, and four fixed block bottoms have all linked firmly the slide bar, four the adjacent one side of fixed block has all linked firmly the stripper plate, four the slide bar all slides the joint and in four joint inslots portion that correspond position department, drives the stripper plate antedisplacement through the fixed block antedisplacement, and then extrudees fixedly the position of mould, uses through slide bar and the cooperation of joint groove to carry on spacingly to the position of fixed block and stripper plate.

Further, the dead lever bottom mounting is placed board bottom middle part, and the dead lever bottom has linked firmly the spacing ball of cavity, the screw rod top has linked firmly universal ball, fixes the position of dead lever through placing the board.

Further, universal ball rotates inside cavity spacing ball, it is connected with fastening bolt to close on the outer cylinder face in screw rod bottom, counterweight ball and screw rod sliding connection and extrude fixedly through fastening bolt, rock the drive through the mould and place the board and rock to make counterweight ball rotate in cavity spacing ball inside through universal ball, accomplish the time delay and rock, and then produce and place the reverse force that the board rocked, use through screw rod and fastening bolt cooperation and fix and remove counterweight ball's position.

The utility model has the following beneficial effects:

1. the round rod is driven to move forwards along the interior of the hydraulic rod through the working of the hydraulic cylinder, so that the fixing block and the extrusion plate are driven to move forwards, and the position of the die is extruded and fixed through the forward movement of the extrusion plate, so that the steel core aluminum deoxidizer block is convenient to fix the dies with different radiuses by using the casting auxiliary structure, and the limitation of the steel core aluminum deoxidizer block is reduced.

2. According to the utility model, the counterweight ball rotates in the hollow limiting ball through the universal ball to complete time-delay shaking, and further generates a reverse force for shaking the placing plate, so that the two forces can be counteracted to reduce the shaking degree, and thus the casting auxiliary structure for the steel-cored aluminum deoxidizer block can reduce the shaking radian when a solution is poured into the die, and further the danger is reduced.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

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

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

FIG. 3 is a schematic structural view of the fixing mechanism of the present invention;

fig. 4 is a schematic structural view of the stabilizing mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a placement mechanism; 101. placing the plate; 102. a placement groove; 103. a clamping groove; 104. a through hole; 105. supporting legs; 200. a fixing mechanism; 201. a hydraulic cylinder; 202. a fixing plate; 203. a hydraulic lever; 204. a round bar; 205. a fixed block; 206. a slide bar; 207. a pressing plate; 300. a stabilizing mechanism; 301. a counterweight ball; 302. fixing the rod; 303. a screw; 304. a universal ball; 305. fastening a bolt; 306. hollow spacing ball.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, the utility model relates to a casting auxiliary structure for an aluminum steel core deoxidizer block, which comprises a placing mechanism 100, four fixing mechanisms 200 and a stabilizing mechanism 300, wherein the placing mechanism 100 comprises a placing plate 101, a placing groove 102 is formed in the middle of the top end of the placing plate 101 along the vertical central line of the placing plate, the four fixing mechanisms 200 comprise four hydraulic cylinders 201, fixing plates 202 are fixedly connected to the middle of the bottom ends of the four hydraulic cylinders 201, the stabilizing mechanism 300 comprises counterweight balls 301, fixing rods 302 and screws 303, the stabilizing mechanism 300 is fixed to the middle of the bottom end of the placing mechanism 100, the four fixing mechanisms 200 are uniformly fixed to the middle of the four outer walls of the placing mechanism 100, the placing groove 102 facilitates the placement of a mold, and the fixing plates 202 and the placing plate 101 are matched to fix the positions of the hydraulic cylinders 201.

Wherein as shown in fig. 2, four supporting legs 105 are evenly fixedly connected to four corners of the bottom end of the placing plate 101, four clamping grooves 103 are evenly formed in the inner wall of the bottom end of the placing groove 102, four through holes 104 are evenly formed in the inner wall of the middle of the placing groove 102, the position of the placing plate 101 is supported and fixed through the supporting legs 105, the round bar 204 is limited through the through holes 104, and the round bar 204 is prevented from shifting when moving.

As shown in fig. 2-3, the middle of one end of each of the four hydraulic cylinders 201 is fixedly connected with a hydraulic rod 203, and the four hydraulic rods 203 are connected with round rods 204 in a sliding way, one ends of the four fixing plates 202 are fixed at the corresponding positions of the four outer walls of the placing plate 101, the hydraulic cylinder 201 operates to drive the round rod 204 to move forwards along the inner part of the hydraulic rod 203, thereby driving the fixing plate 202 and the sliding rod 206 to move forward along the clamping groove 103, the adjacent ends of the four round rods 204 are fixedly connected with the fixing blocks 205, the bottom ends of the four fixed blocks 205 are fixedly connected with slide bars 206, the adjacent sides of the four fixed blocks 205 are fixedly connected with extrusion plates 207, the four slide bars 206 are slidably clamped in the four clamping grooves 103 at the corresponding positions, the extrusion plates 207 are driven to move forwards by the forward movement of the fixed blocks 205, and then the position of the die is extruded and fixed, and the positions of the fixed block 205 and the extrusion plate 207 are limited by the matching use of the slide rod 206 and the clamping groove 103.

Wherein as shown in fig. 2 and 4, the bottom end of the fixing rod 302 is fixed at the middle of the bottom end of the placing plate 101, the bottom end of the fixing rod 302 is fixedly connected with a hollow limiting ball 306, the top end of the screw 303 is fixedly connected with a universal ball 304, the position of the fixing rod 302 is fixed through the placing plate 101, the universal ball 304 rotates inside the hollow limiting ball 306, the outer cylindrical surface at the bottom of the screw 303 is screwed with a fastening bolt 305, the counterweight ball 301 is connected with the screw 303 in a sliding manner and is extruded and fixed through the fastening bolt 305, the placing plate 101 is shaken through a mold, so that the counterweight ball 301 rotates inside the hollow limiting ball 306 through the universal ball 304, the delayed shaking is completed, and then the reverse force generated when the placing plate 101 is shaken is generated, so that two forces are offset to reduce the shaking degree, and the position of the counterweight ball 301 is fixed and moved through the cooperation of the screw 303 and the fastening bolt 305.

The working principle is as follows:

place the mould inside standing groove 102, then drive round bar 204 along the inside antedisplacement of hydraulic stem 203 through pneumatic cylinder 201 work, thereby drive fixed block 205 and stripper plate 207 antedisplacement, and then extrude fixedly through the position of stripper plate 207 antedisplacement to the mould, the mould can produce when the casting and rock, rock the drive through the mould and place board 101 and rock, thereby make counterweight ball 301 pass through universal ball 304 and rotate in cavity spacing ball 306 is inside, accomplish the time delay and rock, and then produce and place the counterforce that board 101 rocked.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (6)

1. The utility model provides an aluminium steel core deoxidier block is with casting auxiliary structure, is including placing mechanism (100), four fixed establishment (200) and stabilizing mean (300), its characterized in that: placing mechanism (100) is including placing board (101), place board (101) top middle part along its vertical central line seted up standing groove (102), four fixed establishment (200) are including four pneumatic cylinders (201), four pneumatic cylinder (201) bottom middle part has all linked firmly fixed plate (202), stabilizing mean (300) is including counter weight ball (301), dead lever (302) and screw rod (303), stabilizing mean (300) are fixed in placing mechanism (100) bottom middle part, four fixed establishment (200) evenly are fixed in placing mechanism (100) four outer wall middle parts.

2. The casting auxiliary structure for the steel-cored aluminum deoxidizer block according to claim 1, wherein four support legs (105) are evenly fixedly connected to four corners of the bottom end of the placing plate (101), four clamping grooves (103) are evenly formed in the inner wall of the bottom end of the placing groove (102), and four through holes (104) are evenly formed in the inner wall of the middle portion of the placing groove (102).

3. The casting auxiliary structure for the steel-cored aluminum deoxidizer block according to claim 1, wherein a hydraulic rod (203) is fixedly connected to a middle portion of one end of each of the four hydraulic cylinders (201), a round rod (204) is slidably connected to each of the four hydraulic rods (203), and one ends of the four fixing plates (202) are fixed to corresponding positions on four outer walls of the placing plate (101).

4. The casting auxiliary structure for the steel-cored aluminum deoxidizer block as recited in claim 3, wherein adjacent ends of four round rods (204) are fixedly connected with a fixing block (205), bottom ends of the four fixing blocks (205) are fixedly connected with a sliding rod (206), adjacent sides of the four fixing blocks (205) are fixedly connected with a squeezing plate (207), and the four sliding rods (206) are slidably clamped inside the four clamping grooves (103) at corresponding positions.

5. The casting auxiliary structure for the steel-cored aluminum deoxidizer block as recited in claim 1, wherein the bottom ends of the fixing rods (302) are fixed to the middle of the bottom end of the placing plate (101), the bottom ends of the fixing rods (302) are fixedly connected with hollow limiting balls (306), and the top ends of the screw rods (303) are fixedly connected with universal balls (304).

6. The casting auxiliary structure for the steel-cored aluminum deoxidizer block according to claim 5, wherein the universal ball (304) rotates inside the hollow limiting ball (306), the outer cylindrical surface of the bottom of the screw (303) is screwed with the fastening bolt (305), and the counterweight ball (301) is slidably connected with the screw (303) and is fixed by the fastening bolt (305) in an extruding manner.

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