CN218310826U - Rotation type casting machine is used in foundry goods processing - Google Patents

Abstract

The application discloses rotation type casting machine for foundry goods processing relates to foundry goods processing equipment technical field, including first flat board, one side of first flat board roof is fixed with the mounting bracket, and the top rigidity of mounting bracket has the molten iron storage box, and the roof position intercommunication of molten iron storage box has the filling hopper, and the fixed intercommunication of lower extreme of molten iron storage box one side lateral wall has the drain pipe, and the bottom of mounting bracket one side lateral wall is fixed with first electric putter, and first electric putter horizontal output shaft is fixed with the second flat board. Control valve on the drain pipe is opened in this application for this internal pouring and cooling shaping of molten metal liquid through the automatic injection mould of drain pipe, start driving motor and drive the third flat board, mould body and the synchronous suitable angle of rotation of mould sleeve pipe, because the drain pipe is when pouring, the molten metal liquid carries out the ejection of compact from the position directly over the mould body, avoid pouring the outside that has the deviation and flow to the mould body between the drop and the mould body easily as far as possible.

Description

Rotation type casting machine is used in foundry goods processing

Technical Field

The application relates to the technical field of casting machining equipment, in particular to a rotary casting machine for casting machining.

Background

The casting refers to a workpiece which is formed by pouring molten metal, pouring is performed in the most important step in the processing process of the casting, and the traditional pouring work is that a worker transports the molten metal into a mold by means of a container and pours the molten metal;

staff is at long-time working process, and physical power descends rapidly, pours when pouring and has the deviation between placement and the mould easily, and the outside mould can be flowed to the molten metal this moment, causes the molten metal extravagant and cause the conflagration easily, and the potential safety hazard is great.

SUMMERY OF THE UTILITY MODEL

In order to improve above-mentioned staff in long-time working process, physical power descends rapidly, pours when pouring and has the deviation between placement and the mould easily, and the fused metal liquid can flow outside the mould this moment, causes the metal liquid extravagant and causes the conflagration easily, the great problem of potential safety hazard, this application provides a rotation type casting machine for foundry goods processing.

The application provides a rotation type casting machine is used in foundry goods processing adopts following technical scheme:

the utility model provides a rotation type casting machine for foundry goods processing, includes first flat board, one side of first flat board roof is fixed with the mounting bracket, the top position of mounting bracket is fixed with the molten iron storage box, the roof position intercommunication of molten iron storage box has the filling hopper, the fixed intercommunication of lower extreme of molten iron storage box one side lateral wall has the drain pipe, the bottom of mounting bracket one side lateral wall is fixed with first electric putter, the horizontal output shaft of first electric putter is fixed with the second flat board, the dull and stereotyped roof of second is fixed with the protection frame, the inner chamber of protection frame is fixed with driving motor, the vertical output shaft of driving motor is fixed with the third flat board, the equal angle of the dull and stereotyped roof of third is fixed with multiunit mould sleeve pipe, multiunit the equal movable sleeve in mould sheathed tube inner chamber is equipped with the mould body.

Through adopting above-mentioned technical scheme, open the control valve on the drain pipe for this internal pouring of mould and cooling shaping are pour into to the molten metal liquid through the drain pipe is automatic, start driving motor and drive the third flat board, mould body and mould sleeve pipe and rotate suitable angle in step, because the drain pipe is when pouring, the molten metal liquid is followed the mould body and is carried out the ejection of compact directly over the position, avoid pouring the outside that has the deviation and flow to the mould body between the drop and the mould body easily as far as possible.

Optionally, a concave slideway is formed in one end, close to the second flat plate, of the top wall of the first flat plate, and a sliding plate which penetrates through an inner cavity of the concave slideway in a sliding manner is fixed to the bottom wall of the second flat plate.

By adopting the technical scheme, when the pouring of the die body at the outer side is finished, the valve on the liquid outlet pipe is closed, the first electric push rod is started to contract and pull the second flat plate to move to one side of the molten iron storage box in the inner cavity of the concave slide way through the sliding plate, so that the die body at the inner side just moves to the lowest position of the liquid outlet pipe, the control valve is opened to pour again, and the pouring quantity is increased conveniently.

Optionally, a plurality of groups of support frames are uniformly fixed on the bottom wall of the third flat plate, and the bottom wall of each support frame is in contact with the top wall of the second flat plate.

Through adopting above-mentioned technical scheme, thereby utilize the weight of the supplementary support third flat board of multiunit support frame to further improve the stability of third flat board.

Optionally, the supporting frame includes a vertical rod and a rotating wheel, the vertical rod is fixed at the bottom wall of the third flat plate, the rotating wheel is fixed at the bottom of the vertical rod, and the rotating wheel is in contact with the top wall of the second flat plate.

Through adopting above-mentioned technical scheme, utilize montant and rotatory wheel to support the weight of third flat board, utilize to rotate the wheel and can reduce friction, reduce the resistance.

Optionally, a plurality of groups of second electric push rods are uniformly fixed on the bottom wall of the third flat plate at equal angles, and vertical output shafts of the plurality of groups of second electric push rods penetrate through the third flat plate and respectively extend into inner cavities of the plurality of groups of mold sleeves.

Through adopting above-mentioned technical scheme, utilize the flexible mould body that drives of second electric putter to reciprocate in the inner chamber of mould sleeve pipe, conveniently get and put.

Optionally, a heat-conducting metal plate is obliquely fixed to the lower end of the inner cavity of the molten iron storage box, and an electric heating wire is fixed to the bottom wall of the heat-conducting metal plate.

By adopting the technical scheme, heat generated by electrifying the electric heating wire is transferred to molten metal in the inner cavity of the molten iron storage tank through the heat conducting metal plate, so that heat preservation is conveniently carried out on the molten metal, and the molten metal is prevented from being cooled and solidified.

Optionally, the front side wall of the molten iron storage box is obliquely provided with an observation window.

By adopting the technical scheme, the molten metal liquid allowance of the inner cavity of the molten iron storage box can be conveniently observed under the action of the transparent material of the observation window.

In summary, the present application includes at least one of the following advantages:

firstly, opening a control valve on a liquid outlet pipe to enable molten metal to be automatically injected into a mold body through the liquid outlet pipe for pouring and cooling molding, starting a driving motor to drive a third flat plate to rotate so as to drive the mold body and a mold sleeve to synchronously rotate for a proper angle, and enabling adjacent groups of mold bodies to just move to the position right below the liquid outlet pipe, so that the rotary pouring is conveniently carried out by using machinery;

secondly, when the pouring of the mold body on the outer side is finished, a valve on the liquid outlet pipe is closed, a first electric push rod is started to contract and pull a second flat plate to move to one side of the molten iron storage box in the inner cavity of the concave slideway through a sliding plate, so that the mold body on the inner side just moves to the lowest position of the liquid outlet pipe, and then the control valve is opened for pouring again, and the pouring quantity can be conveniently increased;

and thirdly, after the pouring, cooling and forming are finished, a second electric push rod is started to extend to drive the die body to move upwards in the inner cavity of the die sleeve until the die body is completely separated, and the die body is convenient to take and place.

Drawings

FIG. 1 is a first schematic sectional view of the front view of the present application;

FIG. 2 is a second front sectional structural view of the present application;

FIG. 3 is a schematic top view of a second power ram, a third plate, and a mold sleeve according to the present disclosure;

fig. 4 is a schematic front view of a molten iron storage tank according to the present application.

In the figure: 1. a material injection hopper; 2. a molten iron storage tank; 3. a heat conductive metal plate; 4. an electric heating wire; 5. a mounting frame; 6. a first electric push rod; 7. a first plate; 8. a second plate; 9. a concave slideway; 10. a slide plate; 11. a support frame; 12. a second electric push rod; 13. a third plate; 14. a mold body; 15. a mold sleeve; 16. a liquid outlet pipe; 17. a protective frame; 18. a drive motor; 19. and (4) an observation window.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Referring to fig. 1 and 2 of the drawings, the present application provides an embodiment: the utility model provides a rotation type casting machine for foundry goods processing, including first flat board 7, one side of 7 roof of first flat board is fixed with mounting bracket 5, the top position of mounting bracket 5 is fixed with molten iron storage box 2, the outside parcel of molten iron storage box 2 has high temperature resistant heat preservation thermal insulation material, the roof position intercommunication of molten iron storage box 2 has injection hopper 1, the top of injection hopper 1 articulates there is the apron, the fixed intercommunication of lower extreme of 2 one side lateral walls of molten iron storage box has drain pipe 16, the externally mounted of drain pipe 16 has control flap.

Please refer to fig. 1, 2 and 3 in the drawings of the specification, a first electric push rod 6 is fixed at the bottom of a side wall of a mounting frame 5, a second flat plate 8 is fixed at a horizontal output shaft of the first electric push rod 6, a protection frame 17 is fixed at the top wall of the second flat plate 8, a driving motor 18 is fixed at an inner cavity of the protection frame 17, the driving motor 18 is fixed at the top wall of the protection frame 17, a third flat plate 13 is fixed at the top of a vertical output shaft of the driving motor 18, a plurality of groups of mold sleeves 15 are fixed at equal angles at the top wall of the third flat plate 13, and a mold body 14 is movably sleeved in the inner cavity of each group of mold sleeves 15.

When the rotary casting machine for casting processing is used, the safety cover plate on the pouring hopper 1 is turned over, then a proper amount of molten metal is poured into the inner cavity of the molten iron storage tank 2 through the pouring hopper 1, then a plurality of groups of mould bodies 14 are sequentially inserted into the mould sleeve 15, and then the control valve on the liquid outlet pipe 16 is opened, so that the molten metal is automatically poured into the mould bodies 14 through the liquid outlet pipe 16 for casting and cooling forming.

The driving motor 18 is started to drive the third flat plate 13 to rotate so as to drive the die body 14 and the die sleeve 15 to synchronously rotate for a proper angle, so that the adjacent die bodies 14 move right below the liquid outlet pipe 16, and the machine is convenient to use for rotary pouring, and when the liquid outlet pipe 16 is poured, molten metal is discharged from the position right above the die body 14, so that deviation between a pouring falling point and the die body 14 is avoided as much as possible, and the molten metal flows to the outside of the die body 14.

Please refer to fig. 1 and 2 in the drawings of the specification, a concave slide 9 is formed on the top wall of the first plate 7, the concave slide 9 is arranged at one end close to the second plate 8, a sliding plate 10 is fixed on the bottom wall of the second plate 8, the sliding plate 10 is slidably arranged in the inner cavity of the concave slide 9 in a penetrating manner, when the pouring of the mold body 14 at the outer side is completed, the valve on the drain pipe 16 is closed, the first electric push rod 6 is started to contract and pull the second plate 8 to move towards the molten iron storage tank 2 side in the inner cavity of the concave slide 9 through the sliding plate 10, so that the mold body 14 at the inner side just moves to the lowest position of the drain pipe 16, and then the control valve is opened for pouring again, thereby conveniently increasing the pouring quantity.

Referring to fig. 1 and 2 in the drawings of the specification, a plurality of groups of support frames 11 are uniformly fixed on the bottom wall of the third flat plate 13, each support frame 11 includes a vertical rod and a rotating wheel, the vertical rod is fixed at the bottom wall of the third flat plate 13, the rotating wheel is fixed at the bottom of the vertical rod, the rotating wheel is in contact with the top wall of the second flat plate 8, the drive motor 18 is started to drive the third flat plate 13 to rotate, and simultaneously, the support frames 11 are also driven to rotate synchronously, so that the plurality of groups of support frames 11 are used for assisting in supporting the weight of the upper part of the third flat plate 13, and the stability is improved.

Please refer to fig. 1, 2 and 3 in the drawings of the specification, a plurality of sets of second electric push rods 12 are uniformly fixed on the bottom wall of the third flat plate 13 at equal angles, vertical output shafts of the plurality of sets of second electric push rods 12 all penetrate through the third flat plate 13 and respectively extend into inner cavities of a plurality of sets of mold sleeves 15, after casting, cooling and molding are completed, the second electric push rods 12 far away from one side of the molten iron storage tank 2 are started, and the second electric push rods 12 extend to drive the mold bodies 14 to move upwards in the inner cavities of the mold sleeves 15 until the mold bodies are completely separated, so that the mold bodies 14 can be conveniently taken and placed.

Referring to fig. 1 and 2 of the drawings, a heat-conducting metal plate 3 is obliquely fixed to the lower end of an inner cavity of a molten iron storage tank 2, the heat-conducting metal plate 3 is arranged below a liquid outlet pipe 16, and an electric heating wire 4 is fixed to the bottom wall of the heat-conducting metal plate 3, so that when molten metal is stored, the electric heating wire 4 is started to be powered on to generate heat, and the generated heat is conducted to the molten metal in the inner cavity of the molten iron storage tank 2 by using the heat-conducting metal plate 3, thereby conveniently preserving heat of the molten metal and avoiding cooling and solidification of the molten metal.

Referring to fig. 4 of the drawings, an observation window 19 is obliquely arranged on the front side wall of the molten iron storage tank 2, the observation window 19 is perpendicular to the heat conducting metal plate 3, and the observation window 19 is made of a transparent material, so that the residual amount of the molten metal in the inner cavity of the molten iron storage tank 2 can be conveniently observed under the action of the observation window 19.

The working principle is as follows: when the rotary casting machine for casting processing is used, the safety cover plate on the pouring hopper 1 is turned over, then a proper amount of molten metal liquid is poured into the inner cavity of the molten iron storage tank 2 through the pouring hopper 1, then a plurality of groups of mould bodies 14 are sequentially inserted into the mould sleeves 15, and then the control valve on the liquid outlet pipe 16 is opened, so that the molten metal liquid is automatically poured into the mould bodies 14 through the liquid outlet pipe 16 and is cooled and formed.

The driving motor 18 is started to drive the third flat plate 13 to rotate so as to drive the die body 14 and the die sleeve 15 to synchronously rotate for a proper angle, so that the adjacent die bodies 14 move right below the liquid outlet pipe 16, and the machine is convenient to use for rotary pouring, and when the liquid outlet pipe 16 is poured, molten metal is discharged from the position right above the die body 14, so that deviation between a pouring falling point and the die body 14 is avoided as much as possible, and the molten metal flows to the outside of the die body 14.

The driving motor 18 is started to drive the third plate 13 to rotate and simultaneously drive the support frames 11 to rotate synchronously, so that the weight of the upper part of the third plate 13 is supported by the aid of multiple groups of support frames 11, and stability is improved.

When the pouring of the mold body 14 on the outer side is finished, the valve on the liquid outlet pipe 16 is closed, the first electric push rod 6 is started to contract and pull the second flat plate 8 to move to one side of the molten iron storage box 2 in the inner cavity of the concave slide way 9 through the sliding plate 10, so that the mold body 14 on the inner side just moves to the lowest position of the liquid outlet pipe 16, the control valve is opened, and the pouring is carried out again, and the pouring quantity is increased conveniently.

After pouring, cooling and forming are finished, the second electric push rod 12 far away from one side of the molten iron storage tank 2 is started, the second electric push rod 12 extends to drive the mold body 14 to move upwards in the inner cavity of the mold sleeve 15 until the mold body 14 is completely separated, and the mold body 14 is convenient to take and place.

When storing the molten metal liquid, start 4 circular telegrams of electric heating wire and produce the heat, utilize heat conduction metal sheet 3 to conduct the molten metal liquid of 2 inner chambers of molten iron storage box with the heat that produces to conveniently keep warm to the molten metal liquid, avoid the molten metal liquid to cool and solidify.

The residual molten metal in the inner cavity of the molten iron storage tank 2 can be conveniently observed under the action of the observation window 19.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The rotary casting machine for casting processing comprises a first flat plate (7), wherein an installation frame (5) is fixed on one side of the top wall of the first flat plate (7), a molten iron storage tank (2) is fixed at the top position of the installation frame (5), the top wall of the molten iron storage tank (2) is communicated with a casting hopper (1), and the lower end of the side wall of one side of the molten iron storage tank (2) is fixedly communicated with a liquid outlet pipe (16);

the method is characterized in that: the bottom of mounting bracket (5) one side lateral wall is fixed with first electric putter (6), first electric putter (6) horizontal output shaft is fixed with second flat board (8), the roof of second flat board (8) is fixed with protecting frame (17), the inner chamber of protecting frame (17) is fixed with driving motor (18), the vertical output shaft of driving motor (18) is fixed with third flat board (13), the roof of third flat board (13) is fixed with multiunit mould sleeve pipe (15) such as angle, and the multiunit the equal movable sleeve in inner chamber of mould sleeve pipe (15) is equipped with mould body (14).

2. The rotary casting machine for machining castings according to claim 1, wherein: a concave slideway (9) is formed in one end, close to the second flat plate (8), of the top wall of the first flat plate (7), and a sliding plate (10) which penetrates through the inner cavity of the concave slideway (9) in a sliding mode is fixed to the bottom wall of the second flat plate (8).

3. The rotary casting machine for machining castings according to claim 1, wherein: and a plurality of groups of support frames (11) are uniformly fixed on the bottom wall of the third flat plate (13), and the bottom wall of each support frame (11) is in contact with the top wall of the second flat plate (8).

4. The rotary casting machine for casting according to claim 3, wherein: the supporting frame (11) comprises a vertical rod and a rotating wheel, the vertical rod is fixed to the bottom wall of the third flat plate (13), the rotating wheel is fixed to the bottom of the vertical rod, and the rotating wheel is in contact with the top wall of the second flat plate (8).

5. The rotary casting machine for machining castings according to claim 1, wherein: and a plurality of groups of second electric push rods (12) are uniformly fixed on the bottom wall of the third flat plate (13) at equal angles, and vertical output shafts of the plurality of groups of second electric push rods (12) penetrate through the third flat plate (13) and respectively extend into inner cavities of a plurality of groups of die sleeves (15).

6. The rotary casting machine for machining castings according to claim 1, wherein: the lower end of the inner cavity of the molten iron storage box (2) is obliquely fixed with a heat-conducting metal plate (3), and the bottom wall of the heat-conducting metal plate (3) is fixed with an electric heating wire (4).

7. The rotary casting machine for machining castings according to claim 1, wherein: and an observation window (19) is obliquely arranged on the side wall of the front surface of the molten iron storage tank (2).

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