CN113751672B - High-efficiency energy-saving heating device for aluminum alloy casting mold and use method thereof - Google Patents

Abstract

The invention discloses a high-efficiency energy-saving heating device for an aluminum alloy casting mould plate and a use method thereof, which relate to the related field of the aluminum alloy casting mould plate and aim to solve the problem that the drying efficiency of the existing drying process is low in the prior art.

Description

High-efficiency energy-saving heating device for aluminum alloy casting mold and use method thereof

Technical Field

The invention relates to the field of aluminum alloy casting mold plates, in particular to a high-efficiency energy-saving heating device of an aluminum alloy casting mold plate and a use method thereof.

Background

The casting mould is to make the structural shape of the part by using other materials which are easy to mold in advance, then put the mould into the sand mould, so that a cavity with the same structural size as the part is formed in the sand mould, and then pour the fluidity liquid into the cavity, and the liquid can form the part with the same shape and structure as the mould after cooling and solidification. The casting mould is an important ring in the casting process, and when the existing aluminum alloy casting is cast, moisture often remains on the mould, so that the aluminum alloy casting needs to be baked on the surface of the mould before casting, and the moisture on the surface of the mould is dried.

The existing heating process of the aluminum alloy casting mould plate realizes the drying and heating treatment of moisture on the mould plate by holding a heating spray gun by a user, so that the drying treatment of the mould plate can be completed only by long-time work, and further the working experience of workers is greatly relied on; therefore, the development of an efficient energy-saving heating device for an aluminum alloy casting mould is urgently needed in the market to help people solve the existing problems.

Disclosure of Invention

The invention aims to provide a high-efficiency energy-saving heating device for an aluminum alloy casting mould, which aims to solve the problem that the drying efficiency of the existing drying process is low in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-efficient heating device of aluminum alloy casting mould dish, includes the stoving case, the inside of stoving case is provided with the second installation piece, be provided with the motor pivot on the second installation piece, be provided with the rotor plate in the motor pivot, be provided with the drying apparatus on the rotor plate, the rear end of rotor plate is provided with the second motor, the outside of stoving case is provided with sealed filler strip.

Preferably, the lower extreme of stoving case is provided with the main part mould dish, the inside of main part mould dish is provided with the casting die cavity, the lower extreme of casting die cavity is provided with the sand storage layer, the lower extreme of sand storage layer is provided with heating resistance wire layer.

Preferably, the upper end of stoving case is provided with the fixed column, the upper end of fixed column is provided with the fixed plate, the upper end of fixed plate is provided with the second electric putter.

Preferably, the upper end of the second electric putter is provided with the fixed strip, be provided with first electric slide on the first electric slide, the lower extreme of first electric slide is provided with first electric putter.

Preferably, the upper end of the rotating plate is provided with a first sealing plate, the rear end of the first sealing plate is provided with a second sealing plate, the lower ends of the second sealing plate and the first sealing plate are both provided with connecting blocks, a third electric push rod is arranged on each connecting block, and connecting pieces are arranged on the third electric push rods.

Preferably, the upper end of the first sealing plate is provided with a connecting roller, water absorbing bristles are arranged on the connecting roller, the upper end of the connecting roller is provided with a second connecting sleeve, the upper end of the second connecting sleeve is provided with a fourth electric push rod, one side of the fourth electric push rod is provided with a liquid sprayer, the upper end of the liquid sprayer is provided with a first mounting block, and the other side of the fourth electric push rod is provided with a heater.

Preferably, the upper end of fourth electric putter is provided with the rotor, rotor and fourth electric putter fixed connection, be provided with the fixed disk on the rotor, the fixed disk sets up to rotate with the rotor and is connected, the rear end of fixed disk is provided with the dead lever, the dead lever sets up to "L" form of falling, dead lever and fixed disk fixed connection, the lower extreme of dead lever is provided with the second electric slide, second electric slide and dead lever fixed connection, the lower extreme of second electric slide is provided with the second electric slide, second electric slide and second electric slide set up to electric connection, the front end of fixed disk is provided with first adapter sleeve, first adapter sleeve and rotor fixed connection, the front end of first adapter sleeve is provided with first motor, be provided with the drive pivot on the first motor, and drive pivot and first motor pass through coupling joint, the lower extreme of first motor is provided with the motor cabinet, motor cabinet and first motor cabinet pass through electric motor cabinet and second electric motor cabinet fixed connection.

The application method of the high-efficiency energy-saving heating device of the aluminum alloy casting mould plate comprises the following steps:

step one: the user can realize the position adjustment to the fixed strip through the first electric slideway and the first electric sliding block which are electrically connected, so that the sealing gasket strip can be attached to the outer side of the casting die cavity, and the connecting block is driven to move through the third electric push rod, so that the first sealing plate and the second sealing plate can be separated;

step two: the user drives the connecting roller to move through the fourth electric push rod, and simultaneously drives the first connecting sleeve to rotate through the first motor so as to realize the rotation of the rotating wheel, and the pendulum type rotation of the connecting roller is realized through the rotation of the rotating wheel, so that the moisture and the accumulated water in the casting mold cavity are absorbed, and after the absorption is finished, the connecting roller is retracted through the fourth electric push rod and is dried through the heater;

step three: after the work of connecting roller is accomplished, can drive the connecting block through the third electric putter and remove to make first closing plate and second closing plate laminate again, the rethread second motor drives the rotor plate and rotates, thereby makes the drying apparatus on the rotor plate can absorb the inside moisture of casting die cavity again, can realize the heating treatment to this heating device.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the second motor, the rotating plate and the dryers, when a user uses the high-efficiency energy-saving heating device, the user can drive the rotating plate to rotate through the second motor, so that the moisture in the casting mold cavity is dried through the arrangement of the plurality of dryers, and the drying efficiency of the whole high-efficiency energy-saving heating device can be greatly improved;

2. according to the invention, through the arrangement of the fourth electric push rod, the first motor, the liquid sprayer and the heater, a user can realize the height adjustment of the connecting roller through the arrangement of the fourth electric push rod in the process of using the high-efficiency energy-saving heating device, meanwhile, the connecting roller can perform pendulum rotation through the arrangement of the first motor, cleaning liquid is sent to the connecting roller through the arrangement of the liquid sprayer, so that the subsequent cleaning of a casting die cavity is realized, and finally, the heating and drying treatment of the connecting roller after the moisture absorption is completed can be realized through the arrangement of the heater, so that the use pressure of the user can be greatly relieved;

3. according to the invention, through the arrangement of the sand storage layer and the heating resistance wire layer, when a user uses the high-efficiency energy-saving heating device, the user can heat the sand storage layer through the arrangement of the heating resistance wire layer, and can store heat through the physical property of the sand storage layer, so that the phenomenon of rapid dissipation of heat in the casting mold cavity can be prevented, the use pressure of the user can be relieved to a certain extent, and the energy consumed by the dryer in drying can be reduced to a certain extent.

Drawings

Fig. 1 is a schematic cross-sectional structure of a drying box of the present invention;

fig. 2 is a schematic structural view of a drying box according to the present invention;

fig. 3 is a schematic rear view of a drying box according to the present invention;

FIG. 4 is a schematic view of a partial cross-sectional structure of the present invention;

fig. 5 is a schematic top view of the present invention.

In the figure: 1. a first motorized slide; 2. a first electric push rod; 3. a first electric slider; 4. a fixing strip; 5. a second electric push rod; 6. a fixing plate; 7. fixing the column; 8. a drying box; 9. a sealing gasket strip; 10. a main body mold plate; 11. casting a die cavity; 12. a sand storage layer; 13. heating the resistance wire layer; 14. a second motorized slide; 15. the second electric sliding block; 16. a fixed rod; 17. a fixed plate; 18. a rotating wheel; 19. a first connection sleeve; 20. a first motor; 21. a motor base; 22. a first sealing plate; 23. a second sealing plate; 24. a connecting block; 25. a third electric push rod; 26. a connecting sheet; 27. a fourth electric push rod; 28. a second connecting sleeve; 29. a connecting roller; 30. water-absorbing brush hair; 31. a liquid spray; 32. a first mounting block; 33. a heater; 34. a rotating plate; 35. a dryer; 36. a motor shaft; 37. a second mounting block; 38. and a second motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present invention is provided: the utility model provides an energy-efficient heating device of aluminum alloy casting mould dish, including stoving case 8, the inside of stoving case 8 is provided with second installation piece 37, second installation piece 37 is provided with a plurality ofly, second installation piece 37 and stoving case 8 fixed connection, be provided with motor pivot 36 on the second installation piece 37, motor pivot 36 and second installation piece 37 set up to rotate to be connected, be provided with rotor plate 34 on the motor pivot 36, rotor plate 34 and motor pivot 36 fixed connection are provided with the drying apparatus 35 on the rotor plate 34, the drying apparatus 35 passes through bolted connection with rotor plate 34, the rear end of rotor plate 34 is provided with second motor 38, second motor 38 passes through the coupling joint with motor pivot 36, the outside of stoving case 8 is provided with sealing gasket 9, sealing gasket 9 sets up to rectangular strip, sealing gasket 9 and stoving case 8 set up to paste to be connected.

Further, the lower extreme of stoving case 8 is provided with main part mould dish 10, and the inside of main part mould dish 10 is provided with casting die groove 11, and casting die groove 11 is provided with a plurality ofly, and the lower extreme of casting die groove 11 is provided with the sand storage layer 12, and the inside of sand storage layer 12 sets up to the grit, and the lower extreme of sand storage layer 12 is provided with heating resistance wire layer 13, and the inside of heating resistance wire layer 13 is provided with heating resistance wire.

Further, the upper end of stoving case 8 is provided with fixed column 7, and fixed column 7 sets up to the rectangle column, and fixed column 7 is provided with a plurality of, and fixed column 7 and stoving case 8 fixed connection, the upper end of fixed column 7 is provided with fixed plate 6, and fixed plate 6 sets up to the rectangle platy, fixed plate 6 and fixed column 7 fixed connection, and the upper end of fixed plate 6 is provided with second electric putter 5, and the quantity of second electric putter 5 sets up to unanimously with the quantity of fixed plate 6, and second electric putter 5 sets up to fixed connection with fixed plate 6.

Further, the upper end of second electric putter 5 is provided with fixed strip 4, and fixed strip 4 sets up to the rectangle strip, and fixed strip 4 is provided with a plurality of, and fixed strip 4 and second electric putter 5 fixed connection are provided with first electric slide 3 on the fixed strip 4, and first electric slide 3 and fixed strip 4 fixed connection are provided with first electric slide 1 on the first electric slide 3, and first electric slide 1 sets up to electric connection with first electric slide 3, and the lower extreme of first electric slide 1 is provided with first electric putter 2, and first electric putter 2 is provided with four, first electric putter 2 and first electric slide 1 fixed connection.

Further, the upper end of the rotating plate 34 is provided with a first sealing plate 22, the first sealing plate 22 is provided with a rectangular plate shape, the first sealing plate 22 is attached to the drying box 8, the rear end of the first sealing plate 22 is provided with a second sealing plate 23, the shape and the size of the second sealing plate 23 are consistent with those of the first sealing plate 22, the lower ends of the second sealing plate 23 and the first sealing plate 22 are provided with connecting blocks 24, the connecting blocks 24 are provided with a plurality of connecting blocks 24, the connecting blocks 24 are provided with L-shaped, the connecting blocks 24 are provided with third electric push rods 25, the number of the third electric push rods 25 is consistent with that of the connecting blocks 24, the third electric push rods 25 are fixedly connected with the connecting blocks 24, the connecting blocks 26 are provided with rectangular plates, and the connecting blocks 26 are fixedly connected with the third electric push rods 25.

Further, the upper end of the first sealing plate 22 is provided with a connecting roller 29, the connecting roller 29 is provided with water-absorbing bristles 30, the water-absorbing bristles 30 are fixedly connected with the connecting roller 29, the upper end of the connecting roller 29 is provided with a second connecting sleeve 28, the second connecting sleeve 28 is rotatably connected with the connecting roller 29, the upper end of the second connecting sleeve 28 is provided with a fourth electric push rod 27, the fourth electric push rod 27 is fixedly connected with the second connecting sleeve 28, one side of the fourth electric push rod 27 is provided with a liquid sprayer 31, the upper end of the liquid sprayer 31 is provided with a first mounting block 32, the first mounting block 32 is connected with the liquid sprayer 31 through bolts, the other side of the fourth electric push rod 27 is provided with a heater 33, and the heater 33 is connected with the drying box 8 through bolts.

Further, the upper end of fourth electric putter 27 is provided with rotor 18, rotor 18 and fourth electric putter 27 fixed connection, be provided with fixed disk 17 on the rotor 18, fixed disk 17 and rotor 18 set up to rotate to be connected, the rear end of fixed disk 17 is provided with dead lever 16, dead lever 16 sets up to the "L" form of falling, dead lever 16 and fixed disk 17 fixed connection, the lower extreme of dead lever 16 is provided with second electric slide 15, second electric slide 15 and dead lever 16 fixed connection, the lower extreme of second electric slide 15 is provided with second electric slide 14, second electric slide 14 and second electric slide 15 set up to electric connection, the front end of fixed disk 17 is provided with first adapter sleeve 19, first adapter sleeve 19 and rotor 18 fixed connection, the front end of first adapter sleeve 19 is provided with first motor 20, be provided with the drive pivot on the first motor 20, and the drive pivot passes through the coupling with first motor 20, the lower extreme of first motor 20 is provided with motor housing 21, motor housing 21 and first motor housing 20 pass through electric motor housing 21 and second electric slide 15 fixed connection.

The application method of the high-efficiency energy-saving heating device of the aluminum alloy casting mould plate comprises the following steps:

step one: the user can realize the position adjustment of the fixed strip 4 through the first electric slideway 1 and the first electric sliding block 3 which are electrically connected, so that the sealing gasket strip 9 can be attached to the outer side of the casting die cavity 11, and the connecting block 24 is driven to move through the third electric push rod 25, so that the first sealing plate 22 and the second sealing plate 23 can be separated;

step two: the user drives the connecting roller 29 to move through the fourth electric push rod 27, meanwhile, drives the first connecting sleeve 19 to rotate through the first motor 20 so as to realize the rotation of the rotating wheel 18, realizes the pendulum rotation of the connecting roller 29 through the rotation of the rotating wheel 18, and further realizes the absorption of moisture and accumulated water in the casting cavity 11, and after the absorption is finished, the connecting roller 29 is retracted through the fourth electric push rod 27, and the connecting roller 29 is dried through the heater 33;

step three: after the connection roller 29 is completed, the connection block 24 is driven to move by the third electric push rod 25, so that the first sealing plate 22 and the second sealing plate 23 can be attached again, and the second motor 38 is used for driving the rotating plate 34 to rotate, so that the dryer 35 on the rotating plate 34 can absorb moisture in the casting cavity 11 again, and the heating treatment of the heating device can be realized.

Working principle: when in use, the high-efficiency energy-saving heating device of the whole aluminum alloy casting mould can be firstly checked, and can be started to be used, a user can realize the position adjustment of the fixed strip 4 through the first electric slideway 1 and the first electric sliding block 3 which are electrically connected, so that the sealing gasket strip 9 can be attached to the outer side of the casting mould groove 11, the connecting block 24 is driven to move through the third electric push rod 25, the first sealing plate 22 and the second sealing plate 23 can be separated, the user can drive the connecting roller 29 to move through the fourth electric push rod 27, meanwhile, the first connecting sleeve 19 is driven to rotate through the first motor 20, the rotation of the rotating wheel 18 is realized, the pendulum type rotation of the connecting roller 29 is realized through the rotation of the rotating wheel 18, the moisture and the accumulated water in the casting mould groove 11 are absorbed, after the absorption is finished, the connecting roller 29 is retracted through the fourth electric push rod 27, the connecting roller 29 is dried through the heater 33, when the connecting roller 29 is finished, the connecting block 24 is driven to move through the third electric push rod 25, so that the first sealing plate 22 and the second sealing plate 23 can be attached again, the rotating plate 34 is driven to rotate through the second motor 38, the dryer 35 on the rotating plate 34 can absorb moisture in the casting cavity 11 again, the heating treatment of the heating device can be realized, meanwhile, in the process of using the efficient energy-saving heating device, a user can drive the rotating plate 34 to rotate through the second motor 38, the drying treatment of the moisture in the casting cavity 11 is realized through the arrangement of the plurality of dryers 35, therefore, the drying efficiency of the whole efficient and energy-saving heating device can be greatly improved, the height of the connecting roller 29 can be adjusted through the arrangement of the fourth electric push rod 27, the connecting roller 29 can be rotated in a pendulum manner through the arrangement of the first motor 20, cleaning liquid is sent to the connecting roller 29 through the arrangement of the liquid sprayer 31, the subsequent cleaning of the casting cavity 11 is realized, finally, the heating and drying treatment of the connecting roller 29 after the moisture absorption is finished can be realized through the arrangement of the heater 33, the using pressure of a user can be greatly relieved, the heating of the sand storage layer 12 can be realized through the arrangement of the heating resistance wire layer 13, the heat storage of the sand storage layer 12 can be realized through the physical property of the sand storage layer 12, the phenomenon that the heat inside the casting cavity 11 is rapidly dissipated can be prevented, the using pressure of the user can be relieved to a certain extent, and the energy consumed when the dryer 35 is dried can be further reduced to a certain extent.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. The utility model provides an energy-efficient heating device of aluminum alloy casting mould dish, includes stoving case (8), its characterized in that: the inside of stoving case (8) is provided with second installation piece (37), be provided with motor shaft (36) on second installation piece (37), be provided with rotor plate (34) on motor shaft (36), be provided with drying apparatus (35) on rotor plate (34), the rear end of rotor plate (34) is provided with second motor (38), the outside of stoving case (8) is provided with sealed filler strip (9), the lower extreme of stoving case (8) is provided with main part mould dish (10), the inside of main part mould dish (10) is provided with casting die cavity (11), the lower extreme of casting die cavity (11) is provided with deposits sand layer (12), the lower extreme of depositing sand layer (12) is provided with heating resistor silk layer (13); the upper end of the rotating plate (34) is provided with a first sealing plate (22), the rear end of the first sealing plate (22) is provided with a second sealing plate (23), the lower ends of the second sealing plate (23) and the first sealing plate (22) are both provided with a connecting block (24), the connecting block (24) is provided with a third electric push rod (25), the third electric push rod (25) is provided with a connecting sheet (26), the upper end of the first sealing plate (22) is provided with a connecting roller (29), the connecting roller (29) is provided with water absorbing bristles (30), the upper end of the connecting roller (29) is provided with a second connecting sleeve (28), the upper end of the second connecting sleeve (28) is provided with a fourth electric push rod (27), one side of the fourth electric push rod (27) is provided with a connecting block (31), the other side of the fourth electric push rod (27) is provided with a heater (26), the upper end of the fourth electric push rod (27) is provided with a connecting roller (29), the rotating wheel (18) is fixedly connected with a rotating disc (18), the rotating disc (18) is fixedly connected with the rotating disc (17), the rear end of fixed disk (17) is provided with dead lever (16), dead lever (16) set up to fall "L" form, dead lever (16) and fixed disk (17) fixed connection, the lower extreme of dead lever (16) is provided with second electronic slider (15), second electronic slider (15) and dead lever (16) fixed connection, the lower extreme of second electronic slider (15) is provided with second electronic slide (14), second electronic slide (14) and second electronic slider (15) set up to electric connection, the front end of fixed disk (17) is provided with first adapter sleeve (19), first adapter sleeve (19) and rotation wheel (18) fixed connection, the front end of first adapter sleeve (19) is provided with first motor (20), be provided with the drive pivot on first motor (20), and drive pivot and first motor (20) pass through the coupling joint, the lower extreme of first motor (20) is provided with second electronic slide (14), motor (21) and first motor cabinet (21) are connected through electric motor cabinet (21).

2. An energy efficient heating apparatus for aluminum alloy casting mold as defined in claim 1, wherein: the upper end of stoving case (8) is provided with fixed column (7), the upper end of fixed column (7) is provided with fixed plate (6), the upper end of fixed plate (6) is provided with second electric putter (5).

3. An energy efficient heating apparatus for aluminum alloy casting mold as defined in claim 2, wherein: the upper end of second electric putter (5) is provided with fixed strip (4), be provided with first electric slide (3) on fixed strip (4), be provided with first electric slide (1) on first electric slide (3), the lower extreme of first electric slide (1) is provided with first electric putter (2).

4. A method for using an efficient and energy-saving heating device of an aluminum alloy casting mold, which is realized based on the efficient and energy-saving heating device of the aluminum alloy casting mold according to any one of claims 1 to 3, and is characterized by comprising the following steps:

step one: the user can realize the position adjustment of the fixed strip (4) through the first electric slideway (1) and the first electric sliding block (3) which are electrically connected, so that the sealing gasket strip (9) can be attached to the outer side of the casting die cavity (11), and the connecting block (24) is driven to move through the third electric push rod (25), so that the first sealing plate (22) and the second sealing plate (23) can be separated;

step two: the user drives the connecting roller (29) to move through the fourth electric push rod (27), meanwhile, the first motor (20) drives the first connecting sleeve (19) to rotate so as to realize the rotation of the rotating wheel (18), the pendulum type rotation of the connecting roller (29) is realized through the rotation of the rotating wheel (18), the moisture and the accumulated water in the casting die cavity (11) are absorbed, and after the absorption is finished, the connecting roller (29) is retracted through the fourth electric push rod (27), and the drying treatment is performed on the connecting roller (29) through the heater (33);

step three: after the work of connecting roller (29) is accomplished, can drive connecting block (24) through third electric putter (25) and remove to make first closing plate (22) and second closing plate (23) can laminate again, rethread second motor (38) drive rotor plate (34) rotate, thereby make drying apparatus (35) on rotor plate (34) can absorb the inside moisture of casting die cavity (11) again, can realize the heating treatment to this heating device.

Images