CN217666332U - Efficient heat preservation furnace for alloy die casting - Google Patents

Abstract

The utility model relates to an alloy die-casting technical field discloses a high-efficient heat preservation stove for alloy die-casting, the induction cooker comprises a cooker bod, one side of furnace body is open structure, and the opening part is provided with sealing door, be provided with the material transmission device who sets up along its length direction in the furnace body, the opening outside of furnace body is provided with the material frame, be provided with the fortune material conveyer who aligns with material transmission device on the material frame, one side of fortune material conveyer is provided with material loading conveyer, material loading conveyer's end aligns with fortune material conveyer, be provided with the grid plate of the ejection of compact on the fortune material conveyer, be provided with the grid plate of material loading on the material loading conveyer. This application has the effect that improves the work efficiency of heat preservation stove.

Description

Efficient heat preservation furnace for alloy die casting

Technical Field

The application relates to the technical field of alloy die casting, in particular to a high-efficiency heat preservation furnace for alloy die casting.

Background

In the alloy die casting production, the unprocessed molten material is required to be preserved in heat, and the temperature control of a holding furnace is a very important production link. In view of the above-mentioned related technologies, the inventor of the present application finds that at least the following technical problems exist in the process of implementing the technical solution of the invention in the embodiment of the present application: in actual use, however, the holding furnace needs to be used continuously, the efficiency of placing or taking out materials in the holding furnace is low, and the working efficiency of the holding furnace is easily influenced.

Disclosure of Invention

The embodiment of the application provides a high-efficient heat preservation stove for alloy die-casting, and it is lower to the material placement or the efficiency of taking out in the heat preservation stove among the prior art to have solved, influences the problem of the work efficiency of heat preservation stove easily, has realized effectively improving the efficiency that the material passed in and out the heat preservation stove, and then improves the work efficiency of heat preservation stove.

The embodiment of the application provides a high-efficient heat preservation stove for alloy die-casting, the induction cooker comprises a cooker bod, one side of furnace body is open structure, and the opening part is provided with sealing door, be provided with the material transmission device who sets up along its length direction in the furnace body, the opening outside of furnace body is provided with the material frame, be provided with the fortune material conveyer who aligns with material transmission device on the material frame, one side of fortune material conveyer is provided with material loading conveyer, material loading conveyer's end aligns with fortune material conveyer, all be provided with the grid board on fortune material conveyer and the material loading conveyer.

Furthermore, the material conveying and conveying devices are arranged at intervals along the width direction of the furnace body.

Further, fortune material conveyer is including setting up the fortune work or material rest on the material frame, interval setting up two fortune material rollers on the fortune work or material rest, the fortune material conveyer belt of cover on two fortune material rollers of locating, set up in fortune work or material rest one side and with a fortune material roller fixed connection's fortune material conveyer motor.

Furthermore, the feeding conveying device is provided with two feeding conveying devices at intervals along the length direction of the conveying device.

Further, the material loading conveyer comprises a material loading frame arranged on the material frame, a plurality of material loading conveying rollers arranged on the material loading frame at intervals, a material loading conveying belt sleeved on the plurality of material loading conveying rollers, and a material loading conveying motor arranged on one side of the material loading frame and fixedly connected with one material loading conveying roller.

Furthermore, the tail end of the feeding frame extends to a position between the two material conveying frames, an avoiding groove matched with one material conveying frame is formed in the upper end face of the feeding frame, and an adjusting device for driving the feeding conveyor belt and the bottom of the material conveying frame to be arranged at intervals is arranged on the feeding frame.

Further, adjusting device sets up the compression roller between two fixed plates including setting up fixed plate, the rotation that goes up the work or material rest both sides, the compression roller is located and dodges the inslot and be close to the position of dodging the tank bottom, the upper surface and the fortune material conveyer belt interval of compression roller set up, the compression roller is laminated with the upper surface of material loading conveyer belt.

Further, go up the work or material rest both sides and all be provided with the fixing base, the fixing base is close to the tank bottom of dodging the groove, fixed plate sliding connection is on last work or material rest, be provided with tie bolt between fixing base and the fixed plate that corresponds.

The technical scheme provided in the embodiment of the application has at least the following technical effects or advantages:

1. owing to adopted fortune material conveyer and material loading conveyer, so can transport the material that is located the furnace body to fortune material conveyer through material conveyer on to transporting material conveyer to other positions through fortune material conveyer, transport the material to fortune material conveyer through material loading conveyer again on, keep warm in the furnace body through fortune material conveyer transportation, to the business turn over effective control of material, improve heat preservation furnace's work efficiency.

2. Because set up material loading conveyer between two fortune material conveyer, can improve the transmission effect of material effectively for the material that is located material loading conveyer can stably be transported to fortune material conveyer on.

3. Owing to adopted fixing base and tie bolt, so can adjust the elasticity of material loading conveyer belt, improve the transportation effect of material loading conveyer belt.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

fig. 2 is a schematic structural diagram of a material rack in an embodiment of the present application;

FIG. 3 is an enlarged schematic view at A in FIG. 1;

FIG. 4 is an enlarged schematic view at B of FIG. 2;

in the figure: 1. a furnace body; 11. a sealing door; 2. a material conveying device; 3. a material rack; 31. a base plate; 32. a rectangular frame; 33. a support bar; 4. a material conveying device; 41. a material conveying frame; 42. a material conveying roller; 43. a material conveying conveyor belt; 44. a material conveying motor; 5. a feeding and conveying device; 51. a feeding frame; 51. an avoidance groove; 52. a feeding and conveying roller; 53. a feeding conveyor belt; 54. a feeding conveying motor; 6. a grid plate; 7. an adjustment device; 71. a fixing plate; 72. a compression roller; 73. a fixed seat; 74. a fixing sheet; 75. the bolts are tightened.

Detailed Description

The embodiment of the application discloses a high-efficient heat preservation stove for alloy die-casting, through material conveyer with be located the material transportation of furnace body 1 to fortune material conveyer 4 on, and transport to other positions through fortune material conveyer 4, convey material to fortune material conveyer 4 through material loading conveyer 5 again, it keeps warm to transport in the furnace body 1 through fortune material conveyer 4, to the business turn over effective control of material, it is lower to the material placement or the efficiency of taking out in the heat preservation stove to have solved among the prior art, influence the problem of the work efficiency of heat preservation stove easily, the efficiency of effectively improving material business turn over heat preservation stove has been realized, and then improve the work efficiency of heat preservation stove.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 1, a high-efficient heat preservation stove for alloy die-casting, including being the furnace body 1 of hollow cuboid form, one side of furnace body 1 is open structure, and the sealing door 11 is installed to the opening part, and when the transportation material business turn over furnace body 1 was in, sealing door 11 can upwards promote and raise for one side opening of furnace body 1, after the material transportation was to furnace body 1 in, closing sealing door 11, make and form sealedly in the furnace body 1, effectively improve the heat preservation effect. The material conveying device 2 is installed at the bottom in the furnace body 1, and the material conveying device can convey materials in and out for a conveying belt structure arranged along the length direction of the furnace body 1.

Referring to fig. 1 and 2, a material rack 3 is fixedly mounted on the outer side of the opening of the furnace body 1, the material rack 3 includes a bottom plate 31, a rectangular frame 32 and four support rods 33, and the four support rods 33 are respectively and fixedly connected with each corner of the rectangular frame 32 and each corner of the bottom plate 31. Material frame 3 is last to be installed fortune material conveyer 4 and material loading conveyer 5, and fortune material conveyer 4 aligns with material transmission device 2, and the end of material loading conveyer 5 aligns with fortune material conveyer 4, and fortune material conveyer 4 is provided with two along furnace body 1's width direction interval, and material loading conveyer 5 is provided with two along the length direction interval of fortune material conveyer 4. The material conveying and conveying device 4 is provided with a discharging grating plate 6, and the material loading and conveying device 5 is provided with a loading grating plate 6. The width of the discharging grid plate 6 is greater than the total width of the two material conveying devices 4, and the width of the charging grid plate 6 is greater than the total width of the two charging conveying devices 5. And the grid plate 6 of material loading is unanimous with the grid plate 6 size of the ejection of compact, and the homoenergetic is transported to furnace body 1 in, conveniently places the material that needs the heat preservation.

Referring to fig. 1 and 2, the material conveying device 4 includes a material conveying frame 41, material conveying rollers 42, material conveying belts 43, and material conveying motors 44, two ends of the material conveying frame 41 are respectively and fixedly mounted on two sides of the rectangular frame 32, the bottom of the material conveying frame 41 and the bottom plate 31 are arranged at intervals, the two material conveying rollers 42 are arranged, the material conveying rollers 42 are rotatably connected to the material conveying frame 41, the two material conveying rollers 42 are respectively close to two ends of the material conveying frame 41, the material conveying belts 43 are sleeved on the two material conveying rollers 42, the material conveying motors 44 are fixedly mounted on one side of the material conveying frame 41, output shafts of the material conveying motors 44 are fixedly connected to end portions of one material conveying roller 42, and the material conveying belts 43 can be driven to rotate forward or backward through forward rotation or backward rotation of the material conveying motors 44, so that the material can be driven to enter and exit the furnace body 1.

Referring to fig. 1, 2 and 3, the feeding conveyer 5 includes a feeding frame 51, feeding conveying rollers 52, feeding conveying belts 53, and a feeding conveying motor 54, the feeding frame 51 is fixedly mounted on the bottom plate 31, and one end of the feeding frame 51 is close to one end of the rectangular frame 32 far away from the feeding frame 41, the other end of the feeding frame 51 extends between the two feeding frames 41, and an avoiding groove 511 is formed in the feeding frame 51, the width of the avoiding groove 511 is greater than that of the feeding frame 41, one feeding frame 41 passes through the avoiding groove 511, and the bottom of the feeding frame 41 and the groove wall and the bottom of the avoiding groove 511 are both arranged at intervals, the feeding conveying rollers 52 are four, and the feeding conveying rollers 52 are rotatably connected to the feeding frame 51, two ends of the feeding frame 51 are both provided with two feeding conveying rollers 52, and the feeding conveying belts 53 are sleeved on the four feeding conveying rollers 52. The output shaft of the feeding conveyor motor 54 is fixedly connected with the end of one feeding conveyor roller 52.

Referring to fig. 2, 3 and 4, the loading frame 51 is provided with an adjusting device 7 for driving a portion of the loading conveyor 53 located in the escape slot 511 to be spaced apart from the bottom of the carrying frame 41. The adjusting device 7 comprises a fixing plate 71 and two pressing rollers 72, the fixing plate 71 is located on two sides of the feeding frame 51, and the fixing plate 71 is attached to the side wall of the feeding frame 51 and can be in sliding fit with the feeding frame 51 along the vertical direction. The both ends of fixed plate 71 are close to the width direction both sides of dodging groove 511, the both ends of compression roller 72 rotate respectively and connect between two fixed plates 71, and compression roller 72 is provided with two along the width direction interval of dodging groove 511, two compression rollers 72 are close to the both sides of dodging groove 511 respectively, compression roller 72 is located and dodges in the groove 511 and be close to the position of dodging the groove 511 bottom, the upper surface and the fortune material conveyer belt 43 interval of compression roller 72 set up, compression roller 72 and the upper surface laminating of material loading conveyer belt 53. In addition, all fixed mounting has fixing base 73 in the both sides of last work or material rest 51, it all is provided with two to go up every side of work or material rest 51, fixing base 73 is close to the tank bottom of dodging groove 511, fixed plate 71 sliding connection is on last work or material rest 51, fixed mounting has tie bolt 75 on fixing base 73, fixed mounting has stationary blade 74 in the position department fixed mounting that fixed plate 71 corresponds, tie bolt 75 passes stationary blade 74 and locks through the nut, can adjust the interval between fixed plate 71 and the fixing base 73 through tie bolt 75, and then can adjust the rate of tension of material loading conveyer belt 53.

The working principle of the embodiment of the application is as follows: during operation, firstly, materials on the feeding grating plates 6 are conveyed to the material conveying conveyor belt 43 through the feeding conveyor belt 53, then the feeding grating plates 6 are conveyed to the furnace body 1 through the material conveying conveyor belt 43 for heat preservation, when the heat-preserved materials need to be taken out, the materials in the furnace body 1 are conveyed to the material conveying conveyor belt 43 through the material conveying device, and are conveyed to other positions through the material conveying device 4, then the materials are conveyed to the material conveying device 4 through the feeding conveyor device 5, the materials are conveyed to the furnace body 1 through the material conveying device 4 for heat preservation, and the in-out and in-out of the materials are effectively controlled.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (8)

1. The utility model provides a high-efficient heat preservation stove for alloy die-casting, includes furnace body (1), its characterized in that, one side of furnace body (1) is open structure, and the opening part is provided with sealing door (11), be provided with material transmission device (2) that set up along its length direction in furnace body (1), the opening outside of furnace body (1) is provided with material frame (3), be provided with fortune material conveyer (4) of aliging with material transmission device (2) on material frame (3), one side of fortune material conveyer (4) is provided with material loading conveyer (5), the end and the alignment of fortune material conveyer (4) of material loading conveyer (5), all be provided with grid plate (6) on fortune material conveyer (4) and material loading conveyer (5).

2. The efficient holding furnace for alloy die casting according to claim 1, wherein two conveying devices (4) are arranged at intervals along the width direction of the furnace body (1).

3. The efficient heat preservation furnace for alloy die casting according to claim 2 is characterized in that the material conveying device (4) comprises a material conveying frame (41) arranged on the material frame (3), two material conveying rollers (42) arranged on the material conveying frame (41) at intervals, a material conveying belt (43) sleeved on the two material conveying rollers (42), and a material conveying motor (44) arranged on one side of the material conveying frame (41) and fixedly connected with one material conveying roller (42).

4. A high efficiency holding furnace for die casting of alloys according to claim 1, characterized in that said feeding conveyor (5) is provided with two spaced apart feeding conveyors (4) along the length thereof.

5. The efficient heat preservation furnace for alloy die casting according to claim 3, wherein the feeding conveying device (5) comprises a feeding frame (51) arranged on the material frame (3), a plurality of feeding conveying rollers (52) arranged on the feeding frame (51) at intervals, a feeding conveying belt (53) sleeved on the plurality of feeding conveying rollers (52), and a feeding conveying motor (54) arranged on one side of the feeding frame (51) and fixedly connected with one feeding conveying roller (52).

6. The efficient holding furnace for alloy die casting according to claim 5, wherein the end of the feeding frame (51) extends between the two material conveying frames (41), and an avoiding groove (511) matched with one material conveying frame (41) is formed on the upper end surface of the feeding frame (51);

the feeding frame (51) is provided with an adjusting device (7) which drives the feeding conveyor belt (53) and the bottom of the material conveying frame (41) to be arranged at intervals.

7. The efficient heat preservation furnace for alloy die casting according to claim 6, wherein the adjusting device (7) comprises fixing plates (71) arranged on two sides of the feeding frame (51), and a pressing roller (72) rotatably arranged between the two fixing plates (71), the pressing roller (72) is located in the avoiding groove (511) and close to the position of the bottom of the avoiding groove (511), the upper surface of the pressing roller (72) is arranged at an interval with the material conveying conveyor belt (43), and the pressing roller (72) is attached to the upper surface of the feeding conveyor belt (53).

8. The efficient holding furnace for alloy die casting according to claim 7, wherein fixing seats (73) are arranged on both sides of the upper material frame (51), the fixing seats (73) are close to the bottom of the avoidance groove (511), the fixing plates (71) are slidably connected to the upper material frame (51), and tension bolts (75) are arranged between the fixing seats (73) and the corresponding fixing plates (71).

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