CN211545138U - Feeding structure of grinding wheel abrasive material heating furnace - Google Patents

Abstract

The utility model belongs to the technical field of the abrasive wheel machining technique and specifically relates to a emery wheel abrasive material heating furnace charge structure is related to, including frame and the autoclave of setting in the frame, be provided with interval conveyor in the frame, interval conveyor is used for carrying the grinding wheel mould, is provided with the pusher who is used for with grinding wheel mould propelling movement to the autoclave on the interval conveyor, is provided with the handling device that is used for carrying the grinding wheel mould that contour machining accomplished on the autoclave, keeps away from the one end on the interval conveyor in the frame and is provided with conveyer. Through being provided with interval conveyor in the frame, carry out automatic transport with the emery wheel mould to carry out the shaping processing on pushing away the emery wheel mould to the autoclave through pusher, carry away the emery wheel mould through handling device after the processing is accomplished, artifical intensity of labour is little, can be continuous carry out hot briquetting processing, shaping machining efficiency is higher.

Description

Feeding structure of grinding wheel abrasive material heating furnace

Technical Field

The utility model belongs to the technical field of the abrasive wheel machining technique and specifically relates to a emery wheel abrasive material heating furnace charge structure is related to.

Background

At present, a superhard abrasive product, such as a grinding wheel, plays an important role in the grinding field, the superhard abrasive product comprises a superhard material grinding wheel with the diameter within a certain size range and an abrasive layer arranged on the grinding wheel, the abrasive layer is usually an integral grinding wheel ring, the grinding wheel ring is a main part of the product participating in grinding, the preparation process of the grinding wheel ring directly influences the service performance and the processing quality of the product, and the press forming process is a crucial process in the preparation process of the abrasive and directly influences the tissue uniformity of a finished product of the grinding wheel ring. In the grinding wheel machining process, grinding wheel abrasives are generally conveyed to a grinding wheel abrasive heating furnace through a feeding structure for machining.

The existing chinese patent with publication number CN204249374U discloses a lifting frame of a hot press forming machine and a hot press forming machine having the same, wherein the frame of the hot press forming machine is slidably connected to the frame, in the operation process, a PVC fabric is manually placed on the frame, then cylinders arranged at four corners of the frame drive the frame to move up and down, a first connecting rod, a second connecting rod, a third connecting rod, and a fourth connecting rod rotate synchronously through a reversing bevel gear to drive gears connected to the second connecting rod and the fourth connecting rod to rotate synchronously, the four gears are respectively engaged with a first rack, a second rack, a third rack, and a fourth rack to drive the frame to lift synchronously along the racks, the PVC fabric is hot press-formed, the forming process is completed, the PVC fabric is manually taken out, and another PVC fabric is put in for hot press forming.

The above prior art solutions have the following drawbacks: although the hot briquetting machine lifting frame and the hot briquetting machine with the lifting frame can carry out effective hot briquetting processing on PVC fabric, in the hot briquetting processing process, the PVC fabric needs to be manually placed on the frame for processing, the PVC fabric to be processed needs to be manually replaced after the processing is finished, the labor intensity of workers is high, the hot briquetting processing cannot be continuously carried out, the forming processing efficiency is low, and therefore the hot briquetting machine lifting frame and the hot briquetting machine with the lifting frame need to be improved.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a emery wheel abrasive material heating furnace charge structure, it carries out automatic transport with the grinding wheel mould through being provided with interval conveyor in the frame to carry out the contour machining on with grinding wheel mould propelling movement to the autoclave through pusher, carry away the grinding wheel mould through handling device after the processing is accomplished, artifical intensity of labour is little, can be continuous carry out hot briquetting processing, shaping machining efficiency is higher.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a emery wheel abrasive material heating furnace charge structure, includes frame and the autoclave of setting in the frame, be provided with interval conveyor in the frame, interval conveyor is used for carrying the emery wheel mould, be provided with the pusher that is used for with the emery wheel mould propelling movement to the autoclave on the interval conveyor, be provided with the handling device that is used for carrying the emery wheel mould that the contour machining was accomplished on the autoclave, the one end of keeping away from in the frame on the interval conveyor is provided with conveyer.

Through adopting above-mentioned technical scheme, place the emery wheel mould that will fill and accomplish on interval conveyor, carry out automatic transport to the emery wheel mould through interval conveyor to drive emery wheel mould interval and remove, carry pusher department after, pusher carries out the shaping processing on the autoclave with the emery wheel mould propelling movement, carries away the emery wheel mould through handling device after the processing is accomplished, artifical intensity of labour is little, can be continuous carry out hot briquetting processing, shaping machining efficiency is higher.

The present invention may be further configured in a preferred embodiment as: the interval conveying device comprises a conveying assembly and an interval driving assembly, the conveying assembly is used for driving the grinding wheel die to convey, the interval driving assembly is used for driving the conveying assembly to move at intervals, the interval driving assembly and the conveying assembly are both arranged on the rack, and the conveying assembly is connected with the interval driving assembly.

Through adopting above-mentioned technical scheme, interval drive assembly and conveying component all set up in the frame, when needing to carry the emery wheel mould, start interval drive assembly, drive conveying component and rotate, can realize the transport to the emery wheel mould, the simple operation.

The present invention may be further configured in a preferred embodiment as: the interval driving assembly comprises a first driving motor, a rotating gear and an incomplete gear, a support frame is fixedly arranged on the rack, the first driving motor is fixedly arranged on the support frame, the incomplete gear is coaxially fixed on an output shaft of the first driving motor, the rotating gear is arranged on the incomplete gear and meshed with the rotating gear, and the conveying assembly is connected with the rotating gear.

Through adopting above-mentioned technical scheme, driving motor is fixed to be set up on the support frame, start driving motor is one, drive incomplete gear revolve, drive the running gear and rotate, the running gear can drive the transport module motion, can realize the transport to grinding wheel die, through the setting of incomplete gear, can realize that the conveyer belt is carried to grinding wheel die's interval, carry pusher department, the conveyer belt stops, pusher is in with grinding wheel die propelling movement to the hot pressing stove after that, the conveyer belt rotates once more, continue to carry grinding wheel die.

The present invention may be further configured in a preferred embodiment as: the conveying assembly comprises a conveying roller and a conveying belt, the conveying roller is arranged in the rack in a penetrating mode, the conveying roller is in running fit with the rack, and the conveying roller and the rotating gear are coaxially fixed.

Through adopting above-mentioned technical scheme, when the bull gear rotated, can drive the conveying roller and rotate, drive the conveyer belt and rotate, carry the simple operation to grinding wheel die.

The present invention may be further configured in a preferred embodiment as: the pushing device comprises a pushing plate used for pushing the grinding wheel die, a hydraulic cylinder driving the pushing plate to move and an infrared sensor, the hydraulic cylinder is fixedly arranged on the frame, the pushing plate is fixedly arranged on the telescopic end of the hydraulic cylinder, the infrared sensor is fixedly arranged on the frame, and the infrared sensor is perpendicular to the length direction of the frame.

Through adopting above-mentioned technical scheme, grinding wheel die moves infrared inductor department, and grinding wheel die is sensed to infrared inductor, gives the pneumatic cylinder with the signal transmission, and pneumatic cylinder work, the flexible end of pneumatic cylinder drive push plate and stretch out, carries out the propelling movement to grinding wheel die to in the propelling movement arrives the autoclave, simple structure, the simple operation.

The present invention may be further configured in a preferred embodiment as: the carrying device comprises a carrying assembly and a supporting assembly, the carrying assembly is used for carrying the grinding wheel mold, the supporting assembly is used for supporting the carrying assembly, the supporting assembly is fixedly arranged on the hot pressing furnace, and the carrying assembly is arranged on the supporting assembly.

Through adopting above-mentioned technical scheme, start the transport subassembly, the motion of transport subassembly promotes the grinding wheel mold on the movable table, can promote away the grinding wheel mold automation that hot pressing completed, simple structure, simple operation.

The present invention may be further configured in a preferred embodiment as: the supporting assembly comprises a first fixing plate, a second fixing plate and a supporting plate, wherein the first fixing plate and the second fixing plate are fixedly arranged on the hot pressing furnace, the first fixing plate and the second fixing plate are horizontally arranged, the first fixing plate and the second fixing plate are oppositely arranged, the first fixing plate and the second fixing plate respectively form a movable groove with the supporting plate in the vertical direction, a support is fixedly arranged on the first fixing plate and the second fixing plate, the first fixing plate and the second fixing plate are fixedly connected with the supporting plate through supports, fixed teeth are formed in the inner wall of the first fixing plate, and the carrying assembly is arranged in the movable groove.

Through adopting above-mentioned technical scheme, fixed plate one and fixed plate two are all fixed to be set up on the autoclave, support through backup pad, fixed plate one and two pairs of transport subassemblies of fixed plate, make the fine motion of transport subassembly can be in the activity inslot, promote the emery wheel mould.

The present invention may be further configured in a preferred embodiment as: the carrying assembly comprises a second driving motor, a rotary gear and a push rod, the push rod penetrates through the movable groove, the rotary gear is coaxially fixed on the push rod and meshed with the fixed teeth, the second driving motor is arranged on the rotary gear, an output shaft of the second driving motor is coaxially fixed with the rotary gear, and a storage battery is fixedly arranged on the second driving motor.

Through adopting above-mentioned technical scheme, the catch bar wears to locate the movable groove, supply power for driving motor two through the battery, start driving motor two, drive rotary gear rotates, drive the catch bar and move at the movable groove, promote the grinding wheel mould, and promote to conveyer department, rotary gear drives the catch bar and promotes the completion back with the grinding wheel mould, slide from the lower part in movable groove, when can avoiding rotary gear to drive the catch bar and return, produce with the motion of the grinding wheel mould of preparing to enter into the hot pressing stove and interfere, lead to the unable processing that lasts of grinding wheel mould.

The present invention may be further configured in a preferred embodiment as: the hot pressing furnace comprises a fixing frame, a forming table and a movable table, wherein the fixing frame is arranged on the ground, the movable table is arranged on the fixing frame and is in sliding fit with the fixing frame, an oil cylinder is arranged between the lower surface of the movable table and the fixing frame, the telescopic end of the oil cylinder is fixedly connected with the movable table, and the forming table is fixedly arranged on the fixing frame.

By adopting the technical scheme, after the pushing plate pushes the grinding wheel die to the movable table, the oil cylinder is started, and the telescopic end of the oil cylinder drives the movable table to rise in the fixed frame and move to the forming table, so that the hot press forming processing of the grinding wheel die can be realized.

The present invention may be further configured in a preferred embodiment as: conveyer includes three driving motor, transfer roller and conveyer belt, three fixed settings in the frame of driving motor, three output shafts of driving motor wear to locate in the frame, and three output shafts of driving motor and frame normal running fit, the transfer roller is coaxial to be fixed on three output shafts of driving motor, and in the frame was worn to locate by the transfer roller, and transfer roller and frame normal running fit, the conveyer belt is around locating on the transfer roller.

Through adopting above-mentioned technical scheme, three fixed settings of driving motor are in the frame, start driving motor three, drive the transfer roller and rotate, drive the conveyer belt and rotate, can carry away the emery wheel mould that hot briquetting processing was accomplished.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the interval conveying device is arranged on the rack, so that the grinding wheel die is automatically conveyed, the grinding wheel die is pushed to the hot pressing furnace through the pushing device for forming, the grinding wheel die is conveyed out through the conveying device after the forming is finished, the manual labor intensity is low, the hot pressing forming can be continuously carried out, and the forming efficiency is high;

2. the pushing device is arranged on the rack, the grinding wheel die moves to the infrared sensor, the infrared sensor senses the grinding wheel die and transmits a signal to the hydraulic cylinder, the hydraulic cylinder works, the telescopic end of the hydraulic cylinder drives the pushing plate to extend out, the grinding wheel die is pushed and pushed into the hot pressing furnace, and the pushing device is simple in structure and convenient and fast to operate;

3. through wearing to locate the catch bar in the movable groove, the battery is the power supply of driving motor two, start driving motor two, drive rotatory gear revolve, drive the catch bar and move at the movable groove, promote the emery wheel mould, and to conveyer department promotion, rotatory gear drives the catch bar and promotes the completion back with the emery wheel mould, slide from the lower part in movable groove, when can avoiding rotatory gear to drive the catch bar and return, produce with the motion of the emery wheel mould of preparing to enter into the hot pressing stove and interfere, lead to the unable processing that lasts of emery wheel mould.

Drawings

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

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view showing the connection of the drive assembly and the linkage assembly;

fig. 4 is an exploded structure view showing a coupling relationship of a lower mold and a rotary disk.

Reference numerals: 1. a frame; 11. a support frame; 2. a hot pressing furnace; 21. a fixed mount; 22. a forming table; 23. a movable table; 24. an oil cylinder; 3. an interval conveying device; 31. a delivery assembly; 311. a conveying roller; 312. a conveyor belt; 32. an interval driving assembly; 321. driving a motor I; 322. an incomplete gear; 323. a rotating gear; 4. a grinding wheel die; 5. a pushing device; 51. a push plate; 52. a hydraulic cylinder; 53. an infrared sensor; 6. a carrying device; 61. a handling assembly; 611. a second driving motor; 612. a rotating gear; 613. a push rod; 614. a storage battery; 62. a support assembly; 621. a first fixing plate; 622. a second fixing plate; 623. a support plate; 624. a movable groove; 625. a support; 626. fixing teeth; 7. a conveying device; 71. driving a motor III; 72. a conveying roller; 73. and (4) a conveyor belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a grinding wheel abrasive material heating furnace charge structure, including frame 1 and the autoclave 2 of setting in frame 1, be provided with interval conveyor 3 in the frame 1, interval conveyor 3 is used for carrying grinding wheel mould 4, be provided with on the interval conveyor 3 and be used for the pusher 5 of autoclave 2 with grinding wheel mould 4 propelling movement, be provided with on the autoclave 2 and be used for carrying the handling device 6 that carries grinding wheel mould 4 that the contour machining was accomplished, keep away from the one end on the interval conveyor 3 in the frame 1 and be provided with conveyer 7. The grinding wheel mold 4 which is filled completely is placed on the interval conveying device 3, the grinding wheel mold 4 is automatically conveyed through the interval conveying device 3, the grinding wheel mold 4 is driven to move at intervals, after the grinding wheel mold is conveyed to the pushing device 5, the pushing device 5 pushes the grinding wheel mold 4 to the hot pressing furnace 2 for forming, the grinding wheel mold 4 is carried out through the carrying device 6 after the machining is completed, the manual labor intensity is low, the hot press forming machining can be continuously carried out, and the forming machining efficiency is high.

Referring to fig. 1 and 2, the interval conveying device 3 includes a conveying assembly 31 for driving the grinding wheel mold 4 to convey and an interval driving assembly 32 for driving the conveying assembly 31 to move at intervals, the interval driving assembly 32 and the conveying assembly 31 are both arranged on the frame 1, and the conveying assembly 31 is connected with the interval driving assembly 32. When the grinding wheel mold 4 needs to be conveyed, the interval driving assembly 32 is started to drive the conveying assembly 31 to rotate, and the grinding wheel mold 4 is conveyed.

Referring to fig. 1 and 2, the interval driving assembly 32 includes a first driving motor 321, a rotating gear 323 and an incomplete gear 322, the frame 1 is fixedly provided with the supporting frame 11, the first driving motor 321 is fixedly arranged on the supporting frame 11, the incomplete gear 322 is coaxially fixed on an output shaft of the first driving motor 321, the rotating gear 323 is arranged on the incomplete gear 322, the incomplete gear 322 is engaged with the rotating gear 323, and the conveying assembly 31 is connected with the rotating gear 323. When the grinding wheel mold 4 needs to be conveyed, the first driving motor 321 is started to drive the incomplete gear 322 to rotate and drive the rotating gear 323 to rotate, and the rotating gear 323 can drive the conveying assembly 31 to move to convey the grinding wheel mold 4.

Referring to fig. 1 and 2, the conveying assembly 31 includes a conveying roller 311 and a conveying belt 312, the conveying roller 311 is disposed in the frame 1, the conveying roller 311 is rotatably engaged with the frame 1, and the conveying roller 311 is coaxially fixed to the rotating gear 323. When the rotating gear 323 rotates, the conveying roller 311 is driven to rotate, and the conveying belt 312 is driven to rotate, thereby performing conveying operation. Through the arrangement of the incomplete gear 323, the conveyer belt 312 can convey the grinding wheel mold 4 at intervals, the conveyer belt 312 stops, the conveyer 5 pushes the grinding wheel mold 4 into the hot-pressing furnace 2, and after the conveyer 5 returns to the original position, the conveyer belt 312 rotates again to continue conveying the grinding wheel mold 4.

Referring to fig. 1 and 2, the pushing device 5 includes a pushing plate 51 for pushing the grinding wheel mold 4, a hydraulic cylinder 52 for driving the pushing plate 51 to move, and an infrared sensor 53, the hydraulic cylinder 52 is fixedly arranged on the frame 1, the pushing plate 51 is fixedly arranged on the telescopic end of the hydraulic cylinder 52, the infrared sensor 53 is fixedly arranged on the frame 1, the infrared sensor 53 is vertically arranged in the length direction of the frame 1, and the infrared sensor 53 is electrically connected with the hydraulic cylinder 52. Conveyer belt 312 drives grinding wheel mold 4 and moves infrared inductor 53 department, and infrared inductor 53 senses grinding wheel mold 4, gives pneumatic cylinder 52 with signal transmission, and pneumatic cylinder 52 works, and the flexible end of pneumatic cylinder 52 drives push plate 51 and stretches out, carries out the propelling movement to grinding wheel mold 4 to in the propelling movement arrives autoclave 2, then the flexible end of pneumatic cylinder 52 drives push plate 51 and resets, prepares next propelling movement to grinding wheel mold 4.

Referring to fig. 1 and 3, the autoclave 2 includes a fixed frame 21, a forming table 22 and a movable table 23, the fixed frame 21 is disposed on the ground, the movable table 23 is disposed on the fixed frame 21, the movable table 23 is in sliding fit with the fixed frame 21, an oil cylinder 24 is disposed between the lower surface of the movable table 23 and the fixed frame 21, a telescopic end of the oil cylinder 24 is fixedly connected with the movable table 23, and the forming table 22 is fixedly disposed on the fixed frame 21. After the pushing plate 51 pushes the grinding wheel mold 4 to the movable table 23, the oil cylinder 24 is started, the telescopic end of the oil cylinder 24 drives the movable table 23 to rise in the fixed frame 21 and move to the forming table 22, the hot press forming processing is performed on the grinding wheel mold 4, after the processing is completed, the oil cylinder 24 drives the movable table 23 to descend, the original position is recovered, and then the work is stopped.

Referring to fig. 1 and 3, the carrying device 6 includes a carrying member 61 for carrying the grinding wheel mold 4 and a support member 62 for supporting the carrying member 61, the support member 62 is fixedly provided on the autoclave 2, and the carrying member 61 is provided on the support member 62. After the movable table 23 drives the grinding wheel mold 4 which is subjected to the hot press forming processing to recover to the original position, the carrying assembly 61 is started, and the carrying assembly 61 moves to push the grinding wheel mold 4 on the movable table 23.

Referring to fig. 3 and 4, the supporting assembly 62 includes a first fixing plate 621, a second fixing plate 622 and a supporting plate 623, the first fixing plate 621 and the second fixing plate 622 are both fixedly disposed on the autoclave 2, the first fixing plate 621 and the second fixing plate 622 are both horizontally disposed, the first fixing plate 621 and the second fixing plate 622 are disposed opposite to each other, a movable groove 624 is formed in the vertical direction of the first fixing plate 621 and the second fixing plate 622 respectively with the supporting plate 623, a support 625 is fixedly disposed on the first fixing plate 621 and the second fixing plate 622, the first fixing plate 621, the second fixing plate 622 and the supporting plate 623 are both fixedly connected through the support 625, a fixed tooth 626 is disposed on the inner wall of the first fixing plate 621, and the carrying assembly 61. The carrying assembly 61 is supported by the supporting plate 623, the first fixing plate 621 and the second fixing plate 622, so that the carrying assembly 61 can move well in the movable groove 624 to push the grinding wheel mold 4.

Referring to fig. 3 and 4, the carrying assembly 61 includes a second driving motor 611, a rotating gear 612 and a pushing rod 613, the pushing rod 613 is disposed in the movable groove 624, the rotating gear 612 is coaxially fixed on the pushing rod 613, the rotating gear 612 is meshed with the fixed gear 626, the second driving motor 611 is disposed on the rotating gear 612, an output shaft of the second driving motor 611 is coaxially fixed with the rotating gear 612, and a storage battery 614 is fixedly disposed on the second driving motor 611. When the grinding wheel mold 4 subjected to the hot press forming is required to be pushed to the conveying device 7, the storage battery 614 supplies power to the second driving motor 611, the second driving motor 611 is started to drive the second rotating gear 612 to rotate, the rotating gear 612 is meshed with the fixed ruler 626, the pushing rod 613 is embedded in the movable groove 624, the pushing rod 613 can be driven to move in the movable groove 624 when the rotating gear 612 rotates, and the grinding wheel mold 4 is pushed and pushed to the conveying device 7 when the pushing rod 613 moves close to the conveying device 7 in the movable groove 624. After the rotating gear 612 drives the pushing rod 613 to push the grinding wheel mold 4, the sliding is performed from the lower part of the movable groove 624, so that the phenomenon that the grinding wheel mold 4 cannot be continuously machined due to interference generated by the movement of the grinding wheel mold 4 ready to enter the hot-pressing furnace 2 when the rotating gear 612 drives the pushing rod 613 to return can be avoided.

Referring to fig. 1 and 3, the conveying device 7 includes a third driving motor 71, a conveying roller 72 and a conveying belt 73, the third driving motor 71 is fixedly arranged on the frame 1, an output shaft of the third driving motor 71 penetrates through the frame 1, the output shaft of the third driving motor 71 is in running fit with the frame 1, the conveying roller 72 is coaxially fixed on the output shaft of the third driving motor 71, the conveying roller 72 penetrates through the frame 1, the conveying roller 72 is in running fit with the frame 1, and the conveying belt 73 winds on the conveying roller 72. After the pushing rod 613 pushes the grinding wheel mold 4 to the conveying device 7, the driving motor iii 71 is started to drive the conveying roller 72 to rotate, the conveying belt 73 is driven to rotate, the grinding wheel mold 4 is conveyed, and the grinding wheel mold 4 is processed.

The implementation principle of the embodiment is as follows: the filled grinding wheel mold 4 is placed on the interval conveying device 3, the first driving motor 321 is started to drive the incomplete gear 322 to rotate, the rotating gear 323 is driven to rotate, and when the rotating gear 323 rotates, the conveying roller 311 can be driven to rotate, the conveying belt 312 is driven to rotate, and conveying operation is conducted on the grinding wheel mold 4. When the conveying belt 312 stops moving, the conveying belt 312 drives the grinding wheel mold 4 to move to the infrared sensor 53, the infrared sensor 53 senses the grinding wheel mold 4, signals are transmitted to the hydraulic cylinder 52, the hydraulic cylinder 52 works, the telescopic end of the hydraulic cylinder 52 drives the pushing plate 51 to extend out, the grinding wheel mold 4 is pushed and pushed into the autoclave 2, then the telescopic end of the hydraulic cylinder 52 drives the pushing plate 51 to reset, the conveying belt 312 rotates again, and the grinding wheel mold 4 is continuously conveyed. After the pushing plate 51 pushes the grinding wheel mold 4 to the movable table 23, the oil cylinder 24 is started, the telescopic end of the oil cylinder 24 drives the movable table 23 to rise in the fixed frame 21 and move to the forming table 22, the hot press forming processing is performed on the grinding wheel mold 4, and after the processing is completed, the oil cylinder 24 drives the movable table 23 to descend and return to the original position. Then, the second driving motor 611 is started to drive the second rotating gear 612 to rotate, the pushing rod 613 is driven to move in the movable groove 624, the grinding wheel mold 4 is pushed and pushed to the conveying device 7, and after the rotating gear 612 drives the pushing rod 613 to push the grinding wheel mold 4, the rotating gear slides from the lower part of the movable groove 624 to return to the original position, and the next operation is ready. After the pushing rod 613 pushes the grinding wheel mold 4 to the conveying device 7, the driving motor iii 71 is started to drive the conveying roller 72 to rotate, the conveying belt 73 is driven to rotate, the grinding wheel mold 4 is conveyed, and the grinding wheel mold 4 is processed.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a emery wheel abrasive material heating furnace feeding structure, includes frame (1) and autoclave (2) of setting in frame (1), its characterized in that, be provided with interval conveyor (3) on frame (1), interval conveyor (3) are used for carrying grinding wheel mould (4), be provided with pusher (5) that are used for propelling movement grinding wheel mould (4) to autoclave (2) on interval conveyor (3), be provided with on autoclave (2) and be used for carrying grinding wheel mould (4) that the shaping processing was accomplished handling device (6), the one end of keeping away from on interval conveyor (3) on frame (1) is provided with conveyer (7).

2. The grinding wheel abrasive material heating furnace feeding structure according to claim 1, wherein the spacing conveying device (3) comprises a conveying assembly (31) for driving the grinding wheel die (4) to convey and a spacing driving assembly (32) for driving the conveying assembly (31) to move at intervals, the spacing driving assembly (32) and the conveying assembly (31) are arranged on the machine frame (1), and the conveying assembly (31) is connected with the spacing driving assembly (32).

3. The grinding wheel abrasive heating furnace feeding structure according to claim 2, wherein the interval driving assembly (32) comprises a first driving motor (321), a rotating gear (323) and an incomplete gear (322), a support frame (11) is fixedly arranged on the rack (1), the first driving motor (321) is fixedly arranged on the support frame (11), the incomplete gear (322) is coaxially fixed on an output shaft of the first driving motor (321), the rotating gear (323) is arranged on the incomplete gear (322), the incomplete gear (322) is meshed with the rotating gear (323), and the conveying assembly (31) is connected with the rotating gear (323).

4. The charging structure of the grinding wheel abrasive heating furnace of claim 3, wherein the conveying assembly (31) comprises a conveying roller (311) and a conveying belt (312), the conveying roller (311) is arranged in the machine frame (1) in a penetrating manner, the conveying roller (311) is in rotating fit with the machine frame (1), and the conveying roller (311) and the rotating gear (323) are coaxially fixed.

5. The charging structure of a grinding wheel abrasive heating furnace according to claim 4, wherein the pushing device (5) comprises a pushing plate (51) for pushing the grinding wheel mold (4), a hydraulic cylinder (52) for driving the pushing plate (51) to move, and an infrared sensor (53), the hydraulic cylinder (52) is fixedly arranged on the frame (1), the pushing plate (51) is fixedly arranged on the telescopic end of the hydraulic cylinder (52), the infrared sensor (53) is fixedly arranged on the frame (1), and the infrared sensor (53) is arranged perpendicular to the length direction of the frame (1).

6. The charging structure of the grinding wheel abrasive heating furnace of claim 5, wherein the carrying device (6) comprises a carrying assembly (61) for carrying the grinding wheel mold (4) and a supporting assembly (62) for supporting the carrying assembly (61), the supporting assembly (62) is fixedly arranged on the hot pressing furnace (2), and the carrying assembly (61) is arranged on the supporting assembly (62).

7. The grinding wheel abrasive heating furnace feeding structure of claim 6, wherein the supporting assembly (62) comprises a first fixing plate (621), a second fixing plate (622) and a supporting plate (623), the first fixing plate (621) and the second fixing plate (622) are both fixedly arranged on the autoclave (2), the first fixing plate (621) and the second fixing plate (622) are both horizontally arranged, the first fixing plate (621) and the second fixing plate (622) are oppositely arranged, the first fixing plate (621) and the second fixing plate (622) respectively form a movable groove (624) with the supporting plate (623) in the vertical direction, a bracket (625) is fixedly arranged on the first fixing plate (621) and the second fixing plate (622), the first fixing plate (621), the second fixing plate (622) and the supporting plate (623) are both fixedly connected through the bracket (625), and a fixing tooth (626) is arranged on the inner wall of the first fixing plate (621), the carrying assembly (61) is arranged in the movable groove (624).

8. The grinding wheel abrasive heating furnace feeding structure of claim 7, wherein the carrying assembly (61) comprises a second driving motor (611), a rotating gear (612) and a pushing rod (613), the pushing rod (613) is arranged in a movable groove (624) in a penetrating manner, the rotating gear (612) is coaxially fixed on the pushing rod (613), the rotating gear (612) is meshed with a fixed gear (626), the second driving motor (611) is arranged on the rotating gear (612), an output shaft of the second driving motor (611) is coaxially fixed with the rotating gear (612), and a storage battery (614) is fixedly arranged on the second driving motor (611).

9. The charging structure of a grinding wheel abrasive heating furnace according to claim 8, wherein the hot pressing furnace (2) comprises a fixed frame (21), a forming table (22) and a movable table (23), the fixed frame (21) is arranged on the ground, the movable table (23) is arranged on the fixed frame (21), the movable table (23) is in sliding fit with the fixed frame (21), an oil cylinder (24) is arranged between the lower surface of the movable table (23) and the fixed frame (21), the telescopic end of the oil cylinder (24) is fixedly connected with the movable table (23), and the forming table (22) is fixedly arranged on the fixed frame (21).

10. The grinding wheel abrasive heating furnace feeding structure of claim 9, wherein the conveying device (7) comprises a third driving motor (71), a conveying roller (72) and a conveying belt (73), the third driving motor (71) is fixedly arranged on the rack (1), an output shaft of the third driving motor (71) is arranged in the rack (1) in a penetrating mode, the output shaft of the third driving motor (71) is in running fit with the rack (1) in a rotating mode, the conveying roller (72) is coaxially fixed on the output shaft of the third driving motor (71), the conveying roller (72) is arranged in the rack (1) in a penetrating mode, the conveying roller (72) is in running fit with the rack (1), and the conveying belt (73) is arranged on the conveying roller (72) in a winding mode.

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