阅读说明：本技术 一种钒氮合金加工设备的装料机构 (Charging mechanism of vanadium nitrogen alloy processing equipment ) 是由 谭忠 刘隆 黄小维 于 2020-12-10 设计创作，主要内容包括：本发明公开了一种钒氮合金加工设备的装料机构,包括加工设备本体,所述加工设备本体的底端固定安装有底座,且加工设备本体的正端面连接有观察窗,所述加工设备本体的外侧安装有储料仓。本发明中,在均匀注料机构的作用下,通过对运料箱的内部进行添料,在伺服电机通电的作用下,则使转动杆带动收卷筒对连接绳进行收卷,从而给使连接绳通过立杆带动运料箱向上活动,通过电动推杆通电,则使抵块在运料箱的一侧推动运料箱,在立杆在固定板的内部被限位的作用下,则使运料箱通过活动轴转动,从而使运料箱在储料仓的内部卸料,从而使钒氮合金通过第一导料板与第二导料板进入出料口,通过这样的设置,则使用户可以在底部对加工设备添加材料。(The invention discloses a charging mechanism of vanadium-nitrogen alloy processing equipment, which comprises a processing equipment body, wherein a base is fixedly arranged at the bottom end of the processing equipment body, an observation window is connected with the positive end face of the processing equipment body, and a storage bin is arranged on the outer side of the processing equipment body. According to the invention, under the action of the uniform material injection mechanism, the material is added into the material conveying box, under the power-on action of the servo motor, the rotating rod drives the winding drum to wind the connecting rope, so that the connecting rope drives the material conveying box to move upwards through the vertical rod, the electric push rod is powered on, the abutting block pushes the material conveying box on one side of the material conveying box, under the limiting action of the vertical rod in the fixed plate, the material conveying box rotates through the movable shaft, the material conveying box is discharged in the storage bin, and vanadium-nitrogen alloy enters the discharge hole through the first guide plate and the second guide plate.)

1. The charging mechanism of the vanadium-nitrogen alloy processing equipment comprises a processing equipment body (1) and is characterized in that a base (2) is fixedly mounted at the bottom end of the processing equipment body (1), an observation window (3) is connected to the positive end face of the processing equipment body (1), a storage bin (4) is mounted on the outer side of the processing equipment body (1), a support column (5) is fixedly connected to the bottom end of the storage bin (4), a uniform injection mechanism (6) is mounted on the inner side of the support column (5), a transverse plate (601) is arranged inside the uniform injection mechanism (6), one side of the transverse plate (601) is fixedly connected with the outer wall of the storage bin (4), a rotating rod (602) is mounted on the other side of the transverse plate (601), a winding drum (603) is sleeved on the outer wall of the rotating rod (602), and a connecting rope (604) is wound on the outer wall of the winding drum (603), a first guide wheel (605) is installed on the inner wall of the top of the connecting rope (604), the first guide wheel (605) is installed on the outer wall of the storage bin (4), the inner wall of the top of the storage bin (4) is connected with a second guide wheel (606), the outer wall of the second guide wheel (606) is attached to the connecting rope (604), a vertical rod (607) is fixedly installed at the bottom end of the connecting rope (604), a fixing plate (608) is installed on the outer wall of the vertical rod (607), the fixing plate (608) is fixedly connected to the inner wall of the top of the storage bin (4), a movable shaft (609) is installed at the bottom of the vertical rod (607), a transportation box (610) is connected to the bottom of the movable shaft (609), a supporting block (611) is installed on one side of the transportation box (610), an electric push rod (612) is fixedly connected to the other side of the supporting block (611), and the other side of the electric push rod (612) is fixedly installed to the inner, the bottom of the electric push rod (612) is provided with a fixing block (613), one side of the fixing block (613) is arranged on the inner wall of the storage bin (4), the other side of the fixing block (613) is connected with a first rotating shaft (614), the other side of the first rotating shaft (614) is provided with a first material guide plate (615), the bottom of the first material guide plate (615) is connected with a magnetic plate (616) in an embedded mode, the inner side of the first material guide plate (615) is fixedly provided with a first reset spring (617), the other side of the first reset spring (617) is fixedly arranged with the inner wall of the storage bin (4), the bottom inner wall of the storage bin (4) is connected with an electromagnetic plate (618) in an embedded mode, the bottom inner wall of the storage bin (4) is fixedly provided with a second material guide plate (619), the bottom of the second material guide plate (619) is provided with a discharge hole (620), and the discharge hole (620), the bottom of discharge gate (620) is connected with baffle (621), and connecting rod (622) is installed to one side of baffle (621), the top of connecting rod (622) is connected with electric motor (623), and electric motor (623) are in the bottom fixed mounting of storage silo (4), second axis of rotation (624) is installed at electric motor (623) top, and one side of second axis of rotation (624) is connected with shrouding (625), limiting plate (626) is installed to bottom one side of shrouding (625), and one side internal connection of limiting plate (626) has pivot (627), and pivot (627) are installed in the bottom of storage silo (4), one side of dwang (602) is connected with servo motor (628), and layer board (629) is installed to the bottom of servo motor (628), and layer board (629) is fixed connection with the outer wall of storage silo (4), riser (7) is installed to one side of support column (5), and the top of the vertical plate (7) is connected with a charging mechanism (8).

2. The charging mechanism of a vanadium-nitrogen alloy processing device according to claim 1, wherein the winding drum (603) forms a rotating structure with the transverse plate (601) through a rotating rod (602), the transverse plate (601) and the storage bin (4) are vertically distributed, and the transverse axis of the rotating rod (602) coincides with the transverse axis of the transverse plate (601).

3. The charging mechanism of a vanadium-nitrogen alloy processing device as claimed in claim 1, wherein the first material guiding plate (615) forms an elastic structure with the storage bin (4) through the first return spring (617), and the first material guiding plate (615) forms a rotating structure with the fixed block (613) through the first rotating shaft (614).

4. The charging mechanism of a vanadium-nitrogen alloy processing device according to claim 1, wherein the material conveying box (610) forms a movable structure through the movable shaft (609) and the vertical rod (607), the central axis of the vertical rod (607) is coincident with the central axis of the material conveying box (610), and the vertical rod (607) and the fixed plate (608) are vertically distributed.

5. The charging mechanism of a vanadium-nitrogen alloy processing device according to claim 1, wherein the limit plate (626) is fixed with the sealing plate (625) through the rotating shaft (627), and the sealing plate (625) is rotated with the storage bin (4) through the second rotating shaft (624).

6. The charging mechanism of a vanadium-nitrogen alloy processing device as claimed in claim 1, wherein the charging mechanism (8) comprises a rotating cylinder (801), the outer wall of the rotating cylinder (801) is connected with a conveyor belt (802), the outer wall of the conveyor belt (802) is fixedly provided with a second return spring (803), the top end of the second return spring (803) is fixedly connected with a charging box (804), the outer side of the second return spring (803) is provided with a fixing rod (805), the inner wall of the top of the fixing rod (805) is fixedly connected with a sliding block (806), the outer wall of the sliding block (806) is slidably provided with a sliding groove (807), the outer wall of the sliding groove (807) is fixedly connected with a telescopic inner rod (808), and the top end of the telescopic inner rod (808) and the bottom end of the charging box (804) are fixedly arranged.

7. The charging mechanism of a vanadium-nitrogen alloy processing device according to claim 6, wherein the cartridge (804) is elastically structured with the conveyor belt (802) by a second return spring (803), the central axis of the cartridge (804) coincides with the central axis of the second return spring (803), and the cartridges (804) are equidistantly arranged in a plurality of groups with respect to the outer wall of the conveyor belt (802).

8. The charging mechanism of vanadium-nitrogen alloy processing equipment as claimed in claim 6, wherein the telescopic inner rod (808) forms a sliding structure through the sliding groove (807), the sliding block (806) and the fixing rod (805), and the fixing rod (805) is symmetrically arranged in two groups about the central axis of the charging box (804).

9. The charging mechanism of vanadium-nitrogen alloy processing equipment as claimed in claim 6, wherein the conveyor belt (802) passes through the rotating cylinder (801) and the vertical plate (7) to form a rotating structure, and the conveyor belt (802) and the second return spring (803) are vertically distributed.

Technical Field

The invention relates to the technical field of vanadium-nitrogen alloy processing, in particular to a charging mechanism of vanadium-nitrogen alloy processing equipment.

Background

The vanadium-nitrogen alloy is a novel alloy additive, can replace ferrovanadium to be used for producing microalloyed steel, and the vanadium nitride is added into the steel to improve the comprehensive mechanical properties of the steel, such as strength, toughness, ductility, thermal fatigue resistance and the like, so that the steel has good weldability, and under the condition of reaching the same strength, the vanadium nitride is added to save the vanadium addition by 30-40 percent, thereby reducing the cost.

Current vanadium nitrogen alloy processing equipment's charging mechanism, it is artifical to carry out manual feeding to the top of equipment usually to need, then inside guide entering device, can not directly carry out the mechanism of feeding to processing equipment's inside in the equipment bottom, and can not carry out the material limitation storage to the material, and guarantee the even mechanism of the inside feeding of equipment, lead to producing easily when feeding to vanadium nitrogen alloy processing equipment and unrestrained or extravagant, and waste time and energy, very big waste manpower resources, can't reach quick accurate and even reinforced purpose simultaneously.

Disclosure of Invention

The invention aims to solve the defects that the conventional charging mechanism of vanadium-nitrogen alloy processing equipment usually needs manual feeding on the top of the equipment, then the feeding enters the equipment through material guiding, the internal part of the processing equipment cannot be directly fed at the bottom of the equipment, the material cannot be limited and stored, and the feeding in the equipment is uniform, so that the vanadium-nitrogen alloy processing equipment is easy to spill or waste during charging, time and labor are wasted, manpower resources are greatly wasted, and the purposes of quick, accurate and uniform charging cannot be achieved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a charging mechanism of vanadium nitrogen alloy processing equipment comprises a processing equipment body, wherein a base is fixedly installed at the bottom end of the processing equipment body, an observation window is connected with the positive end face of the processing equipment body, a storage bin is installed on the outer side of the processing equipment body, a supporting column is fixedly connected with the bottom end of the storage bin, an even material injection mechanism is installed on the inner side of the supporting column, a transverse plate is arranged inside the even material injection mechanism, one side of the transverse plate is fixedly connected with the outer wall of the storage bin, a rotating rod is installed on the other side of the transverse plate, a winding drum is sleeved on the outer wall of the rotating rod, a connecting rope is wound on the outer wall of the winding drum, a first guide wheel is installed on the inner wall of the top of the connecting rope, the first guide wheel is installed on the outer wall of the storage bin, a second guide wheel is connected on the inner wall of the top of the storage bin, the bottom of the connecting rope is fixedly provided with a vertical rod, the outer wall of the vertical rod is provided with a fixed plate, the fixed plate is fixedly connected with the inner wall of the top of the storage bin, the bottom of the vertical rod is provided with a movable shaft, the bottom of the movable shaft is connected with a material conveying box, one side of the material conveying box is provided with a supporting block, the other side of the supporting block is fixedly connected with an electric push rod, the other side of the electric push rod is fixedly installed with the inner wall of the storage bin, the bottom of the electric push rod is provided with a fixed block, one side of the fixed block is installed on the inner wall of the storage bin, the other side of the fixed block is connected with a first rotating shaft, the other side of the first rotating shaft is provided with a first guide plate, the bottom of the first guide plate is embedded and connected with a magnetic plate, the inner side of the first guide plate is, the bottom inner wall of the storage bin is connected with an electromagnetic plate in an embedded mode, a second guide plate is fixedly installed on the bottom inner wall of the storage bin, a discharge port is installed at the bottom of the second guide plate and is formed in the bottom of the storage bin, a baffle is connected to the bottom end of the discharge port, a connecting rod is installed on one side of the baffle, an electric motor is connected to the top end of the connecting rod and is fixedly installed at the bottom end of the storage bin, a second rotating shaft is installed at the top of the electric motor, a sealing plate is connected to one side of the second rotating shaft, a limiting plate is installed on one side of the bottom end of the sealing plate, a rotating shaft is connected to one side of the limiting plate and is installed at the bottom end of the storage bin, a servo motor is connected to one side of the rotating shaft, a supporting, a vertical plate is installed on one side of the supporting column, and a charging mechanism is connected to the top of the vertical plate.

As a further description of the above technical solution:

the coiling drum forms a rotating structure through the rotating rod and the transverse plate, the transverse plate and the storage bin are vertically distributed, and the transverse axis of the rotating rod is coincided with the transverse axis of the transverse plate.

As a further description of the above technical solution:

the first material guide plate forms an elastic structure with the storage bin through a first return spring, and the first material guide plate forms a rotating structure with the fixed block through a first rotating shaft.

As a further description of the above technical solution:

the material conveying box is provided with a movable structure through the movable shaft and the vertical rod, the central axis of the vertical rod is overlapped with the central axis of the material conveying box, and the vertical rod and the fixed plate are vertically distributed.

As a further description of the above technical solution:

the limiting plate forms fixed knot through between pivot and the shrouding and constructs rotating-structure through between second axis of rotation and the storage silo.

As a further description of the above technical solution:

the feeding mechanism is characterized in that the feeding mechanism is internally provided with a rotating cylinder, the outer wall of the rotating cylinder is connected with a conveyor belt, a second reset spring is fixedly mounted on the outer wall of the conveyor belt, a feeding box is fixedly connected to the top end of the second reset spring, a fixed rod is arranged on the outer side of the second reset spring, a sliding block is fixedly connected to the inner wall of the top of the fixed rod, a sliding groove is slidably mounted on the outer wall of the sliding block, a telescopic inner rod is fixedly connected to the outer wall of the sliding groove, and the top end of the telescopic inner rod and the bottom end of.

As a further description of the above technical solution:

the charging box forms an elastic structure through the second return spring and the conveyor belt, the central axis of the charging box coincides with the central axis of the second return spring, and multiple groups of charging boxes are arranged on the outer wall of the conveyor belt at equal intervals.

As a further description of the above technical solution:

the telescopic inner rod forms a sliding structure through the sliding grooves, the sliding blocks and the fixed rods, and the fixed rods are symmetrically provided with two groups about the central axis of the charging box.

As a further description of the above technical solution:

the conveyer belt constitutes revolution mechanic through rotating between a section of thick bamboo and the riser, and is vertical distribution between conveyer belt and the second reset spring.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, under the action of the uniform material injection mechanism, the material is added into the material conveying box, under the power-on action of the servo motor, the rotating rod drives the winding drum to wind the connecting rope, so that the connecting rope drives the material conveying box to move upwards through the vertical rod, the electric push rod is powered on, the abutting block pushes the material conveying box on one side of the material conveying box, under the limiting action of the vertical rod in the fixed plate, the material conveying box rotates through the movable shaft, the material conveying box unloads in the storage bin, and vanadium-nitrogen alloy enters the discharge hole through the first guide plate and the second guide plate.

2. According to the material conveying device, the first reset spring is arranged in the storage bin, the electromagnetic plate is powered on to release magnetism under the power-on effect of the electromagnetic plate, so that the first material guide plate compresses the first reset spring through the magnetic plate and the electromagnetic plate, the material conveying box can move up and down in the storage bin, the first material guide plate is convenient to store, meanwhile, after the electromagnetic plate is powered off, the first material guide plate guides materials through the elastic effect of the first reset spring, the flexibility in the storage bin is enhanced, and the material conveying accuracy of the material conveying box is ensured.

3. According to the invention, the electric motor is connected to the bottom end of the storage bin, and is connected with the baffle plate on one side, so that when the electric motor is electrified and rotated, the baffle plate intermittently shields the discharge port at the bottom end of the discharge port through the connecting rod, and the discharge port can accurately feed materials into the charging box, thereby realizing accurate feeding of the device, avoiding material waste and saving the use cost.

4. According to the invention, the fixed plate is fixedly arranged at the top of the storage bin, so that the connecting rope and the vertical rod are kept in the fixed plate to lift, the connecting rope and the vertical rod can be effectively limited, when the material transporting box moves upwards, the vertical rod penetrates through the fixed plate, the top of the material transporting box is effectively fixed, the material transporting box can move through the movable shaft, the material transporting box can rapidly and accurately unload materials in the storage bin, the manual operation of a user is avoided, time and labor are saved, and human resources are saved.

5. According to the feeding mechanism, the feeding box is intermittently fed through the discharge port under the action of the feeding mechanism, so that the quantity of materials in the uniformly distributed feeding box is equal, the rotating drum is electrified and rotated to rotate the conveying belt, so that the feeding box moves along with the conveying belt on the surface of the conveying belt, and under the action of angular inclination of the conveying belt, when the feeding box is arranged at the top of the conveying belt, under the action of gravity, the opening of the feeding box is downwards fed into the processing equipment body, the feeding is uniform, rapid and accurate, so that a user can rapidly and reasonably feed the processing equipment body at a high position at the bottom, and the feeding mechanism is simple in structure, convenient to operate and convenient to popularize and utilize.

Drawings

FIG. 1 is a schematic perspective view of a charging mechanism of a vanadium-nitrogen alloy processing apparatus according to the present invention;

FIG. 2 is a schematic cross-sectional view of the uniform injection mechanism of the present invention;

FIG. 3 is a schematic side view of a rotating lever according to the present invention;

FIG. 4 is a schematic view of the feeding structure of the uniform feeding mechanism of the present invention;

FIG. 5 is a side view of the charging mechanism of the present invention;

FIG. 6 is a schematic front view of the cartridge of the present invention.

Illustration of the drawings:

1. processing the equipment body; 2. a base; 3. an observation window; 4. a storage bin; 5. a support pillar; 6. a uniform material injection mechanism; 601. a transverse plate; 602. rotating the rod; 603. winding the roll; 604. connecting ropes; 605. a first guide wheel; 606. a second guide wheel; 607. erecting a rod; 608. a fixing plate; 609. a movable shaft; 610. a material conveying box; 611. a resisting block; 612. an electric push rod; 613. a fixed block; 614. a first rotating shaft; 615. a first material guide plate; 616. a magnetic plate; 617. a first return spring; 618. an electromagnetic plate; 619. a second material guide plate; 620. a discharge port; 621. a baffle plate; 622. a connecting rod; 623. an electric motor; 624. a second rotating shaft; 625. closing the plate; 626. a limiting plate; 627. a rotating shaft; 628. a servo motor; 629. a support plate; 7. a vertical plate; 8. a charging mechanism; 801. a rotating cylinder; 802. a conveyor belt; 803. a second return spring; 804. a cartridge; 805. fixing the rod; 806. a slider; 807. a chute; 808. a telescopic inner rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a charging mechanism of a vanadium-nitrogen alloy processing device includes a processing device body 1, a base 2, an observation window 3, a storage bin 4, a support column 5, a uniform injection mechanism 6, a transverse plate 601, a rotation rod 602, a winding barrel 603, a connection rope 604, a first guide wheel 605, a second guide wheel 606, an upright rod 607, a fixing plate 608, a movable shaft 609, a material conveying box 610, a resisting block 611, an electric push rod 612, a fixing block 613, a first rotation shaft 614, a first material guide plate 615, a magnetic plate 616, a first return spring 617, an electromagnetic plate 618, a second material guide plate 619, a discharge port 620, a baffle 621, a connection rod 622, an electric motor 623, a second rotation shaft 624, a sealing plate 625, a limiting plate 626, a rotation shaft 627, a servo motor 628, a supporting plate 629, a vertical plate 7, a charging mechanism 8, a rotation barrel 801, a conveyor belt 802, a second return spring 803, a charging box 806, a fixing rod, A chute 807 and a telescopic inner rod 808, wherein the bottom end of the processing equipment body 1 is fixedly provided with a base 2, the positive end surface of the processing equipment body 1 is connected with an observation window 3, the outer side of the processing equipment body 1 is provided with a storage bin 4, the bottom end of the storage bin 4 is fixedly connected with a support column 5, the inner side of the support column 5 is provided with an even injection mechanism 6, the even injection mechanism 6 comprises a transverse plate 601, one side of the transverse plate 601 is fixedly connected with the outer wall of the storage bin 4, the other side of the transverse plate 601 is provided with a rotating rod 602, the outer wall of the rotating rod 602 is sleeved with a winding drum 603, the outer wall of the winding drum 603 is wound and connected with a connecting rope 604, the top inner wall of the connecting rope 604 is provided with a first guide wheel 605, the first guide wheel 605 is arranged on the outer wall of the storage bin 4, the top inner wall of the storage bin 4 is connected with a second guide, the bottom end of the connecting rope 604 is fixedly provided with a vertical rod 607, the outer wall of the vertical rod 607 is provided with a fixing plate 608, the fixing plate 608 is fixedly connected with the inner wall of the top of the storage bin 4, the bottom of the vertical rod 607 is provided with a movable shaft 609, the bottom of the movable shaft 609 is connected with a material conveying box 610, one side of the material conveying box 610 is provided with a supporting block 611, the other side of the supporting block 611 is fixedly connected with an electric push rod 612, the other side of the electric push rod 612 is fixedly installed with the inner wall of the storage bin 4, the bottom of the electric push rod 612 is provided with a fixing block 613, one side of the fixing block 613 is installed with the inner wall of the storage bin 4, the other side of the fixing block 613 is connected with a first rotating shaft 614, the other side of the first rotating shaft 614 is provided with a first material guide plate 615, the bottom of the first material guide plate is connected with a magnetic plate 616 in an embedded manner, the inner side, an electromagnetic plate 618 is connected to the bottom inner wall of the storage bin 4 in an embedded manner, a second material guide plate 619 is fixedly installed on the bottom inner wall of the storage bin 4, a discharge hole 620 is installed at the bottom of the second material guide plate 619, the discharge hole 620 is formed in the bottom of the storage bin 4, a baffle 621 is connected to the bottom end of the discharge hole 620, a connecting rod 622 is installed on one side of the baffle 621, an electric motor 623 is connected to the top end of the connecting rod 622, the electric motor 623 is fixedly installed at the bottom end of the storage bin 4, a second rotating shaft 624 is installed at the top of the electric motor 623, a sealing plate 625 is connected to one side of the second rotating shaft 624, a limiting plate 626 is installed on one side of the bottom end of the sealing plate 625, a rotating shaft 627 is connected to one side of the limiting plate 626, the rotating shaft 627 is installed at the bottom end of the storage bin 4, a servo motor 628 is, riser 7 is installed to one side of support column 5, and the top of riser 7 is connected with charging mechanism 8, and discharge gate 620 is installed at the top of conveyer belt 802, makes the inside to cartridge 804 that discharge gate 620 can be accurate feed to make the inside material quantity of evenly distributed's cartridge 804 equal, ensured the even of device feeding, improve the operating mass with rated load of device.

As shown in fig. 2-4, the winding drum 603 forms a rotating structure with the horizontal plate 601 through the rotating rod 602, the horizontal plate 601 is vertically distributed with the storage bin 4, and the horizontal axis of the rotating rod 602 coincides with the horizontal axis of the horizontal plate 601, and the fixing plate 608 is fixedly mounted on the top of the storage bin 4, so that the connecting rope 604 and the vertical rod 607 are kept in the fixing plate 608 to lift, and the connecting rope 604 and the vertical rod 607 can be effectively limited.

As shown in fig. 2 to 4, the first material guiding plate 615 forms an elastic structure with the storage bin 4 through the first return spring 617, and the first material guiding plate 615 forms a rotating structure with the fixed block 613 through the first rotating shaft 614, under the action of the first return spring 617, the electromagnetic plate 618 is energized to release magnetism, so that the first material guiding plate 615 compresses the first return spring 617 through the magnetic plate 616 and the electromagnetic plate 618, thereby facilitating the storage of the first material guiding plate 615 and ensuring the moving space of the transport box 610 inside the storage bin 4.

As shown in fig. 2-4, the transportation box 610 forms a movable structure through the movable shaft 609 and the vertical rod 607, the central axis of the vertical rod 607 coincides with the central axis of the transportation box 610, and the vertical rod 607 and the fixing plate 608 are vertically distributed, when the transportation box 610 moves upward, the vertical rod 607 penetrates through the fixing plate 608, so that the top of the transportation box 610 is effectively fixed, the transportation box 610 can move through the movable shaft 609, and the transportation box 610 can discharge materials quickly and accurately in the storage bin 4.

As shown in fig. 2-4, the limiting plate 626 forms a fixing structure between the rotating shaft 627 and the sealing plate 625, the sealing plate 625 forms a rotating structure between the second rotating shaft 624 and the storage bin 4, and the limiting plate 626 rotates at the bottom of the storage bin 4 through the rotating shaft 627, so that the limiting plate 626 can limit the sealing plate 625 at the bottom, the inside of the storage bin 4 can be sealed, and the storage function of the storage bin 4 is increased.

As shown in fig. 5 to 6, the charging mechanism 8 includes a rotating cylinder 801 inside, the outer wall of the rotating cylinder 801 is connected with a conveyor belt 802, the outer wall of the conveyor belt 802 is fixedly provided with a second return spring 803, the top end of the second return spring 803 is fixedly connected with a charging box 804, the outer side of the second return spring 803 is provided with a fixing rod 805, the inner wall of the top of the fixing rod 805 is fixedly connected with a slider 806, the outer wall of the slider 806 is slidably provided with a chute 807, the outer wall of the chute 807 is fixedly connected with a telescopic inner rod 808, the top end of the telescopic inner rod 808 and the bottom end of the charging box 804 are fixedly mounted, the rotating cylinder 801 is energized to rotate, so that the conveyor belt 802 rotates, the charging box 804 moves along with the conveyor belt 802 on the surface of the conveyor belt 802, and the charging box.

As shown in fig. 5-6, the cartridge 804 forms an elastic structure through the second return spring 803 and the conveyor belt 802, the central axis of the cartridge 804 coincides with the central axis of the second return spring 803, and the cartridges 804 are equidistantly provided with a plurality of groups with respect to the outer wall of the conveyor belt 802, and by installing the second return spring 803 between the conveyor belt 802 and the cartridge 804, the second return spring 803 can buffer the internal weight of the cartridge 804, so that the phenomenon that the internal overstock of the cartridge 804 affects the rotation effect of the conveyor belt 802, which is beneficial to prolonging the service life of the conveyor belt 802.

As shown in fig. 5-6, a sliding structure is formed by the telescopic inner rod 808 through the sliding groove 807, the sliding blocks 806 and the fixing rod 805, and two groups of fixing rods 805 are symmetrically arranged about the central axis of the cartridge 804, so that under the action of the sliding groove 807 and the sliding blocks 806, the distance between the cartridge 804 and the conveyor belt 802 is automatically adjusted outside the conveyor belt 802, the elastic effect of the second return spring 803 is ensured, and the cartridge 804 is conveniently supported.

As shown in fig. 5-6, conveyer belt 802 passes through and constitutes revolution mechanic between rotary drum 801 and riser 7, and be vertical distribution between conveyer belt 802 and the second reset spring 803, through being the angle slope with conveyer belt 802, make cartridge 804 when the top of conveyer belt 802, under the action of gravity, make the inside feeding of cartridge 804 opening part automatic to processing equipment body 1 downwards, realize the user at the inside feeding of bottom to processing equipment body 1, avoided the user to carry the material, time saving and labor saving, the effectual manpower resources of having practiced thrift.

The working principle is as follows: when the device is used, the limiting plate 626 rotates through the rotating shaft 627, so that the sealing plate 625 is not shielded, the sealing plate 625 is opened downwards to the bottom of the storage bin 4 through the second rotating shaft 624, the servo motor 628 is electrified and reversely rotates, the connecting rope 604 drives the material conveying box 610 to move to the bottom of the storage bin 4, a user supplies the material to the inside of the material conveying box 610 at the bottom, the servo motor 628 is electrified and rotated, the rotating rod 602 drives the winding drum 603 to wind the connecting rope 604, the connecting rope 604 drives the material conveying box 610 to move upwards through the vertical rod 607, the vertical rod 607 penetrates through the inside of the fixing plate 608, the electromagnetic plate 618 is powered off, the first material guiding plate 615 acts on the inside of the storage bin 4 through the elasticity of the first return spring 617, the electric push rod 612 is electrified, the abutting block 611 pushes the material conveying box 610 at one side of the material conveying box 610, and under the effect that the vertical rod 607 is limited in the inside of the fixing plate 608, the material conveying box 610 is rotated through the movable shaft 609, so that the material conveying box 610 discharges in the storage bin 4, vanadium-nitrogen alloy enters the material outlet 620 through the first material guide plate 615 and the second material guide plate 619, the electric motor 623 is electrified and rotated, when the electric motor 623 is electrified and rotated under the action of the connection between the electric motor 623 and the baffle 621, the baffle 621 intermittently shields the material outlet 620 at the bottom end of the material outlet 620 through the connecting rod 622, so that the material outlet 620 can accurately charge the interior of the material conveying box 804, the quantity of materials in the material conveying box 804 which are uniformly distributed is equal, the material conveying box 802 is rotated through the electrification and rotation of the rotating cylinder 801, the material conveying box 804 moves along with the material conveying belt 802 on the surface of the material conveying belt 802, and when the material conveying box 804 is arranged at the top of the material conveying belt 802 under the action of the inclination angle of the material conveying belt 802, under the action of gravity, the opening of the cartridge 804 is fed downwards into the processing device body 1, and the feeding is uniform, rapid and accurate, so that the working principle of the device is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.