CN214371690U - Alternative feeding device of atomization pill making equipment - Google Patents

Abstract

The utility model discloses an atomizing pill equipment feeding device in turn, its structure is that intermediate frequency induction furnace mechanism includes two intermediate frequency induction furnace bodies, reinforced discharge gate is established at intermediate frequency induction furnace body top, two intermediate frequency induction furnace body symmetries set up in atomizing pill bucket left and right sides, structure is emptyd to this body coupling hydraulic pressure of intermediate frequency induction furnace, the charge door is established at atomizing pill bucket top, the top is equipped with the smoke suction hood respectively between both sides intermediate frequency induction furnace body and the charge door, smoke suction branch pipe one end is connected at the smoke suction hood top, the same root smoke suction of the connection of the smoke suction branch pipe other end is responsible for, smoke suction is responsible for external exhaust treatment device. The utility model has the advantages that: the two sets of smelting furnace feeding mechanisms are arranged, the corresponding hydraulic dumping structures are arranged, the two sets of smelting furnaces melt stainless steel edge wires in turn, the smelting furnaces are controlled to dump in turn through the hydraulic dumping structures, continuous and efficient feeding is achieved, workers only need to feed the stainless steel edge wires into the smelting furnaces, the hydraulic dumping structures are started when the stainless steel edge wires are dumped, and safety is effectively improved.

Description

Alternative feeding device of atomization pill making equipment

Technical Field

The utility model relates to an atomizing pill equipment feeding device in turn, concretely relates to molten steel atomizing pill equipment's feeding device in turn belongs to stainless steel ball atomizing pill technical field.

Background

The stainless steel shot is generally used for shot blasting machines or sand blasting machines, and can be used for surface cleaning, burr removing, surface strengthening, surface scale removing, workpiece surface roughness improving, surface improvement and the like of stainless steel castings, forgings, sectional materials and the like made of aluminum alloy, copper alloy, zinc alloy and the like.

The main equipment for manufacturing the stainless steel shots generally comprises an atomization shot making barrel, wherein a spray plate is arranged in the barrel and generally comprises an upper spray plate and a lower spray plate, a flow passage allowing molten steel to flow through is reserved between the upper spray plate and the lower spray plate, when the molten steel flows through the flow passage, airflow is introduced into a gap between the upper spray plate and the lower spray plate, the output direction of the airflow faces the molten steel, and the molten steel is blown away and cooled to obtain the stainless steel shots.

Feeding device of atomizing pill bucket among the prior art generally only includes one set of smelting pot, drops into the stainless steel limit silk into the smelting pot and melts the back, needs the manual molten steel that emptys to atomizing pill bucket charge door of workman, and feed efficiency is lower, and production continuity is relatively poor, and the operation of workman closely, and danger is higher.

SUMMERY OF THE UTILITY MODEL

The utility model provides an atomizing pill equipment feeding device in turn, its purpose aims at overcoming the above-mentioned not enough that prior art exists, through two sets of smelting pot mechanisms and pneumatic cylinder mechanism, realizes continuous high-efficient semi-automatic molten steel reinforced material.

The technical solution of the utility model is as follows: atomizing pill equipment feeding device in turn, its structure includes intermediate frequency induction furnace mechanism, atomizing pill bucket and smoke absorption cover, wherein intermediate frequency induction furnace mechanism includes two intermediate frequency induction furnace bodies, reinforced discharge gate is established at intermediate frequency induction furnace body top, two intermediate frequency induction furnace body symmetries set up in the atomizing pill bucket left and right sides, structure is emptyd to intermediate frequency induction furnace this body coupling hydraulic pressure, the charge door is established at atomizing pill bucket top, the top is equipped with the smoke absorption cover respectively between both sides intermediate frequency induction furnace body and the charge door, smoke absorption branch pipe one end is connected at the smoke absorption cover top, same root smoking is responsible for to the smoking branch pipe other end connection, the external exhaust treatment device of smoking person in charge.

Preferably, the hydraulic dumping structure comprises a rotary mounting plate, pneumatic cylinder and support shaped steel, a pair of both sides length direction sets up around two intermediate frequency induction furnace body and atomizing pill bucket along supporting shaped steel both ends department all interval connection respectively has two to the oblique branch of atomizing pill bucket slope, the mount pad is connected on two oblique branch tops, be connected with branch between the lower tip that both sides oblique branch corresponds, it is located between the oblique branch of both sides and the bottom surface both ends contact respectively and correspond position branch top to rotate the mounting panel, intermediate frequency induction furnace body installs on rotating the mounting panel, it keeps away from atomizing pill bucket one end articulated pull rod one end to rotate the mounting panel top surface, the pull rod other end rotates with rotary rod one end to be connected, the rotary rod other end rotates with the mount pad to be connected, support shaped steel both ends inboard still rotates and is connected with the pneumatic cylinder, pneumatic cylinder output end portion rotates connects rotary rod middle part.

Preferably, the supporting section steel at the corresponding position of the bottom end of the oblique supporting rod is respectively provided with a supporting roller, the bottom section steel is arranged below the supporting section steel, and the supporting rollers are placed on the top surface of the bottom section steel.

Preferably, the feeding and discharging port is detachably provided with a cover body, one side of the feeding and discharging port, which is close to the atomizing and pelletizing barrel, is provided with an inclined groove which inclines upwards, and the side surface of the body of the medium-frequency induction furnace is wrapped with a heat insulation plate.

Preferably, the front side and the rear side of the top end of the medium-frequency induction furnace body are also provided with limiting rods, and the top of the mounting seat is provided with limiting grooves matched with the limiting rods in shape.

The utility model has the advantages that: structural design is reasonable, sets up two sets of smelting pot feeding mechanism to set up corresponding hydraulic pressure and empty the structure, two sets of smelting pots melt stainless steel limit silk in turn, empty in turn of structure control smelting pot through hydraulic pressure and empty, realized that continuous high efficiency is reinforced, and the workman only need to throw stainless steel limit silk to the smelting pot in, start when empting hydraulic pressure empty the structure can, effectively improved the security.

Drawings

Fig. 1 is a schematic structural view of the alternate feeding device of the atomization pill making equipment of the utility model.

In the figure, 1 is a medium frequency induction furnace mechanism, 101 is a medium frequency induction furnace body, 102 is bottom section steel, 103 is a supporting roller, 104 is a diagonal support rod, 105 is a mounting seat, 106 is a rotary mounting plate, 107 is a support rod, 108 is a pull rod, 109 is a rotary rod, 110 is a hydraulic cylinder, 111 is a feeding and discharging port, 112 is a cover body, 113 is a chute, 114 is a heat insulation plate, 115 is supporting section steel, 116 is a limiting rod, 117 is a limiting groove, 2 is an atomizing and pelletizing barrel, 201 is a feeding port, 3 is a smoke suction hood, 301 is a smoke suction branch pipe, and 302 is a smoke suction main pipe.

Detailed Description

The present invention will be described in further detail with reference to examples and embodiments.

As shown in fig. 1, atomizing pill equipment feeding device in turn, its structure includes medium frequency induction furnace mechanism 1, atomizing pill bucket 2 and smoke absorption hood 3, wherein medium frequency induction furnace mechanism 1 includes two medium frequency induction furnace body 101, reinforced discharge gate 111 is established at medium frequency induction furnace body 101 top, two medium frequency induction furnace body 101 symmetry sets up in the 2 left and right sides of atomizing pill bucket, medium frequency induction furnace body 101 is connected the hydraulic pressure and is emptyd the structure, charge door 201 is established at 2 tops of atomizing pill bucket, the top is equipped with smoke absorption hood 3 respectively between both sides medium frequency induction furnace body 101 and the charge door 201, smoke absorption branch 301 one end is connected at 3 tops of smoke absorption hood, smoke absorption branch 301 other end is connected with same root smoke absorption and is responsible for 302, smoke absorption is responsible for 302 external exhaust treatment device.

The hydraulic dumping structure comprises a rotating mounting plate 106, a hydraulic cylinder 110 and a supporting section steel 115, wherein a pair of supporting section steel 115 is arranged along the length directions of the front side and the rear side of two intermediate frequency induction electric furnace bodies 101 and an atomizing pill making barrel 2, two inclined supporting rods 104 inclined towards the atomizing pill making barrel 2 are respectively connected at intervals near the two ends of the supporting section steel 115, the top ends of the two inclined supporting rods 104 are connected with a mounting seat 105, a supporting rod 107 is connected between the corresponding lower end parts of the two inclined supporting rods 104, the rotating mounting plate 106 is positioned between the two inclined supporting rods 104, the two ends of the bottom surface are respectively contacted with the top parts of the supporting rods 107 at corresponding positions, the intermediate frequency induction electric furnace body 101 is mounted on the rotating mounting plate 106, one end, far away from the atomizing pill making barrel 2, of the top surface of the rotating mounting plate 106 is hinged with one end of a pull rod 108, the other end of the pull rod 108 is rotatably connected with one end of a rotating rod 109, the other end of the rotating rod 109 is rotatably connected with the mounting seat 105, the hydraulic cylinder 110 is further rotatably connected on the inner sides of the two ends of the supporting section steel 115, the end of the output end of the hydraulic cylinder 110 is rotatably connected to the middle of the rotating rod 109.

Supporting rollers 103 are respectively arranged on the supporting section steel 115 at the corresponding position of the bottom end of the inclined strut 104, the bottom section steel 102 is arranged below the supporting section steel 115, and the supporting rollers 103 are arranged on the top surface of the bottom section steel 102. The design that the medium-frequency induction furnace mechanism 1 is not directly fixed with the ground is beneficial to the installation and position adjustment of the whole structure of the medium-frequency induction furnace mechanism 1.

The feeding and discharging port 111 is detachably provided with a cover body 112, one side of the feeding and discharging port 111 close to the atomizing and pelletizing barrel 2 is provided with an inclined groove 113 which inclines upwards, and the side surface of the medium-frequency induction electric furnace body 101 is wrapped with a heat insulation plate 114. The cover body 112 is used for preventing the temperature from leaking when the molten steel is melted, and the inclined groove 113 which is inclined upwards is beneficial to the molten steel flowing into the charging opening 201 when the medium frequency induction furnace body 101 is inclined.

Limiting rods 116 are further arranged on the front side and the rear side of the top end of the medium-frequency induction furnace body 101, and limiting grooves 117 matched with the limiting rods 116 in shape are formed in the top of the mounting base 105. When the whole body of the medium-frequency induction furnace body 101 rotates in place, the limiting rod 116 just slides into the limiting groove 117, and certain support is facilitated when molten steel is poured.

According to the structure, in operation, the cover body 112 is opened, stainless steel edge wires which are pressed into a cylinder shape are thrown into the feeding and discharging port 111 of the medium frequency induction electric furnace body 101, the cover body 112 is covered again, after molten steel is melted, the cover body 11 is opened again, the hydraulic cylinders 110 on the front side and the rear side of the medium frequency induction electric furnace body 101 on the side to be poured are started, the output end of the hydraulic cylinder 110 extends out to push the rotating rod 109 to rotate towards the atomizing and pill making barrel 2, the rotating rod 109 pulls the pull rod 108, the pull rod 108 pulls the rotating mounting plate 106 to rotate towards the atomizing and pill making barrel 2, the rotating mounting plate 106 drives the medium frequency induction electric furnace body 101 to pour towards the atomizing and pill making barrel 2, the molten steel is poured into the atomizing and pill making barrel 2 from the feeding and discharging port 111 along the chute 113 and flows into the atomizing and pill making barrel 2 to perform subsequent pill making processes, the pouring is recovered to the original position after the pouring is completed, when the medium frequency induction electric furnace body 101 on one side is poured, the stainless steel edge wires can be thrown into the medium frequency induction electric furnace body 101 on the other side, when the medium frequency induction furnace body 101 topples over, the smoke suction hood 3 on the upper side of the corresponding side collects smoke through the smoke suction branch pipes 301 and discharges the smoke into an external waste gas treatment device for treatment as the smoke suction main pipe 302.

All the above components are prior art, and those skilled in the art can use any model and existing design that can implement their corresponding functions.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (5)

1. An alternate feeding device of an atomization pelleting device is characterized by comprising a medium-frequency induction furnace mechanism (1), an atomization pelleting barrel (2) and a smoke absorption hood (3), wherein medium frequency induction furnace mechanism (1) includes two medium frequency induction furnace body (101), reinforced discharge gate (111) are established at medium frequency induction furnace body (101) top, two medium frequency induction furnace body (101) symmetry sets up in atomizing pill bucket (2) left and right sides, the structure is emptyd to medium frequency induction furnace body (101) connection hydraulic pressure, charge door (201) are established at atomizing pill bucket (2) top, the top is equipped with smoke suction hood (3) respectively between both sides medium frequency induction furnace body (101) and charge door (201), smoke suction hood (3) top connection smoking branch pipe (301) one end, same smoking branch pipe (301) other end connection smoking (302), the external exhaust treatment device of smoking person in charge (302).

2. The alternate feeding device of the atomizing pill-making equipment according to claim 1, characterized in that the hydraulic dumping structure comprises a rotary mounting plate (106), a hydraulic cylinder (110) and a pair of supporting section steels (115), a pair of supporting section steels (115) are arranged along the length direction of the front and rear sides of the two medium frequency induction electric furnace bodies (101) and the atomizing pill-making barrels (2), two inclined supporting rods (104) inclined towards the atomizing pill-making barrels (2) are respectively connected at intervals near the two ends of the supporting section steels (115), the top ends of the two inclined supporting rods (104) are connected with the mounting base (105), a supporting rod (107) is connected between the corresponding lower ends of the two inclined supporting rods (104), the rotary mounting plate (106) is positioned between the two inclined supporting rods (104) at the two sides, the two ends of the bottom surface are respectively contacted with the tops of the supporting rods (107) at the corresponding positions, the medium frequency induction electric furnace bodies (101) are mounted on the rotary mounting plate (106), one end of the top surface of the rotary mounting plate (106) far away from the atomizing pill-making barrels (2) is hinged with one end of the pull rod (108), the other end of the pull rod (108) is rotatably connected with one end of a rotating rod (109), the other end of the rotating rod (109) is rotatably connected with the mounting seat (105), the inner sides of the two ends of the supporting section steel (115) are further rotatably connected with a hydraulic cylinder (110), and the end part of the output end of the hydraulic cylinder (110) is rotatably connected with the middle part of the rotating rod (109).

3. The alternate feeding device of atomizing pill-making equipment according to claim 2, characterized in that the supporting rollers (103) are respectively arranged on the supporting section steel (115) at the corresponding positions of the bottom ends of the inclined supporting rods (104), the bottom section steel (102) is arranged below the supporting section steel (115), and the supporting rollers (103) are placed on the top surface of the bottom section steel (102).

4. The alternate feeding device of the atomizing pill-making equipment as claimed in any one of claims 1 to 3, characterized in that the feeding and discharging port (111) is detachably mounted with a cover body (112), an inclined slot (113) inclined upwards is arranged at one side of the feeding and discharging port (111) close to the atomizing pill-making barrel (2), and a heat insulation plate (114) is wrapped on the side surface of the medium frequency induction electric furnace body (101).

5. The alternate feeding device of the atomizing pill-making equipment as claimed in claim 4, characterized in that the front and back sides of the top end of the medium frequency induction furnace body (101) are further provided with limit rods (116), and the top of the mounting seat (105) is provided with limit grooves (117) matched with the limit rods (116) in shape.

Images