CN212221764U - Feeding structure for furnace charge production - Google Patents

Abstract

The utility model belongs to the technical field of the equipment is used in the furnace charge production and specifically relates to a feed structure is used in furnace charge production is related to, it includes hoisting device, power device and feeder three, hoisting device includes the universal wheel, promotes base, lead screw, servo motor, control panel and promotion connecting rod, universal wheel top be provided with promote the base, utilize the utility model provides a feed structure not only can not remove in a flexible way the equipment position in the use in present furnace charge production, the furnace charge case of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and the home range who gives the case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production and use demand of enterprise.

Description

Feeding structure for furnace charge production

Technical Field

The utility model belongs to the technical field of the equipment is used in the furnace charge production and specifically relates to a feed structure is used in furnace charge production.

Background

In the rapidly developing modern industry, the use environment of the mechanical sealing element is changing profoundly, and the requirements on the working condition are more strict. The operating conditions are developing in the direction of high speed, high pressure, low temperature, high vacuum, large size, micro size, etc. Taking the transportation of the coal powder and the furnace charge as an example, the transportation development direction of the coal powder and the furnace charge is flexibility, speed regulation, mechanical and electrical integration, and transportation and production set. "dust" is a generic term for solid particles that can be suspended in air for extended periods of time. In fact, solid particles suspended in air are known by various names. The term "dust" refers to solid particles formed by mechanically impacting, grinding and rolling solid materials, wherein the solid particles are dispersed by air flow and suspended in air, and the particle size of the solid particles is mostly between 0.25 and 20 μm, and the majority of the solid particles is 0.5 to 5 μm. Another type of solid particles suspended in air is generated from the combustion of materials or metal smelting processes, and the combustion of materials generates particles which are not sufficiently combusted or dust which is not combustible remains.

At present, most enterprises still use feeding devices with low manual or automatic degree in the charging process of furnace materials, which does not increase the labor intensity of workers and also causes negative influence on the production efficiency of the enterprises. Feeder on the market, can not remove according to the operating mode of enterprise is nimble usually, the feed structure can not be according to operating mode height-adjusting, the discharge gate can not carry out defects such as angle adjustment according to the operating mode, consequently has the necessary design a section can remove the feed along with the operating mode of enterprise, can adjust the feed structure height-adjusting according to the operating mode moreover, can also be according to the device such as the angle of the direction adjustment feed structure discharge gate that connects the material mouth.

Disclosure of Invention

In order to solve the present feed structure in furnace charge production not only equipment position can not remove in a flexible way in the use, the furnace charge case of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and give the home range of case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production user demand of enterprise, the utility model provides a feed structure is used in furnace charge production, its technical scheme as follows:

a feeding structure for furnace charge production comprises a lifting device, a power device and a feeding device, wherein the lifting device comprises a universal wheel, a lifting base, a screw rod, a nut, a servo motor, a control panel and a lifting connecting rod, the lifting base is arranged above the universal wheel, the screw rod is arranged in the lifting base, the nut is arranged outside the screw rod, the lifting connecting rod is arranged above the nut, the control panel is arranged on the lifting base, the servo motor is arranged on the side surface of the lifting base, the power device comprises a power box, a controller, a motor, a driven gear, a driving gear, a power platform, a steel wire rope box, a support column, a beam arm and an electric telescopic rod, the motor is arranged in the power box, the controller is arranged on the side surface of the motor, the improved furnace charging device is characterized in that the driven gear is arranged above the power box, a driving gear is arranged on the side surface of the driven gear, the power platform is arranged above the driven gear, the support column is arranged above the power platform, the electric telescopic rod is arranged on one side of the support column, the steel wire rope box is arranged on the other side of the support column, the beam arm is arranged above the electric telescopic rod, the feeding device comprises a furnace charging box body, a rack plate, a gear box and a perspective window, the perspective window is arranged on the furnace charging box body, the rack plate is arranged at the outlet of the furnace charging box, and the gear box is arranged on the side surface of the outlet of the furnace charging box.

In the lifting device, the screw nut is in threaded connection with the screw rod, the screw nut is a pair of reverse threads, and the screw nut can move oppositely and oppositely outside the screw rod through the rotation of the servo motor, so that the lifting connecting rod is driven to move upwards and downwards.

The power device in, the motor with the action wheel pass through the coupling joint, the driving gear with driven gear pass through the teeth of a cogwheel and be connected, driven gear with the pillar with power platform welding, in order to guarantee power platform pivoted stability, electric telescopic handle with the pillar with the beam arm pass through roll connection, thereby guaranteed the flexibility of beam arm.

In the feeding device, the gear box is welded with the charging box, the rack plate is connected with the gear box through gear teeth, so that charging is automatically discharged, and the perspective window is riveted with the charging box.

The lifting device is connected with the power device through a pin, so that the feeding and conveying stability of furnace burden is guaranteed, and meanwhile, the structure is convenient to assemble and maintain.

The power device is connected with the feeding device through a pin and a steel wire rope, the pin is used for fixedly connecting the feeding device and the feeding device, and the steel wire rope is used for enabling the furnace charge box to rotate at different angles so as to deal with different working conditions.

The utility model has the advantages that: the utility model discloses structural design science, production and processing technology is simple and convenient, utilizes the utility model provides a feed structure not only equipment position can not remove in a flexible way in the use in present furnace charge production, and the furnace charge case of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and the home range who gives the case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production and use demand of enterprise, moreover, the utility model discloses the automation of the ejection of compact when having realized the device to the feed has improved feed efficiency, has reduced workman intensity of labour.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention;

fig. 2 is a schematic front view of the present invention;

fig. 3 is a schematic structural view of the lifting device of the present invention;

FIG. 4 is a schematic structural view of a power plant of the present invention;

FIG. 5 is a schematic structural view of the feeding device of the present invention;

the reference numbers in the figures are: 101-universal wheel, 102-lifting base, 103-screw, 104-screw rod, 105-servo motor, 106-lifting connecting rod, 107-control panel, 201-power box, 202-motor, 203-controller, 204-driven gear, 205-driving gear, 206-steel wire case, 207-electric telescopic rod, 208-support, 209-beam arm, 210-power platform, 301-furnace box, 302-rack plate, 303-gear case and 304-perspective window.

Detailed Description

Specific example 1: the best mode of the invention is further described with reference to the accompanying drawings 1, 3, 4 and 5: in order to solve the present feed structure in furnace charge production not only equipment position can not remove in a flexible way in the use, the furnace charge case 301 of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and give the home range of case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production user demand of enterprise, the utility model provides a feed structure is used in furnace charge production, its technical scheme as follows: a feeding structure for furnace charge production comprises a lifting device, a power device and a feeding device, wherein the lifting device comprises a universal wheel 101, a lifting base 102, a lead screw 104, a nut 103, a servo motor 105, a control panel 107 and a lifting connecting rod 106, the lifting base 102 is arranged above the universal wheel 101, the lead screw 104 is arranged inside the lifting base 102, the nut 103 is arranged outside the lead screw 104, the lifting connecting rod 106 is arranged above the nut 103, the control panel 107 is arranged on the lifting base 102, the servo motor 105 is arranged on the side surface of the lifting base 102, the power device comprises a power box 201, a controller 203, a motor 202, a driven gear 204, a driving gear 205, a power platform 210, a steel wire rope box 206, a support column 208, a beam arm 209 and an electric telescopic rod 207, the motor 202 is arranged inside the power box 201, the controller 203 is arranged on the side surface of the motor 202, the driven gear 204, a driving gear 205 is arranged on the side face of a driven gear 204, a power platform 210 is arranged above the driven gear 204, a support column 208 is arranged above the power platform 210, an electric telescopic rod 207 is arranged on one side of the support column 208, a steel wire rope box 206 is arranged on the other side of the support column 208, a beam arm 209 is arranged above the electric telescopic rod 207, the feeding device comprises a furnace material box 301 body, a rack plate 302, a gear box 303 and a perspective window 304, the perspective window 304 is arranged on the furnace material box 301 body, the rack plate 302 is arranged at the outlet of the furnace material box 301, and the gear box 303 is arranged; in the lifting device, a nut 103 is in threaded connection with a lead screw 104, the nut 103 is a pair of reverse threads, and the nut 103 can move relatively and oppositely outside the lead screw 104 by the rotation of a servo motor 105, so that a lifting connecting rod 106 is driven to move upwards and downwards; in the power device, the motor 202 is connected with the driving gear 205 through a coupler, the driving gear 205 is connected with the driven gear 204 through gear teeth, the driven gear 204 and the support 208 are welded with the power platform 210 to ensure the rotating stability of the power platform 210, and the electric telescopic rod 207 and the support 208 are connected with the beam arm 209 through rolling, so that the flexibility of the beam arm 209 is ensured; in the feeding device, a gear box 303 is welded with a furnace burden box 301, a rack plate 302 is connected with the gear box 303 through gear teeth, so that furnace burden discharging is automated, and a perspective window 304 is riveted with the furnace burden box 301;

specific example 2: the best mode of carrying out the invention is further described with reference to the accompanying drawings 3, 4 and 5: in order to solve the present feed structure in furnace charge production not only equipment position can not remove in a flexible way in the use, the furnace charge case 301 of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and give the home range of case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production user demand of enterprise, the utility model provides a feed structure is used in furnace charge production, its technical scheme as follows: a feeding structure for furnace charge production comprises a lifting device, a power device and a feeding device, wherein the lifting device comprises a universal wheel 101, a lifting base 102, a lead screw 104, a nut 103, a servo motor 105, a control panel 107 and a lifting connecting rod 106, the lifting base 102 is arranged above the universal wheel 101, the lead screw 104 is arranged inside the lifting base 102, the nut 103 is arranged outside the lead screw 104, the lifting connecting rod 106 is arranged above the nut 103, the control panel 107 is arranged on the lifting base 102, the servo motor 105 is arranged on the side surface of the lifting base 102, the power device comprises a power box 201, a controller 203, a motor 202, a driven gear 204, a driving gear 205, a power platform 210, a steel wire rope box 206, a support column 208, a beam arm 209 and an electric telescopic rod 207, the motor 202 is arranged inside the power box 201, the controller 203 is arranged on the side surface of the motor 202, the driven gear 204, a driving gear 205 is arranged on the side face of a driven gear 204, a power platform 210 is arranged above the driven gear 204, a support column 208 is arranged above the power platform 210, an electric telescopic rod 207 is arranged on one side of the support column 208, a steel wire rope box 206 is arranged on the other side of the support column 208, a beam arm 209 is arranged above the electric telescopic rod 207, the feeding device comprises a furnace material box 301 body, a rack plate 302, a gear box 303 and a perspective window 304, the perspective window 304 is arranged on the furnace material box 301 body, the rack plate 302 is arranged at the outlet of the furnace material box 301, and the gear box 303 is arranged; in the lifting device, a nut 103 is in threaded connection with a lead screw 104, the nut 103 is a pair of reverse threads, and the nut 103 can move relatively and oppositely outside the lead screw 104 by the rotation of a servo motor 105, so that a lifting connecting rod 106 is driven to move upwards and downwards; in the power device, the motor 202 is connected with the driving gear 205 through a coupler, the driving gear 205 is connected with the driven gear 204 through gear teeth, the driven gear 204 and the support 208 are welded with the power platform 210 to ensure the rotating stability of the power platform 210, and the electric telescopic rod 207 and the support 208 are connected with the beam arm 209 through rolling, so that the flexibility of the beam arm 209 is ensured; further for improving the utility model discloses a work efficiency and life, hoisting device and power device pass through pin joint, have guaranteed that the furnace charge feeds when transporting stability, the assembly and the maintenance of the structure of being convenient for.

Specific example 3: the best mode of carrying out the invention is further described with reference to the accompanying drawings 1, 4 and 5: in order to solve the present feed structure in furnace charge production not only equipment position can not remove in a flexible way in the use, the furnace charge case 301 of equipment also can not realize rotating according to the operating mode, moreover, can not adjust the height of feed structure and give the home range of case according to the operating mode, has greatly influenced the production efficiency of enterprise, can not satisfy the problem of the production user demand of enterprise, the utility model provides a feed structure is used in furnace charge production, its technical scheme as follows: a feeding structure for furnace charge production comprises a lifting device, a power device and a feeding device, wherein the lifting device comprises a universal wheel 101, a lifting base 102, a lead screw 104, a nut 103, a servo motor 105, a control panel 107 and a lifting connecting rod 106, the lifting base 102 is arranged above the universal wheel 101, the lead screw 104 is arranged inside the lifting base 102, the nut 103 is arranged outside the lead screw 104, the lifting connecting rod 106 is arranged above the nut 103, the control panel 107 is arranged on the lifting base 102, the servo motor 105 is arranged on the side surface of the lifting base 102, the power device comprises a power box 201, a controller 203, a motor 202, a driven gear 204, a driving gear 205, a power platform 210, a steel wire rope box 206, a support column 208, a beam arm 209 and an electric telescopic rod 207, the motor 202 is arranged inside the power box 201, the controller 203 is arranged on the side surface of the motor 202, the driven gear 204, a driving gear 205 is arranged on the side face of a driven gear 204, a power platform 210 is arranged above the driven gear 204, a support column 208 is arranged above the power platform 210, an electric telescopic rod 207 is arranged on one side of the support column 208, a steel wire rope box 206 is arranged on the other side of the support column 208, a beam arm 209 is arranged above the electric telescopic rod 207, the feeding device comprises a furnace material box 301 body, a rack plate 302, a gear box 303 and a perspective window 304, the perspective window 304 is arranged on the furnace material box 301 body, the rack plate 302 is arranged at the outlet of the furnace material box 301, and the gear box 303 is arranged; in the power device, the motor 202 is connected with the driving gear 205 through a coupler, the driving gear 205 is connected with the driven gear 204 through gear teeth, the driven gear 204 and the support 208 are welded with the power platform 210 to ensure the rotating stability of the power platform 210, and the electric telescopic rod 207 and the support 208 are connected with the beam arm 209 through rolling, so that the flexibility of the beam arm 209 is ensured; in the feeding device, a gear box 303 is welded with a furnace burden box 301, a rack plate 302 is connected with the gear box 303 through gear teeth, so that furnace burden discharging is automated, and a perspective window 304 is riveted with the furnace burden box 301; further for improving the utility model discloses a work efficiency life, power device pass through the pin with feeder and be connected with wire rope, and the pin is used for fixed connection between them, and wire rope is used for the rotatory different angles of stove workbin 301 to deal with different operating mode environment.

The utility model discloses theory of operation and working process at specific during operation do: firstly, before the device is used, a feeding structure is pushed to the side of the device to be fed through a universal wheel 101 and fixed, a switch button on a control panel 107 is pressed, a lifting device and an electric telescopic rod 207 are lowered to proper positions according to working conditions, the charging amount of a furnace charge box 301 is observed through a perspective window 304, after the furnace charge box 301 finishes charging, the control panel 107 is operated, a servo motor 105 starts to drive a lead screw 104 to rotate, the lead screw 104 drives a nut 103 to move relatively, at the moment, a lifting connecting rod 106 starts to move to drive a power box 201 to lift, after the power box is lifted to a proper position, a control button on the control panel 107 is pressed, the servo motor 105 stops rotating, at the moment, the structure height is fixed, a control button on the control panel 107 is pressed again, a motor 202 starts to drive a driving gear 205 to rotate, the driving gear 205 drives a driven gear 204 to rotate, so that the furnace, after the operation of the above processes is finished, a control button on the control panel 107 is pressed, the system in the gear box 303 starts to operate, the rack plate 302 starts to move to open a furnace material opening, after the feeding is finished, the system in the gear box 303 reversely operates, the rack plate 302 starts to close the furnace material box 301 opening, and when the feeding is finished, the control button on the operation panel is pressed, and the structure is returned to the original angle and height. Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (6)

1. A feeding structure for furnace charge production is characterized by comprising a lifting device, a power device and a feeding device, wherein the lifting device comprises a universal wheel, a lifting base, a lead screw, a nut, a servo motor, a control panel and a lifting connecting rod, the lifting base is arranged above the universal wheel, the lead screw is arranged in the lifting base, the nut is arranged outside the lead screw, the lifting connecting rod is arranged above the nut, the control panel is arranged on the lifting base, the servo motor is arranged on the side surface of the lifting base, the power device comprises a power box, a controller, a motor, a driven gear, a driving gear, a power platform, a steel wire rope box, a pillar, a beam arm and an electric telescopic rod, the motor is arranged in the power box, the electric furnace comprises a furnace body, a controller, a power box, an electric telescopic rod, a steel wire rope box, a support, a feeding device and a gear box, wherein the controller is arranged on the side face of the electric motor, a driven gear is arranged above the power box, a driving gear is arranged on the side face of the driven gear, the power platform is arranged above the driven gear, the support is arranged above the power platform, the electric telescopic rod is arranged on one side of the support, the steel wire rope box is arranged on the other side of the support, the beam arm is arranged above the electric telescopic rod, the feeding device comprises a furnace body, a rack plate, a gear box and a perspective window, the perspective window is arranged on the furnace body, the rack plate is arranged at the outlet of the furnace body.

2. The feeding structure for producing burden according to claim 1, wherein said lifting device is provided with a nut and a screw, said nut is a pair of reverse threads, said nut is rotated by said servo motor, said nut can move relatively and relatively outside said screw, so as to drive said lifting link to move upward and downward.

3. The feeding structure of claim 1, wherein the power device comprises a motor coupled to the driving gear via a coupling, the driving gear is coupled to the driven gear via a gear, the driven gear and the support are welded to the power platform to ensure the rotational stability of the power platform, and the electric telescopic rod and the support are connected to the beam arm via a rolling connection to ensure the flexibility of the beam arm.

4. The feeding structure for producing the furnace burden as defined in claim 1, wherein the gear box of the feeding device is welded to the furnace burden box, the rack plate is connected to the gear box via gear teeth, so that the furnace burden is automatically discharged, and the transparent window is riveted to the furnace burden box.

5. A feeding structure for the production of charge materials according to claim 2 or 3, wherein said lifting means and said power means are connected by pins, ensuring the stability of the charge material feeding and transportation, and facilitating the assembly and maintenance of the structure.

6. The feeding structure for furnace burden production according to claim 3 or 4, wherein the power device is connected with the feeding device through a pin and a steel wire rope, the pin is used for fixedly connecting the pin and the feeding device, and the steel wire rope is used for rotating the furnace burden box at different angles so as to deal with different working conditions.

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