CN211287520U - Calcium carbide material surface layer automatic treatment machine - Google Patents

Abstract

The utility model discloses a carbide charge surface course automatic processor, it includes the saddle body, the slope of portable and brake location install in car pedestal body and can change inclination to one side face upward the arm, install in face upward arm and telescopic stoking arm to one side, face upward the arm front end to one side and be equipped with fore-stock sliding support stoking arm, it is equipped with the support and promotes to face upward the arm back end to one side stoking arm back-and-forth movement drive into the device. The movable vehicle seat body capable of being braked and positioned enables the equipment to be convenient to operate, wide in treatment range and easy to maintain. The inclined elevation arm capable of dynamically changing the inclination angle can tilt the charge level, the front support is arranged to support the stoking arm in a sliding manner, and the driving device which supports and pushes the stoking arm to move back and forth is arranged to enable the stoking arm to move more flexibly, so that the stoking efficiency is higher and the cost performance is high.

Description

Calcium carbide material surface layer automatic treatment machine

Technical Field

The utility model relates to a equipment of pounding especially relates to a carbide charge surface course automatic processor.

Background

The encrustation is easily formed on the top in the smelting process of the calcium carbide furnace, and once the encrustation collapses, the encrustation can cause great danger to workers and equipment of the furnace base operation platform. In order to avoid crusting, the conventional treatment process is to lift a steel rail by combining force of more than ten workers to dredge the fabric, and the mode has the potential safety hazards of high-temperature radiation, material splashing, gas poisoning and the like, is inconvenient to operate and extremely high in labor intensity, has low furnace pounding efficiency and cannot finish tilting the fabric surface.

Disclosure of Invention

To the not enough of prior art, the to-be-solved technical problem of the utility model is to provide a smash stove efficient uninterrupted, smash stove wide carbide charge level automatic treatment machine of treatment scope.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides a carbide charge surface course automatic processor, its including portable and brake the location the saddle body, the slope install in the saddle body can change inclination to one side of dynamic change, install in the arm and telescopic stove arm of pounding is faced upward to one side, it is equipped with fore-stock sliding support to one side to face upward the arm front end to one side stove arm of pounding, it is equipped with the support and promotes to face upward the arm back end to one side the device of advancing of stoking arm back-and-forth movement.

As the utility model discloses the technical scheme's of electrical stone material surface course automatic processing machine improvement, but the saddle body include the chassis, horizontal rotation install in the revolving bed on chassis, be fixed in the vertical rail portal of revolving bed, can follow vertical rail portal vertical movement's inner support frame, locate the lift drive who provides vertical thrust between revolving bed and the inner support frame, the arm of facing upward to one side install in inner support frame.

As the utility model discloses the improvement of the technical scheme of electric stone material surface course automatic processing machine, initiative wheel and driven wheel are installed to the bottom surface on chassis.

As an improvement of the technical scheme of the utility model discloses the automatic processor of electrical stone material surface course, the chassis is equipped with vertical flexible and the landing leg on jacking chassis.

As the utility model discloses an improvement of the technical scheme of electric stone material surface course automatic processor, the arm bottom of facing upward to one side through the pivot with inner support frame is articulated, the arm bottom of facing upward to one side still is equipped with flexible driver, flexible driver's both ends are articulated and adjust the angle of inclination of facing upward to one side with inner support frame and the arm of facing upward to one side respectively.

As an improvement of the technical scheme of the utility model discloses electricity building stones surface course automatic processing machine, it is equipped with the fore-stock sliding support to pitch upward the arm front end to one side stove arm is smash, it is equipped with the support and promotes to pitch upward the arm back end to one side stove arm back-and-forth movement smash the device of advancing.

As an improvement of the technical proposal of the utility model of the electric stone material surface layer automatic processor, the driving device comprises a roller, a driving roller rotating driving device which supports and pushes the stoking arm to move back and forth.

As an improvement of the technical scheme of the utility model discloses electric stone material surface course automatic processing machine, the gyro wheel is equipped with two, the arm middle section of pitching to one side be equipped with the gyro wheel linkage supports the follow driving wheel of the arm of pounding the stove.

As an improvement of the technical proposal of the utility model discloses electric stone material surface course automatic processor, the gyro wheel is the toothed wheel dish.

As an improvement of the technical scheme of the utility model discloses electric stone material surface course automatic processor, the stove arm of pounding in include the bottom surface with but drive in device complex bedplate, tail end slidable mounting in the drill rod of bedplate, the jump bit of scalable striking drill rod tail end, install in bedplate and drive the power device that the jump bit removed, order about the restorer that the drill rod moved back.

The beneficial effects of the utility model reside in that: the movable vehicle seat body capable of braking and positioning enables the equipment to be convenient to operate and wide in furnace pounding processing range. The inclined elevation arm capable of dynamically changing the inclination angle can tilt the charge level, the front support is arranged to support in a sliding manner, and the driving device which supports and pushes the stoking arm to move back and forth is arranged to enable the stoking arm to move more flexibly, automatically and rapidly, and the stoking efficiency is higher without interruption.

Drawings

Fig. 1 is a schematic side view of the automatic calcium carbide facing processor of the present invention.

Fig. 2 is a schematic view of the overlooking structure of the calcium carbide surface layer automatic processor of the utility model.

Fig. 3 is a schematic perspective view of a combination of an inclined elevation arm and a furnace pounding arm in the calcium carbide material surface layer automatic processing machine.

Fig. 4 is a schematic view of a partial three-dimensional structure of a car seat body in the calcium carbide facing automatic processing machine.

Fig. 5 is a schematic perspective view of a rotary seat and an inner support frame in an automatic calcium carbide facing layer processing machine.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

As shown in fig. 1, 2, 3, the utility model relates to a calcium carbide charge surface course automatic processor, it includes the saddle body 11, the slope that can move and brake the location install in saddle body 11 and can change inclination's oblique arm 21, install in oblique arm 21 and telescopic smash stove arm 31 of inclining, it is equipped with fore-stock 22 sliding support to incline the arm 21 front end smash stove arm 31, it is equipped with the support and promotes to incline arm 21 back end smash the device of advancing of stove arm 31 back-and-forth movement. Having a movable and brakeable positioning of the saddle body 11 allows for easy operation of the apparatus. But through setting up driver power generation dynamic change inclination's oblique arm 21 of facing upward can the perk charge level, establish fore-stock 22 slip support stoking arm 31 establishes the drive device that supports and promote stoking arm 31 back-and-forth movement and makes stoking arm 31 remove nimble automatic fast more and stoking efficiency is higher. The front support 22 and the driving device are used for providing supporting force for the front section and the rear section of the stoking arm 31, so that the stoking arm 31 is balanced in supporting force, and the driving device can control the extending distance of the stoking arm 31 to adjust the stoking position, so that the stoking treatment range is wider, and the stoking treatment is more flexible. A control cabinet and a power supply module are arranged on the movable vehicle seat body 11, so that uninterrupted operation of a plurality of furnace doors can be realized. The driver and the driving device are electrically connected with the control cabinet 55 and the power supply module 56, and the control cabinet 55 controls the generation and stop of each power, so that the equipment can be automated, the labor intensity is reduced, the operation is more convenient, more dead angles originally existing are eliminated, the range of the operation level is enlarged, and the limitation of the operation range is overcome.

As shown in fig. 4 and 5, the vehicle seat body 11 includes a chassis 12, a rotary seat 13 horizontally rotatably mounted on the chassis 12, a vertical rail door frame 15 fixed to the rotary seat 13, an inner support frame 16 vertically movable along the vertical rail door frame 15, and a lifting driver 17 disposed between the rotary seat 13 and the inner support frame 16 for providing vertical thrust, wherein the reclining arm 21 is mounted on the inner support frame 17. Chassis 12 can brake fixedly and provide the support, and revolving bed 13 makes the stove arm of pounding 31 can rotate or receive drive arrangement's drive power effect to rotate down by the free rotation, enlarges the scope and the degree of freedom of pounding the stove, and the operation is nimble more convenient. The lifting driver 17 drives the inner support frame 16, the inclined pitch arm 21 and the stoking arm 31 to lift together, so that the stoking arm 31 can perform stoking knocking/impacting on different furnace doors in an optimal posture, the stoking efficiency is higher, the stoking operation is flexible, and the stoking processing range is wide. The chassis 12 is provided with a swiveling drive 53 that drives the swiveling base 13 to rotate.

Further, the bottom surface of the chassis 12 is mounted with driving wheels and driven wheels 18. The wheel system of the movable vehicle seat body can adopt a three-wheel mode, two driven wheels 18 and one driving wheel are turned by the driving wheel, so that the rotation can be realized by 360 degrees in situ, the defects of large turning radius and inconvenient operation are overcome, and the defects of long time for switching operation of different furnace doors or inconvenient operation when equipment position conversion is carried out on partial dead angle positions and the like are overcome.

The chassis 12 of the vehicle seat body 11 is provided with four supporting legs 19 which are vertically telescopic to lift the chassis 12, and when the furnace door is higher, the vehicle seat body 11 is lifted by the supporting legs 19 of the vehicle body to enable the furnace pounding mechanism to rise integrally; when the oven door is low, no or partial stroke may be used. The support legs 19 include a support plate 92 at the bottom, and a telescopic support column 93 with the bottom end abutting against the support plate 92, wherein the telescopic support column 93 is installed on the chassis 12 of the vehicle seat body 11. Specifically, the telescopic support column 93 may be an inner shaft (piston rod) of a hydraulic cylinder fixedly installed at the vehicle body.

The bottom of the inclined elevation arm 21 is hinged with the inner support frame 16 through a rotating shaft, the bottom of the inclined elevation arm 21 is further provided with a telescopic driver 66, and two ends of the telescopic driver 66 are respectively hinged with the inner support frame 16 and the inclined elevation arm 21 so as to telescopically adjust the inclination angle of the inclined elevation arm 21. The telescopic driver 25 can be a hydraulic cylinder, in particular an oil cylinder, and can provide strong and stable driving force, adjust the inclination angle of the inclined elevation arm 21 and facilitate the stoking at a proper angle. The angle can be dynamically changed in the stoking process so that the charge level can be tilted.

Specifically, drive device is including supporting and promoting smash stove arm 31 back-and-forth movement's gyro wheel 23, drive gyro wheel 23 pivoted drive device 25, and the rotation of gyro wheel 23 makes smash stove arm 31 can be flexible the removal from beginning to end, realizes the regulation to flexible distance, improves its stove range of smashing, avoids frequently moving vehicle pedestal 11.

Preferably, the gyro wheel 23 is equipped with two, both can provide sufficient and stable drive power, can guarantee again that at least one can normal use, the arm 21 middle section of inclining is equipped with gyro wheel 23 linkage and support the driven wheel 26 of stoking arm 31, increase the support position to stoking arm 31, make its support more reliable and more stable, remove more nimble.

The roller 23 is a toothed wheel disc, and the extension distance of the furnace ramming arm 31 is stable and reliable through the transmission of the toothed disc. The driven wheel 26 is a toothed wheel disc or is matched with the stoking arm through a slide rail, and the matching is compact and flexible.

In addition, the driving device can also be a linear driver, such as an air cylinder or a linear motor, which directly drives the stoking arm 31 to extend and retract relative to the inclined elevation arm 21, and a supporting wheel and a guide rail are arranged between the stoking arm 31 and the inclined elevation arm 21 for installation and moving guidance.

Further, the stoking arm 31 comprises a support plate 35 with a bottom surface matched with the driving device, a drill rod 32 with a tail end part slidably mounted on the support plate 35, an impact hammer 36 capable of telescopically impacting the tail end of the drill rod 32, a power device 38 mounted on the support plate 35 and driving the impact hammer 36 to move, and a restorer (not shown) for driving the drill rod 35 to retreat. The front bracket 22 supports the front section of the drill rod 32, the support plate 35 is movably connected with and supports the rear end of the drill rod 32 and is slidably mounted on the inclined pitch arm 21, the support plate 35 is provided with an impact hammer 36 and a power device 38 for driving the impact hammer 36, the impact hammer 36 can generate impact force when knocking the rear end of the drill rod, and further, the harder material surface of a part of crust can be tamped through, so that the strength is sufficient.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (9)

1. The utility model provides a carbide material surface course automatic processing machine which characterized in that: the stoking machine comprises a movable and braking-positioning vehicle seat body, an inclined elevation arm and a telescopic stoking arm, wherein the inclined elevation arm is obliquely arranged on the vehicle seat body and can dynamically change the inclination angle, the stoking arm is arranged on the inclined elevation arm, a front support is arranged at the front end of the inclined elevation arm to support the stoking arm in a sliding mode, and a driving device which supports and pushes the stoking arm to move back and forth is arranged at the rear section of the inclined elevation arm.

2. The automatic calcium carbide facing layer processing machine of claim 1, wherein: the saddle body comprises a chassis, a rotary seat which can be horizontally and rotatably arranged on the chassis, a vertical rail door frame fixed on the rotary seat, an inner support frame which can vertically move along the vertical rail door frame, and a lifting driver which is arranged between the rotary seat and the inner support frame and provides vertical thrust, wherein the inclined elevation arm is arranged on the inner support frame.

3. The automatic calcium carbide facing layer processing machine of claim 2, wherein: and the bottom surface of the chassis is provided with a driving wheel and a driven wheel.

4. The automatic calcium carbide facing layer processing machine of claim 2, wherein: the chassis is provided with supporting legs which vertically extend and retract to lift the chassis.

5. The automatic calcium carbide facing layer processing machine of claim 2, wherein: the bottom of the inclined elevation arm is hinged with the inner support frame through a rotating shaft, a telescopic driver is further arranged at the bottom of the inclined elevation arm, and two ends of the telescopic driver are respectively hinged with the inner support frame and the inclined elevation arm to adjust the inclined angle of the inclined elevation arm.

6. The automatic calcium carbide facing layer processing machine of claim 1, wherein: the driving device comprises a roller for supporting and pushing the stoking arm to move back and forth and a driving device for driving the roller to rotate.

7. The automatic calcium carbide facing layer processing machine of claim 6, wherein: the furnace stoking device is characterized in that the number of the rollers is two, and a driven wheel which is linked with the rollers and supports the stoking arm is arranged in the middle section of the inclined elevation arm.

8. The automatic calcium carbide facing layer processing machine of claim 7, wherein: the roller is a toothed wheel.

9. The automatic calcium carbide facing layer processing machine of claim 1, wherein: the furnace pounding arm comprises a support plate, a drill rod, an impact hammer, a power device and a restorer, wherein the bottom surface of the support plate is matched with the driving device, the tail end of the support plate is slidably installed on the drill rod of the support plate, the impact hammer can stretch and impact the tail end of the drill rod, the power device is installed on the support plate and drives the impact hammer to move, and the restorer drives the drill rod to retreat.

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