CN213999859U - Pressing forming device for preparing magnesia carbon bricks for converter - Google Patents

Abstract

The utility model discloses a pressing forming device is used in preparation of magnesia carbon brick for converter relates to iron and steel smelting technical field. The utility model discloses a pressing mechanism, cleaning mechanism and two slewing mechanism, pressing mechanism include the magnesia carbon brick briquetting machine body, and the activity joint in the middle part of the magnesia carbon brick briquetting machine body has the magnesia carbon brick body, cleans the mechanism and includes first motor. The utility model discloses a connecting rod one end is rotated and is driven the joint pole of joint inslot portion and slide along first spout is inside, remove and then drive the dead lever through the joint pole and remove, thereby it cleans sand form magnesia carbon brick to drive the scavenging lever, thereby increase work efficiency, use through hydraulic pressure pipe and hydraulic stem cooperation and drive the hydraulic stem and drive the fixed block and extrude fixedly at the inside antedisplacement of hydraulic pressure pipe to magnesia carbon brick body, then rotate through the second motor and drive the round bar and rotate, and then drive the hydraulic stem and rotate, thereby it rotates and then carries out the turn-ups to magnesia carbon brick body to drive the fixed block, thereby increase the staff at during operation factor of safety.

Description

Pressing forming device for preparing magnesia carbon bricks for converter

Technical Field

The utility model belongs to the technical field of the iron and steel is smelted, especially relate to a suppression forming device is used in preparation of magnesia carbon brick for converter.

Background

The magnesia carbon brick is a composite refractory material which is mainly used for linings of converters, alternating current electric arc furnaces and direct current electric arc furnaces, slag lines of ladles and the like, effectively utilizes the strong slag corrosion resistance of magnesia sand and the high thermal conductivity and low expansibility of carbon, compensates the biggest defect of poor spalling resistance of magnesia sand, has good high temperature resistance, strong slag resistance, good thermal shock resistance and low creep at high temperature, and the existing press forming device for preparing the magnesia carbon brick for the converter has the following defects:

1. present converter is with suppression forming device for magnesia carbon brick preparation, need pour sand form magnesia carbon brick into the suppression container inside then suppress before the suppression shaping, this process has a certain amount of sand form magnesia carbon brick unrestrained, needs the staff to collect it manually in order to avoid the waste of raw and other materials to lead to staff's work load increase, work efficiency reduces.

2. The magnesia carbon bricks need to be turned over and pressed in the pressing process, and the existing pressing and forming device for preparing the magnesia carbon bricks for the converter can not turn over the magnesia carbon bricks automatically and needs manual turning of workers, so that the safety coefficient of the workers is reduced during working.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a converter is with suppression forming device for magnesia carbon brick preparation, rotate through first motor and drive the connecting rod rotation, rotate through connecting rod one end and drive the joint pole of joint inslot portion and slide along first spout is inside, move and then drive the dead lever through the joint pole and remove, thereby it cleans sand form magnesia carbon brick to drive the scavenging lever, thereby increase work efficiency, use through hydraulic pressure pipe and hydraulic stem cooperation and drive the hydraulic stem and push the fixed block and extrude the magnesia carbon brick body at the inside antedisplacement of hydraulic pressure pipe and fix, then rotate through the second motor and drive the round bar and rotate, and then drive the hydraulic stem and rotate, thereby it rotates and then turns over face to the magnesia carbon brick body to drive the fixed block, thereby increase staff at the during operation factor of safety.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a pressing and forming device for preparing magnesia carbon bricks for a converter, which comprises a pressing mechanism, a cleaning mechanism and two rotating mechanisms, the pressing mechanism comprises a magnesia carbon brick pressing machine body, the middle part of the magnesia carbon brick pressing machine body is movably clamped with the magnesia carbon brick body, the cleaning mechanism comprises a first motor, the outer cylindrical surface at one end of the first motor is fixedly connected with a connecting rod, the two rotating mechanisms comprise two fixing plates, two hydraulic pipes and two limiting plates, the cross sections of the two fixing plates are rectangular, and two fixed plates all link firmly in the outer wall at magnesium carbon brick briquetting machine body both sides middle part, clean the mechanism and slide in the pressing mechanism bottom, two slewing mechanism links firmly all in the outer wall at pressing mechanism both sides middle part, and magnesium carbon brick briquetting machine body is convenient for carry out the briquetting to the magnesium carbon brick body, and first motor is convenient for drive the connecting rod and rotates.

Further, two second chutes are symmetrically formed in the inner wall of the bottom of the magnesia carbon brick pressing machine body about the vertical central line of the magnesia carbon brick pressing machine body, a round hole is formed in the middle of one side wall of the magnesia carbon brick pressing machine body, a first chute is formed in the bottom of one side wall of the magnesia carbon brick pressing machine body, the slide bar is convenient to drive the fixing rod to slide along the second chute through the second chute, and the round bar is convenient to rotate inside the magnesia carbon brick pressing machine body through the round hole.

Further, joint groove has been seted up along its vertical central line to connecting rod one end, and connecting rod one end has the joint pole through joint groove activity joint, joint pole one end has linked firmly spacing round cap, and joint pole sliding connection inside first spout, rotates the joint pole that drives joint inslot portion through connecting rod one end and slides along first spout is inside.

Further, the joint pole other end has linked firmly the dead lever, and the dead lever bottom has evenly linked firmly a plurality of scavenging levers, dead lever bottom both sides have all linked firmly the slide bar, and inside two second spouts that two equal sliding connection of slide bar correspond position department, move and then drive the dead lever through the joint pole and remove to drive the scavenging lever and clean sand form magnesia carbon brick.

Further, fixed plate bottom middle part has linked firmly the second motor, and second motor one end has linked firmly the round bar, evenly linked firmly two gag lever posts on the outer cylinder of round bar one end, limiting plate top sliding connection has the hydraulic stem, and hydraulic stem one end has linked firmly the fixed block, rotates through the second motor and drives the round bar rotation, and then drives the hydraulic stem and rotate to drive the fixed block and rotate.

Further, hydraulic pressure pipe one end links firmly in a magnesia carbon brick briquetting machine body lateral wall that corresponds position department, and hydraulic pressure pipe and hydraulic stem sliding connection, the spacing groove has been seted up at the hydraulic stem middle part, and round bar and two equal slip joint of gag lever post are in the spacing inslot portion, use through hydraulic pressure pipe and hydraulic stem cooperation to drive the hydraulic stem and carry out the extrusion fixedly at the inside antedisplacement drive fixed block of hydraulic pressure pipe to the magnesia carbon brick body is convenient for turn-over.

The utility model discloses following beneficial effect has:

1. the utility model discloses a first motor rotates and drives the connecting rod and rotate, rotates the joint pole that drives joint inslot portion through connecting rod one end and slides along first spout is inside, removes and then drives the dead lever through the joint pole and removes to drive the scavenging lever and clean sand form magnesia carbon brick, thereby make this converter for magnesia carbon brick preparation with the press forming device, do not need the staff manual to collect sand form magnesia carbon brick, thereby reduce staff's work load, increase work efficiency.

2. The utility model discloses a hydraulic pressure pipe uses with the hydraulic stem cooperation to drive the hydraulic stem and drives the fixed block and extrude fixedly at the inside antedisplacement of hydraulic pressure pipe to the magnesia carbon brick body, then rotates through the second motor and drives the round bar rotation, and then drives the hydraulic stem and rotate to drive the fixed block and rotate and then turn over the magnesia carbon brick body, thereby make this magnesia carbon brick for the converter preparation with the press forming device, do not need the manual turn-over of staff, thereby increase staff at during operation factor of safety.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a schematic view of the pressing mechanism of the present invention;

FIG. 3 is a schematic view of the cleaning mechanism of the present invention;

fig. 4 is an explosion effect diagram of the rotating mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a pressing mechanism; 101. a magnesia carbon brick press body; 102. a circular hole; 103. a first chute; 104. a second chute; 105. a magnesia carbon brick body; 200. a cleaning mechanism; 201. a first motor; 202. a connecting rod; 203. a clamping groove; 204. a clamping and connecting rod; 205. a limiting round cap; 206. fixing the rod; 207. a cleaning rod; 208. a slide bar; 300. a rotating mechanism; 301. a fixing plate; 302. a second motor; 303. a round bar; 304. a limiting rod; 305. a hydraulic tube; 306. a hydraulic lever; 307. a limiting groove; 308. a limiting plate; 309. and (5) fixing blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the utility model relates to a pressing and forming device for preparing magnesia carbon bricks for a converter, which comprises a pressing mechanism 100, a cleaning mechanism 200 and two rotating mechanisms 300, wherein the pressing mechanism 100 comprises a magnesia carbon brick pressing machine body 101, the magnesia carbon brick pressing machine body 101 is movably clamped and connected with the magnesia carbon brick body 105, the cleaning mechanism 200 comprises a first motor 201, the outer column surface of one end of the first motor 201 is fixedly connected with a connecting rod 202, the two rotating mechanisms 300 comprise two fixed plates 301, two hydraulic pipes 305 and two limiting plates 308, the cross sections of the two fixed plates 301 are rectangular, the two fixed plates 301 are fixedly connected with the outer walls of the middle parts of the two sides of the magnesia carbon brick pressing machine body 101, the cleaning mechanism 200 slides at the bottom of the pressing mechanism 100, the two rotating mechanisms 300 are fixedly connected with the outer walls of the middle parts of the two sides of the pressing mechanism 100, the magnesia carbon brick body 105 is pressed and formed by the magnesia carbon brick pressing machine body 101, the first motor 201 rotates to drive the connecting rod 202 to rotate.

As shown in fig. 2-3, the inner wall of the bottom of the magnesia carbon brick press body 101 is symmetrically provided with two second sliding grooves 104 about the vertical central line thereof, the middle part of one side wall of the magnesia carbon brick press body 101 is provided with a circular hole 102, the bottom of one side wall of the magnesia carbon brick press body 101 is provided with a first sliding groove 103, a sliding rod 208 drives a fixing rod 206 to slide along the second sliding groove 104 through the second sliding groove 104, a round rod 303 rotates inside the magnesia carbon brick press body 101 through the circular hole 102, one end of a connecting rod 202 is provided with a clamping groove 203 along the vertical central line thereof, one end of the connecting rod 202 is movably clamped with a clamping rod 204 through the clamping groove 203, one end of the clamping rod 204 is fixedly connected with a limiting round cap 205, the clamping rod 204 is slidably connected inside the first sliding groove 103, the clamping rod 204 inside the clamping groove 203 is driven to slide along the inside of the first sliding groove 103 through the rotation of one end of the, and the bottom end of the fixed rod 206 is evenly fixedly connected with a plurality of cleaning rods 207, the two sides of the bottom end of the fixed rod 206 are fixedly connected with the sliding rods 208, the two sliding rods 208 are all slidably connected inside the two second sliding grooves 104 at the corresponding positions, and the fixed rod 206 is driven to move by moving the clamping rod 204, so that the cleaning rods 207 are driven to clean the sand-shaped magnesia carbon bricks.

As shown in fig. 2 and 4, the middle of the bottom end of the fixing plate 301 is fixedly connected with a second motor 302, one end of the second motor 302 is fixedly connected with a round bar 303, the outer cylindrical surface of one end of the round bar 303 is uniformly fixedly connected with two limit rods 304, the top of the limit plate 308 is slidably connected with a hydraulic rod 306, one end of the hydraulic rod 306 is fixedly connected with a fixed block 309, the round bar 303 is driven to rotate by the rotation of the second motor 302, the hydraulic rod 306 is driven to rotate, so as to drive the fixed block 309 to rotate, one end of the hydraulic tube 305 is fixedly connected with one side wall of the magnesia carbon brick press body 101 at the corresponding position, the hydraulic tube 305 is slidably connected with the hydraulic rod 306, the middle of the hydraulic rod 306 is provided with a limit groove 307, the round bar 303 and the two limit rods 304 are slidably clamped inside the limit groove 307, the hydraulic tube 305 is matched with the hydraulic rod 306 to drive the hydraulic rod 306 to move forward inside the hydraulic tube 305 to drive the fixed block 309 to extrude and fix the magnesia carbon brick body 105, thereby facilitating the turnover of the magnesia carbon brick body 105.

The working principle is as follows:

through empting proper amount sand form magnesia carbon brick inside magnesia carbon brick briquetting machine body 101, then rotate through first motor 201 and drive connecting rod 202 and rotate, it slides along first spout 103 inside to rotate the joint bar 204 that drives joint groove 203 through connecting rod 202 one end, move and then drive the dead lever 206 and remove through joint bar 204, thereby drive scavenging lever 207 and clean sand form magnesia carbon brick, then carry out the briquetting to magnesia carbon brick body 105 through magnesia carbon brick briquetting machine body 101, use through hydraulic pressure pipe 305 and hydraulic stem 306 cooperation and drive hydraulic stem 306 and drive fixed block 309 and extrude fixedly at the inside antedisplacement of hydraulic pressure pipe 305 to magnesia carbon brick body 105, then rotate drive round bar 303 through second motor 302 and rotate, and then drive hydraulic stem 306 and rotate, thereby drive fixed block 309 and rotate and then carry out the turn-over to magnesia carbon brick body 105.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a pressure forming device is used in preparation of magnesia carbon brick for converter, includes pressing mechanism (100), cleans mechanism (200) and two slewing mechanism (300), its characterized in that: suppressing mechanism (100) is including magnesia carbon brick briquetting machine body (101), magnesia carbon brick briquetting machine body (101) middle part activity joint has magnesia carbon brick body (105), clean mechanism (200) including first motor (201), connecting rod (202) have been linked firmly on the outer cylinder of first motor (201) one end, two slewing mechanism (300) are including two fixed plates (301), two hydraulic pressure pipe (305) and two limiting plates (308), two the cross section of fixed plate (301) is the rectangle, and two fixed plates (301) all link firmly in the outer wall at magnesia carbon brick briquetting machine body (101) both sides middle part, clean mechanism (200) and slide in suppressing mechanism (100) bottom, two slewing mechanism (300) link firmly all in the outer wall at suppressing mechanism (100) both sides middle part.

2. The press forming device for preparing the magnesia carbon bricks for the converter according to claim 1, wherein two second sliding grooves (104) are symmetrically formed in the inner wall of the bottom of the magnesia carbon brick press body (101) about the vertical center line of the magnesia carbon brick press body, a circular hole (102) is formed in the middle of one side wall of the magnesia carbon brick press body (101), and a first sliding groove (103) is formed in the bottom of one side wall of the magnesia carbon brick press body (101).

3. The press forming device for preparing magnesia carbon bricks for converters according to claim 2, wherein one end of the connecting rod (202) is provided with a clamping groove (203) along a vertical center line thereof, one end of the connecting rod (202) is movably clamped with a clamping rod (204) through the clamping groove (203), one end of the clamping rod (204) is fixedly connected with a limiting round cap (205), and the clamping rod (204) is slidably connected inside the first sliding groove (103).

4. The press forming device for preparing magnesia carbon bricks for converters according to claim 3, wherein the other end of the clamping rod (204) is fixedly connected with a fixing rod (206), the bottom end of the fixing rod (206) is uniformly fixedly connected with a plurality of cleaning rods (207), the two sides of the bottom end of the fixing rod (206) are fixedly connected with sliding rods (208), and the two sliding rods (208) are slidably connected inside the two second sliding chutes (104) at corresponding positions.

5. The press forming device for preparing the magnesia carbon bricks for the converter according to claim 1, wherein the middle part of the bottom end of the fixing plate (301) is fixedly connected with a second motor (302), one end of the second motor (302) is fixedly connected with a round rod (303), two limiting rods (304) are uniformly fixedly connected onto the outer cylindrical surface of one end of the round rod (303), the tops of the limiting rods (308) are slidably connected with hydraulic rods (306), and one end of each hydraulic rod (306) is fixedly connected with a fixing block (309).

6. The pressing and forming device for preparing the magnesia carbon bricks for the converter according to claim 5, wherein one end of the hydraulic pipe (305) is fixedly connected to one side wall of the magnesia carbon brick pressing machine body (101) at the corresponding position, the hydraulic pipe (305) is slidably connected with the hydraulic rod (306), the middle part of the hydraulic rod (306) is provided with a limiting groove (307), and the round rod (303) and the two limiting rods (304) are slidably clamped inside the limiting groove (307).

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