CN216680184U - Be applied to watering device of elevator counterweight block production - Google Patents

Abstract

The utility model provides a pouring device applied to elevator counterweight block production, which relates to the technical field of pouring devices and comprises a moving mechanism and a pouring mechanism, wherein a hoisting assembly is arranged on the moving mechanism, a hinged container assembly is arranged on the inner side of the hoisting assembly, the two ends of the top side of the moving mechanism are provided with the pouring mechanism, and the pouring mechanism comprises a side lever, a second cylinder, a push rod, a first movable arm, a second movable arm and a hinge chain; the utility model mainly utilizes the structure of two groups of hinged air cylinders and the structure of connecting two groups of hinged movable arms, so that a molten steel cylinder can automatically irrigate molten steel and reset under the action of hinged connection, the equipment greatly improves the operation efficiency of the equipment, the structure can avoid direct operation of workers, the operation burden of the workers can be reduced, and the safety is improved.

Description

Be applied to watering device of elevator counterweight block production

Technical Field

The utility model relates to the technical field of pouring devices, in particular to a pouring device applied to production of counterweight blocks of an elevator.

Background

The process of casting and solidifying molten steel into steel ingots is that the molten steel is poured into a steel containing barrel, after the molten steel is smelted in a steel-making furnace, the molten steel can be processed only by casting into ingots or billets with certain shapes, the process of casting into steel by using a casting mold is called as ingot casting or die casting for short, and the process of casting by using a continuous casting method is called as continuous casting for short.

The utility model provides a pouring device applied to elevator counterweight block production, which solves the problems in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pouring device applied to elevator counterweight block production, which mainly utilizes two groups of hinged cylinder structures and a structure of connecting two groups of hinged movable arms, so that molten steel can be poured and reset automatically under the action of the hinged connection of the molten steel cylinders, the operation efficiency of equipment is greatly improved, the structure can avoid direct operation of workers, the operation burden of the workers can be reduced, the safety is improved, and the filling and pouring of the molten steel cannot be influenced because the structures are two groups which are symmetrically distributed.

In order to realize the purpose of the utility model, the utility model is realized by the following technical scheme: a pouring device applied to elevator counterweight block production comprises a moving mechanism and a pouring mechanism, wherein a hoisting assembly is arranged on the moving mechanism, a hinged container assembly is arranged on the inner side of the hoisting assembly, and pouring mechanisms are arranged at two ends of the top side of the moving mechanism;

pouring mechanism includes side lever, second cylinder, push rod, first digging arm, second digging arm and hinge strip, the side lever sets up moving mechanism's top side both ends, the one end below of side lever is provided with the second cylinder, just the output of second cylinder is connected with the push rod, the one end of push rod is provided with first digging arm of articulated, just the one end of first digging arm is provided with the articulated second digging arm, the one end of second digging arm is provided with the hinge chain.

The improved structure is characterized in that the side rod is of a T-shaped structure, and the central axis of the second cylinder and the central axis of the push rod are on the same straight line.

The improved structure is characterized in that two groups of first movable arms and second movable arms are symmetrically distributed on two sides of the central axis of the hinge chain.

The moving mechanism comprises a support column, a track cabin, electric wheels and a gantry beam, wherein the track cabin is assembled by bolts and arranged on the top side of the support column, the electric wheels are arranged above the track cabin, and the gantry beam is arranged above the electric wheels.

The lifting assembly comprises a connecting block, an air cylinder table, first air cylinders, telescopic rods, a hanging rod and hinge joints, the connecting block is arranged on the inner side of the gantry beam, the air cylinder table is arranged below the connecting block, two groups of first air cylinders are arranged at two ends of the air cylinder table, the output ends of the first air cylinders are connected with the telescopic rods, the hanging rod is arranged below the telescopic rods, and the hinge joints are arranged on the inner side of the hanging rod.

The improved structure is characterized in that the container component comprises a steel water barrel, a barrel cover, a hanging ring plug, a water outlet nozzle and a ceramic pad, the steel water barrel is arranged on the inner side of the hinge joint, the barrel cover is arranged above the steel water barrel, the hanging ring plug is arranged above the barrel cover, the water outlet nozzle is arranged on one side of the steel water barrel, and the ceramic pad is arranged below the steel water barrel.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the structure of two groups of hinged air cylinders and the structure of connecting two groups of hinged movable arms, so that a molten steel cylinder can automatically irrigate molten steel and reset under the action of hinged connection, the equipment greatly improves the operation efficiency of the equipment, the structure can avoid direct operation of workers, the operation burden of the workers can be reduced, and the safety is improved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side-view perspective of the present invention;

FIG. 3 is a schematic view of a three-dimensional structure of an electric wheel and a gantry beam according to the present invention;

fig. 4 is a schematic perspective view of the first movable arm and the second movable arm according to the present invention.

Wherein: 1. a moving mechanism; 101. a support pillar; 102. a track cabin; 103. an electric wheel; 104. a gantry beam; 2. hoisting the assembly; 201. connecting blocks; 202. a cylinder table; 203. a first cylinder; 204. a telescopic rod; 205. a boom; 206. a hinge section; 3. a container assembly; 301. a ladle; 302. a cylinder cover; 303. a hanging ring plug; 304. a water outlet nozzle; 305. a ceramic pad; 4. a pouring mechanism; 401. a side lever; 402. a second cylinder; 403. a push rod; 404. a first movable arm; 405. a second movable arm; 406. and (5) hinging the chains.

Detailed Description

In order to further understand the present invention, the following detailed description will be made with reference to the following examples, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

According to the drawings of fig. 1, 2, 3 and 4, the embodiment provides an irrigation device applied to elevator counterweight block production, which comprises a moving mechanism 1 and a pouring mechanism 4, wherein a hoisting component 2 is arranged on the moving mechanism 1, a hinged container component 3 is arranged on the inner side of the hoisting component 2, and the pouring mechanism 4 is arranged at two ends of the top side of the moving mechanism 1;

the pouring mechanism 4 comprises a side rod 401, a second air cylinder 402, a push rod 403, a first movable arm 404, a second movable arm 405 and a hinge bar 406, the side rod 401 is arranged at two ends of the top side of the moving mechanism 1, the second air cylinder 402 is arranged below one end of the side rod 401, the output end of the second air cylinder 402 is connected with the push rod 403, one end of the push rod 403 is provided with the first movable arm 404 in a hinged mode, one end of the first movable arm 404 is provided with the second movable arm 405 in a hinged mode, and one end of the second movable arm 405 is provided with the hinge bar 406.

The side rod 401 is in a T-shaped structure, the central axis of the second air cylinder 402 is in the same line with the central axis of the push rod 403, when watering is needed, the second air cylinder 402 below the side rod 401 is started to contract the push rod 403, so that the push rod 403 can enable the hinge bar 406 to pull the molten steel barrel 301 to incline under the action of the hinge joint 206 by utilizing the connecting action of the first movable arm 404 and the second movable arm 405.

Two groups of first movable arms 404 and second movable arms 405 are symmetrically distributed on two sides of a central axis of the hinge chain 406, and after pouring is finished, the push rod 403 is extended through the second air cylinder 402, so that the first movable arms 404 and the second movable arms 405 cooperate with the upper hinge chain 406 to straighten the molten steel bucket 301 to finish pouring.

The moving mechanism 1 comprises a supporting column 101, a track cabin 102, electric wheels 103 and a gantry beam 104, wherein the top side of the supporting column 101 is provided with the track cabin 102 assembled by bolts, the electric wheels 103 are arranged above the track cabin 102, the gantry beam 104 is arranged above the electric wheels 103, firstly, the electric wheels 103 are driven to drive the gantry beam 104 to enable the gantry beam 104 to reach the periphery of the blast furnace by utilizing the matching of the supporting column 101 and the track cabin 102, and when molten steel is filled in a molten steel barrel 301, the electric wheels 103 are started again to move the gantry beam 104 to the position where products need to be poured.

The hoisting assembly 2 comprises a connecting block 201, a cylinder table 202, a first cylinder 203, an expansion link 204, a suspension rod 205 and a hinge joint 206, wherein the connecting block 201 is arranged on the inner side of the gantry beam 104, the cylinder table 202 is arranged below the connecting block 201, two groups of first cylinders 203 are arranged at two ends of the cylinder table 202, the output end of each first cylinder 203 is connected with the expansion link 204, the suspension rod 205 is arranged below the expansion link 204, and the hinge joint 206 is arranged on the inner side of the suspension rod 205.

The container assembly 3 comprises a molten steel barrel 301, a barrel cover 302, a hanging ring plug 303, a water outlet nozzle 304 and a ceramic pad 305, wherein the molten steel barrel 301 is arranged on the inner side of the hinge joint 206, the barrel cover 302 is arranged above the molten steel barrel 301, the hanging ring plug 303 is arranged above the barrel cover 302, the water outlet nozzle 304 is arranged on one side of the molten steel barrel 301, the ceramic pad 305 is arranged below the molten steel barrel 301, when the gantry beam 104 reaches the periphery of the blast furnace, the hanging ring plug 303 on the barrel cover 302 is opened, molten steel in the blast furnace is poured into the molten steel barrel 301 through the barrel cover 302, the barrel cover 302 is tightly plugged by the hanging ring plug 303, when the molten steel barrel 301 inclines, the molten steel is poured onto a mold for pouring a weight product through the water outlet nozzle 304 on one side of the molten steel barrel 301, and when the position of the molten steel barrel 301 is too low, the ceramic pad 305 can play a role in protecting the ground from being scalded and damaged.

The pouring device applied to elevator counterweight block production has the working principle that: as shown in fig. 1-4, firstly, the electric wheel 103 is driven to drive the gantry beam 104 to make the gantry beam 104 reach the periphery of the blast furnace by the cooperation of the support column 101 and the rail cabin 102, the suspension ring plug 303 on the cylinder cover 302 is opened, so that the molten steel in the blast furnace is poured into the molten steel bucket 301 through the cylinder cover 302, and the suspension ring plug 303 plugs the cylinder cover 302 tightly, when the gantry beam 104 moves to the pouring position, the telescopic motion of the telescopic rod 204 is driven by the output power of the first cylinder 203 on the cylinder table 202 according to the pouring requirement, so that the telescopic rod 204 lifts the suspension rod 205 to a height suitable for pouring, since the suspension rod 205 is hinged with the molten steel bucket 301 through the hinge joint 206, the angle of the molten steel bucket 301 can be conveniently adjusted by the equipment, the second cylinder 402 below the side rod 401 is started to retract the push rod 403, so that the push rod 403 utilizes the connection action of the first movable arm 404 and the second movable arm 405, the hinge chain 406 pulls the molten steel barrel 301 to incline under the action of the hinge joint 206, when the molten steel barrel 301 inclines, the molten steel is poured onto a mould for pouring the weight product through the water outlet nozzle 304 on one side of the molten steel barrel 301, and after pouring is finished, the push rod 403 is extended through the second air cylinder 402, so that the first movable arm 404 and the second movable arm 405 are matched with the upper hinge chain 406 to straighten the molten steel barrel 301 to finish pouring.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a be applied to watering device of elevator counterweight block production, includes moving mechanism (1) and pouring mechanism (4), its characterized in that: a hoisting component (2) is arranged on the moving mechanism (1), a hinged container component (3) is arranged on the inner side of the hoisting component (2), and pouring mechanisms (4) are arranged at two ends of the top side of the moving mechanism (1);

pouring mechanism (4) are including side lever (401), second cylinder (402), push rod (403), first digging arm (404), second digging arm (405) and hinge strip (406), side lever (401) set up the top side both ends of moving mechanism (1), the one end below of side lever (401) is provided with second cylinder (402), just the output of second cylinder (402) is connected with push rod (403), the one end of push rod (403) is provided with first digging arm of articulated (404), just the one end of first digging arm (404) is provided with articulated second digging arm (405), the one end of second digging arm (405) is provided with hinge chain (406).

2. An irrigation device for elevator counterweight block production according to claim 1, wherein: the side rod (401) is in a T-shaped structure, and the central axis of the second cylinder (402) and the central axis of the push rod (403) are on the same straight line.

3. An irrigation device for elevator counterweight block production according to claim 2, wherein: two groups of first movable arms (404) and second movable arms (405) are symmetrically distributed on two sides of a central axis of the hinge chain (406).

4. An irrigation device for elevator counterweight block production according to claim 3, wherein: the moving mechanism (1) comprises a supporting column (101), a track cabin (102), electric wheels (103) and a gantry beam (104), wherein the track cabin (102) assembled by bolts is arranged on the top side of the supporting column (101), the electric wheels (103) are arranged above the track cabin (102), and the gantry beam (104) is arranged above the electric wheels (103).

5. An irrigation device for elevator counterweight block production according to claim 4, wherein: the hoisting assembly (2) comprises a connecting block (201), a cylinder table (202), a first cylinder (203), an expansion link (204), a hanging rod (205) and a hinge joint (206), wherein the connecting block (201) is arranged on the inner side of the portal beam (104), the cylinder table (202) is arranged below the connecting block (201), two groups of first cylinders (203) are arranged at two ends of the cylinder table (202), the output end of each first cylinder (203) is connected with the expansion link (204), the hanging rod (205) is arranged below the expansion link (204), and the hinge joint (206) is arranged on the inner side of the hanging rod (205).

6. An irrigation device for elevator counterweight block production according to claim 5, wherein: container subassembly (3) include ladle (301), cover (302), rings stopper (303), faucet (304) and ceramic pad (305), ladle (301) set up the interior limit side of knuckle (206), the top of ladle (301) is provided with cover (302), just the top of cover (302) is provided with rings stopper (303), one side of ladle (301) is provided with faucet (304), just the below of ladle (301) is provided with ceramic pad (305).

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