CN219241985U - Mining movable water crane device - Google Patents

Abstract

The utility model discloses a movable water crane device for mines, which comprises a movable base and a gate-type water crane; the movable base comprises a first bearing assembly, a second bearing assembly and a bearing steel plate which are sequentially arranged from bottom to top, and the bottom of the first bearing assembly is connected with a dragging sliding rail; the gantry water crane comprises a longitudinal water pipe, a transverse water pipe and a water outlet, wherein the two longitudinal water pipes are oppositely arranged at the edge of the bearing steel plate, the transverse water pipe is connected between the two longitudinal water pipes, and the water outlet is arranged on the transverse water pipe; the longitudinal water pipe is connected with a water inlet flange; the water crane device further comprises guardrails, the two guardrails are oppositely arranged at the edges of the bearing steel plate, the guardrails are connected with ground grabbing rods, the ground grabbing rods are telescopic rods which can be adjusted in a telescopic mode, and ground grabbing anchors are arranged on the side faces of the ground grabbing rods; when the mining water crane device is used, the mining water crane device is moved to a construction site through the dragging sliding rail, the mining water truck is driven to the bearing steel plate, and water is conveyed to the mining water truck through the water outlet, so that the purpose of adding water to the mining water truck is achieved.

Description

Mining movable water crane device

Technical Field

The utility model belongs to the technical field of mining water cranes, and particularly relates to a mining movable water crane device.

Background

The mining water crane is an essential mining water truck water adding device in an open pit mine, the position of a water collecting pit needs to be changed by pouring water frequently along with the change of the production progress, and accordingly the water crane matched with the water collecting pit cannot be arranged at a fixed position and only a simple water crane device can be used.

At present, most of open-air mining areas in China use sand and stone bedding, the setting process is complicated, the sites need to be excavated with foundation, backfilled with sand and stone, compacted by equipment, lifted and installed by the water crane sites, safety fences are arranged, and the like, so that the damage of spilled water to the sand and stone water crane sites is higher in the process of adding water by a simple water crane device, water wheel heavy-load rolling water crane sites are easy to generate horseshoe pits, the sites are uneven, and the working surface is unstable, so that the production efficiency is influenced. Along with the change of production progress, when needing to move and establish, need move the water crane and establish, current simple and easy water crane device is inconvenient for remove, inefficiency.

Disclosure of Invention

In view of the defects in the prior art, the utility model provides a movable water crane device for mines, which aims to solve the problem of low production efficiency of the conventional water crane device.

In order to solve the problems, the utility model provides a mining movable water crane device, which comprises a movable base and a door-type water crane connected to the movable base; wherein,,

the movable base comprises a first bearing assembly, a second bearing assembly and a bearing steel plate which are sequentially arranged from bottom to top, and the bottom of the first bearing assembly is connected with a dragging sliding rail;

the gantry crane comprises a longitudinal water pipe, a transverse water pipe and a water outlet, wherein the two longitudinal water pipes are oppositely arranged and vertically connected to the edge of the bearing steel plate, the transverse water pipe is connected between the two longitudinal water pipes, and the water outlet is arranged on the transverse water pipe; the longitudinal water pipe is connected with a water inlet flange;

the water crane device further comprises guardrails, the two guardrails are oppositely arranged and vertically connected to the edges of the bearing steel plates, the two ends of each guardrail are respectively connected with a ground grabbing rod, the ground grabbing rods are telescopic rods which can be telescopically regulated, the bottom ends of the ground grabbing rods are designed to be pointed, and ground grabbing anchors are uniformly arranged on the side faces of the ground grabbing rods;

when the mining water crane device is used, the mining water crane device is moved to a construction site through the dragging sliding rail, the mining water truck drives to the bearing steel plate, and water is conveyed to the mining water truck through the water outlet.

Preferably, the guardrail comprises a guardrail balance beam and a guardrail upright post, wherein the guardrail balance beam is connected to the first end of the guardrail upright post, and the second end of the guardrail upright post is connected to the bearing steel plate; the ground grabbing rod is connected to the guardrail balance beam.

Preferably, the first bearing assembly comprises a plurality of spiral welded steel pipes extending in a first direction and arranged in parallel in a second direction, and the second bearing assembly comprises a plurality of spiral welded steel pipes extending in the second direction and arranged in parallel in the first direction.

Preferably, the front end of the dragging slide rail is connected with a circular arc buffer bend.

Preferably, a dragging piece is connected to the bearing steel plate.

The mining water crane device comprises a first bearing assembly, a second bearing assembly and a bearing steel plate which are sequentially arranged from bottom to top, wherein the first bearing assembly, the second bearing assembly and the bearing steel plate are sequentially arranged from bottom to top, two longitudinal water pipes are oppositely arranged and vertically connected to the edge of the bearing steel plate, a transverse water pipe is connected between the two longitudinal water pipes, a water outlet is formed in the transverse water pipe, a water inlet flange is connected to the longitudinal water pipe, when the mining water crane device is used, the mining water crane device is moved to a construction site through a dragging sliding rail, the mining water crane is driven to the bearing steel plate, and water is conveyed to the mining water crane through a water outlet, so that the purpose of adding water to the mining water crane is achieved. When overflow occurs in the process of adding water to the mining water truck, the mining water truck device directly scatters the overflowed water to the bearing steel plate, and does not scatter the water truck to the water truck site of the sand and stone; the mining waterwheel drives the bearing steel plate to add water, so that the mining waterwheel is prevented from directly rolling a water crane site of a sand stone, and the water crane site is prevented from having a horseshoe pit, so that the site is leveled and the working surface is stable; along with the change of production progress, when needing to move and establish, just can remove mining water crane device to next place of production through dragging the slide rail, efficient.

Drawings

Fig. 1 is a schematic structural diagram of a mining water crane device according to an embodiment of the present utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings. Examples of these preferred embodiments are illustrated in the accompanying drawings. The embodiments of the utility model shown in the drawings and described in accordance with the drawings are merely exemplary and the utility model is not limited to these embodiments.

It should be noted here that, in order to avoid obscuring the present utility model due to unnecessary details, only structures and/or processing steps closely related to the solution according to the present utility model are shown in the drawings, while other details not greatly related to the present utility model are omitted.

Fig. 1 is a schematic structural view of a mining water crane device according to an embodiment of the present utility model, and as shown in fig. 1, the water crane device includes a movable base 1 and a gantry water crane 2 connected to the movable base 1.

The movable base 1 comprises a first bearing assembly 11, a second bearing assembly 12 and a bearing steel plate 13 which are sequentially arranged from bottom to top, and a dragging sliding rail 14 is connected to the bottom of the first bearing assembly 11.

The gantry crane 2 comprises a longitudinal water pipe 21, a transverse water pipe 22 and a water outlet 23, wherein the two longitudinal water pipes 21 are oppositely arranged and vertically connected to the edge of the bearing steel plate 13, the transverse water pipe 22 is connected between the two longitudinal water pipes 21, and the water outlet 23 is arranged on the transverse water pipe 22; the longitudinal water pipe 21 is connected with a water inlet flange 24.

The water crane device further comprises guardrails 3, two guardrails 3 are oppositely arranged and vertically connected to the edges of the bearing steel plates 13, two ends of each guardrail 3 are respectively connected with a ground grabbing rod 4, each ground grabbing rod 4 is configured as a telescopic rod capable of being adjusted in a telescopic mode, the bottom ends of the ground grabbing rods 4 are designed to be pointed, and ground grabbing anchors 41 are evenly arranged on the side faces of the ground grabbing rods 4.

When the mining water crane device is used, the mining water crane device is moved to a construction site through the dragging sliding rail 14, the mining water truck is driven to the bearing steel plate 13, and water is conveyed to the mining water truck through the water outlet 23.

As shown in fig. 1, in the present embodiment, the water outlet 23 of the lateral water pipe 22 is provided at a middle position of the lateral water pipe 22. The number of water outlets 23 is configured to be one.

In some other embodiments, the number of longitudinal water pipes 21, transverse water pipes 22 and water outlets 23 and the number of water inlet flanges 24 connected to the longitudinal water pipes 21 are arranged accordingly according to the actual situation.

The ground grabbing rod 4 can fix the water crane device on the ground, and displacement of the mining water crane device caused by impact of other field devices is avoided. Meanwhile, the ground grabbing rod 4 is configured as a telescopic rod which can be adjusted in a telescopic mode, and the ground grabbing rod is convenient to adapt to installation of a field.

Specifically, in the process of adding water to the mining water truck, when overflow occurs, the water overflowed by the mining water truck device is directly scattered on the bearing steel plate 13 and cannot be scattered on a water truck site of a sand stone; the mining waterwheel drives the bearing steel plate 13 to be added with water, so that the situation that the wheels of the mining waterwheel directly grind a water crane site of sand and stones is avoided, the site is prevented from having a horseshoe pit, the site is leveled, and the working surface is stable; along with the change of the production progress, when the production progress is required to be moved, the mining water crane device can be moved to the next production place by dragging the sliding rail 14, so that the efficiency is high.

In a preferred embodiment, as shown in fig. 1, the guardrail 3 includes a guardrail balance beam 31 and a guardrail post 32, the guardrail balance beam 31 is connected to a first end of the guardrail post 32, and a second end of the guardrail post 32 is connected to the bearing steel plate 13; the ground grabbing rod 4 is connected to the guardrail balance beam 31.

As shown in fig. 1, in this embodiment, the second ends of the guardrail posts 32 are connected to the bearing steel plate 13, the number of guardrail posts 32 is eight, and one guardrail balance beam 31 is connected to each four guardrail posts 32.

In some other embodiments, the number of guardrail posts 32 and the number of guardrail balance beams 31 are set accordingly according to the actual situation.

The guardrail balance beam 31 and the guardrail upright posts 32 are used for preventing irrelevant personnel from entering an equipment operation area, separating a dangerous area from a safe area, and playing a role in positioning the parking space range, so that a driver of the mining water truck can accurately find the middle sleeve position and stably drive the middle sleeve position to the middle position on the bearing steel plate 13.

As shown in fig. 1, in a preferred embodiment, the first bearing assembly 11 includes a plurality of spiral welded steel pipes extending in a first direction and arranged in parallel in a second direction, and the second bearing assembly 12 includes a plurality of spiral welded steel pipes extending in the second direction and arranged in parallel in the first direction.

Specifically, as shown in fig. 1, in the present embodiment, the first bearing assembly 11 is arranged in parallel in the Y direction by 25 spiral welded steel pipes with a diameter of 159mm and a length of 12000mm, and the second bearing assembly 12 is arranged in parallel in the X direction by 75 spiral welded steel pipes with a diameter of 159mm and a length of 4000 mm.

The bearing steel plate 13 is a steel plate with the thickness of 1000mm multiplied by 12000mm multiplied by 6mm, and the strength of the bearing steel plate 13 is configured to meet the long-term use of the mining waterwheel. The longitudinal water pipe 21 has a length of 5000mm and a diameter of 159mm. The guardrail balance beam 31 consists of spiral welded steel pipes with the diameter of 159mm and the length of 12000 mm; the guardrail posts 32 consist of helically welded steel pipes of 159mm diameter and 1000mm length.

As shown in fig. 1, in a preferred embodiment, a circular arc-shaped buffer bend 141 is connected to the front end of the dragging slide rail 14.

The mining water crane device is moved to a new place by dragging the slide rail 14, and the circular arc-shaped buffer bend 21 can prevent the whole mining water crane device from directly striking other devices in the moving process.

In a preferred embodiment, as shown in fig. 1, a dragging member 15 is connected to the bearing steel plate 13, and the dragging member 11 is used for dragging the bearing steel plate 13 to move. When the dragging bearing steel plate 13 moves, the dragging sliding rail 14 reduces friction with the ground, and movement resistance is reduced.

In summary, the embodiment of the utility model provides a mining movable water crane device, when overflow occurs in the process of adding water to a mining water truck, the overflowed water is directly scattered on a bearing steel plate, and cannot be scattered on a water crane site of a sand stone; the mining waterwheel drives the bearing steel plate to add water, so that the mining waterwheel is prevented from directly rolling a water crane site of a sand stone, and the occurrence of a horseshoe pit in a production site is avoided, the site is leveled, and the working surface is stable; along with the change of production progress, when needing to move and establish, just can remove mining water crane device to next place of production through dragging the slide rail that pulls, improved holistic work efficiency height.

The foregoing is merely exemplary of the application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the application and are intended to be comprehended within the scope of the application.

Claims (5)

1. The mining movable water crane device is characterized by comprising a movable base (1) and a door-type water crane (2) connected to the movable base (1); wherein,,

the movable base (1) comprises a first bearing assembly (11), a second bearing assembly (12) and a bearing steel plate (13) which are sequentially arranged from bottom to top, and a dragging sliding rail (14) is connected to the bottom of the first bearing assembly (11);

the gantry crane (2) comprises longitudinal water pipes (21), transverse water pipes (22) and water outlets (23), wherein the two longitudinal water pipes (21) are oppositely arranged and vertically connected to the edge of the bearing steel plate (13), the transverse water pipes (22) are connected between the two longitudinal water pipes (21), and the water outlets (23) are arranged on the transverse water pipes (22); a water inlet flange (24) is connected to the longitudinal water pipe (21);

the water crane device further comprises guardrails (3), two guardrails (3) are oppositely arranged and vertically connected to the edges of the bearing steel plates (13), two ends of each guardrail (3) are respectively connected with a ground grabbing rod (4), each ground grabbing rod (4) is configured as a telescopic rod capable of being adjusted in a telescopic mode, the bottom ends of the ground grabbing rods (4) are designed to be pointed, and ground grabbing anchors (41) are uniformly arranged on the side faces of the ground grabbing rods (4);

when the water crane device is used, the water crane device is moved to a construction site through the dragging sliding rail (14), the mining water truck drives to the bearing steel plate (13), and water is conveyed to the mining water truck through the water outlet (23).

2. The mining movable water crane device according to claim 1, characterized in that the guardrail (3) comprises a guardrail balance beam (31) and a guardrail column (32), the guardrail balance beam (31) is connected to a first end of the guardrail column (32), and a second end of the guardrail column (32) is connected to the bearing steel plate (13); the ground grabbing rod (4) is connected to the guardrail balance beam (31).

3. Mining mobile water crane device according to claim 1, characterized in that the first carrier assembly (11) comprises a plurality of helically welded steel pipes extending in a first direction and arranged in parallel in a second direction, and the second carrier assembly (12) comprises a plurality of helically welded steel pipes extending in a second direction and arranged in parallel in the first direction.

4. A mining movable water crane device according to claim 3, characterized in that the front end of the dragging slide rail (14) is connected with a circular arc-shaped buffer bend (141).

5. Mining mobile water crane device according to claim 1, characterized in that the carrying steel plate (13) is connected with a dragging member (15).

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