CN204436382U - A kind of energy-efficient mining apparatus - Google Patents

Abstract

A kind of energy-efficient mining apparatus, relate to winning equipment field, it comprises walking mechanism (1), support arm (2), a pair traffic cycle (3), two groups of mining pawl (4), hydraulic breaking hammer (5), belt conveyor (6), crushing engine (7) and Hydraulic Station (8), one end of support arm (2) is fixedly mounted on the front end of walking mechanism (1), a pair traffic cycle (3) is movably arranged on the other end of support arm (2) respectively by rotating shaft, and driven by hydraulic swivel head, and a pair traffic cycle (3) lays respectively at the both sides of support arm (2), two groups mining pawl (4) respectively retainer ring be arranged on a pair traffic cycle (3) outer ring around array, utilization of the present utility model, can provide a kind of mining adapting to various mineral, and adopt the first broken mode captured again to dig up mine, mining efficiency is high, and energy-conservation, and equipment loss is little, has good comprehensive utilization value.

Description

A kind of energy-efficient mining apparatus

Technical field

The utility model relates to winning equipment field, is specifically related to a kind of energy-efficient mining apparatus.

Background technology

At present, stepped type winning equipment on the market only has traffic cycle to drive the structure of mining pawl usually, directly the ore reduction on rib is grabbed on conveyer and transport, this ro om-character is relatively applicable to the softer mineral of the quality such as colliery, when running into the harder ore of quality, this structure just compares and is difficult to be competent at, and efficiency is low, and larger to the loss of mining pawl.

Utility model content

The purpose of this utility model is exactly at present, stepped type winning equipment on the market only has traffic cycle to drive the structure of mining pawl usually, directly the ore reduction of rib is grabbed on conveyer and transport, this ro om-character is relatively applicable to the softer mineral of the quality such as colliery, when running into the harder ore of quality, this structure just compares and is difficult to be competent at, and efficiency is low, and the deficiency larger to the loss of mining pawl, and a kind of energy-efficient mining apparatus is provided.

The utility model comprises walking mechanism, support arm, a pair traffic cycle, two groups of mining pawls, hydraulic breaking hammer, belt conveyor, crushing engine and Hydraulic Station, one end of support arm is fixedly mounted on the front end of walking mechanism, a pair traffic cycle is movably arranged on the other end of support arm respectively by rotating shaft, and driven by hydraulic swivel head, and a pair traffic cycle lays respectively at the both sides of support arm, two groups mining pawl respectively retainer ring be arranged on a pair traffic cycle outer ring around array, hydraulic breaking hammer is fixedly mounted on the top of support arm by base, and hydraulic breaking hammer is between a pair traffic cycle, belt conveyor is positioned at the top of walking mechanism, and the charging aperture of belt conveyor is positioned at the discharge outlet of two groups of mining pawls, crushing engine is fixedly mounted on the afterbody of walking mechanism, and the charging aperture of crushing engine is positioned at the discharge outlet of belt conveyor, Hydraulic Station is positioned at walking mechanism, and Hydraulic Station is connected with hydraulic breaking hammer with hydraulic swivel head respectively by conduit under fluid pressure.

Hydraulic breaking hammer is arranged on support arm top by intermediate pin axle bed, and the hammer body angle of hydraulic breaking hammer is regulated by intermediate pin axle bed.

Walking mechanism is hydraulic track car.

Crushing engine is hydraulic ore crusher, and hydraulic ore crusher is connected with Hydraulic Station by conduit under fluid pressure.

The utility model has the following advantages: utilization of the present utility model, can provide a kind of mining adapting to various mineral, and adopt the first broken mode captured again to dig up mine, mining efficiency is high, and energy-conservation, and equipment loss is little, has good comprehensive utilization value.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

In figure: 1, walking mechanism; 2, support arm; 3, a pair traffic cycle; 4, two groups of mining pawls; 5, hydraulic breaking hammer; 6, belt conveyor; 7, crushing engine; 8, Hydraulic Station.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

As shown in Figure 1, the utility model comprises walking mechanism 1, support arm 2, a pair traffic cycle 3, two groups of mining pawls 4, hydraulic breaking hammer 5, belt conveyor 6, crushing engine 7 and Hydraulic Station 8, one end of support arm 2 is fixedly mounted on the front end of walking mechanism 1, a pair traffic cycle 3 is movably arranged on the other end of support arm 2 respectively by rotating shaft, and driven by hydraulic swivel head, and a pair traffic cycle 3 lays respectively at the both sides of support arm 2, two groups mining pawl 4 respectively retainer ring be arranged on a pair traffic cycle 3 outer ring around array, hydraulic breaking hammer 5 is fixedly mounted on the top of support arm 2 by base, and hydraulic breaking hammer 5 is between a pair traffic cycle 3, belt conveyor 6 is positioned at the top of walking mechanism 1, and the charging aperture of belt conveyor 6 is positioned at the discharge outlet of two groups of mining pawls 4, crushing engine 7 is fixedly mounted on the afterbody of walking mechanism 1, and the charging aperture of crushing engine 7 is positioned at the discharge outlet of belt conveyor 6, Hydraulic Station 8 is positioned at walking mechanism 1, and Hydraulic Station 8 is connected with hydraulic breaking hammer 5 with hydraulic swivel head respectively by conduit under fluid pressure.

Hydraulic breaking hammer 5 is arranged on support arm 2 top by intermediate pin axle bed, and the hammer body angle of hydraulic breaking hammer 5 is regulated by intermediate pin axle bed.

Walking mechanism 1 is hydraulic track car.

Crushing engine 7 is hydraulic ore crushers, and hydraulic ore crusher is connected with Hydraulic Station 8 by conduit under fluid pressure.

Working method and principle: hydraulic track car drives whole mining apparatus to walk, Hydraulic Station 8 hydraulic control quartering hammer 5 pairs of ore faces are beaten, then Hydraulic Station 8 drives a pair traffic cycle 3 to rotate again, a pair traffic cycle 3 drives two groups on it pawls 4 of digging up mine to be captured by the ore of the bulk of fragmentation, again the ore of crawl is placed on belt conveyor 6, belt conveyor 6 by the Ore Transportation of bulk to hydraulic ore crusher, namely the ore reduction of bulk is completed mining process to the ore of fritter by hydraulic ore crusher, the first broken mode captured again is adopted to dig up mine, mining efficiency is high, and it is energy-conservation, equipment loss is little.

Above embodiment is only for illustration of the utility model, and be not limitation of the utility model, the those of ordinary skill of relevant technical field, when not departing from spirit and scope of the present utility model, can also make a variety of changes and modification, therefore all equivalent.Technical scheme also belong to category of the present utility model, scope of patent protection of the present utility model should be defined by the claims.

Claims (4)

1. an energy-efficient mining apparatus, it is characterized in that it comprises walking mechanism (1), support arm (2), a pair traffic cycle (3), two groups of mining pawl (4), hydraulic breaking hammer (5), belt conveyor (6), crushing engine (7) and Hydraulic Station (8), one end of support arm (2) is fixedly mounted on the front end of walking mechanism (1), a pair traffic cycle (3) is movably arranged on the other end of support arm (2) respectively by rotating shaft, and driven by hydraulic swivel head, and a pair traffic cycle (3) lays respectively at the both sides of support arm (2), two groups mining pawl (4) respectively retainer ring be arranged on a pair traffic cycle (3) outer ring around array, hydraulic breaking hammer (5) is fixedly mounted on the top of support arm (2) by base, and hydraulic breaking hammer (5) is positioned between a pair traffic cycle (3), belt conveyor (6) is positioned at the top of walking mechanism (1), and the charging aperture of belt conveyor (6) is positioned at the discharge outlet of two groups of mining pawl (4), crushing engine (7) is fixedly mounted on the afterbody of walking mechanism (1), and the charging aperture of crushing engine (7) is positioned at the discharge outlet of belt conveyor (6), Hydraulic Station (8) is positioned at walking mechanism (1), and Hydraulic Station (8) is connected with hydraulic breaking hammer (5) with hydraulic swivel head respectively by conduit under fluid pressure.

2. the energy-efficient mining apparatus of one according to claim 1, is characterized in that hydraulic breaking hammer (5) is arranged on support arm (2) top by intermediate pin axle bed, and the hammer body angle of hydraulic breaking hammer (5) is regulated by intermediate pin axle bed.

3. the energy-efficient mining apparatus of one according to claim 1, is characterized in that walking mechanism (1) is hydraulic track car.

4. the energy-efficient mining apparatus of one according to claim 1, it is characterized in that crushing engine (7) is hydraulic ore crusher, and hydraulic ore crusher is connected with Hydraulic Station (8) by conduit under fluid pressure.