CN212506458U

CN212506458U - Energy-saving mining loader

Info

Publication number: CN212506458U
Application number: CN202020949102.9U
Authority: CN
Inventors: 朱伟永
Original assignee: Yuxian Xinyuan Basalt Mining Co ltd
Current assignee: Yuxian Xinyuan Basalt Mining Co ltd
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2021-02-09
Anticipated expiration: 2030-05-29

Abstract

The utility model discloses an energy-conserving exploitation loader, including vehicle chassis, the loading arm of force and driving wheel, welded fastening has the loader shell directly over vehicle chassis, and the articulated equipment chamber door that is fixed with in the outside of loader shell, loading arm of force bearing is connected with the loader shell, and the outside nested connection who loads the arm of force has the shovel hopper, the one end of shovel hopper is connected with hydraulic cylinder output, welded fastening has the driver's cabin directly over the loader shell, and the outside welded fastening of driver's cabin has the climbing ladder, one side welded fastening of loader shell has the generator box, and one side of generator box is provided with driving motor, driving wheel installs under vehicle chassis. This energy-conserving exploitation loader adopts face gear and vehicle chassis, utilizes face gear to drive the blast fan leaf and rotates on the one hand, and then the velocity of flow of accelerating device bottom air avoids the ore powder to be infected with in the bottom of device.

Description

Energy-saving mining loader

Technical Field

The utility model relates to a loader technical field specifically is an energy-conserving exploitation loader.

Background

In the process of mining the surface mine, after the surface mine is mined by the mining machine, the surface mine is directly conveyed away by a truck in the prior art without using a belt conveyor system for continuous operation, the path of a large mine is difficult, small ore products cannot safely reach a higher or bent mine, and therefore a mining loader is required to crush the ore and convey the ore out of the mine.

The body construction singleness of mining loader now can only transport the ore of a certain amount at every turn and load, leads to in the use, needs to consume a large amount of diesel oil and transportation resources, is unfavorable for practicing thrift resources and the cost of mineral products operation in-process to the loader is in the transportation, and difficult dust to the loader bottom is cleared up, leads to using after a period, and the dust can influence the loader operation and radiating effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving exploitation loader to solve the body construction singleness of the present exploitation loader that proposes in the above-mentioned background art, can only transport the ore of a certain amount at every turn and load, lead to in the use, need consume a large amount of diesel oil and transportation resources, and the loader is in the transportation, is difficult to carry out the problem of clearing up to the dust of loader bottom.

In order to achieve the purpose, the utility model provides an energy-saving mining loader, which comprises a vehicle chassis, a loading force arm and a driving wheel, wherein a loader shell is welded and fixed right above the vehicle chassis, an equipment door is hinged and fixed on the outer side of the loader shell, the loading force arm is connected with the loader shell through a bearing, a shovel hopper is nested and connected on the outer side of the loading force arm, one end of the shovel hopper is connected with a hydraulic oil cylinder output end, a cab is welded and fixed right above the loader shell, a climbing ladder is welded and fixed on the outer side of the cab, a generator box body is welded and fixed on one side of the loader shell, a driving motor is arranged on one side of the generator box body, the driving wheel is arranged right below the vehicle chassis, and the output end of the driving motor is simultaneously connected with a blowing fan blade and a plane gear, the loader is characterized in that a storage box body is arranged inside the loader shell, a liquid storage box body is arranged under the storage box body, and a filter screen is fixed to the inner bolt of the storage box body.

Preferably, the loader shell and the cab are welded into an integral structure, the top of the loader shell is in a rectangular opening type structure, and the loader shell and the vehicle chassis are parallel to each other.

Preferably, the shovel hopper is connected with the loader shell through a loading force arm and a hydraulic oil cylinder, and the loading force arm and the hydraulic oil cylinder are symmetrically distributed around the center line of the shovel hopper.

Preferably, the driving motor and the blower fan are connected through a vehicle chassis, and the vehicle chassis has a hollow rectangular structure inside.

Preferably, the inside of storage box is including alloy threaded rod, internal thread pipe, support loop bar, rectangle cover block and coupling seat, and the bearing is connected with the internal thread pipe under the storage box to the inside threaded connection of internal thread pipe has the alloy threaded rod, and the left and right sides welded fastening of storage box has the rectangle cover block moreover, and the outside nested connection of rectangle cover block has a support loop bar simultaneously, one side nested connection of storage box has the coupling seat.

Preferably, the filtering screen and the storage box body are fixed by welding, and the filtering screen and the storage box body form a rotating structure through an alloy threaded rod, an internal threaded pipe and a shaft joint seat.

Compared with the prior art, the beneficial effects of the utility model are that: the energy-saving mining loader comprises a loader body,

1. the plane gear and the vehicle chassis are adopted, on one hand, the plane gear is utilized to drive the blower blades to rotate, so that the flow velocity of air at the bottom of the device is accelerated, mineral powder is prevented from being stained at the bottom of the device, on the other hand, the plane gear is utilized to drive the alloy threaded rod to rotate and lift, a large amount of ores can be poured out conveniently and rapidly, a large amount of diesel oil and transportation resources are reduced, the vehicle chassis is utilized to limit the liquid storage box body, and the liquid in the liquid storage box body can clean and cool dust and heat generated during the operation of the device;

2. adopt internal thread pipe and filter screen, utilize internal thread pipe to drive the storage box and rotate, adjust the angle of storage box according to the quantity of ore, the convenient inside of leading-in vehicle with the ore in batches promotes quantity and the efficiency of single to the ore transportation to utilize filter screen to filter the inside large-scale impurity of ore, reduce the impurity quantity of ore in the screening process.

Drawings

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

fig. 2 is a schematic view of the internal structure of the loader housing according to the present invention;

fig. 3 is a schematic top view of the loader housing according to the present invention;

fig. 4 is a side view of the loader housing according to the present invention.

In the figure: 1. a vehicle chassis; 2. a loader housing; 3. an equipment box door; 4. loading a force arm; 5. shoveling a hopper; 6. a hydraulic cylinder; 7. a cab; 8. climbing a ladder; 9. a generator box body; 10. a drive motor; 11. driving the wheels; 12. a blower fan blade; 13. a face gear; 14. a material storage box body; 1401. an alloy threaded rod; 1402. an internally threaded tube; 1403. supporting the loop bar; 1404. a rectangular sleeve block; 1405. a shaft coupling seat; 15. a liquid storage tank body; 16. and (4) filtering the screen mesh.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an energy-saving mining loader comprises a vehicle chassis 1, a loader shell 2, an equipment box door 3, a loading force arm 4, a shovel hopper 5, a hydraulic oil cylinder 6, a cab 7, a climbing ladder 8, a generator box body 9, a driving motor 10, driving wheels 11, a blowing fan blade 12, a plane gear 13, a storage box body 14, a liquid storage box body 15 and a filter screen 16, wherein the loader shell 2 is fixedly welded right above the vehicle chassis 1, the equipment box door 3 is fixedly hinged to the outer side of the loader shell 2, the loader shell 2 is connected to the loading force arm 4 in a bearing mode, the shovel hopper 5 is connected to the outer side of the loading force arm 4 in a nested mode, one end of the shovel hopper 5 is connected with the output end of the hydraulic oil cylinder 6, the cab 7 is fixedly welded right above the loader shell 2, the climbing ladder 8 is fixedly welded to the outer side of the cab 7, the generator box body 9 is fixedly, and one side of the generator box 9 is provided with a driving motor 10, a driving wheel 11 is installed under the vehicle chassis 1, the output end of the driving motor 10 is simultaneously connected with a blast fan blade 12 and a plane gear 13, a storage box 14 is arranged inside the loader shell 2, a liquid storage box 15 is arranged under the storage box 14, and a filter screen 16 is fixed on the inner bolt of the storage box 14.

Loader shell 2 and driver's cabin 7 welding formula structure as an organic whole, and the top of loader shell 2 adopts rectangle open type structure to loader shell 2 and vehicle chassis 1 are for being parallel to each other, utilize loader shell 2 to store a large amount of ores, conveniently load the multiunit vehicle simultaneously.

The shovel hopper 5 is connected with the loader shell 2 through a loading force arm 4 and a hydraulic oil cylinder 6, the loading force arm 4 and the hydraulic oil cylinder 6 are symmetrically distributed about the center line of the shovel hopper 5, the shovel hopper 5 is driven to rotate by the loading force arm 4 and the hydraulic oil cylinder 6, and ore after mining is conveniently and directly guided into the shovel hopper.

The driving motor 10 and the blower fan blade 12 are connected through the vehicle chassis 1, the interior of the vehicle chassis 1 adopts a hollow rectangular structure, and the blower fan blade 12 is used for carrying out heat dissipation treatment on the bottom of the loader shell 2, so that mineral powder is prevented from being contaminated at the bottom of the device.

The inside of storage box 14 is including alloy threaded rod 1401, internal thread pipe 1402, support sleeve 1403, rectangle pocket 1404 and coupling seat 1405, and storage box 14 is directly under the bearing connection has internal thread pipe 1402, and the internal thread of internal thread pipe 1402 is connected with alloy threaded rod 1401, and storage box 14's the left and right sides welded fastening has rectangle pocket 1404, the outside nested connection of rectangle pocket 1404 has support sleeve 1403 simultaneously, one side nested connection of storage box 14 has coupling seat 1405, utilize internal thread pipe 1402 and support sleeve 1403 to adjust storage box 14's angle, conveniently pour out the inside ore of storage box 14.

The filtering screen 16 and the storage box body 14 are fixed by welding, the filtering screen 16 and the storage box body 14 form a rotating structure through an alloy threaded rod 1401, an internal threaded pipe 1402 and a shaft joint seat 1405, impurities in the mineral powder are filtered by the filtering screen 16, and the quality of the material in the loading process is ensured.

The working principle is as follows: when the energy-saving mining loader is used, as shown in fig. 1 to 3, an operator enters the inside of a cab 7 through a climbing ladder 8, then drives a driving wheel 11 to rotate through a generator box body 9, shovels ores on a mine into the cab through a shovel hopper 5, opens a hydraulic oil cylinder 6, drives a loading force arm 4 and the shovel hopper 5 to rotate through the hydraulic oil cylinder 6, pours the ores in the shovel hopper 5 into the inside of a loader shell 2, filters large impurities in the ores through a filter screen 16, opens a driving motor 10, drives a blower fan blade 12 to rotate through the driving motor 10, and performs heat dissipation treatment on the bottoms of a vehicle chassis 1 and the generator box body 9 through the blower fan blade 12;

according to fig. 1, fig. 2 and fig. 4, the vehicle chassis 1 drives the loader shell 2 to move to one side of the vehicle, the equipment box door 3 is opened subsequently, the ore inside the storage box 14 is poured into the vehicle, the driving motor 10 is opened subsequently, the driving motor 10 is used for driving the plane gear 13 to rotate, the plane gear 13 is used for driving the alloy threaded rod 1401 to rotate, the alloy threaded rod 1401 is used for driving the internal threaded pipe 1402 to rotate and ascend, the storage box 14 is driven to move upwards by the internal threaded pipe 1402, the shaft joint 1405 is used for driving the storage box 14 on one side to rotate, the ore inside the storage box 14 is conveniently led out, the rectangular sleeve block 1404 on the outer side of the storage box 14 slides on the outer side of the supporting sleeve 1403, the stability of the storage box 14 in the rotating process is ensured, and the liquid inside the storage box 15 absorbs the heat generated in.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. An energy-conserving mining loader, includes vehicle chassis (1), loading arm of force (4) and driving wheel (11), its characterized in that: the loader is characterized in that a loader shell (2) is fixedly welded right above the vehicle chassis (1), an equipment box door (3) is fixedly hinged to the outer side of the loader shell (2), a loading force arm (4) is connected with the loader shell (2) in a bearing mode, a shovel hopper (5) is connected to the outer side of the loading force arm (4) in an embedded mode, one end of the shovel hopper (5) is connected with an output end of a hydraulic oil cylinder (6), a cab (7) is fixedly welded right above the loader shell (2), a climbing ladder stand (8) is fixedly welded on the outer side of the cab (7), a generator box body (9) is fixedly welded on one side of the loader shell (2), a driving motor (10) is arranged on one side of the generator box body (9), driving wheels (11) are installed right below the vehicle chassis (1), and an output end of the driving motor (10) is simultaneously connected with a blast fan blade (12) and a plane gear, the loader is characterized in that a storage box body (14) is arranged inside the loader shell (2), a liquid storage box body (15) is arranged under the storage box body (14), and a filtering screen (16) is fixed to the inner bolt of the storage box body (14).

2. The energy efficient mining loader of claim 1, wherein: the loader shell (2) and the cab (7) are welded into an integral structure, the top of the loader shell (2) is of a rectangular opening type structure, and the loader shell (2) and the vehicle chassis (1) are parallel to each other.

3. The energy efficient mining loader of claim 1, wherein: the shovel hopper (5) is connected with the loader shell (2) through a loading force arm (4) and a hydraulic oil cylinder (6), and the loading force arm (4) and the hydraulic oil cylinder (6) are symmetrically distributed around the center line of the shovel hopper (5).

4. The energy efficient mining loader of claim 1, wherein: the driving motor (10) is connected with the blowing fan blade (12) through the vehicle chassis (1), and the interior of the vehicle chassis (1) adopts a hollow rectangular structure.

5. The energy efficient mining loader of claim 1, wherein: the inside of storage box (14) is including alloy threaded rod (1401), internal thread pipe (1402), support loop bar (1403), rectangle sleeve block (1404) and coupling seat (1405), and the bearing is connected with internal thread pipe (1402) under storage box (14), and the internal thread of internal thread pipe (1402) is connected with alloy threaded rod (1401), and the both sides welded fastening about storage box (14) has rectangle sleeve block (1404), the outside nested connection of rectangle sleeve block (1404) has support loop bar (1403) simultaneously, one side nested connection of storage box (14) has coupling seat (1405).

6. The energy efficient mining loader of claim 5, wherein: the filtering screen (16) and the storage box body (14) are fixedly welded, and the filtering screen (16) and the storage box body (14) form a rotating structure through an alloy threaded rod (1401), an internal threaded pipe (1402) and a shaft joint seat (1405).