CN217176623U - Tunneling and anchoring integrated machine - Google Patents

Abstract

The utility model provides an all-in-one of digging anchor, including the frame, install the footboard device that supplies the people to stand in guardrail department detachably of frame, the footboard device is at least including the upset portion that can overturn and open or close and the pull portion that can stretch out or retract, and upset portion and pull portion all have the cavity that holds the article of digging anchor. The pedal device is positioned at a guardrail of the tunneling and anchoring all-in-one machine, and both the operation personnel of the lateral side drill frame and the operation personnel of the top side drill frame can stand on the pedal device, so that the operation visual field of the operation personnel of the lateral side drill frame is increased, the distance between the operation personnel of the side drill frame and the material frame is shortened, the operation personnel of the top side drill frame can independently take materials, and the feeding work of the operation personnel of the lateral side drill frame or the auxiliary operation personnel is reduced.

Description

Tunneling and anchoring integrated machine

Technical Field

The utility model belongs to the equipment field is strutted in the tunnelling of colliery, concretely relates to all-in-one of digging and anchoring.

Background

At present, the loading space of the tunneling and anchoring all-in-one machine is located at the upper part of a rear platform, and when a top drill rig operator works at each time, a side drill rig operator or an auxiliary operator needs to transfer rear anchoring agents, trays and other tools to the top drill rig operator, so that the anchoring and protecting operation time and the personnel cost at each time are greatly increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anchor all-in-one digs to overcome above-mentioned technical defect.

In order to solve the technical problem, the utility model provides an anchor all-in-one digs, including the frame, install the footboard device that supplies the people to stand in guardrail department detachably of frame, the footboard device is at least including the upset portion that can overturn and open or close and the pull portion that can stretch out or retract, and upset portion and pull portion all have the cavity that holds the anchor article of digging.

Furthermore, the pedal device is a vertically-through hollow structure formed by assembling a plurality of flat plates in an end-to-end manner, the hollow cavity of the hollow structure is divided into two sub cavities by a partition, namely a sub cavity A and a sub cavity B, wherein the lower opening of the sub cavity A is packaged with a bottom plate, the upper opening is provided with a pull plate, and the sub cavity A, the bottom plate, the partition and the pull plate jointly form a turnover part;

the drawing part is embedded in the sub-cavity B and can be drawn along the sub-cavity B.

Preferably, the pull plate is movably arranged on a flat plate of the pedal device through a hinge, a first pull ring is arranged on the pull plate, and when the pull plate is in a closed state, the upper plate surface of the pull plate can be used for people to stand.

Furthermore, the drawing part is a drawer type structure assembled by four panels in an end-to-end connection mode, a plurality of battens are arranged on a fixing frame of an opening at the lower portion of the sub-cavity B, an opening for the drawer type structure to enter and exit the sub-cavity B along the battens is formed in a side panel of the sub-cavity B, the panel where the opening is formed is parallel to the partition, and a handle is installed on the outermost panel of the drawer type structure;

and a top plate for a person to stand is packaged at the upper opening of the sub-cavity B.

Furthermore, a gasket is installed on the side wall of the top plate, a positioning shaft is installed on the gasket, a shifting piece is arranged on the positioning shaft, one end of the shifting piece is inserted and sleeved on the positioning shaft, the other end of the shifting piece rotates around the positioning shaft under the action of external force, and the shifting piece is tightly attached to or separated from a panel where the handle is located in the rotating process.

The utility model has the advantages as follows:

(1) the pedal device is positioned at a guardrail of the tunneling and anchoring all-in-one machine, and both the operation personnel of the lateral side drill frame and the operation personnel of the top side drill frame can stand on the pedal device, so that the operation visual field of the operation personnel of the lateral side drill frame is increased, the distance between the operation personnel of the side drill frame and the material frame is shortened, the operation personnel of the top side drill frame can independently take materials, and the feeding work of the operation personnel of the lateral side drill frame or the auxiliary operation personnel is reduced;

(2) the overturning part and the drawing part can store driving and anchoring articles, so that the storage space is increased.

In order to make the above and other objects of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Figure 1 is a side view of a mining and anchoring machine.

Figure 2 is a top view of the machine.

Fig. 3 is a schematic structural view of the pedal device.

Fig. 4 is a schematic bottom view of fig. 3.

FIG. 5 is a schematic view of the drawer extended and the flip closed;

fig. 6 is a top view of fig. 5.

Description of reference numerals:

1. a pedal device;

2. a turning part; 201. pulling a plate; 202. a first pull ring;

3. a pull-out section; 301. a handle;

4. a top plate;

5. a slat;

6. separating the gear;

7. a shifting sheet;

8. a second pull ring;

9. an ear plate.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein.

It should be noted that, in the present invention, the upper, lower, left and right in the drawings are regarded as the upper, lower, left and right of the tunneling and anchoring integrated machine described in this specification.

The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, which, however, may be embodied in many different forms and are not limited to the embodiments described herein, which are provided for complete and complete disclosure of the present invention and to fully convey the scope of the invention to those skilled in the art. The terminology used in the exemplary embodiments presented in the accompanying drawings is not intended to be limiting of the invention. In the drawings, the same unit/element is denoted by the same reference numeral.

Unless otherwise defined, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In addition, it will be understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their context in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

The embodiment relates to a tunneling and anchoring all-in-one machine, which comprises a rack, referring to fig. 1 and 2, a pedal device 1 for people to stand is detachably arranged at a guardrail of the rack, as shown in fig. 3, the pedal device 1 at least comprises a turnover part 2 capable of being turned on or off and a drawing part 3 capable of being extended or retracted, and the turnover part 2 and the drawing part 3 are both provided with hollow cavities for accommodating tunneling and anchoring objects.

When the turnover part 2 is opened, the digging and anchoring article can be taken out, and when the turnover part 2 is closed, people can stand.

Referring to fig. 2, the pedal device 1 is installed at both side guardrails of the tunneling and anchoring all-in-one machine so as to increase the visual field of the side drill rig operators and the roof drill rig operators at all positions, and particularly to further widen the visual field of the side drill rig operators for operating the multi-way valve of the drill rig, and the specific structure of the pedal device 1 is as follows:

as shown in fig. 3, the pedal device 1 is a hollow structure (or called as a frame) which is formed by assembling a plurality of flat plates end to end and is penetrated up and down, the hollow cavity of the hollow structure is divided into two sub cavities by a baffle 6, namely a sub cavity a (right side in fig. 3) and a sub cavity B (left side in fig. 3), wherein the lower part of the sub-cavity A is open and sealed with a bottom plate, the upper part is open and mounted with a pulling plate 201, the pulling plate 201 is movably mounted on the flat plate of the pedal device 1 through a hinge, and the pulling plate 201 is provided with a first pulling ring 202 (two pulling rings are shown in fig. 3, or other numbers are available), the first pulling ring 202 is pulled, the pulling plate 201 is gradually lifted (or turned over) by taking the hinge as a fulcrum, at this time, the driving and anchoring objects in the sub cavities a can be taken, when the pulling plate 201 is in a closed state (shown in fig. 3), the upper plate surface of the pulling plate 201 can be used for people to stand, and the working space of the drilling rig operator is enlarged.

The sub-cavity A, bottom plate, separate shelves 6, arm-tie 201 have constituted upset portion 2 jointly, specifically, the side group drill jig operation personnel have turned up arm-tie 201 during the operation, squat the anchor agent and the tray that will pack into in advance and take out, shorten material and operating personnel's distance greatly, reduce the time of single operation.

Regarding the pedal device 1, the present embodiment takes four plates as an example to illustrate the structure thereof, the four vertical plates are connected end to form a rectangular frame, the upper portion of the rectangular frame is covered with a flat plate, the rectangular frame is fixedly connected with a partition 6 to divide the rectangular frame into two areas, namely, a sub-cavity a and a sub-cavity B, the bottom of the sub-cavity a is open and packaged with a bottom plate, the flat plate right above the bottom plate is open and provided with a rectangular opening, a pulling plate 201 is installed in the rectangular opening, based on the direction shown in fig. 3, the pedal device 1 is open on the left side panel, so that the pulling portion 3 is embedded into the sub-cavity B, and the pulling portion 3 can enter and exit from the sub-cavity B along the left side panel opening.

The drawing part 3 is embedded in the sub-cavity B and can be drawn along the sub-cavity B, and the drawing part is as follows:

referring to fig. 5, the pull-out portion 3 is a drawer-type structure (for placing driving and anchoring objects) assembled by four panels in an end-to-end manner, a plurality of slats 5 (see fig. 4) are arranged on a fixing frame with an opening at the lower portion of the sub-cavity B, an opening for the drawer-type structure to enter and exit the sub-cavity B along the slats 5 is formed in a side panel of the sub-cavity B, the panel with the opening is parallel to the partition 6, a pull handle 301 (shown in fig. 3) is installed on the outermost panel of the drawer-type structure, a drill rig worker firstly holds the pull-out portion 3 (or a drawer) by hand to pull out the pull-out portion 3 (or the drawer), and then squats down to take out the driving and anchoring objects loaded in the pull-out portion 3 in advance, the worker can independently take out materials, and auxiliary feeding work of the side worker or auxiliary worker is cancelled.

Referring to fig. 3, a top plate 4 for people to stand is sealed in the upper opening of the sub-cavity B, the top plate 4 and the pulling plate 201 jointly form a people standing platform, that is, when the pulling plate 201 is in a closed state, the standing range of an operator is the whole people standing platform, and when the pulling plate 201 is in a turned-up state, the standing range of the operator is the top plate 4, but no matter how the standing range changes, compared with the existing operation at a guardrail, the scheme of the embodiment saves more time and is convenient to operate.

As shown in fig. 3, a spacer is mounted on the side wall of the top plate 4, a positioning shaft is mounted on the spacer, a shifting piece 7 is arranged on the positioning shaft, one end of the shifting piece 7 is inserted and sleeved on the positioning shaft, the other end of the shifting piece 7 rotates around the positioning shaft under the action of external force, and the shifting piece 7 is tightly attached to or separated from a panel where the handle 301 is located in the rotating process.

Specifically, the pull piece 7 is used for limiting the drawing part 3, in a normal state, the drawer (the drawing part 3) is always in the sub-cavity B, in order to prevent the drawer from suddenly sliding out, the pull piece 7 is blocked outside the panel where the handle 301 is located, and if the handle 301 is held by hand to draw the drawer out of the sub-cavity B, the pull piece 7 needs to be pulled to be away from the panel where the handle 301 is located in advance, that is, the pull piece 7 needs to be pulled, the positions of the panel where the pull piece 7 and the handle 301 are located are changed, and the purpose of drawing or retracting the drawer is achieved.

The upper end of the shifting piece 7 is inserted and sleeved on the positioning shaft, so that the shifting piece can rotate around the positioning shaft, meanwhile, the shifting piece 7 cannot be separated from the positioning shaft in the rotating process, and the length of the shifting piece 7 needs to reach the position where the handle 301 passes through the joint of the pedal device 1 and the panel under the action of gravity (in a natural state).

The surface of the holding part (lower end part) of the shifting piece 7 is provided with anti-slip lines, so that slipping caused by hand slipping is avoided.

The entire structure of the pedal apparatus 1 is made of a fisheye steel plate (partial cross-sectional view in fig. 6), so that stability can be ensured while weight can be reduced.

When the pedal device 1 is installed, the pedal device 1 can be installed through the lug plate 9 and the pin shaft, for example, the lug plate 9 is vertically welded on the flat plate of the pedal device 1, as shown in fig. 5 or fig. 6, the lug plate 9 is detachably installed at the guardrail of the driving and anchoring machine by the pin shaft, and the pin shaft installation is adopted for convenience of detachment, maintenance, replacement and the like.

Because the whole structure of the pedal device 1 is heavy, lightening holes can be formed in a flat plate of the pedal device 1, and the position is not limited.

A second pull ring 8 may be further installed on the flat plate of the pedal apparatus 1 as shown in fig. 3 and 5 to facilitate the installation of the pedal apparatus 1.

The above bolting articles include, but are not limited to, an anchoring agent and a tray.

In conclusion, the pedal device 1 is additionally arranged at the left guardrail and the right guardrail, so that the standing height of the side drill frame operators can be increased, the visual field of the side drill frame operators for operating the multi-way valve of the drill frame is further widened, the distance between the side drill frame operators and the material frame is greatly shortened, and the drilling rods and the anchor rods can be more conveniently grabbed; during operation, the side drill frame operator turns the turnover part 2 (specifically the pulling plate 201) up, squats down and takes out the anchoring agent and the tray which are loaded in advance, so that the distance between the material and the operator is greatly shortened, and the time of single operation is shortened; and the top drill rig operating personnel can pull out the drawing part 3 (or the drawer) from the pedal device 1, then squat down and take out the digging and anchoring articles which are arranged in the drawing part 3 in advance, the operating personnel can realize independent material taking, and the auxiliary feeding work of the side drill rig operating personnel or auxiliary operating personnel is cancelled.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (5)

1. Digging and anchoring integrated machine, including the frame, its characterized in that: install footboard device (1) that supplies the people to stand in guardrail department detachably of frame, footboard device (1) is at least including upset portion (2) that can overturn and open or close and pull portion (3) that can stretch out or retract, and upset portion (2) and pull portion (3) all have the cavity that holds the article of digging and anchoring.

2. A machine as claimed in claim 1 wherein: the pedal device (1) is a vertically-through hollow structure formed by assembling a plurality of flat plates in an end-to-end mode, the hollow cavity of the hollow structure is divided into two sub cavities by a separation plate (6), namely a sub cavity A and a sub cavity B, wherein a bottom plate is packaged at an opening at the lower part of the sub cavity A, a pull plate (201) is installed at an opening at the upper part of the sub cavity A, and the sub cavity A, the bottom plate, the separation plate (6) and the pull plate (201) jointly form a turnover part (2);

the drawing part (3) is embedded in the sub-cavity B and can be drawn along the sub-cavity B.

3. A machine as claimed in claim 2 wherein: the pull plate (201) is movably mounted on a flat plate of the pedal device (1) through a hinge, a pull ring I (202) is mounted on the pull plate (201), and when the pull plate (201) is in a closed state, an upper plate surface of the pull plate (201) can be used for people to stand.

4. A machine as claimed in claim 2 wherein: the drawing part (3) is a drawer type structure assembled by four panels in an end-to-end way, a plurality of battens (5) are arranged on a fixed frame of an opening at the lower part of the sub-cavity B, an opening for the drawer type structure to enter and exit the sub-cavity B along the battens (5) is formed in a side panel of the sub-cavity B, the panel where the opening is formed is parallel to the partition (6), and a handle (301) is arranged on the outermost panel of the drawer type structure;

a top plate (4) for people to stand is packaged at the upper opening of the sub-cavity B.

5. A machine as claimed in claim 4 wherein: the side wall of roof (4) installs the gasket, installs the location axle on the gasket, is equipped with plectrum (7) on the location axle, and the one end plug bush of plectrum (7) is epaxial in the location, and the other end rotates around the location axle under the exogenic action, at the rotation in-process plectrum (7) are hugged closely or break away from the panel that handle (301) are located.

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