CN220167927U - Drilling bucket structure - Google Patents

Abstract

The utility model discloses a drilling bucket structure, which comprises a drilling bucket main body, wherein the drilling bucket main body comprises a rotary digging barrel, a rotary cone, mud discharging holes and a fixed mounting plate, the rotary cone is arranged at the edge of the lower surface of the rotary digging barrel, and the mud discharging holes are formed in the top ends of two sides of the rotary digging barrel; through the design strengthening fixed establishment, can be through behind the fixed mounting board with boring the main part fixed mounting, and behind fixed mounting board and the operation end fixed mounting of equipment is dug soon in the mine, strengthen bracing piece and take place inclination and close the installation with the fixed plate, and make fixed plate and antiskid ribbed tile contact in the surface of the operation end of equipment is dug soon in the mine, two fixed plate are closed back soon and close fastening bolt and consolidate the installation fixed plate and strengthen the bracing piece, when boring the main part and get into the rotation of mine ground and meet the stereoplasm object, cause boring the top of main part to push down the atress inhomogeneous, strengthen the fastening to boring the main part side through fixed plate and fixed plate.

Description

Drilling bucket structure

Technical Field

The utility model belongs to the technical field of drilling buckets, and particularly relates to a drilling bucket structure.

Background

The mine mainly comprises one or more mining workshops and a plurality of auxiliary workshops, most of the mine also comprises a mining field, the mining field is rotationally excavated by a rotary excavator during mining, a drilling bucket is installed at the operation end of the rotary excavator to rotationally excavate during the operation of the rotary excavator, the existing drilling bucket is installed on a device for rotationally excavating and mining on the rotary excavator of the mine, the drilling bucket is directly reinforced by a fixed mounting plate and bolts during the installation, and the reinforcing and fixing are convenient during the installation, so that the stable rotary excavating operation is easy, and the reinforcing and fixing effect of the drilling bucket on the rotary mine excavating equipment is improved;

the existing drilling bucket is directly installed at the operation end of the rotary drilling machine through the fixed installation plate in use, and the drilling bucket is driven to rotationally drill at a mine through the operation of the rotary drilling machine, so the drilling bucket is directly and fixedly installed through the fixed installation plate, and the support to the side face of the top end is inconvenient to strengthen after the installation of the drilling bucket, and when the drilling bucket is pressed down to rotationally drill, the stress at the edge of the drilling bucket is uneven when the drilling bucket is in contact with a hard object in the mine underground easily to cause the rotation drilling, the connection part of the top end of the drilling bucket and the rotary drilling machine is deformed, and deformation and damage are easily caused when the regular larger stress is carried out, so that the problem of reinforcing and fixing effects of the drilling bucket installed on the mine rotary drilling machine is solved.

Disclosure of Invention

The utility model aims to provide a drilling bucket structure, which solves the problems that in the prior art, when a drilling bucket is contacted with a hard object underground in a mine, the stress at the edge of the drilling bucket is uneven, the joint of the top end of the drilling bucket and rotary drilling equipment is deformed, and the deformation and damage are easy to occur when the drilling bucket is frequently stressed greatly, so that the reinforcing and fixing effect of the drilling bucket on the mine rotary drilling equipment is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a bore fill structure, includes the brill fill main part, the brill fill main part is including digging barrel, rotatory cone, mud discharge hole and fixed mounting panel soon, rotatory cone sets up the lower surface edge of digging the barrel soon, the mud discharge hole is offered and is digging the both sides top of barrel soon, fixed mounting panel welded fastening is in the upper surface intermediate position department of digging the barrel soon, still be provided with in the brill fill main part:

the reinforcing fixing mechanism comprises a reinforcing connecting component and an anti-skid fixed mounting component, and is arranged at the top end of the rotary digging barrel;

the cleaning mechanism comprises a fixing assembly, an elastic connecting assembly and a cleaning assembly, and the cleaning mechanism is arranged on two sides of the inside of the rotary digging barrel.

Preferably, the reinforcing connection assembly comprises a fixed bottom plate welded and fixed on two sides of the top end of the rotary digging cylinder body, and reinforcing support rods are arranged in the fixed bottom plate through connection pins.

Preferably, the anti-skid fixed mounting assembly comprises a fixed plate arranged at the end part of the reinforcing support rod through a connecting pin, a fastening bolt is screwed at the joint of the two fixed plates, and an anti-skid plate is fixedly welded on the inner surface of the fixed plate.

Preferably, the inner surface of the fixing plate is matched with the outer surface structure of the antiskid plate, and the two fixing plates are arc-shaped structures.

Preferably, the fixing component comprises fixing frames welded and fixed on two sides of the inner top end of the rotary digging cylinder body, and the two fixing frames are symmetrically arranged.

Preferably, the elastic connecting component comprises two sliding rods which are connected inside the fixing frame in a sliding mode, and a compressing spring is sleeved on the outer surface of each sliding rod on the side face of the fixing frame.

Preferably, the sliding rod penetrates through the fixing frame, and the sliding rod is elastically connected with the fixing frame through the compression spring.

Preferably, the cleaning assembly comprises a movable pushing column welded and fixed at the end parts of the two sliding rods, and a pull rod is welded and fixed on the surface of the movable pushing column.

Compared with the prior art, the utility model has the beneficial effects that:

through designing strengthening fixed establishment, can be through fixed mounting panel with boring the main part fixed mounting back, and fixed mounting panel and mine dig the operation end fixed mounting back of equipment soon, strengthen bracing piece and take place inclination and close the installation with the fixed plate, and make fixed plate and antiskid ribbed tile contact in the surface of the operation end of equipment is dug soon in the mine, two fixed plate are closed back soon and close fastening bolt and consolidate the installation fixed plate and strengthen the bracing piece, when boring the main part and get into the rotation of mine ground and meet the stereoplasm object, cause boring the top of main part and push down the atress inhomogeneous, strengthen the fastening to boring the main part side through fixed plate and fixed plate, all can strengthen fixed dig soon when the atress is inhomogeneous, and be difficult for the deformation damage, improve and bore the main part and install the reinforcing fixed effect of using on the equipment is dug soon in the mine.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the fixing plate, the reinforcing support bar and the cleat according to the present utility model;

FIG. 3 is a schematic diagram of the structure of the rotary digging cylinder, the mud discharging hole and the movable pushing column of the utility model;

in the figure: 100. a drill bucket body; 101. rotary digging a cylinder; 102. a rotating cone; 103. a mud discharging hole; 1031. a pull rod; 1032. moving the pushing column; 1033. a fixing frame; 1034. compressing the spring; 1035. a slide bar; 104. a fixed mounting plate; 1041. a fastening bolt; 1042. a fixing plate; 1043. reinforcing the support rod; 1044. a fixed bottom plate; 1045. a antiskid plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 3, the present utility model provides a technical solution: the utility model provides a drilling bucket structure, including drilling bucket main part 100, drilling bucket main part 100 includes digs barrel 101 soon, rotatory cone 102, dredge slurry hole 103 and fixed mounting panel 104, rotatory cone 102 sets up in the lower surface edge department of dig barrel 101 soon, dredge slurry hole 103 and offer the both sides top of barrel 101 soon, fixed mounting panel 104 welded fastening is in the upper surface intermediate position department of dig barrel 101 soon, close the operation end and fixed mounting at mine rotary equipment through fixed mounting panel 104, consequently, use drilling bucket main part 100 fixed mounting through fixed mounting panel 104, drive drilling bucket main part 100 by the rotary drilling machine and rotate and dig the operation soon, and after the interior of dig barrel 101 soon, and the earth of dig soon does not contact with clearance mechanism, the earth is kept apart with clearance mechanism after getting into, and get into mud through dredge slurry hole 103 discharge inwards, still be provided with on the drilling bucket main part 100:

strengthen fixed establishment, and should strengthen fixed establishment and include strengthening coupling assembling and anti-skidding fixed mounting subassembly, strengthen fixed establishment setting in the top of digging barrel 101 soon, be convenient for dig the operation of equipment soon with boring bucket main part 100 fixed mounting on the external world and use, and strengthen fixedly through strengthening fixed establishment, be difficult for taking place to warp when using and damage, improve boring bucket main part 100 and install the fixed effect of strengthening that uses on the mine digs equipment soon.

In order to facilitate the reinforcing support fixing of the drilling bucket main body 100 during the installation through the reinforcing connection assembly, and to facilitate the reinforcing installation and use, in this embodiment, preferably, the reinforcing connection assembly includes a fixing base plate 1044 welded and fixed on both sides of the top end of the rotary digging cylinder 101, the reinforcing support rod 1043 is installed in the fixing base plate 1044 through a connection pin, the reinforcing support rod 1043 is installed through the fixing base plate 1044, and the reinforcing support is used by the reinforcing support rod 1043.

In order to fasten the installation reinforcing support bar 1043 through the anti-slip fixed installation component and facilitate the use of the fixed installation reinforcing support, in this embodiment, preferably, the anti-slip fixed installation component includes a fixing plate 1042 installed at the end of the reinforcing support bar 1043 through a connecting pin, the connecting part of the two fixing plates 1042 is screwed and connected with a fastening bolt 1041, the two fixing plates 1042 are convenient to fasten and install through the fastening bolt 1041, the connection is easy to fasten, the anti-slip plate 1045 is welded and fixed on the inner surface of the fixing plate 1042, the anti-slip plate 1045 is fastened and fixed through the anti-slip plate 1045 when the fixing plate 1042 is tightly pressed, the anti-slip plate 1045 is convenient to fasten and install, the inner surface of the fixing plate 1042 is identical with the outer surface structure of the anti-slip plate 1045, and the two fixing plates 1042 are arc structures, the fixing plate 1042 is convenient to fasten and connect through the anti-slip plate 1045 when being installed.

The cleaning mechanism comprises a fixing component, an elastic connecting component and cleaning components, wherein the cleaning mechanism is arranged on two sides of the inside of the rotary digging barrel 101, can be used for cleaning the inner surface of the mud discharging hole 103 by the cleaning mechanism when mud is accumulated in the mud discharging hole 103 after the use when mud is discharged through the mud discharging hole 103 during rotary digging operation after the drilling bucket main body 100 is fixed, and is not easy to block during reuse, so that the cleaning effect of the drilling bucket main body 100 when the drilling bucket main body 100 is installed on mine rotary digging equipment is improved.

In order to facilitate the installation of the movable push column 1032 through the fixing component and the installation, sliding and cleaning are facilitated, in this embodiment, preferably, the fixing component comprises fixing frames 1033 welded and fixed on two sides of the inner top end of the rotary digging cylinder 101, the two fixing frames 1033 are symmetrically arranged, the sliding rod 1035 is conveniently and elastically connected with the movable push column 1032 for the elastic connecting component, and the elastic connecting component comprises two sliding rods 1035 which are slidably connected inside the fixing frames 1033 after cleaning, the outer surface of the sliding rod 1035 is located on the side surface of the fixing frame 1033 and is sleeved with a compression spring 1034, the movable push column 1032 is conveniently and elastically connected through the compression spring 1034, and the sliding rod 1035 penetrates through the inner portion of the fixing frames 1033 and is elastically and elastically restored to the original position after cleaning the movable push column 1032, and the sliding rod 1035 is conveniently and elastically connected with the fixing frames 1033 through the compression spring 1034.

In order to facilitate cleaning the interior of the slurry discharging hole 103 after the drilling bucket main body 100 is used through the cleaning assembly, and the cleaning assembly is not easy to block, in this embodiment, preferably, the cleaning assembly includes a movable pushing post 1032 welded and fixed at the ends of two sliding bars 1035, and a pull rod 1031 is welded and fixed on the surface of the movable pushing post 1032, so that the movable pushing post 1032 is conveniently pulled by the handheld pull rod 1031 to be cleaned.

The working principle and the using flow of the utility model are as follows: the drilling bucket structure is firstly installed before use, the operation end of the mine rotary drilling equipment is closed through the fixed installation plate 104 and is fixedly installed, so that the drilling bucket main body 100 is fixedly installed through the fixed installation plate 104, after the fixed installation plate 104 is fixedly installed with the operation end of the mine rotary drilling equipment, the top end of the rotary drilling cylinder 101 is installed on the reinforcing support rod 1043 through the fixed bottom plate 1044 to form an inclined angle so as to enable the fixed plate 1042 and the antiskid plate 1045 to be in contact with the surface of the operation end of the mine rotary drilling equipment, the two fixed plates 1042 are closed and are fixedly installed through the fastening bolts 1041, the fixed plate 1042 and the reinforcing support rod 1043 are fixedly connected, and when a hard object is met after the fixed installation, the top end of the drilling bucket main body 100 is driven to rotate in the mine ground, the fastening of the side face of the drilling bucket main body 100 is reinforced through the fixed plate 1042 and the fixed plate 1042, the rotary drilling bucket can be reinforced and damaged in a deformation-free mode when the stress is uneven, and the reinforcing fixing effect of the drilling bucket main body 100 is improved when the drilling bucket main body 100 is installed on the mine rotary drilling equipment is improved;

then when the drilling bucket main body 100 is used for rotary drilling operation of a mine, and mud is discharged to the outside through the mud discharge hole 103 during rotary drilling, so that when the drilling bucket main body 100 is moved upwards from underground after being used, more soil is easy to be stained in the mud discharge hole 103 and adheres to the surface of the drilling bucket main body, at the moment, the pull rod 1031 can be pulled to drive the movable push column 1032 and the slide rod 1035 to move until the movable push column 1032 is driven to penetrate through the inside of the mud discharge hole 103 to scrape and clean the soil adhered to the inner surface of the mud discharge hole 103, the drilling bucket main body 100 is convenient to clean when being used, the inside of the mud discharge hole 103 is difficult to be blocked, mud is convenient to discharge when the drilling bucket main body 100 is used again, the cleaning effect when the drilling bucket main body 100 is installed on the rotary drilling equipment of the mine is improved, the drainage is easy, after the movable push column 1032 is pulled to clean, the pull rod 1031 is loosened, and the slide rod 1035 and the movable push column 1032 are elastically moved to restore to the original position through deformation of the compression spring 1034.

Although embodiments of the present utility model have been shown and described in detail with reference to the foregoing detailed description, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a bore fill structure, includes and bores fill main part (100), bore fill main part (100) including dig barrel (101), rotatory cone (102), row mud thick liquid hole (103) and fixed mounting panel (104) soon, rotatory cone (102) set up the lower surface edge that digs barrel (101) soon, row mud thick liquid hole (103) are seted up on the both sides top that digs barrel (101) soon, fixed mounting panel (104) welded fastening is in the upper surface intermediate position department of digging barrel (101) soon, its characterized in that: the drilling bucket main body (100) is also provided with:

the reinforcing fixing mechanism comprises a reinforcing connecting component and an anti-skid fixed mounting component, and is arranged at the top end of the rotary digging barrel body (101);

the cleaning mechanism comprises a fixing assembly, an elastic connecting assembly and a cleaning assembly, and the cleaning mechanism is arranged on two sides of the inside of the rotary digging barrel body (101).

2. A bucket construction according to claim 1, wherein: the reinforced connecting assembly comprises a fixed bottom plate (1044) welded and fixed on two sides of the top end of the rotary digging cylinder body (101), and a reinforced supporting rod (1043) is arranged in the fixed bottom plate (1044) through a connecting pin.

3. A bucket construction according to claim 2, wherein: the anti-skid fixed mounting assembly comprises a fixed plate (1042) which is arranged at the end part of a reinforcing support rod (1043) through a connecting pin, fastening bolts (1041) are screwed at the joint of the two fixed plates (1042), and anti-skid plates (1045) are welded and fixed on the inner surfaces of the fixed plates (1042).

4. A bucket construction according to claim 3, wherein: the inner surfaces of the fixing plates (1042) are matched with the outer surface structures of the antiskid plates (1045), and the two fixing plates (1042) are arc-shaped structures.

5. A bucket construction according to claim 1, wherein: the fixing assembly comprises fixing frames (1033) welded and fixed on two sides of the inner top end of the rotary digging cylinder body (101), and the two fixing frames (1033) are symmetrically arranged.

6. The drilling structure of claim 5, wherein: the elastic connecting assembly comprises two sliding rods (1035) which are connected inside the fixed frame (1033) in a sliding mode, and a compression spring (1034) is sleeved on the outer surface of each sliding rod (1035) on the side face of the fixed frame (1033).

7. The drilling structure of claim 6, wherein: the sliding rod (1035) penetrates through the fixing frame (1033), and the sliding rod (1035) is elastically connected with the fixing frame (1033) through the compression spring (1034).

8. The drilling structure of claim 6, wherein: the cleaning assembly comprises a movable pushing post (1032) fixed at the end parts of two sliding rods (1035) in a welding mode, and a pull rod (1031) is fixed on the surface of the movable pushing post (1032) in a welding mode.