CN220918798U - Slurry stirring device for geological drilling - Google Patents

Abstract

The utility model relates to the technical field of geological drilling tools, in particular to a slurry stirring device for geological drilling, which comprises: the inside of the box body part is provided with an installation cavity; the partition plate component is arranged in the mounting cavity and divides the mounting cavity into an inner cavity and an outer cavity; the stirring parts are symmetrically arranged in the inner cavity; the first driving part is arranged in the outer cavity, and the output end of the first driving part is connected with the stirring part; the feeding component is arranged at the opening of the box body component, and the output end of the feeding component penetrates through the box body component to the inner cavity; the blanking part is arranged at the bottom of the inner cavity, and the output end of the blanking part penetrates through the partition plate part to the outside of the box body part. The stirring devices which are symmetrically arranged are arranged in the inner cavity, and the stirring ends are oppositely arranged, so that the upper liquid and the lower liquid can be fully stirred in the stirring process, and the stirring effect is enhanced; through addding the pumping device to through pumping to in the inner chamber, further strengthened stirring effect, adopt the structure of piston pumping simultaneously, reach adjustable effect.

Description

Slurry stirring device for geological drilling

Technical Field

The utility model relates to the technical field of geological drilling tools, in particular to a slurry stirring device for geological drilling.

Background

Two slurries, namely drilling fluid and cement slurry, are commonly used in geological drilling. Drilling fluid is generally formed by adding additives with the functions of lubrication, wall protection, plugging, filtration reduction and the like into water and stirring. The stirring device is an indispensable instrument for preparing drilling fluid. Considering the limit of geological drilling sites, the requirement of drilling fluid and the requirement of green investigation, the volume and the quality of the stirring device are not suitable to be too large, and the operation, the use and the relocation are safe and convenient.

In the prior art, a motor is usually fixed on a steel barrel-shaped container to be used as a stirring device in a geological drilling site, and the structure is simple and practical, but the device is heavy and is not convenient to carry; the addition of the additive is not easy to control, so that the material waste and unstable drilling fluid performance are easily caused; secondly, because the geological drilling site environment is generally very abominable, mud, water, greasy dirt etc. are more, these adverse factors probably lead to the motor to be easily damaged, have electric leakage risk etc. moreover traditional agitating unit stirring effect is poor, and the operation is complicated, can not satisfy people and be the user demand.

Disclosure of utility model

In view of the above, the utility model provides a slurry stirring device for geological drilling, which is simple to operate and good in stirring effect.

In order to achieve the above object, the present utility model provides the following technical solutions, including:

The box body part is internally provided with an installation cavity, and the top of the installation cavity is provided with an opening;

The partition plate component is arranged in the mounting cavity, is fixedly connected with the box body component and divides the mounting cavity into an inner cavity and an outer cavity;

the stirring parts are symmetrically arranged in the inner cavity and are in sliding connection with the partition plate parts;

the first driving component is arranged in the outer cavity, and the output end of the first driving component penetrates through the partition board component to the inner cavity and is connected with the stirring component;

The feeding component is arranged at the opening of the box body component, is fixedly connected with the box body component, and the output end of the feeding component penetrates through the box body component to the inner cavity;

The discharging part is arranged at the bottom of the inner cavity, is positioned below the stirring part, and the output end of the discharging part penetrates through the partition plate part to the outside of the box body part;

The material is injected into the inner cavity through the feeding part, the first driving part drives the stirring part to rotate in the inner cavity, and the stirred material is discharged through the discharging part.

Preferably, in the above-mentioned slurry stirring device for geological drilling, the stirring member has a combined structure, and includes:

The support component is of a circular ring structure, stirring rollers arranged in a circular array are arranged at the top of the support component, and a gear component is arranged at the bottom of the support component;

The gear component is in meshed connection with the output end of the first driving component;

The first connecting component is arranged on the outer edge side wall of the supporting component, is fixedly connected with the supporting component, and is in sliding connection with the partition board component.

In the above-described slurry stirring device for geological drilling, preferably, the stirring rollers of the two stirring members are set to be opposed to each other.

Preferably, in the above-mentioned slurry stirring device for geological drilling, the feeding member has a combined structure, and includes:

A housing member having a cavity therein;

the pressurizing component is arranged in the cavity, and the bottom of the pressurizing component is provided with a plurality of spraying ends;

The spraying end penetrates through the opening of the box body part to the inner cavity;

The pressurizing part is provided with a feeding end and a symmetrically arranged dosing end.

Preferably, in the above-mentioned slurry stirring device for geological drilling, the discharging component has a combined structure, and includes:

the bottom plate component is arranged in the inner cavity, is fixedly connected with the partition board component and is provided with a discharge hole;

The discharge hole is of a conical structure;

the control valve component is arranged at the discharge hole;

and one end of the discharging pipe is connected with the discharging hole of the bottom plate part, and the other end of the discharging pipe penetrates through the partition plate part to the outside of the box part.

Preferably, the above-mentioned slurry stirring device for geological drilling further comprises: the pumping component is arranged in the outer cavity, the output end of the pumping component penetrates through the partition board component to the inner cavity, and the output end of the pumping component is positioned between the two stirring components.

Preferably, in the above-mentioned slurry stirring device for geological drilling, the pumping component has a combined structure, and includes:

the cavity part is arranged in the outer cavity, a movable cavity is arranged in the cavity part, and the movable cavity is fixedly connected with the box part;

The piston cavity component is arranged on the cavity component, a piston cavity is arranged in the piston cavity component, the piston cavity is communicated with the cavity component, the air outlet end of the piston cavity penetrates through the partition board component to the inner cavity, and a plurality of symmetrically arranged air inlet ends are further arranged on the piston cavity component;

the air inlet end is provided with a one-way valve component;

The second driving component is arranged on the cavity component, the rotating end of the second driving component penetrates through the cavity component to the movable cavity, and the rotating end of the second driving component is provided with a first rotating component;

The third driving component is arranged on the cavity component, the rotating end of the third driving component penetrates through the cavity component to the movable cavity, and a second rotating component is arranged on the rotating end of the third driving component;

the first limiting component is arranged in the movable cavity, one end of the first limiting component is hinged with the cavity component, and a sliding component is arranged on the first limiting component;

the sliding part is hinged with the second rotating part;

The second limiting component is arranged in the movable cavity, one end of the second limiting component is hinged with the first rotating component, and the other end of the second limiting component is provided with a first connecting end and a second connecting end;

One end of the third limiting component is hinged with the first connecting end, and the other end of the third limiting component is hinged with the sliding component;

the piston component is arranged in the piston cavity and is in sliding connection with the side wall of the piston cavity;

And one end of the fourth limiting component is hinged with the second connecting end, and the other end of the fourth limiting component is hinged with the piston component.

Compared with the prior art, the utility model discloses a slurry stirring device for geological drilling, and the stirring device has the characteristics that the stirring devices are symmetrically arranged in the inner cavity, and the stirring ends are oppositely arranged, so that the upper liquid and the lower liquid can be fully stirred in the stirring process, and the stirring effect is enhanced; through addding pumping device to through pumping in to the inner chamber, further strengthened stirring effect, adopt the structure of piston pumping simultaneously, reach adjustable effect, make whole use more convenient, the stirring effect is better moreover.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view showing the structure of the stirring member of the present utility model in different states.

FIG. 3 is a schematic view showing the structure of the stirring member of the present utility model in different states.

Fig. 4 is a schematic view of the overall internal structure of the present utility model with pumping means.

FIG. 5 is a schematic view showing the internal structure of the pumping unit of the present utility model.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The present utility model will be described in further detail with reference to the accompanying drawings for a better understanding of the objects, structures and functions of the present utility model.

Referring to fig. 1-5, a slurry stirring device for geological drilling is disclosed.

The utility model comprises the following steps:

the box body part 1, wherein a mounting cavity 101 is formed in the box body part 1, and an opening is formed in the top of the mounting cavity 101; the box part 1 is a casing of the stirring device, and can be rectangular, circular, special-shaped, etc., and the specific shape and size are selected according to actual requirements, which is not limited herein.

The partition board component 2 is of a plate-shaped structure, the partition board component 2 is arranged in the installation cavity 101 and is fixedly connected with the box body component 1, the installation cavity 101 is divided into an inner cavity 1001 and an outer cavity 1002, and the partition board component 2 and the box body component 1 keep a constant position through bolts, riveting, welding and the like;

The first driving component 4 is a stepping motor, the first driving component 4 is arranged in the outer cavity 1002, the output end of the first driving component penetrates through the partition board component 2 to the inner cavity 1001 and is connected with the stirring component 3, and a bevel gear is arranged on the output end of the first driving component 4; it should be noted that the steering directions of the two first driving members 4 may be the same or opposite, and the rotational speeds of the two first driving members 4 may be different or the same, which is specifically selected according to actual requirements.

The stirring parts 3 are symmetrically arranged in the inner cavity 1001, and are in sliding connection with the partition plate part 2;

the stirring member 3 has a combined structure and includes:

The supporting component 301 is in a ring-shaped structure, the top of the supporting component 301 is provided with stirring rollers 302 which are arranged in a ring-shaped array, the bottom of the supporting component 301 is provided with a gear component 303, namely, the bottom of the supporting component 301 is provided with a tooth structure;

The gear part 303 is meshed with a bevel gear on the output end of the first driving part 4, and drives the supporting part 301 to rotate through the first driving part 4, so as to drive the stirring roller 302 to rotate; the stirring rollers 302 of the two stirring members 3 are set relatively, so that the materials at the bottom and the top can be synchronously stirred.

The first connecting member 304 is an annular protruding structure, the first connecting member 304 is disposed on the outer edge side wall of the supporting member 301, is fixedly connected with the supporting member 301, is slidably connected with the partition member 2, and enables the supporting member 301 to be disposed on the partition member 2 and rotate on the partition member 2 through the first connecting member 304.

The feeding component 5 is arranged at the opening of the box component 1, is fixedly connected with the box component 1, and the output end of the feeding component 5 penetrates through the box component 1 to the inner cavity 1001;

it should be noted that, the feeding member 5 has a combined structure, including:

A housing member 501, said housing member 501 having a cavity 5011 therein;

The pressurizing component 502 is arranged in the cavity 5011, and the bottom of the pressurizing component 502 is provided with a plurality of spraying ends 505; the spraying end 505 penetrates through the opening of the box component 1 to the inner cavity 1001; the pressurizing component 502 is provided with a feeding end 503 and a symmetrically arranged dosing end 504.

I.e. the external material enters the pressurizing member 502 through the feeding end 503, and the medicine is injected into the pressurizing member 502 through the medicine adding end 504, the first mixing is performed in the pressurizing member 502, and after the pressurizing member 502 is pressurized, the medicine is injected into the inner cavity 1001 through the spraying end 505, so as to complete the second mixing.

The structure for pressurizing the liquid is already known in the related art, and thus will not be described in detail.

The blanking part 6 is arranged at the bottom of the inner cavity 1001, is positioned below the stirring part 3, and the output end of the blanking part 6 penetrates through the partition plate part 2 to the outside of the box body part 1;

the unloading part 6 is the combination formula structure, includes:

The bottom plate component 601, the bottom plate component 601 is arranged in the inner cavity 1001, is fixedly connected with the baffle component 2, and is provided with a discharge hole 602;

The discharge hole 602 has a conical structure;

The control valve component 603 is of a solenoid valve structure, and the control valve component 603 is arranged at the discharge port 602;

And a discharging pipe part 604, one end of which is connected with the discharging hole 602 of the bottom plate part 601, and the other end of which penetrates through the partition plate part 2 to the outside of the box part 1.

Through the technical scheme, the technical effects generated in the embodiment of the application are as follows:

The material gets into the pressurization part 502 through feeding end 503, simultaneously pour into the medicine into the pressurization part 502 through adding medicine end 504, make material and medicine carry out the first mixing in pressurization part 502, after mixing, spray end 505 through pressurization part 502 spouts into the inner chamber 1001, at this moment, first drive part 4 starts, drive gear part 303 rotates, simultaneously support part 301 synchronous rotation, stirring roller 302 part rotates then, stir the material that is in the inner chamber 1001, after stirring evenly, control valve part 603 opens, the material gets into discharging pipe part 604 through control valve part 603, then discharge, adopt dual mixing and adopt the structure of symmetry stirring, strengthen holistic stirring effect, improve the mixing speed of material, effectively make the material mix more evenly.

In order to further optimize the technical scheme, the method further comprises the following steps: and a pumping part 7, wherein the pumping part 7 is arranged in the outer cavity 1002, the output end of the pumping part 7 penetrates through the partition plate part 2 to the inner cavity 1001, and the output end of the pumping part 7 is positioned between the two stirring parts 3.

The pumping unit 7 has a combined structure, and includes:

the cavity part 701, wherein the cavity part 701 is arranged in the outer cavity 1002, a movable cavity 7001 is arranged in the cavity part, and the movable cavity 7001 is fixedly connected with the box part 1;

The piston cavity component 702 is arranged on the cavity component 701, a piston cavity 7021 is arranged in the piston cavity component 702, the piston cavity 7021 is communicated with the cavity component 701, the air outlet end of the piston cavity component passes through the partition board component 2 to the inner cavity 1001, and a plurality of symmetrically arranged air inlet ends are also arranged on the piston cavity component 702;

the air inlet end is provided with a one-way valve component 7022, and the air outlet end of the piston cavity component 702 is also provided with the one-way valve component 7022;

the second driving component 703 is a stepper motor, the second driving component 703 is disposed on the cavity component 701, the rotating end of the second driving component 703 penetrates through the cavity component 701 into the movable cavity 7001, and a first rotating component 7031 is disposed on the rotating end of the second driving component 7031, that is, the second driving component 703 drives the first rotating component 7031 to rotate in the movable cavity 7001;

the third driving component 704 is a stepper motor, the third driving component 704 is disposed on the cavity component 701, the rotating end of the third driving component 704 penetrates through the cavity component 701 to the movable cavity 7001, and a second rotating component 7041 is disposed on the rotating end of the third driving component 704, that is, the third driving component 704 drives the second rotating component 7041 to rotate in the movable cavity 7001;

The first limiting part 705 is in a rod-shaped structure, the first limiting part 705 is arranged in the movable cavity 7001, one end of the first limiting part 705 is hinged with the cavity part 701, and a sliding part 7051 is arranged on the first limiting part; the sliding member 7051 is hinged to the second rotating member 7041; the sliding member 7051 is in a block structure, and is slidably connected with the first limiting member 705, that is, the third driving member 704 drives the second rotating member 7041 to rotate, so that the sliding member 7051 slides on the first limiting member 705, and meanwhile, the angular position of the first limiting member 705 is changed, so that the first limiting member 705 is displaced.

The second limiting component 706 is in a plate-shaped structure, the second limiting component 706 is arranged in the movable cavity 7001, one end of the second limiting component 706 is hinged with the first rotating component 7031, and the other end of the second limiting component 706 is provided with a first connecting end and a second connecting end;

The third limiting member 707 has a rod-shaped structure, and one end of the third limiting member 707 is hinged to the first connecting end, and the other end of the third limiting member 707 is hinged to the sliding member 7051;

The piston component 708 is arranged in the piston cavity 7021, and is in sliding connection with the side wall of the piston cavity 7021;

The fourth limiting member 709 has a rod-shaped structure, one end of the fourth limiting member 709 is hinged to the second connecting end, and the other end of the fourth limiting member 709 is hinged to the piston member 708.

That is, the second driving member 703 drives the first rotating member 7031 to rotate, and synchronously drives the second limiting member 706 to rotate, so that the third limiting member 707 swings, and thus the fourth limiting member 709 longitudinally displaces, and then drives the piston member 708 to reciprocate in the piston chamber 7021, thereby pumping air into the piston chamber 7021 and injecting air into the inner chamber 1001.

Through the technical scheme, the technical effects generated in the embodiment of the application are as follows:

The second driving part 703 drives the first rotating part 7031 to rotate, and then drives the second limiting part 706 to swing, so that the third limiting part 707 swings, and then the fourth limiting part 709 drives the piston part 708 to longitudinally displace, so that external gas enters the piston cavity 7021, and the gas enters the inner cavity 1001 through the piston part 708; and the third driving part 704 drives the second rotating part 7041 to swing, so that the sliding part 7051 slides on the first limiting part 705, and then the moving amounts of the third limiting part 707 and the fourth limiting part 709 are changed, so that the technical effect of adjusting the air inflow is achieved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A slurry stirring device for geological drilling, comprising:

The box body part is internally provided with an installation cavity, and the top of the installation cavity is provided with an opening;

The partition plate component is arranged in the mounting cavity, is fixedly connected with the box body component and divides the mounting cavity into an inner cavity and an outer cavity;

the stirring parts are symmetrically arranged in the inner cavity and are in sliding connection with the partition plate parts;

the first driving component is arranged in the outer cavity, and the output end of the first driving component penetrates through the partition board component to the inner cavity and is connected with the stirring component;

The feeding component is arranged at the opening of the box body component, is fixedly connected with the box body component, and the output end of the feeding component penetrates through the box body component to the inner cavity;

The discharging part is arranged at the bottom of the inner cavity, is positioned below the stirring part, and the output end of the discharging part penetrates through the partition plate part to the outside of the box body part;

The material is injected into the inner cavity through the feeding part, the first driving part drives the stirring part to rotate in the inner cavity, and the stirred material is discharged through the discharging part.

2. A geological drilling slurry stirring device according to claim 1, wherein the stirring member has a combined structure, comprising:

The support component is of a circular ring structure, stirring rollers arranged in a circular array are arranged at the top of the support component, and a gear component is arranged at the bottom of the support component;

The gear component is in meshed connection with the output end of the first driving component;

The first connecting component is arranged on the outer edge side wall of the supporting component, is fixedly connected with the supporting component, and is in sliding connection with the partition board component.

3. A geological drilling slurry stirring device according to claim 2, wherein the stirring rollers of the two stirring members are set relatively.

4. A geological drilling slurry stirring device as claimed in claim 3, wherein said feeding member is of a modular construction comprising:

A housing member having a cavity therein;

the pressurizing component is arranged in the cavity, and the bottom of the pressurizing component is provided with a plurality of spraying ends;

The spraying end penetrates through the opening of the box body part to the inner cavity;

The pressurizing part is provided with a feeding end and a symmetrically arranged dosing end.

5. The apparatus for stirring a geological drilling slurry according to claim 4, wherein said blanking member has a combined structure comprising:

The bottom plate component is arranged in the inner cavity, is fixedly connected with the partition board component and is provided with a discharge hole; the discharge hole is of a conical structure;

the control valve component is arranged at the discharge hole;

and one end of the discharging pipe is connected with the discharging hole of the bottom plate part, and the other end of the discharging pipe penetrates through the partition plate part to the outside of the box part.

6. The apparatus for stirring a geological drilling slurry according to claim 5, further comprising: the pumping component is arranged in the outer cavity, the output end of the pumping component penetrates through the partition board component to the inner cavity, and the output end of the pumping component is positioned between the two stirring components.

7. The apparatus of claim 6, wherein the pumping means is of a modular construction comprising:

The cavity part is arranged in the outer cavity, a movable cavity is arranged in the cavity part, and the movable cavity is fixedly connected with the box part; the piston cavity component is arranged on the cavity component, a piston cavity is arranged in the piston cavity component, the piston cavity is communicated with the cavity component, the air outlet end of the piston cavity penetrates through the partition board component to the inner cavity, and a plurality of symmetrically arranged air inlet ends are further arranged on the piston cavity component;

the air inlet end is provided with a one-way valve component;

The second driving component is arranged on the cavity component, the rotating end of the second driving component penetrates through the cavity component to the movable cavity, and the rotating end of the second driving component is provided with a first rotating component;

The third driving component is arranged on the cavity component, the rotating end of the third driving component penetrates through the cavity component to the movable cavity, and a second rotating component is arranged on the rotating end of the third driving component;

the first limiting component is arranged in the movable cavity, one end of the first limiting component is hinged with the cavity component, and a sliding component is arranged on the first limiting component;

the sliding part is hinged with the second rotating part;

The second limiting component is arranged in the movable cavity, one end of the second limiting component is hinged with the first rotating component, and the other end of the second limiting component is provided with a first connecting end and a second connecting end;

One end of the third limiting component is hinged with the first connecting end, and the other end of the third limiting component is hinged with the sliding component; the piston component is arranged in the piston cavity and is in sliding connection with the side wall of the piston cavity;

And one end of the fourth limiting component is hinged with the second connecting end, and the other end of the fourth limiting component is hinged with the piston component.