CN216785062U - Coal water separation device used in underground drilling and reaming construction of coal mine - Google Patents

Abstract

The utility model provides a coal moisture separator when being used for colliery to bore in pit, reaming construction, include separator body (1) that is used for carrying out the separation to coal slime and sewage, the setting is and be used for storing case shell (8) of the coal slime after the separation on separator body (1), the setting is and be arranged in the turning device of the coal slime of case shell (8) between case shell (8) and separator body (1), through separator body (1), separation treatment to coal slime and sewage has been realized, through case shell (8) and turning device, the transportation is stored to the coal slime that obtains after separation treatment, no longer need clear up the coal slime after the separation through the manual work, consequently, separation efficiency to coal moisture has been improved.

Description

Coal water separation device used in underground drilling and reaming construction of coal mine

Technical Field

The utility model relates to a coal water separation device, in particular to a coal water separation device used in underground drilling and reaming construction of a coal mine.

Background

During the drilling and reaming construction of the underground coal mine, a solid-liquid mixture with coal slime and sewage can be generated, the solid-liquid mixture needs to be separated, so that the pollution to the underground environment of the coal mine is prevented, therefore, the coal water separation device used during the drilling and reaming construction of the underground coal mine is an important mine component, in the existing coal water separation device used during the drilling and reaming construction of the underground coal mine, a general filter-pressing separation device for the coal mine with the patent number of 201920365787.X is also used, after the coal slime is separated, the separated coal slime needs to be cleaned manually, so that the coal water separation efficiency is influenced,

the technical scheme of the utility model is made based on the technical book of filing of the work provided by the applicant in 11/28/2021 and having the function of solving the actual technical problems in the work process, and the technical problems, technical features and technical effects in the similar patent documents and the prior art are obtained through retrieval.

Disclosure of Invention

The utility model aims to provide a coal water separation device used in underground drilling and reaming construction of a coal mine.

In order to overcome the technical defects, the utility model aims to provide a coal water separation device used for underground drilling and hole expanding construction of a coal mine, so that the coal water separation efficiency is improved.

In order to achieve the purpose, the utility model adopts the technical scheme that: include the separator body that is used for carrying out the separation to coal slime and sewage, set up on the separator body and be used for storing the case shell of the coal slime after the separation, set up between case shell and separator body and be arranged in pouring the turning device of the coal slime in the case shell.

Owing to designed separator body, case shell and turning device, through the separator body, realized carrying out the separation processing to coal slime and sewage, through case shell and turning device, realized storing the transportation to the coal slime that obtains after the separation processing, no longer need clear up the coal slime after the separation through the manual work, consequently improved coal moisture separation efficiency.

The utility model designs that the separation device body, the box shell and the turning device are mutually connected in a way of storing and transporting the coal slime obtained after separation treatment.

The utility model designs that the box shell and the turning device are connected with the separation device body in a way of storing and transporting the coal slime obtained after the separation treatment by turning over the hopper.

The utility model designs that the turnover device comprises a lifting frame and a turnover telescopic cylinder.

The technical effects of the five technical schemes are as follows: the separated coal slime is stored and transported, and the coal moisture separation effect is improved.

The utility model designs that the material lifter also comprises a first accessory device, wherein the first accessory device is arranged between the box shell and the separating device body, and the first accessory device is arranged as the material lifter.

The utility model designs that the device also comprises a second accessory device, the second accessory device is arranged between the turnover device and the separating device body, and the second accessory device comprises a tray, a lifting telescopic cylinder, an upright post and a sliding sleeve.

The technical effects of the two technical schemes are as follows: integrated mounting of other components is achieved.

The utility model designs that a tray is arranged on a separating device body, a lifting telescopic cylinder and an upright post are respectively arranged on the tray, a sliding sleeve is arranged between the lifting telescopic cylinder and the upright post, a lifting frame is arranged on the sliding sleeve, a box shell is arranged on the lifting frame, a turnover telescopic cylinder is arranged between the box shell and the lifting frame, and a material lifting machine is arranged between the box shell and the separating device body.

The technical effects of the technical scheme are as follows: the separation device comprises a separation device body, a tray, a lifting telescopic cylinder, an upright post, a sliding sleeve, a lifting frame, a turnover telescopic cylinder, a box shell and a material lifter, and the separation device solves the technical problem.

The utility model designs that the separation device body is a vehicle-mounted solid-liquid separation device with a filter pressing device, one end head of the separation device body is connected with a tray, and the output port of the separation device body is connected with a material lifting machine.

The technical effects of the technical scheme are as follows: the separation operation setting of the coal slime and the sewage is realized.

The utility model designs that a box shell is a box-shaped shell with a connecting seat at the lower end surface part, the connecting seat positioned on the middle part of the lower end surface of the box shell is connected with a turnover telescopic cylinder through a pin shaft, the connecting seat positioned on the outer edge part of the lower end surface of the box shell is connected with a lifting frame through a pin shaft, and the opening part of the box shell is distributed corresponding to a material lifting machine.

The technical effects of the technical scheme are as follows: the coal slime after separation is stored and set in a centralized manner.

The utility model designs that the lifting frame is arranged into an L-shaped frame body, the vertical part of the lifting frame is connected with the sliding sleeve, the outer end of the transverse part of the lifting frame is provided with a connecting seat, the connecting seat of the lifting frame is connected with a box shell through a pin shaft, and the middle part of the transverse part of the lifting frame is connected with the turnover telescopic cylinder through a pin shaft.

The utility model designs that the overturning telescopic cylinder is arranged into a two-section telescopic cylinder, one end head of the overturning telescopic cylinder is connected with the lifting frame through a pin shaft, the other end head of the lifting telescopic cylinder is connected with a box shell through a pin shaft, and a hydraulic port part of the overturning telescopic cylinder is connected with a hydraulic device of the separating device body.

The technical effects of the two technical schemes are as follows: the coal slime after separation is overturned, unloaded and transported.

The utility model designs that the tray comprises a tray part and a first lug seat part, the middle part of the inner side of the upper end surface of the transverse part of the tray part is connected with the first lug seat part, the vertical part of the tray part is connected with the separating device body, the outer side part of the upper end surface of the transverse part of the tray part is connected with the upright post, the first lug seat part is connected with the lifting telescopic cylinder through a pin shaft, the tray part is an L-shaped frame body, and the first lug seat part is a seat body with double plates.

The utility model designs that the lifting telescopic cylinder is arranged into a two-section telescopic cylinder, the telescopic end of the lifting telescopic cylinder is connected with the tray through a pin shaft, the outer shell of the lifting telescopic cylinder is connected with the sliding sleeve, and the hydraulic port of the lifting telescopic cylinder is connected with the hydraulic device of the separating device body.

The utility model designs that the upright post is a round rod-shaped body with a flange plate at the lower end, the flange plate of the upright post is connected with the tray through bolts and nuts, and the upright post is connected with the sliding sleeve in a penetrating way.

The utility model designs that the sliding sleeve is set to comprise a cylinder part, a second lug seat part and a third lug seat part, the side surface part of the cylinder part is respectively set to be connected with the second lug seat part and the third lug seat part, the second lug seat part is set to be connected with the lifting telescopic cylinder, the third lug seat part is set to be connected with the lifting frame, the cylinder part is set to be connected with the upright post in a sleeved mode, the cylinder part is set to be a circular tubular body, the second lug seat part is set to be a plate-shaped body with arc grooves on the end surface, the second lug seat part is set to be distributed at intervals along the vertical central line of the cylinder part, the arc grooves on one end surface of the second lug seat part are set to be connected with the cylinder part, the arc grooves on the other end surface of the second lug seat part are set to be connected with the lifting telescopic cylinder, and the third lug seat part is set to be a seat-shaped body with double plates.

The technical effects of the four technical schemes are as follows: realized carrying out the lifting to the case shell, realized carrying out the high position upset discharge setting to the coal slime after the separation.

The utility model designs that the material hoister is a plate-type material hoister, a shell of the material hoister is connected with the separating device body, an input port of the material hoister is connected with the separating device body, and an output port of the material hoister is distributed corresponding to the box shell.

The technical effects of the technical scheme are as follows: the transposition charging arrangement of the separated coal slime is realized.

The utility model designs that a separating device body, a lifting frame, a turnover telescopic cylinder and a box shell are arranged to be distributed according to an external storage hopper, the separating device body, the lifting frame, the turnover telescopic cylinder, the box shell, a tray, the lifting telescopic cylinder, a stand column and a sliding sleeve are arranged to be distributed according to a coal slurry lifting mode, the separating device body, the lifting frame, the turnover telescopic cylinder, the box shell and a material lifting machine are arranged to be distributed according to a coal slurry conveying mode, a central line of the separating device body, a central line of the tray, a central line of the lifting frame and a central line of the box shell are arranged on the same straight line, one lifting telescopic cylinder, one stand column and one sliding sleeve are arranged to form a group of lifting parts, and two groups of lifting parts are arranged between the tray and the lifting frame.

In the technical scheme, the separation device body and the box shell are basic components and are also necessary technical characteristics of the utility model, the tray, the lifting telescopic cylinder, the upright post, the sliding sleeve, the lifting frame, the overturning telescopic cylinder and the material lifter are functional components and are characteristics for realizing other technical effects of the utility model, and the design of the technical characteristics of the tray part, the first lug seat part, the barrel part, the second lug seat part and the third lug seat part is the technical characteristics which accord with patent laws and implementation rules thereof.

In the technical scheme, the separation device body, the box shell and the turnover device for storing and transporting the coal slime obtained after separation treatment are important technical characteristics, and have novelty, creativity and practicability in the technical field of coal moisture separation devices used for underground drilling and hole expanding construction of coal mines, and terms in the technical scheme can be explained and understood by using patent documents in the technical field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Figure 1 is a schematic view of the present invention,

the device comprises a separation device body-1, a tray-2, a lifting telescopic cylinder-3, an upright post-4, a sliding sleeve-5, a lifting frame-6, a turnover telescopic cylinder-7, a box shell-8, a material lifting machine-9, a disc part-21, a first lug part-22, a cylinder part-51, a second lug part-52 and a third lug part-53.

Detailed Description

Terms such as "having," "including," and "comprising," as used with respect to the present invention, are to be understood as not specifying the presence or addition of one or more other elements or combinations thereof, in accordance with the examination guidelines.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features mentioned in the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other, and further, unless otherwise specified, the equipments and materials used in the following examples are commercially available, and if the processing conditions are not explicitly specified, please refer to the commercially available product specifications or follow the conventional method in the art.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a first embodiment of the present invention, which is specifically described with reference to the accompanying drawings, and includes a separating device body 1, a tray 2, a telescopic lift cylinder 3, a column 4, a sliding sleeve 5, a lifting frame 6, a telescopic turnover cylinder 7, a box housing 8 and a material elevator 9, wherein the tray 2 is provided on the separating device body 1, the telescopic lift cylinder 3 and the column 4 are respectively provided on the tray 2, the sliding sleeve 5 is provided between the telescopic lift cylinder 3 and the column 4, a lifting frame 6 is provided on the sliding sleeve 5, the box housing 8 is provided on the lifting frame 6, the telescopic turnover cylinder 7 is provided between the box housing 8 and the lifting frame 6, and the material elevator 9 is provided between the box housing 8 and the separating device body 1.

In this embodiment, the separation device body 1 is a vehicle-mounted solid-liquid separation device with a filter pressing device, one end of the separation device body 1 is connected with the tray 2, and the output port of the separation device body 1 is connected with the material elevator 9.

Through separator body 1, formed the support tie point to tray 2 and material lifting machine 9, by separator body 1, realized being connected with tray 2, realized being connected with material lifting machine 9, realized carrying out the preferential type of the filter-pressing separator for coal mine that patent number is 201920365787.X to separator body 1, its technical purpose lies in: the device is used as a component for separating and treating coal slime and sewage.

In the present embodiment, the tray 2 is configured to include the tray portion 21 and the first lug portion 22, and the middle portion of the inner side of the upper end surface of the horizontal portion of the tray portion 21 is configured to be coupled to the first lug portion 22, the vertical portion of the tray portion 21 is configured to be coupled to the separating apparatus body 1, and the outer side portion of the upper end surface of the horizontal portion of the tray portion 21 is configured to be coupled to the pillar 4, the first lug portion 22 is configured to be coupled to the telescopic cylinder 3 by a pin shaft, and the tray portion 21 is configured to be an L-shaped frame, and the first lug portion 22 is configured to be a seat having two plates.

Through tray 2, formed the support tie point to separator body 1, lift telescoping cylinder 3 and stand 4, by dish portion 21, realized being connected with separator body 1, realized being connected with stand 4, by first ear seat portion 22, realized being connected with lift telescoping cylinder 3, its technical aim at: for serving as a support carrier for the telescopic lifting cylinder 3 and the upright 4.

In this embodiment, the telescopic lifting cylinder 3 is provided as a two-stage telescopic cylinder and the telescopic end of the telescopic lifting cylinder 3 is provided to be coupled with the tray 2 by a pin shaft, the outer shell of the telescopic lifting cylinder 3 is provided to be coupled with the sliding sleeve 5 and the hydraulic port of the telescopic lifting cylinder 3 is provided to be connected with the hydraulic device of the separation device body 1.

Through lift telescoping cylinder 3, formed the support tie point to separator body 1, tray 2 and sliding sleeve 5, by lift telescoping cylinder 3, realized being connected with separator body 1, realized being connected with tray 2, realized being connected with sliding sleeve 5, its technical aim at: used as one of the components for driving the lifting frame 6 to move up and down.

In this embodiment, the column 4 is a circular rod with a flange at the lower end and the flange of the column 4 is connected with the tray 2 by bolts and nuts, and the column 4 is connected with the sliding sleeve 5 in a penetrating way.

Through stand 4, formed the support tie point to tray 2 and sliding sleeve 5, by stand 4, realized being connected with tray 2, realized being connected with sliding sleeve 5, its technical aim at: and the second part is used for driving the lifting frame 6 to move up and down.

In the present embodiment, the sliding sleeve 5 is provided to include a cylindrical portion 51, the second ear seat part 52 and the third ear seat part 53 and the side surface part of the tube part 51 are respectively provided to be coupled with the second ear seat part 52 and the third ear seat part 53, the second ear seat part 52 is provided to be coupled with the lifting telescopic cylinder 3 and the third ear seat part 53 is provided to be coupled with the lifting frame 6, the tube part 51 is provided to be coupled with the pillar 4 in a nested manner and the tube part 51 is provided to be a circular tube body, the second ear seat part 52 is provided to be a plate-shaped body having an arc-shaped groove on an end surface thereof and the second ear seat part 52 is provided to be arranged at intervals along a vertical center line of the tube part 51, the arc-shaped groove on one of the end surfaces of the second ear seat part 52 is provided to be coupled with the tube part 51 and the arc-shaped groove on the other one of the end surfaces of the second ear seat part 52 is provided to be coupled with the lifting telescopic cylinder 3, and the third ear seat part 53 is provided to be a seat body having a double plate.

Through stand 4, formed the support tie point to lift telescoping cylinder 3, stand 4 and crane 6, by second ear seat portion 52, realized being connected with lift telescoping cylinder 3, by section of thick bamboo portion 51, realized being connected with stand 4, by third ear seat portion 53, realized being connected with crane 6, its technical aim lies in: and the lifting frame is used as a third part for driving the lifting frame 6 to move up and down.

In this embodiment, the lifting frame 6 is configured as an L-shaped frame body, the vertical part of the lifting frame 6 is configured to be coupled with the sliding sleeve 5, the outer end of the horizontal part of the lifting frame 6 is provided with a connecting seat, the connecting seat of the lifting frame 6 is configured to be coupled with the box shell 8 through a pin shaft, and the middle part of the horizontal part of the lifting frame 6 is configured to be coupled with the turnover telescopic cylinder 7 through a pin shaft.

Through crane 6, formed the support tie point to sliding sleeve 5, upset telescoping cylinder 7 and case shell 8, by crane 6, realized being connected with sliding sleeve 5, realized being connected with upset telescoping cylinder 7, realized being connected with case shell 8, its technical aim at: for serving as a support carrier for the tilt-telescopic cylinder 7 and the housing 8.

In this embodiment, the case 8 is provided as a box-shaped body having a connecting seat at a lower end surface portion thereof and the connecting seat located on a lower end surface middle portion of the case 8 is provided to be coupled with the tilt and expansion cylinder 7 by a pin shaft, the connecting seat located on an outer edge portion of the lower end surface of the case 8 is provided to be coupled with the crane 6 by a pin shaft and an open portion of the case 8 is provided to be distributed corresponding to the material elevator 9.

Through case shell 8, formed the support tie point to crane 6, upset telescoping cylinder 7 and material hoist 9, by case shell 8, realized being connected with crane 6, realized being connected with upset telescoping cylinder 7, realized being connected with material hoist 9, its technical aim at: used as a component for storing the coal slurry.

In this embodiment, the tilt telescopic cylinder 7 is configured as a two-section telescopic cylinder and one end of the tilt telescopic cylinder 7 is configured to be coupled to the lifting frame 6 through a pin, the other end of the lift telescopic cylinder 3 is configured to be coupled to the box housing 8 through a pin, and a hydraulic port of the tilt telescopic cylinder 7 is configured to be connected to the hydraulic device of the separation device body 1.

Through upset telescoping cylinder 7, formed the support tie point to separator body 1, crane 6 and case shell 8, by upset telescoping cylinder 7, realized being connected with separator body 1, realized being connected with crane 6, realized being connected with case shell 8, its technical aim at: used as a part for driving the box shell 8 to do turning motion on the lifting frame 6.

In this embodiment, the material hoist 9 is set as a plate-type material hoist and the housing of the material hoist 9 is set to be coupled with the separating device body 1, the input port of the material hoist 9 is set to be coupled with the separating device body 1 and the output port of the material hoist 9 is set to be distributed corresponding to the case shell 8.

Through material lifting machine 9, formed the support tie point to separator body 1 and case shell 8, by material lifting machine 9, realized being connected with separator body 1, realized being connected with case shell 8, its technical aim at: as a means for feeding the coal slurry produced by the separator body 1 into the casing 8.

In this embodiment, the separating device body 1 and the lifting frame 6, the overturning telescopic cylinder 7 and the box shell 8 are arranged to be distributed according to an external storage hopper mode, the separating device body 1, the lifting frame 6, the overturning telescopic cylinder 7, the box shell 8 and the tray 2, the lifting telescopic cylinder 3, the stand column 4 and the sliding sleeve 5 are arranged to be distributed according to a lifting coal slime mode, the separating device body 1, the lifting frame 6, the overturning telescopic cylinder 7, the box shell 8 and the material lifting machine 9 are arranged to be distributed according to a coal slime conveying mode, the central line of the separating device body 1, the central line of the tray 2, the central line of the lifting frame 6 and the central line of the box shell 8 are arranged on the same straight line, one lifting telescopic cylinder 3, one stand column 4 and one sliding sleeve 5 are arranged to form one group of lifting parts, and two groups of lifting parts are arranged between the tray 2 and the lifting frame 6.

During underground drilling and hole expanding construction of a coal mine, a generated solid-liquid mixture with coal slime and sewage is injected into a filter pressing device of a separation device body 1 through a drain pipe, the filter pressing device of the separation device body 1 is in a working state, the coal slime and the sewage are separated, the separated coal slime is conveyed at an output port of the separation device body 1 through a material lifting machine 9, the separated coal slime is discharged into a box shell 8, when the coal slime in the box shell 8 needs to be transported, a lifting telescopic cylinder 3 is in an extension state, a sliding sleeve 5 is driven to lift on an upright post 4, the box shell 8 is lifted through a lifting frame 6, the box shell 8 is placed above a conveyer belt or a coal slime delivery truck through the movement of the separation device body 1, then a turnover telescopic cylinder 7 is in an extension state, the box shell 8 is turned over the lifting frame 6, the coal slime in the box shell 8 is poured into the conveyer belt or the coal slime delivery truck, after the coal slime in the box shell 8 is transferred, the overturning telescopic cylinder 7 and the lifting telescopic cylinder 3 are respectively in a contraction state, and the box shell 8 and the output port of the material lifting machine 9 are correspondingly distributed.

In the second embodiment of the present invention, the separator body 1, the casing 8 and the turn-over device are connected to each other in such a manner that the coal slurry obtained after the separation treatment is stored and transported.

In this embodiment, the box case 8 and the turning device are connected to the separator body 1 in such a manner that the coal slurry obtained after the separation treatment is stored and transported by the skip silo.

In the embodiment, the turning device is provided to comprise a lifting frame 6 and a turning telescopic cylinder 7.

In this embodiment, a first accessory device is further included and is arranged between the box 8 and the separating device body 1, the first accessory device being arranged as a material lifter 9.

In this embodiment, a second attachment device is further included and is disposed between the turnover device and the separating device body 1, and the second attachment device is configured to include the tray 2, the telescopic lifting cylinder 3, the upright 4, and the sliding sleeve 5.

A second embodiment of the utility model is based on the first embodiment.

The utility model has the following characteristics:

1. owing to designed separator body 1, case shell 8 and turning device, through separator body 1, realized carrying out the separation processing to coal slime and sewage, through case shell 8 and turning device, realized storing the transportation to the coal slime that obtains after the separation processing, no longer need clear up the coal slime after the separation through the manual work, consequently improved coal moisture separation efficiency.

2. Due to the design of the lifting frame 6 and the overturning telescopic cylinder 7, the box shell 8 is overturned and unloaded.

3. Due to the design of the material hoister 9, the box shell 8 is hoisted and charged.

4. Due to the design of the tray 2, the lifting telescopic cylinder 3, the upright post 4 and the sliding sleeve 5, the box shell 8 is lifted and unloaded.

5. Because the structural shape is limited by the numerical range, the numerical range is the technical characteristic of the technical scheme of the utility model, and is not the technical characteristic obtained by formula calculation or limited tests, and tests show that the technical characteristic of the numerical range achieves good technical effect.

6. Due to the design of the technical characteristics of the utility model, tests show that each performance index of the utility model is at least 1.7 times of the existing performance index under the action of the single and mutual combination of the technical characteristics, and the utility model has good market value through evaluation.

Still other technical features associated with the separator body 1, the casing 8 and the turning device for storage and transportation of the coal slurry obtained after separation are one of the embodiments of the present invention, and the technical features of the above-described embodiments may be combined arbitrarily, and in order to meet the requirements of patent laws, patent practice rules and examination guidelines, all possible combinations of the technical features of the above-described embodiments will not be described.

Therefore, in the technical field of coal water separation devices used for underground drilling and reaming construction of coal mines, all technical contents including a separation device body 1 used for separating coal slime and sewage, a box shell 8 arranged on the separation device body 1 and used for storing the separated coal slime, and a turnover device arranged between the box shell 8 and the separation device body 1 and used for pouring the coal slime in the box shell 8 are within the protection scope of the utility model.

Claims (10)

1. A coal water separation device for underground drilling and reaming construction of a coal mine is characterized in that: include separator body (1) that is used for carrying out the separation to coal slime and sewage, set up on separator body (1) and be used for storing case shell (8) of the coal slime after the separation, set up between case shell (8) and separator body (1) and be arranged in pouring the turning device of the coal slime in case shell (8).

2. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 1, which is characterized in that: the separation device body (1), the box shell (8) and the turnover device are connected with each other in a mode of storing and transporting the coal slime obtained after separation treatment.

3. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 2, which is characterized in that: the box shell (8) and the turning device are connected with the separating device body (1) according to a mode of storing and transporting the coal slime obtained after the separation treatment through the skip bin.

4. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 1, which is characterized in that: the turning device is arranged to comprise a lifting frame (6) and a turning telescopic cylinder (7),

or, the device also comprises a first accessory device which is arranged between the box shell (8) and the separating device body (1) and is set as a material lifter (9),

or, still include second annex device and second annex device sets up between turning device and separator body (1), and second annex device sets up to include tray (2), lift telescoping cylinder (3), stand (4) and sliding sleeve (5).

5. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 4, which is characterized in that: the separating device comprises a separating device body (1), a tray (2) is arranged on the separating device body (1), a lifting telescopic cylinder (3) and a stand column (4) are respectively arranged on the tray (2), a sliding sleeve (5) is arranged between the lifting telescopic cylinder (3) and the stand column (4), a lifting frame (6) is arranged on the sliding sleeve (5), a box shell (8) is arranged on the lifting frame (6), a turnover telescopic cylinder (7) is arranged between the box shell (8) and the lifting frame (6), and a material lifting machine (9) is arranged between the box shell (8) and the separating device body (1).

6. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 5, which is characterized in that: the separation device body (1) is a vehicle-mounted solid-liquid separation device with a filter pressing device, one end head of the separation device body (1) is connected with the tray (2), and the output end opening of the separation device body (1) is connected with the material lifting machine (9).

7. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 5, which is characterized in that: the box shell (8) is a box-shaped body with a connecting seat at the lower end face part, the connecting seat positioned on the middle part of the lower end face of the box shell (8) is connected with the turnover telescopic cylinder (7) through a pin shaft, the connecting seat positioned on the outer edge part of the lower end face of the box shell (8) is connected with the lifting frame (6) through a pin shaft, and the opening part of the box shell (8) is distributed corresponding to the material lifting machine (9).

8. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 5, which is characterized in that: the lifting frame (6) is arranged to be an L-shaped frame body, the vertical part of the lifting frame (6) is connected with the sliding sleeve (5), the outer end of the horizontal part of the lifting frame (6) is provided with a connecting seat, the connecting seat of the lifting frame (6) is connected with the box shell (8) through a pin shaft, the middle part of the horizontal part of the lifting frame (6) is connected with the turnover telescopic cylinder (7) through a pin shaft,

or the overturning telescopic cylinder (7) is a two-section telescopic cylinder, one end head of the overturning telescopic cylinder (7) is connected with the lifting frame (6) through a pin shaft, the other end head of the lifting telescopic cylinder (3) is connected with the box shell (8) through a pin shaft, and a hydraulic port part of the overturning telescopic cylinder (7) is connected with a hydraulic device of the separating device body (1).

9. The coal water separation device used for underground drilling and reaming construction of the coal mine according to claim 5, which is characterized in that: the tray (2) is arranged to comprise a tray part (21) and a first lug part (22), the middle part of the inner side of the upper end face of the transverse part of the tray part (21) is connected with the first lug part (22), the vertical part of the tray part (21) is connected with the separating device body (1), the outer side part of the upper end face of the transverse part of the tray part (21) is connected with the upright post (4), the first lug part (22) is connected with the lifting telescopic cylinder (3) through a pin shaft, the tray part (21) is an L-shaped frame body, the first lug part (22) is a seat body with double plates,

or the lifting telescopic cylinder (3) is arranged into a two-section telescopic cylinder, the telescopic end of the lifting telescopic cylinder (3) is connected with the tray (2) through a pin shaft, the outer shell of the lifting telescopic cylinder (3) is connected with the sliding sleeve (5), the hydraulic port of the lifting telescopic cylinder (3) is connected with the hydraulic device of the separating device body (1),

or the upright post (4) is a round rod-shaped body with a flange plate at the lower end, the flange plate of the upright post (4) is connected with the tray (2) through bolts and nuts, the upright post (4) is connected with the sliding sleeve (5) in a penetrating and serial way,

or, the sliding sleeve (5) is set to include a cylinder part (51), a second ear seat part (52) and a third ear seat part (53), the side surface part of the cylinder part (51) is respectively set to be coupled with the second ear seat part (52) and the third ear seat part (53), the second ear seat part (52) is set to be coupled with the lifting telescopic cylinder (3) and the third ear seat part (53) is set to be coupled with the lifting frame (6), the cylinder part (51) is set to be coupled with the upright post (4) in a sleeved mode and the cylinder part (51) is set to be a circular tubular body, the second ear seat part (52) is set to be a plate-shaped body with an arc-shaped groove on the end surface and the second ear seat part (52) is set to be distributed at intervals along the vertical central line of the cylinder part (51), the arc-shaped groove on one end surface of the second ear seat part (52) is set to be coupled with the cylinder part (51) and the arc-shaped groove on the other end surface of the second ear seat part (52) is set to be coupled with the lifting telescopic cylinder (3), the third ear seat part (53) is provided as a seat body having a double plate,

or, material lifting machine (9) set up to plate material lifting machine and the casing of material lifting machine (9) sets up to hookup with separator body (1), and the input oral area of material lifting machine (9) sets up to hookup and the output oral area of material lifting machine (9) sets up to distribute with case shell (8) is corresponding with separator body (1).

10. The coal water separation device for underground coal mine drilling and reaming construction according to any one of claims 1 to 9, which is characterized in that: the separation device comprises a separation device body (1), a lifting frame (6), a turnover telescopic cylinder (7) and a box shell (8), wherein the separation device body (1) and the lifting frame (6) are arranged to be distributed according to an external storage hopper mode, the turnover telescopic cylinder (7), the box shell (8) and a tray (2), the lifting telescopic cylinder (3), a stand column (4) and a sliding sleeve (5) are arranged to be distributed according to a lifting coal slime mode, the separation device body (1), the lifting frame (6), the turnover telescopic cylinder (7), the box shell (8) and a material lifting machine (9) are arranged to be distributed according to a coal slime conveying mode, the central line of the separation device body (1), the central line of the tray (2), the central line of the lifting frame (6) and the central line of the box shell (8) are arranged on the same straight line, one lifting telescopic cylinder (3), one stand column (4) and one sliding sleeve (5) are arranged to form one group of lifting parts, and two groups of lifting parts are arranged on the tray (2) and the lifting frame (6) ) In the meantime.

Images