CN216572675U - Novel mixing device for underground on-site mixed equipment - Google Patents

Abstract

The utility model discloses a novel mixing device of underground on-site mixing equipment, which comprises a supporting base, wherein the supporting base is used for supporting the mixing device; the supporting structure is arranged on the upper surface of the supporting base and is used for supporting a bearing structure arranged on the supporting structure; the bearing structure is arranged on the supporting structure and is used for bearing the mixed raw materials; the stirring structure is arranged on the bearing structure and is used for stirring the raw materials in the bearing structure; mixed structure, mixed structure settles on bearing structure, just mixed structure is used for mixing the raw materials in the bearing structure, the utility model relates to a scene loads in mixture equipment field in the pit, protects the effect better, has prevented that equipment from damaging because of accident, and the structure is simple relatively, and is very convenient.

Description

Novel mixing device for underground on-site mixed equipment

Technical Field

The utility model relates to a scene loads in mixture equipment field in the pit specifically is a novel scene loads in mixture equipment mixing in pit device.

Background

The mixing of explosives in blasting sites has been in history for decades, and the ways of manual mixing and mixing, concrete mixer mixing and the like are adopted, and the field mixing and loading vehicle has been popularized and used for mixing and loading explosive in recent years.

The present on-the-spot equipment that loads in mixture in pit still needs the manual work to prepare, very inconvenient, and traditional preparation equipment protection effect is also not good moreover, and on-the-spot in pit, not in place very easily produces danger to equipment protection, consequently in order to solve this problem, it is very necessary to design a novel on-the-spot equipment mixing arrangement that loads in mixture in pit.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a novel equipment mixing device is loaded in mixture to scene in pit has solved present equipment of loading in mixture in scene in pit still needs the manual work to prepare, very inconvenient, and traditional preparation equipment protection effect is also not good moreover, and on the scene in pit, not in place very easy dangerous problem of production to the equipment protection.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a novel downhole on-site mixing device, comprising:

a support base for supporting a mixing device;

the supporting structure is arranged on the upper surface of the supporting base and is used for supporting a bearing structure arranged on the supporting structure;

the bearing structure is arranged on the supporting structure and is used for bearing the mixed raw materials;

the stirring structure is arranged on the bearing structure and is used for stirring the raw materials in the bearing structure;

a mixing structure disposed on the support structure and configured to mix the feedstock within the load bearing structure;

the mixed loading structure is arranged on the supporting structure and is used for mixed loading;

a protective structure disposed on the upper surface of the support base, the protective structure for protecting the device.

Preferably, the support structure comprises: the supporting device comprises two pairs of supporting fixed blocks, two pairs of supporting fixed rods and a fixed supporting plate;

the two pairs of supporting fixed blocks are arranged on the upper surface of the supporting base, each supporting fixed rod is arranged on the upper surface of the corresponding supporting fixed block, and the fixed supporting plate is arranged on the upper surfaces of the two pairs of supporting fixed rods.

Preferably, the load bearing structure comprises: the device comprises a first annular fixing plate, two pairs of first inclined supporting rods, an emulsion matrix bearing box, a second annular fixing plate, two pairs of second inclined supporting rods and a sensitizing solution bearing box;

two pairs of the first inclined support rods are arranged on the upper surface of the fixed support plate, the first annular fixing plate is arranged on the upper surfaces of the two pairs of the first inclined support rods, the emulsion matrix bearing box is arranged on the first annular fixing plate, two pairs of the second inclined support rods are arranged on the upper surface of the fixed support plate, the second annular fixing plate is arranged on the upper surfaces of the two pairs of the second inclined support rods, and the sensitizing solution bearing box is arranged on the second annular fixing plate.

Preferably, the stirring structure includes: the stirring device comprises a first fixing frame, a first protective shell, a first rotating motor, a first stirring rod, a second fixing frame, a second protective shell, a second rotating motor and a second stirring rod;

the first fixing frame is arranged at the center of the upper surface of an emulsion matrix bearing box, the first protective shell is arranged on the first fixing frame, the first rotating motor is arranged on the first fixing frame, the rotating end of the first rotating motor extends into the emulsion matrix bearing box, the first stirring rod is arranged at the rotating end of the first rotating motor, the second fixing frame is arranged at the center of the upper surface of a sensitization liquid bearing box, the second protective shell is arranged on the second fixing frame, the second rotating motor is arranged on the second fixing frame, the rotating end of the second rotating motor extends into the sensitization liquid bearing box, and the second stirring rod is arranged at the rotating end of the second rotating motor.

Preferably, the hybrid structure comprises: the mixer comprises two pairs of first fixing rods, a third fixing frame, a mixer, a first conveying pipe, a first electric control valve, a second conveying pipe and a second electric control valve;

each first fixing rod is arranged on the side surface of the corresponding supporting fixing rod, the third fixing frame is arranged on two pairs of first fixing rods, the mixer is arranged on the third fixing frame, the first conveying pipe is arranged on the lower surface of the emulsion matrix bearing box and is connected with the mixer, the first electric control valve is arranged on the first conveying pipe, the second conveying pipe is arranged on the lower surface of the sensitization liquid bearing box and is connected with the mixer, and the second electric control valve is arranged on the second conveying pipe.

Preferably, the mixing and loading structure includes: the fourth fixing frame, the limiting shell, the discharging pipe and the third electric control valve;

the fourth fixing frame is arranged at the center of the upper surface of the supporting base, the limiting shell is arranged on the fourth fixing frame, the discharging pipe is arranged on the lower surface of the mixer and matched with the limiting shell, and the third electric control valve is arranged on the discharging pipe.

Preferably, the protection structure includes: the damping device comprises two pairs of vertical supporting rods, two pairs of first damping plates, two pairs of damping springs, two pairs of second damping plates, a triangular supporting frame and a pair of protection shells;

two pairs of the vertical supporting rods are arranged at the edge of the upper surface of a supporting base, each first damping plate is arranged on the upper surface of the corresponding vertical supporting rod, each damping spring is arranged on the upper surface of the corresponding first damping plate, each second damping plate is arranged on the upper surface of the corresponding damping spring, the triangular supporting frame is arranged on the upper surfaces of the two pairs of the second damping plates, and one pair of the protection shells is arranged on the upper surface of the triangular supporting frame.

Preferably, the support base is provided with a mains supply interface, and the support base is provided with a controller.

Advantageous effects

The utility model provides a novel on-spot equipment of loading in mixture in pit mixes device. The method has the following beneficial effects: this novel on-spot equipment mixing arrangement that loads in mixture in pit can be again the on-spot better loads in mixture in the pit, and is very convenient, and it is troublesome to have reduced unnecessary, and the protection effect is better, has prevented that equipment from damaging because of the accident, and the structure is simple relatively, and is very convenient.

Drawings

Fig. 1 is the utility model discloses a novel scene loads in mixture equipment mixing arrangement's in pit schematic structure view.

Fig. 2 is the utility model discloses a novel on-spot equipment mixing arrangement's in mixture in pit owner's visual structure chart.

Fig. 3 is a front view of the mixing device of the novel downhole on-site mixed-loading device of the present invention.

Fig. 4 is a side view of the mixing device of the novel downhole on-site mixing device of the invention.

In the figure: 1-a support base; 2-a support structure; 3-a load-bearing structure; 4-stirring structure; 5-a mixed structure; 6-a mixed loading structure; 7-a protective structure; 8-mains supply interface; 9-a controller; 201-supporting fixed blocks; 202-supporting a fixing rod; 203-fixed support plate; 301-a first annular fixed plate; 302-a first angled support bar; 303-emulsion matrix carrying case; 304-a second annular retaining plate; 305-a second inclined support bar; 306-a sensitizing solution carrying box; 401-a first mount; 402-a first protective housing; 403-a first rotating electrical machine; 404-a first stirring rod; 405-a second mount; 406-a second protective housing; 407-a second rotating electrical machine; 408-a second stirring rod; 501-a first fixing rod; 502-third mount; 503-a mixer; 504-a first transfer tube; 505-a first electrically controlled valve; 506-a second transfer tube; 507-a second electrically controlled valve; 601-a fourth mount; 602-a spacing housing; 603-a discharge pipe; 604-a third electrically controlled valve; 701-vertical support bars; 702-a first damping plate; 703-a damping spring; 704-a second damping plate; 705-triangular support; 706-protective housing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a novel downhole on-site mixing device, comprising: the support base 1 is used for supporting the mixing device; the supporting structure 2 is arranged on the upper surface of the supporting base 1, and the supporting structure 2 is used for supporting a bearing structure 3 arranged on the supporting structure 2; the bearing structure 3 is arranged on the supporting structure 2, and the bearing structure 3 is used for bearing the mixed raw materials; the stirring structure 4 is arranged on the bearing structure 3, and the stirring structure 4 is used for stirring the raw materials in the bearing structure 3; a mixing structure 5, the mixing structure 5 being arranged on the support structure 2, and the mixing structure 5 being adapted to mix the raw material in the carrying structure 3; the mixed loading structure 6 is arranged on the supporting structure 2, and the mixed loading structure 6 is used for mixed loading; and the protective structure 7, the protective structure 7 is arranged on the upper surface of the support base 1, and the protective structure 7 is used for protecting the device.

The support structure 2 comprises: two pairs of supporting fixing blocks 201, two pairs of supporting fixing rods 202 and fixing supporting plates 203; two pairs of supporting fixing blocks 201 are disposed on the upper surface of the supporting base 1, each supporting fixing rod 202 is disposed on the upper surface of the corresponding supporting fixing block 201, and the fixing supporting plate 203 is disposed on the upper surfaces of the two pairs of supporting fixing rods 202.

The load bearing structure 3 comprises: a first annular fixing plate 301, two pairs of first inclined support rods 302, an emulsion matrix carrying box 303, a second annular fixing plate 304, two pairs of second inclined support rods 305 and a sensitizing solution carrying box 306; two pairs of first inclined support rods 302 are disposed on the upper surface of the fixed support plate 203, a first annular fixing plate 301 is disposed on the upper surface of the two pairs of first inclined support rods 302, an emulsion base holding tank 303 is disposed on the first annular fixing plate 301, two pairs of second inclined support rods 305 are disposed on the upper surface of the fixed support plate 203, a second annular fixing plate 304 is disposed on the upper surface of the two pairs of second inclined support rods 305, and a sensitizing solution holding tank 306 is disposed on the second annular fixing plate 304.

The stirring structure 4 includes: a first fixed frame 401, a first protective shell 402, a first rotating motor 403, a first stirring rod 404, a second fixed frame 405, a second protective shell 406, a second rotating motor 407 and a second stirring rod 408; the first fixing frame 401 is arranged at the center of the upper surface of the emulsion matrix bearing box 303, the first protective shell 402 is arranged on the first fixing frame 401, the first rotating motor 403 is arranged on the first fixing frame 401, the rotating end of the first rotating motor 403 extends into the emulsion matrix bearing box 303, the first stirring rod 404 is arranged on the rotating end of the first rotating motor 403, the second fixing frame 405 is arranged at the center of the upper surface of the sensitizing solution bearing box 306, the second protective shell 406 is arranged on the second fixing frame 405, the second rotating motor 407 is arranged on the second fixing frame 405, the rotating end of the second rotating motor 407 extends into the sensitizing solution bearing box 306, and the second stirring rod 408 is arranged on the rotating end of the second rotating motor 407.

The hybrid structure 5 includes: two pairs of first fixing rods 501, a third fixing frame 502, a mixer 503, a first conveying pipe 504, a first electric control valve 505, a second conveying pipe 506 and a second electric control valve 507; each first fixing bar 501 is disposed on the side surface of the corresponding supporting fixing bar 202, the third fixing frame 502 is disposed on the two pairs of first fixing bars 501, the mixer 503 is disposed on the third fixing frame 502, the first delivery pipe 504 is disposed on the lower surface of the emulsion base carrying case 303, and the first delivery pipe 504 is connected to the mixer 503, the first electrically controlled valve 505 is disposed on the first delivery pipe 504, the second delivery pipe 506 is disposed on the lower surface of the sensitizing solution carrying case 306, and the second delivery pipe 506 is connected to the mixer 503, and the second electrically controlled valve 507 is disposed on the second delivery pipe 506.

The mixing structure 6 includes: a fourth fixing frame 601, a limiting shell 602, a discharge pipe 603 and a third electric control valve 604; the fourth fixing frame 601 is arranged at the center of the upper surface of the supporting base 1, the limiting shell 602 is arranged on the fourth fixing frame 601, the discharging pipe 603 is arranged on the lower surface of the mixer 503, the discharging pipe 603 is matched with the limiting shell 602, and the third electrically controlled valve 604 is arranged on the discharging pipe 603.

The protective structure 7 comprises: two pairs of vertical support rods 701, two pairs of first damping plates 702, two pairs of damping springs 703, two pairs of second damping plates 704, a triangular support frame 705 and a pair of protective shells 706; two pairs of vertical support rods 701 are disposed at the edge of the upper surface of the support base 1, each first damping plate 702 is disposed on the upper surface of the corresponding vertical support rod 701, each damping spring 703 is disposed on the upper surface of the corresponding first damping plate 702, each second damping plate 704 is disposed on the upper surface of the corresponding damping spring 703, the triangular support frame 705 is disposed on the upper surfaces of the two pairs of second damping plates 704, and a pair of protection cases 706 is disposed on the upper surface of the triangular support frame 705.

The support base 1 is provided with a commercial power interface 8, and the support base 1 is provided with a controller 9.

The embodiment is as follows: the support base 1 is used for supporting the mixing device, the support structure 2 on the upper surface of the support base 1 is used for supporting the bearing structure 3 arranged on the support structure 2, and the bearing structure 3 on the support structure 2 is used for bearing the mixed raw materials; the stirring structure 4 on the bearing structure 3 is used for stirring the raw materials in the bearing structure 3, the mixing structure 5 on the supporting structure 2 is used for mixing the raw materials in the bearing structure 3, the mixing structure 6 on the supporting structure 2 is used for mixing, the protection structure 7 on the upper surface of the supporting base 1 is used for protecting the device, firstly, the device is moved to a proper position, the device is connected with a power supply through a commercial power interface 8 on the supporting base 1, a controller 9 on the supporting base 1 is opened, then the emulsified base is poured into the emulsified base bearing box 303, the sensitized liquid is poured into the sensitized liquid bearing box 306, a first rotating motor 403 on a first fixing frame 401 is opened through the controller 9 on the supporting base 1, the first rotating motor 403 on the first fixing frame 401 drives a first stirring rod 404 to stir the emulsified base in the emulsified base bearing box 303, a second rotating motor 407 on a second fixing frame 405 is opened through the controller 9 on the supporting base 1, a second rotating motor 407 on the second fixed frame 405 drives a second stirring rod 408 to stir the sensitizing solution in the sensitizing solution carrying box 306, a first protective shell 402 on the first fixed frame 401 can protect the first rotating motor 403, a second protective shell 406 on the second fixed frame 405 can protect the second rotating motor 407, when mixing is required, a first electric control valve 505 on a first conveying pipe 504 and a second electric control valve 507 on a second conveying pipe 506 are opened, the emulsified base and the sensitizing solution are conveyed into a mixer 503 on the third fixed frame 502 to be mixed through the first conveying pipe 504 on the emulsified base carrying box 303 and the second conveying pipe 506 on the sensitizing solution carrying box 306, and then are discharged, a first damping plate 702, a damping spring 703 and a second damping plate on the vertical supporting rod 701 are damped, a protective shell 706 on the triangular supporting frame 705 is protected, is very convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the same.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a novel on-spot equipment mixture in pit device which characterized in that includes:

a support base (1), said support base (1) being for supporting a mixing device;

the supporting structure (2) is arranged on the upper surface of the supporting base (1), and the supporting structure (2) is used for supporting the bearing structure (3) arranged on the supporting structure (2);

the bearing structure (3) is arranged on the supporting structure (2), and the bearing structure (3) is used for bearing the mixed raw materials;

the stirring structure (4) is arranged on the bearing structure (3), and the stirring structure (4) is used for stirring the raw materials in the bearing structure (3);

a mixing structure (5), the mixing structure (5) being disposed on the support structure (2), and the mixing structure (5) being for mixing the feedstock within the carrying structure (3);

a mixing structure (6), wherein the mixing structure (6) is arranged on the supporting structure (2), and the mixing structure (6) is used for mixing;

a protective structure (7), the protective structure (7) being disposed on an upper surface of the support base (1), and the protective structure (7) being for protecting the device.

2. A novel downhole on-site mixing apparatus according to claim 1, wherein the support structure (2) comprises: two pairs of supporting fixed blocks (201), two pairs of supporting fixed rods (202) and a fixed supporting plate (203);

two pairs of the supporting fixing blocks (201) are arranged on the upper surface of the supporting base (1), each supporting fixing rod (202) is arranged on the upper surface of the corresponding supporting fixing block (201), and the fixing supporting plates (203) are arranged on the upper surfaces of the two pairs of supporting fixing rods (202).

3. A novel mixing device of a downhole on-site mixing apparatus according to claim 2, wherein the carrying structure (3) comprises: a first annular fixing plate (301), two pairs of first inclined supporting rods (302), an emulsion matrix bearing box (303), a second annular fixing plate (304), two pairs of second inclined supporting rods (305) and a sensitizing solution bearing box (306);

two pairs of the first inclined support rods (302) are disposed on the upper surface of the fixed support plate (203), the first annular fixing plate (301) is disposed on the upper surface of the two pairs of the first inclined support rods (302), the emulsion base carrier box (303) is disposed on the first annular fixing plate (301), two pairs of the second inclined support rods (305) are disposed on the upper surface of the fixed support plate (203), the second annular fixing plate (304) is disposed on the upper surface of the two pairs of the second inclined support rods (305), and the sensitizing solution carrier box (306) is disposed on the second annular fixing plate (304).

4. A novel mixing device of a downhole on-site mixing apparatus according to claim 3, wherein the stirring structure (4) comprises: the stirring device comprises a first fixing frame (401), a first protective shell (402), a first rotating motor (403), a first stirring rod (404), a second fixing frame (405), a second protective shell (406), a second rotating motor (407) and a second stirring rod (408);

the first fixing frame (401) is arranged at the center of the upper surface of the emulsion matrix bearing box (303), the first shield case (402) is mounted on a first mount (401), the first rotating electrical machine (403) is mounted on the first mount (401), and the rotating end of the first rotating motor (403) extends into the emulsion matrix bearing box (303), the first stirring rod (404) is arranged on the rotating end of the first rotating motor (403), the second fixing frame (405) is arranged at the center of the upper surface of the sensitizing solution bearing box (306), the second shield case (406) is mounted on a second mount (405), the second rotating electric machine (407) is mounted on the second mount (405), and the rotating end of the second rotating motor (407) extends into the sensitizing solution bearing box (306), the second stirring rod (408) is disposed on a rotating end of a second rotating motor (407).

5. A novel downhole on-site mixing apparatus mixing device according to claim 4, wherein the mixing structure (5) comprises: two pairs of first fixing rods (501), a third fixing frame (502), a mixer (503), a first conveying pipe (504), a first electric control valve (505), a second conveying pipe (506) and a second electric control valve (507);

each of the first fixing bars (501) is disposed on a side surface of the corresponding supporting fixing bar (202), the third fixing frames (502) are disposed on two pairs of the first fixing bars (501), the mixer (503) is disposed on the third fixing frames (502), the first delivery pipe (504) is disposed on a lower surface of the emulsion base carrying tank (303), and the first delivery pipe (504) is connected with the mixer (503), the first electrically controlled valve (505) is disposed on the first delivery pipe (504), the second delivery pipe (506) is disposed on a lower surface of the sensitization liquid carrying tank (306), and the second delivery pipe (506) is connected with the mixer (503), and the second electrically controlled valve (507) is disposed on the second delivery pipe (506).

6. A novel downhole on-site mixing device according to claim 5, wherein the mixing structure (6) comprises: a fourth fixing frame (601), a limiting shell (602), a discharge pipe (603) and a third electric control valve (604);

the fourth fixing frame (601) is arranged at the center of the upper surface of the supporting base (1), the limiting shell (602) is arranged on the fourth fixing frame (601), the discharging pipe (603) is arranged on the lower surface of the mixer (503), the discharging pipe (603) is matched with the limiting shell (602), and the third electric control valve (604) is arranged on the discharging pipe (603).

7. A novel downhole on-site mixing device according to claim 1, wherein the protective structure (7) comprises: the damping device comprises two pairs of vertical supporting rods (701), two pairs of first damping plates (702), two pairs of damping springs (703), two pairs of second damping plates (704), a triangular supporting frame (705) and a pair of protective shells (706);

two pairs of the vertical support rods (701) are arranged at the edge of the upper surface of the support base (1), each first damping plate (702) is arranged on the upper surface of the corresponding vertical support rod (701), each damping spring (703) is arranged on the upper surface of the corresponding first damping plate (702), each second damping plate (704) is arranged on the upper surface of the corresponding damping spring (703), the triangular support frame (705) is arranged on the upper surfaces of the two pairs of the second damping plates (704), and one pair of the protection shells (706) is arranged on the upper surface of the triangular support frame (705).

8. A novel mixing device for a downhole on-site mixing device according to claim 1, wherein a mains supply interface (8) is arranged on the support base (1), and a controller (9) is arranged on the support base (1).

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