Triple plunger pump mixed explosive feeding system
By introducing an adjustment module and quick-assembly components into the triple plunger pump mixed explosive feeding system, the problem of ineffective control of uniformity and accuracy in the existing technology has been solved, realizing precise control of the mixed explosive feeding and rapid installation and disassembly.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- HUNAN MECHANICAL & ELECTRICAL POLYTECHNIC
- Filing Date
- 2026-04-30
- Publication Date
- 2026-06-12
AI Technical Summary
The existing equipment cannot effectively control the uniformity of the mixed explosives and the specific amount of mixed explosives delivered by the triple plunger pump.
It adopts adjustment modules and quick-assembly components, including a rotating frame, micro-adjustment rod, sealing block, connecting seat and adjustment knob, etc., to achieve precise control of the uniformity and accuracy of the mixed explosive quantity through rotation and extension adjustment.
It improves the accuracy and uniformity of delivering mixed explosives, simplifies the installation and disassembly process of the device, and enhances stability and efficiency.
Smart Images

Figure CN122192108A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of triple plunger pump technology, specifically a triple plunger pump mixed explosive feeding system. Background Technology
[0002] In existing technologies, when using existing devices, the amount of mixed explosives can be adjusted by controlling the wind force, but it is still not possible to effectively control the uniformity and the specific amount of mixed explosives delivered. Summary of the Invention
[0003] The purpose of this invention is to provide a triple plunger pump mixed explosive feeding system to solve the problems in the background art of not being able to effectively control the uniformity and the specific amount of mixed explosives fed.
[0004] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a triple plunger pump mixed explosive feeding system, including a mixed explosive storage box, a dispensing chamber installed at the bottom of the mixed explosive storage box, and an adjustment module provided inside the dispensing chamber, the adjustment module being used to control the feed rate of the mixed explosive, a U-shaped frame being provided on the front of the dispensing chamber, and a quick assembly component being installed on the upper part of the inner side of the U-shaped frame, the quick assembly component being used for quick assembly and installation; The adjustment module includes a rotating frame, and six sets of adjustment plates are arranged inside the rotating frame. A micro-adjustment rod is arranged inside the adjustment plate, and a rod is arranged at the end of the micro-adjustment rod. Two sets of sealing blocks are arranged outside the rod, and a sealing plate is arranged outside the sealing block. The rapid equipment component includes a connecting seat, and two sets of positioning grooves are provided on the upper part of both sides of the connecting seat. Adjustment knobs are provided inside the front and back of the connecting seat, and a rotating screw is installed on the upper part of the adjustment knob. A threaded sleeve is installed on the upper part of the rotating screw, and a limiting block is provided on the front and back of the threaded sleeve.
[0005] Preferably, the upper part of the mixed explosive storage box is provided with a storage slot, an adjustment motor is installed on the front of the dispensing chamber, a mixing pipe is installed on the front and back of the dispensing chamber, a distributor is installed on the front of the mixing pipe, and an inlet and outlet gas pipe is installed on the back of the mixing pipe.
[0006] Preferably, the adjusting plate has sealing grooves on both sides, and the sealing grooves are located on the outside of the sealing block. A rotating rod is installed on the inside of the adjusting plate, and the rotating rod is located at the output end of the adjusting motor.
[0007] Preferably, a micro pump is installed on the back of the inlet and outlet pipes, and a drive motor is installed on the front of the bottom of the micro pump, with a rotating shaft installed at the outlet of the drive motor.
[0008] Preferably, mounting bases are installed on the upper parts of both sides of the U-shaped frame, and connecting pipes are installed on the upper parts of the mounting bases, with the connecting pipes located on the front of the distributor. A feeding end for mixing explosives is installed at the bottom of the U-shaped frame.
[0009] Preferably, the inner side of the connecting seat is provided with an inner tube, and the inner tube is located at the upper part of the U-shaped frame.
[0010] Preferably, the bottom of the adjustment knob is fitted with a mating bearing, and the mating bearing is located inside the connecting seat.
[0011] Compared with the prior art, the beneficial effects achieved by the present invention are: First, this invention features an adjustment module. A rotating frame is installed inside the material distribution chamber, providing mounting space for the inner adjustment plate structure. This ensures the structure is evenly divided into six groups. An internally embedded micro-adjustment rod provides power for adjustment. By controlling the extension and retraction of the rod at the output end, the outer sealing block slides along the inner side of the sealing groove, thereby controlling the position adjustment of the two sets of sealing plates in the middle. This adjustment reduces the space between the adjustment plates, thus precisely controlling the amount of mixed explosives and improving the accuracy and uniformity of the mixed explosive delivery.
[0012] Secondly, this invention incorporates a rapid assembly component. Existing mixed explosive delivery end structures require bolts to connect with the laser structure, resulting in lengthy installation and disassembly times. By installing a connecting seat on the upper part of the main mixed explosive delivery end, and utilizing the positioning groove structure on the upper part of the connecting seat, an installation position for the outer laser structure can be provided. The external laser structure, with its fitting structure inserted into the positioning groove, can be longitudinally restricted by rotation, preventing it from falling off. Simultaneously, the internal fitting bearing provides the adjustment knob with the ability to rotate. Rotating the adjustment knob drives the rotating screw, which in turn drives the upper threaded sleeve to adjust its height. By rising and inserting it into the bottom of the laser installation structure, lateral restriction is achieved, effectively improving stability and enabling efficient and rapid installation and disassembly. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the main structure of the present invention; Figure 2 This is a schematic diagram of the cross-section of the rotating frame of the present invention; Figure 3 This is a schematic diagram of the micro pump structure of the present invention; Figure 4 This is a schematic diagram of the structure of the mixing explosive end of the present invention; Figure 5 This is a schematic diagram of the connector structure of the present invention.
[0014] The components include: 1. Mixed explosive storage box; 101. Storage tank; 102. Dispensing chamber; 103. Adjusting motor; 104. Mixing pipe; 105. Diverter; 2. Rotating frame; 201. Rotating rod; 202. Sealing groove; 203. Sealing block; 204. Rod; 205. Micro-adjustment rod; 206. Sealing plate; 207. Adjustment plate; 3. Micro pump; 301. Inlet and outlet pipes; 302. Drive motor; 303. Rotating shaft; 4. Mixed explosive feeding end; 401. Connecting pipe; 402. Mounting base; 403. U-shaped frame; 5. Connecting base; 501. Inner tube; 502. Positioning slide; 6. Adjusting knob; 601. Fitting bearing; 602. Rotating screw; 603. Threaded sleeve; 604. Limiting block. Detailed Implementation
[0015] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0016] Please see Figure 1-5 A triple plunger pump mixed explosive feeding system includes a mixed explosive storage box 1, a dispensing chamber 102 installed at the bottom of the mixed explosive storage box 1, and an adjustment module inside the dispensing chamber 102 for controlling the amount of mixed explosive fed in. A U-shaped frame 403 is provided on the front of the dispensing chamber 102, and a quick assembly component is installed on the upper part of the inner side of the U-shaped frame 403 for quick assembly. The adjustment module includes a rotating frame 2, and six sets of adjustment plates 207 are provided on the inner side of the rotating frame 2. A micro-adjustment rod 205 is provided inside the adjustment plate 207, and a rod 204 is provided at the outlet of the micro-adjustment rod 205. Two sets of sealing blocks 203 are provided on the outer side of the rod 204, and a sealing plate 206 is provided on the outer side of the sealing block 203. The quick-assembly component includes a connecting seat 5, and two sets of positioning grooves 502 are provided on the upper part of both sides of the connecting seat 5. An adjustment knob 6 is provided inside the front and back of the connecting seat 5, and a rotating screw 602 is installed on the upper part of the adjustment knob 6. A threaded sleeve 603 is installed on the upper part of the rotating screw 602, and a limit block 604 is provided on the front and back of the threaded sleeve 603.
[0017] Through the above technical solution, a rotating frame 2 is set inside the dispensing chamber 102. The rotating frame 2 can be used to install the inner adjusting plate 207 structure, ensuring that the structure can be evenly divided into six groups. The micro-adjusting rod 205 structure embedded inside can provide power support for adjustment. By controlling the extension and retraction of the rod 204 at the control end, the transmission will drive the outer sealing block 203 to slide along the inner side of the sealing groove 202, thereby controlling the position adjustment of the two groups of sealing plates 206 in the middle. By adjusting, the space between the adjusting plates 207 can be reduced, thereby accurately controlling the amount of mixed explosives and improving the accuracy and uniformity of feeding mixed explosives.
[0018] Through the above technical solution, a connecting seat 5 is installed on the upper part of the main body's mixing explosive end 4. The positioning groove 502 structure on the upper part of the connecting seat 5 can provide an installation position for the outer laser structure. The external laser structure is inserted into the positioning groove 502 and can be longitudinally restricted by rotation to prevent it from falling off. At the same time, the internally installed fitting bearing 601 can provide the adjustment knob 6 with the ability to rotate and adjust. The rotation of the adjustment knob 6 will drive the rotating screw 602 to adjust, which in turn drives the upper threaded sleeve 603 to adjust the height. By rising and inserting it into the bottom of the laser installation structure, lateral restriction can be achieved, effectively improving stability and thus enabling effective and rapid installation and disassembly.
[0019] Specifically, the upper part of the mixed explosive storage box 1 is provided with a storage slot 101, the front of the dispensing chamber 102 is equipped with an adjustment motor 103, the front and back of the dispensing chamber 102 are equipped with a mixing pipe 104, the front of the mixing pipe 104 is equipped with a diverter 105, and the back of the mixing pipe 104 is equipped with an inlet and outlet gas pipe 301.
[0020] Through the above technical solution, the storage tank 101 can provide storage space for metal mixed explosive powder, the rotating rod 201 can be rotated and adjusted by adjusting the structure of the motor 103, the mixed explosive powder can be transported by the structure of the mixing tube 104, and the mixed explosive powder can be divided into two parts by the diverter 105 and enter the interior of the mixed explosive feeding end 4.
[0021] Specifically, the adjusting plate 207 has sealing grooves 202 on both sides, and the sealing grooves 202 are located on the outside of the sealing block 203. The adjusting plate 207 has a rotating rod 201 installed on the inside, and the rotating rod 201 is located at the output end of the adjusting motor 103.
[0022] Through the above technical solution, the sealing groove 202 structure can provide restriction for the sealing block 203 structure, increase the stability of sliding adjustment, and the outer adjustment plate 207 can be rotated and adjusted by using the rotating rod 201 structure.
[0023] Specifically, a micro pump 3 is installed on the back of the inlet / outlet pipe 301, and a drive motor 302 is installed on the front of the bottom of the micro pump 3. A rotating shaft 303 is installed at the output end of the drive motor 302.
[0024] Through the above technical solution, the micro pump 3 structure can be adjusted by the front drive motor 302 structure, and the micro pump 3 can inject external gas into the interior to deliver mixed explosives.
[0025] Specifically, mounting bases 402 are installed on the upper part of both sides of the U-shaped frame 403, and connecting pipes 401 are installed on the upper part of the mounting bases 402. The connecting pipes 401 are located on the front of the distributor 105, and the bottom of the U-shaped frame 403 is equipped with a mixing explosive end head 4.
[0026] Through the above technical solution, the mounting base 402 structure can provide an installation position for the upper connecting pipe 401, ensuring that the mixed explosive powder can be transmitted normally, and the mixed explosive powder can be directly sprayed out from the bottom by the mixed explosive powder at the end 4.
[0027] Specifically, an inner tube 501 is provided on the inner side of the connecting seat 5, and the inner tube 501 is located on the upper part of the U-shaped frame 403.
[0028] Through the above technical solution, the inner tube 501 structure can provide constraint for the laser structure and increase the stability of the installation.
[0029] Specifically, a fitting bearing 601 is installed at the bottom of the adjustment knob 6, and the fitting bearing 601 is located inside the connecting seat 5.
[0030] Through the above technical solution, the fitting bearing 601 structure can provide the upper adjustment knob 6 with the ability to rotate.
[0031] In use, first insert the connecting seat 5 into the bottom of the laser structure, and rotate the control adjustment knob 6 to transmit the control screw 602 to drive the upper threaded sleeve 603 to restrict the mixed explosive powder. After storing the mixed explosive powder in the storage tank 101, the rod 204 at the outlet end is extended by the internal micro-adjustment rod 205, thereby driving the sealing block 203 structure to control the sealing plate 206 to adjust, thereby controlling the internal space. The mixed explosive powder at the top will enter the space and be rotated by the adjustment motor 103. At the same time, the micro pump 3 on the back transmits gas into the interior of the mixing tube 104, and at the same time, the gas enters the connecting tube 401 through the mixing tube 104 and is ejected from the bottom of the mixed explosive delivery end 4.
[0032] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A triple plunger pump mixed explosives feeding system, comprising a mixed explosives storage tank (1), characterized in that: The bottom of the mixed explosive storage box (1) is equipped with a dispensing chamber (102), and the dispensing chamber (102) is equipped with an adjustment module. The adjustment module is used to control the amount of mixed explosives fed in. The front of the dispensing chamber (102) is equipped with a U-shaped frame (403), and the upper part of the inner side of the U-shaped frame (403) is equipped with a quick-assembly component. The quick-assembly component is used for quick assembly and installation. The adjustment module includes a rotating frame (2), and six sets of adjustment plates (207) are provided on the inner side of the rotating frame (2). A micro-adjustment rod (205) is provided inside the adjustment plate (207), and a rod (204) is provided at the outlet of the micro-adjustment rod (205). Two sets of sealing blocks (203) are provided on the outer side of the rod (204), and a sealing plate (206) is provided on the outer side of the sealing block (203). The quick-equipment component includes a connecting seat (5), and two sets of positioning grooves (502) are provided on the upper part of both sides of the connecting seat (5). An adjustment knob (6) is provided inside the front and back of the connecting seat (5), and a rotating screw (602) is installed on the upper part of the adjustment knob (6). A threaded sleeve (603) is installed on the upper part of the rotating screw (602), and a limiting block (604) is provided on the front and back of the threaded sleeve (603).
2. The triple plunger pump mixed explosive feeding system according to claim 1, characterized in that: The upper part of the mixed explosive storage box (1) is provided with a storage slot (101), the front of the dispensing chamber (102) is equipped with an adjustment motor (103), the front and back of the dispensing chamber (102) are equipped with a mixing pipe (104), and the front of the mixing pipe (104) is equipped with a distributor (105), and the back of the mixing pipe (104) is equipped with an inlet and outlet gas pipe (301).
3. The triple plunger pump mixed explosive feeding system according to claim 2, characterized in that: The adjusting plate (207) has sealing grooves (202) on both sides, and the sealing grooves (202) are located outside the sealing block (203). A rotating rod (201) is installed on the inner side of the adjusting plate (207), and the rotating rod (201) is located at the output end of the adjusting motor (103).
4. The triple plunger pump mixed explosive feeding system according to claim 1, characterized in that: A micro pump (3) is installed on the back of the inlet / outlet pipe (301), and a drive motor (302) is installed on the front of the bottom of the micro pump (3). A rotating shaft (303) is installed at the outlet of the drive motor (302).
5. The triple plunger pump mixed explosive feeding system according to claim 1, characterized in that: Mounting bases (402) are installed on the upper part of both sides of the U-shaped frame (403), and connecting pipes (401) are installed on the upper part of the mounting bases (402). The connecting pipes (401) are located on the front of the distributor (105). The bottom of the U-shaped frame (403) is equipped with a mixing explosive end (4).
6. The triple plunger pump mixed explosive feeding system according to claim 1, characterized in that: The inner side of the connecting seat (5) is provided with an inner tube (501), and the inner tube (501) is located at the upper part of the U-shaped frame (403).
7. The triple plunger pump mixed explosive feeding system according to claim 1, characterized in that: The bottom of the adjustment knob (6) is fitted with a mating bearing (601), and the mating bearing (601) is located inside the connecting seat (5).