WO2022246890A1 - Water pump apparatus - Google Patents

Water pump apparatus Download PDF

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Publication number
WO2022246890A1
WO2022246890A1 PCT/CN2021/098126 CN2021098126W WO2022246890A1 WO 2022246890 A1 WO2022246890 A1 WO 2022246890A1 CN 2021098126 W CN2021098126 W CN 2021098126W WO 2022246890 A1 WO2022246890 A1 WO 2022246890A1
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WO
WIPO (PCT)
Prior art keywords
water
frame
block
water pump
plate
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PCT/CN2021/098126
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French (fr)
Chinese (zh)
Inventor
闫保健
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台州市勒言自动化科技有限公司
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Application filed by 台州市勒言自动化科技有限公司 filed Critical 台州市勒言自动化科技有限公司
Publication of WO2022246890A1 publication Critical patent/WO2022246890A1/en

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D29/00Details, component parts, or accessories
    • F04D29/70Suction grids; Strainers; Dust separation; Cleaning
    • F04D29/708Suction grids; Strainers; Dust separation; Cleaning specially for liquid pumps

Definitions

  • the invention relates to the field of water pumps, in particular to a water pump device.
  • the water pump is mainly used to extract and transmit the outdoor water flow.
  • the water flow is pumped into the pressurized chamber through the suction pipe, and then the rotating blade inside the pressurized chamber rotates at a high speed to quickly discharge the water flow outward through the drain pipe.
  • Common equipment in life based on the above description, the inventor found that the existing water pump equipment mainly has the following deficiencies, for example:
  • the water pump mostly pumps water in natural waters such as rivers outdoors, if there is a lot of silt inside the river, it is easy for the water pump to pump in the silt when pumping the water flow. If the water pump just stops running after pumping in a large piece of silt, It is easy to cause the sludge to settle inside the reinforcement chamber until it adheres tightly to the bottom of the inner wall of the pressurization chamber and is difficult to be carried out by the water flow. If it accumulates for a long time, the water capacity inside the reinforcement chamber will gradually shrink.
  • the present invention provides a water pump device.
  • a water pump device the structure of which includes a driving end, a water outlet pipe, a pressurized chamber, and a water inlet pipe, and the water outlet pipe is embedded in the right end of the pressurized chamber , the water inlet pipe is installed on the left side of the pressurized chamber, and the pressurized chamber is connected to the bottom of the driving end;
  • the pressurized chamber includes a rotating shaft, an outer frame, and a rotating mechanism, and the rotating shaft runs through the middle of the outer frame position, the rotating mechanism is embedded in the bottom position of the rotating shaft.
  • the rotating mechanism includes a pull-back bar, a central shaft, a booster vane, a downward extension block, and a fixed plate
  • the pull-back bar is installed on the top of the downward extension block and the upper end of the inner wall of the booster blade position
  • the booster vane is engaged with the central solid shaft
  • the downward extension block is in clearance fit with the supercharger vane
  • the fixed plate and the central solid shaft are an integrated structure
  • three are a group, evenly distributed symmetrically on the supercharging blades on both sides.
  • the downward extension block includes an engagement plate, a rotating roller, and an extension block.
  • the rotation roller is movably engaged with the engagement plate. There are six, and they are evenly distributed in a circular shape on the rotating roller.
  • the rotating roller includes a water collection cavity, a booster piece, and a frame body, the water collection cavity and the frame body are an integrated structure, and the booster piece is embedded and connected with the inner wall of the water collection cavity , the water collecting cavity has an internal and external transparent structure.
  • the water collection chamber includes a guide rod, a force-bearing block, and a frame.
  • the guide rod and the frame are an integrated structure. Inverted trapezoidal structure.
  • the stressed block includes a connecting rod, a lower rod, and a plate body, the connecting rod and the plate body are an integrated structure, the lower rod and the connecting rod are movably engaged, and the lower rod is set There are three, and they are evenly distributed in parallel on the board body.
  • the lower bar includes a combination ring, a gravity ball, an outer swing plate, and an upper connection frame
  • the gravity ball is installed on the inner position of the outer swing plate
  • the outer swing plate is connected to the upper connection through the combination ring.
  • the frames are connected by hinges, and there are two outer swing plates, which are evenly distributed symmetrically at the bottom of the upper frame.
  • the rotating roller can stick to the mud layer and roll along the connecting plate, and then through the throwing force generated by the rolling of the rotating roller, the overhanging block can be extended outward along the rotating roller, so that The overhanging block can break up the silt layer, effectively avoiding the sedimentation and adhesion of the silt inside the outer frame when the booster chamber stops running.
  • the inertial force generated by the sliding of the sliding rod to the extreme can make the sliding rod rotate along the connecting rod, so that the outer swing plate can swing outward along the upper frame, so that the outer swing plate can follow the rotation of the sliding rod Scattering the silt effectively avoids the situation that the silt scattered by the overhanging blocks easily enters the interior of the water collecting chamber upwards.
  • Fig. 1 is a schematic structural diagram of a water pump device of the present invention.
  • Fig. 2 is a structural schematic diagram of a partial frontal half-section of the pressurized chamber of the present invention.
  • Fig. 3 is a structural schematic diagram of a frontal half-section of the rotating mechanism of the present invention.
  • Fig. 4 is a structural schematic diagram of a front half section of a downward extension block of the present invention.
  • Fig. 5 is a structural schematic diagram of the front half section of the rotating roller of the present invention.
  • Fig. 6 is a schematic structural diagram of a frontal half-section of a water collection chamber of the present invention.
  • Fig. 7 is a structural schematic diagram of a frontal half-section of a stressed block of the present invention.
  • Fig. 8 is a structural schematic diagram of a frontal half-section of the sliding bar of the present invention.
  • the invention provides a water pump device, the structure of which includes a driving end 1, an outlet pipe 2, a booster chamber 3, and a water inlet pipe 4, the outlet pipe 2 is embedded in the right end of the booster chamber 3, and the inlet pipe 4 is installed On the left side of the pressurization chamber 3, the pressurization chamber 3 is connected to the bottom of the driving end 1; the pressurization chamber 3 includes a rotating shaft 31, an outer frame 32, and a rotating mechanism 33, and the rotating shaft 31 runs through the outer At the middle position of the frame 32 , the rotating mechanism 33 is embedded in the bottom position of the rotating shaft 31 .
  • the rotating mechanism 33 includes a pull-back bar a1, a central solid shaft a2, a booster blade a3, a downward extension block a4, and a fixed plate a5, and the pull-back bar a1 is installed on the top of the lower extension block a4 and the booster blade
  • the supercharging blade a3 is movably engaged with the central solid shaft a2
  • the downward extension block a4 is in clearance fit with the supercharging vane a3
  • the fixed plate a5 and the central solid shaft a2 are of an integrated structure
  • There are six downward extension blocks a4, and three are in a group, which are evenly distributed symmetrically on the booster blades a3 on both sides, and the inertial force generated by the downward sliding of the mechanism can make the downward extension block a4 move along the booster.
  • the pressing blade a3 protrudes downward.
  • the downward extension block a4 includes an engaging plate a41, a rotating roller a42, and an overhanging block a43.
  • the rotating roller a42 is movably engaged with the engaging plate a41, and the overhanging block a43 is in clearance fit with the rotating roller a42.
  • the rotating roller a42 includes a water collection chamber b1, a booster piece b2, and a frame body b3, the water collection chamber b1 and the frame body b3 are an integrated structure, and the booster piece b2 and the inner wall of the water collection chamber b1 Embedded connection, the water collecting chamber b1 has an internal and external transparent structure, through which water can be introduced into the water collecting chamber b1.
  • the driving end 1 drives the rotating shaft 31 to rotate, so that the rotating shaft 31 can drive the rotating mechanism 33 to rotate, and the thrust force generated by the rotating mechanism 33 can make the booster blade a3 go down along the central solid axis a2 stretch out, so that it can be closer to the bottom of the outer frame 32, and then through the inertial force generated by the downward extension of the booster blade a3, the downward extension block a4 can slide downward along the booster blade a3, so that the lower The bottom of the extension block a4 can be in contact with the mud layer at the bottom of the outer frame 32, and then through the rotation of the rotating mechanism 33, the rotating roller a42 can be rolled along the connecting plate a41 in close contact with the mud layer, and then rolled by the rotating roller a42.
  • the throwing force can make the overhanging block a43 protrude outward along the rotating roller a42, so that the overhanging block a43 can break up the mud layer, and the water can be introduced into its interior through the water collecting chamber b1 in advance, and then through
  • the throwing force generated by the rotation of the rotating roller a42 can discharge the water flow inside the water collection chamber b1 to the outside, so that the residual mud layer can be washed away, effectively preventing the mud from being deposited on the outer frame 32 when the booster chamber 3 stops operating.
  • the water collection chamber b1 includes a guide rod b11, a force-bearing block b12, and a frame b13
  • the guide rod b11 and the frame b13 are an integrated structure
  • the force-receiving block b12 is movably engaged with the guide rod b11
  • the The force receiving block b12 has an inverted trapezoidal structure, and the thrust generated by the water flow on the force receiving block b12 can make the force receiving block b12 slide upwards, so that the water flow can enter the interior of the object through the force receiving block b12 and the inner wall of the frame b13.
  • the stressed block b12 includes a connecting rod c1, a lower rod c2, and a board body c3, the connecting rod c1 and the board body c3 are an integrated structure, the lower rod c2 is movably engaged with the connecting rod c1, and the There are three sliding rods c2, and they are evenly distributed in parallel on the plate body c3. Through the inertial force generated by the downward extension of the mechanism, the sliding rod c2 can be extended downward along the connecting rod c1.
  • the lower link c2 includes a combination ring c21, a gravity ball c22, an outer swing plate c23, and an upper frame c24.
  • the gravity ball c22 is installed on the inner position of the outer swing plate c23
  • the outer swing plate c23 is c21 is hingedly connected with the upper frame c24.
  • the ring c21 swings to both sides.
  • the mud dispersed by the overhanging block a43 easily enters the interior of the water collecting chamber b1 upwards, and if accumulated for a long time, the water collecting chamber b1 will be blocked.
  • the force-bearing block b12 can slide upward along the guide rod b11, so that the water flow can enter the interior of the water collection chamber b1 through the gap between the force-bearing block b12 and the frame b13, and then
  • the thrust generated by the water flow inside the water collection chamber b1 on the force-bearing block b12 can make the sliding rod c2 protrude downward along the connecting rod c1, and the inertial force generated by the sliding of the sliding rod c2 to the extreme can make the sliding
  • the rod c2 rotates along the connecting rod c1, so that the outer swing plate c23 can swing outward along the upper frame c24, so that the outer swing plate c23 can follow the rotation of the lower rod c2 to break up the mud, effectively avoiding
  • the silt scattered by the overhanging block a43 easily enters the inside of the water collection chamber b1 upwards.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)

Abstract

A water pump apparatus, comprising a driving end (1), a water output pipe (2), a pressurizing cavity (3) and a water intake pipe (4), wherein the water output pipe (2) is embedded in and fixed at the right end of the pressurizing cavity (3); the water intake pipe (4) is mounted at the left side of the pressurizing cavity (3); and the pressurizing cavity (3) is connected to the bottom of the driving end (1). By means of the rotation of a rotating mechanism (33), a rotating roller (a42) can be attached to a sludge layer and roll along a connection plate (a41); then by means of a throwing force generated by the rolling of the rotating roller (a42), an outward-extending block (a43) can extend outwards along the rotating roller (a42), such that the outward-extending block (a43) can scatter the sludge layer, and a situation whereby sludge precipitates and adheres to the interior of an outer frame (32) when the pressurizing cavity (3) stops running is effectively avoided; and by means of an inertial force generated by a down-sliding rod (c2) sliding downwards to the extreme, the down-sliding rod (c2) can rotate along a connecting rod (c1), such that an outer swing plate (c23) can swing outwards along an upper connecting frame (c24), and then the outer swing plate (c23) can scatter the sludge as the down-sliding rod (c2) rotates.

Description

一种水泵设备water pump equipment 技术领域technical field
本发明涉及水泵领域,具体的是一种水泵设备。The invention relates to the field of water pumps, in particular to a water pump device.
背景技术Background technique
水泵主要是用于对户外水流进行抽取传输的设备,通过抽水管将水流抽入增压腔内部,再通过增压腔内部的转动叶片高速转动,能够将水流通过排水管快速向外排出,是生活中的常见设备,基于上述描述本发明人发现,现有的一种水泵设备主要存在以下不足,例如:The water pump is mainly used to extract and transmit the outdoor water flow. The water flow is pumped into the pressurized chamber through the suction pipe, and then the rotating blade inside the pressurized chamber rotates at a high speed to quickly discharge the water flow outward through the drain pipe. Common equipment in life, based on the above description, the inventor found that the existing water pump equipment mainly has the following deficiencies, for example:
由于水泵在户外大多抽取河流等自然水域内部的水,若河流内部的淤泥较多,则容易使水泵对水流进行抽取时将淤泥一同抽入,若水泵在抽入大块淤泥后刚好停止运行,则容易使淤泥在增强腔内部沉淀,直至紧密黏附在增压腔的内壁底部难以被水流带出,长时间累积则会使增强腔出现内部的水分容量逐渐缩小的情况。Since the water pump mostly pumps water in natural waters such as rivers outdoors, if there is a lot of silt inside the river, it is easy for the water pump to pump in the silt when pumping the water flow. If the water pump just stops running after pumping in a large piece of silt, It is easy to cause the sludge to settle inside the reinforcement chamber until it adheres tightly to the bottom of the inner wall of the pressurization chamber and is difficult to be carried out by the water flow. If it accumulates for a long time, the water capacity inside the reinforcement chamber will gradually shrink.
发明内容Contents of the invention
针对上述问题,本发明提供一种水泵设备。In view of the above problems, the present invention provides a water pump device.
为了实现上述目的,本发明是通过如下的技术方案来实现:一种水泵设备,其结构包括驱动端、出水管、增压腔、进水管,所述出水管嵌固于增压腔的右端位置,所述进水管 安装于增压腔的左侧位置,所述增压腔与驱动端的底部相连接;所述增压腔包括转轴、外框、转动机构,所述转轴贯穿于外框的中部位置,所述转动机构嵌固于转轴的底部位置。In order to achieve the above object, the present invention is achieved through the following technical solutions: a water pump device, the structure of which includes a driving end, a water outlet pipe, a pressurized chamber, and a water inlet pipe, and the water outlet pipe is embedded in the right end of the pressurized chamber , the water inlet pipe is installed on the left side of the pressurized chamber, and the pressurized chamber is connected to the bottom of the driving end; the pressurized chamber includes a rotating shaft, an outer frame, and a rotating mechanism, and the rotating shaft runs through the middle of the outer frame position, the rotating mechanism is embedded in the bottom position of the rotating shaft.
作为本发明的进一步优化,所述转动机构包括回扯条、中固轴、增压叶片、下伸块、固定板,所述回扯条安装于下伸块的顶部与增压叶片的内壁上端位置,所述增压叶片与中固轴活动卡合,所述下伸块与增压叶片间隙配合,所述固定板与中固轴为一体化结构,所述下伸块设有六个,且三个为一组,均匀在两边的增压叶片上呈对称分布。As a further optimization of the present invention, the rotating mechanism includes a pull-back bar, a central shaft, a booster vane, a downward extension block, and a fixed plate, and the pull-back bar is installed on the top of the downward extension block and the upper end of the inner wall of the booster blade position, the booster vane is engaged with the central solid shaft, the downward extension block is in clearance fit with the supercharger vane, the fixed plate and the central solid shaft are an integrated structure, and there are six downward extension blocks. And three are a group, evenly distributed symmetrically on the supercharging blades on both sides.
作为本发明的进一步优化,所述下伸块包括衔接板、转动辊、外伸块,所述转动辊与衔接板活动卡合,所述外伸块与转动辊间隙配合,所述外伸块设有六个,且均匀在转动辊上呈圆形分布。As a further optimization of the present invention, the downward extension block includes an engagement plate, a rotating roller, and an extension block. The rotation roller is movably engaged with the engagement plate. There are six, and they are evenly distributed in a circular shape on the rotating roller.
作为本发明的进一步优化,所述转动辊包括集水腔、助推片、框体,所述集水腔与框体为一体化结构,所述助推片与集水腔的内壁嵌固连接,所述集水腔呈内外通透结构。As a further optimization of the present invention, the rotating roller includes a water collection cavity, a booster piece, and a frame body, the water collection cavity and the frame body are an integrated structure, and the booster piece is embedded and connected with the inner wall of the water collection cavity , the water collecting cavity has an internal and external transparent structure.
作为本发明的进一步优化,所述集水腔包括导杆、受力块、框架,所述导杆与框架为一体化结构,所述受力块与导杆活动卡合,所述受力块呈倒梯形结构。As a further optimization of the present invention, the water collection chamber includes a guide rod, a force-bearing block, and a frame. The guide rod and the frame are an integrated structure. Inverted trapezoidal structure.
作为本发明的进一步优化,所述受力块包括连接杆、下滑杆、板体,所述连接杆与板体为一体化结构,所述下滑杆 与连接杆活动卡合,所述下滑杆设有三个,且均匀在板体上呈平行分布。As a further optimization of the present invention, the stressed block includes a connecting rod, a lower rod, and a plate body, the connecting rod and the plate body are an integrated structure, the lower rod and the connecting rod are movably engaged, and the lower rod is set There are three, and they are evenly distributed in parallel on the board body.
作为本发明的进一步优化,所述下滑杆包括结合环、重力球、外摆板、上接框,所述重力球安装于外摆板的内部位置,所述外摆板通过结合环与上接框铰链连接,所述外摆板设有两个,且均匀在上接框的底部呈对称分布。As a further optimization of the present invention, the lower bar includes a combination ring, a gravity ball, an outer swing plate, and an upper connection frame, the gravity ball is installed on the inner position of the outer swing plate, and the outer swing plate is connected to the upper connection through the combination ring. The frames are connected by hinges, and there are two outer swing plates, which are evenly distributed symmetrically at the bottom of the upper frame.
本发明具有如下有益效果:The present invention has following beneficial effects:
1、通过转动机构的转动,能够使转动辊贴合着淤泥层沿着衔接板进行滚动,再通过转动辊滚动产生的甩力,能够使外伸块沿着转动辊向外伸出,从而使外伸块能够对淤泥层进行打散,有效的避免了淤泥在增压腔停止运行时会在外框内部出现沉淀黏附的情况。1. Through the rotation of the rotating mechanism, the rotating roller can stick to the mud layer and roll along the connecting plate, and then through the throwing force generated by the rolling of the rotating roller, the overhanging block can be extended outward along the rotating roller, so that The overhanging block can break up the silt layer, effectively avoiding the sedimentation and adhesion of the silt inside the outer frame when the booster chamber stops running.
2、通过下滑杆下滑到极致产生的惯性力,能够使下滑杆沿着连接杆进行转动,从而使外摆板能够沿着上接框向外摆动,从而使外摆板能够跟随下滑杆的转动对淤泥进行打散,有效的避免了被外伸块打散的淤泥容易向上进入集水腔内部的情况。2. The inertial force generated by the sliding of the sliding rod to the extreme can make the sliding rod rotate along the connecting rod, so that the outer swing plate can swing outward along the upper frame, so that the outer swing plate can follow the rotation of the sliding rod Scattering the silt effectively avoids the situation that the silt scattered by the overhanging blocks easily enters the interior of the water collecting chamber upwards.
附图说明Description of drawings
图1为本发明一种水泵设备的结构示意图。Fig. 1 is a schematic structural diagram of a water pump device of the present invention.
图2为本发明增压腔局部正视半剖面的结构示意图。Fig. 2 is a structural schematic diagram of a partial frontal half-section of the pressurized chamber of the present invention.
图3为本发明转动机构正视半剖面的结构示意图。Fig. 3 is a structural schematic diagram of a frontal half-section of the rotating mechanism of the present invention.
图4为本发明下伸块正视半剖面的结构示意图。Fig. 4 is a structural schematic diagram of a front half section of a downward extension block of the present invention.
图5为本发明转动辊正视半剖面的结构示意图。Fig. 5 is a structural schematic diagram of the front half section of the rotating roller of the present invention.
图6为本发明集水腔正视半剖面的结构示意图。Fig. 6 is a schematic structural diagram of a frontal half-section of a water collection chamber of the present invention.
图7为本发明受力块正视半剖面的结构示意图。Fig. 7 is a structural schematic diagram of a frontal half-section of a stressed block of the present invention.
图8为本发明下滑杆正视半剖面的结构示意图。Fig. 8 is a structural schematic diagram of a frontal half-section of the sliding bar of the present invention.
图中:驱动端-1、出水管-2、增压腔-3、进水管-4、转轴-31、外框-32、转动机构-33、回扯条-a1、中固轴-a2、增压叶片-a3、下伸块-a4、固定板-a5、衔接板-a41、转动辊-a42、外伸块-a43、集水腔-b1、助推片-b2、框体-b3、导杆-b11、受力块-b12、框架-b13、连接杆-c1、下滑杆-c2、板体-c3、结合环-c21、重力球-c22、外摆板-c23、上接框-c24。In the figure: driving end-1, outlet pipe-2, pressurized chamber-3, water inlet pipe-4, rotating shaft-31, outer frame-32, rotating mechanism-33, pull-back bar-a1, central solid shaft-a2, Booster blade-a3, down-extending block-a4, fixed plate-a5, connecting plate-a41, rotating roller-a42, extending block-a43, water collecting cavity-b1, booster plate-b2, frame-b3, Guide rod-b11, force block-b12, frame-b13, connecting rod-c1, lower rod-c2, plate body-c3, joint ring-c21, gravity ball-c22, outer swing plate-c23, upper connection frame- c24.
具体实施方式Detailed ways
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.
实施例1Example 1
如例图1-例图5所展示:As shown in Figure 1-Example Figure 5:
本发明提供一种水泵设备,其结构包括驱动端1、出水管2、增压腔3、进水管4,所述出水管2嵌固于增压腔3的右端位置,所述进水管4安装于增压腔3的左侧位置,所述增压腔3与驱动端1的底部相连接;所述增压腔3包括转轴31、外框32、转动机构33,所述转轴31贯穿于外框32的中部位置,所述转动机构33嵌固于转轴31的底部位置。The invention provides a water pump device, the structure of which includes a driving end 1, an outlet pipe 2, a booster chamber 3, and a water inlet pipe 4, the outlet pipe 2 is embedded in the right end of the booster chamber 3, and the inlet pipe 4 is installed On the left side of the pressurization chamber 3, the pressurization chamber 3 is connected to the bottom of the driving end 1; the pressurization chamber 3 includes a rotating shaft 31, an outer frame 32, and a rotating mechanism 33, and the rotating shaft 31 runs through the outer At the middle position of the frame 32 , the rotating mechanism 33 is embedded in the bottom position of the rotating shaft 31 .
其中,所述转动机构33包括回扯条a1、中固轴a2、增压叶片a3、下伸块a4、固定板a5,所述回扯条a1安装于下伸块a4的顶部与增压叶片a3的内壁上端位置,所述增压叶片a3与中固轴a2活动卡合,所述下伸块a4与增压叶片a3间隙配合,所述固定板a5与中固轴a2为一体化结构,所述下伸块a4设有六个,且三个为一组,均匀在两边的增压叶片a3上呈对称分布,通过机构向下滑动产生的惯性力,能够使下伸块a4沿着增压叶片a3向下伸出。Wherein, the rotating mechanism 33 includes a pull-back bar a1, a central solid shaft a2, a booster blade a3, a downward extension block a4, and a fixed plate a5, and the pull-back bar a1 is installed on the top of the lower extension block a4 and the booster blade At the upper end position of the inner wall of a3, the supercharging blade a3 is movably engaged with the central solid shaft a2, the downward extension block a4 is in clearance fit with the supercharging vane a3, and the fixed plate a5 and the central solid shaft a2 are of an integrated structure, There are six downward extension blocks a4, and three are in a group, which are evenly distributed symmetrically on the booster blades a3 on both sides, and the inertial force generated by the downward sliding of the mechanism can make the downward extension block a4 move along the booster. The pressing blade a3 protrudes downward.
其中,所述下伸块a4包括衔接板a41、转动辊a42、外伸块a43,所述转动辊a42与衔接板a41活动卡合,所述外伸块a43与转动辊a42间隙配合,所述外伸块a43设有六个,且均匀在转动辊a42上呈圆形分布,通过机构转动产生的甩力,能够使外伸块a43沿着转动辊a42向外伸出。Wherein, the downward extension block a4 includes an engaging plate a41, a rotating roller a42, and an overhanging block a43. The rotating roller a42 is movably engaged with the engaging plate a41, and the overhanging block a43 is in clearance fit with the rotating roller a42. There are six overhanging blocks a43, and they are evenly distributed in a circular shape on the rotating roller a42. The throwing force generated by the rotation of the mechanism can make the overhanging blocks a43 protrude outward along the rotating roller a42.
其中,所述转动辊a42包括集水腔b1、助推片b2、框体b3,所述集水腔b1与框体b3为一体化结构,所述助推片 b2与集水腔b1的内壁嵌固连接,所述集水腔b1呈内外通透结构,通过集水腔b1能够将水流导入其内部。Wherein, the rotating roller a42 includes a water collection chamber b1, a booster piece b2, and a frame body b3, the water collection chamber b1 and the frame body b3 are an integrated structure, and the booster piece b2 and the inner wall of the water collection chamber b1 Embedded connection, the water collecting chamber b1 has an internal and external transparent structure, through which water can be introduced into the water collecting chamber b1.
本实施例的详细使用方法与作用:The detailed use method and function of this embodiment:
本发明中,通过驱动端1带动转轴31进行转动,能够使转轴31带动转动机构33进行转动,且通过转动机构33转动产生的甩力,能够使增压叶片a3沿着中固轴a2向下伸出,从而能够与外框32的底部更加接近,再通过增压叶片a3向下伸出产生的惯性力,能够使下伸块a4沿着增压叶片a3向下滑动伸出,从而使下伸块a4的底部能够与外框32底部的淤泥层相接触,再通过转动机构33的转动,能够使转动辊a42贴合着淤泥层沿着衔接板a41进行滚动,再通过转动辊a42滚动产生的甩力,能够使外伸块a43沿着转动辊a42向外伸出,从而使外伸块a43能够对淤泥层进行打散,并且通过集水腔b1能够事先将水分导入其内部,再通过转动辊a42转动产生的甩力,能够将集水腔b1内部的水流向外排出,从而能够对残留的淤泥层进行冲除,有效的避免了淤泥在增压腔3停止运行时会在外框32内部出现沉淀黏附的情况。In the present invention, the driving end 1 drives the rotating shaft 31 to rotate, so that the rotating shaft 31 can drive the rotating mechanism 33 to rotate, and the thrust force generated by the rotating mechanism 33 can make the booster blade a3 go down along the central solid axis a2 stretch out, so that it can be closer to the bottom of the outer frame 32, and then through the inertial force generated by the downward extension of the booster blade a3, the downward extension block a4 can slide downward along the booster blade a3, so that the lower The bottom of the extension block a4 can be in contact with the mud layer at the bottom of the outer frame 32, and then through the rotation of the rotating mechanism 33, the rotating roller a42 can be rolled along the connecting plate a41 in close contact with the mud layer, and then rolled by the rotating roller a42. The throwing force can make the overhanging block a43 protrude outward along the rotating roller a42, so that the overhanging block a43 can break up the mud layer, and the water can be introduced into its interior through the water collecting chamber b1 in advance, and then through The throwing force generated by the rotation of the rotating roller a42 can discharge the water flow inside the water collection chamber b1 to the outside, so that the residual mud layer can be washed away, effectively preventing the mud from being deposited on the outer frame 32 when the booster chamber 3 stops operating. There is a case of sediment adhesion inside.
实施例2Example 2
如例图6-例图8所展示:As shown in Figure 6-Example Figure 8:
其中,所述集水腔b1包括导杆b11、受力块b12、框架 b13,所述导杆b11与框架b13为一体化结构,所述受力块b12与导杆b11活动卡合,所述受力块b12呈倒梯形结构,通过水流对受力块b12产生的推力能够使受力块b12向上滑动,从而使水流能够通过受力块b12与框架b13的内壁进入物体的内部。Wherein, the water collection chamber b1 includes a guide rod b11, a force-bearing block b12, and a frame b13, the guide rod b11 and the frame b13 are an integrated structure, the force-receiving block b12 is movably engaged with the guide rod b11, and the The force receiving block b12 has an inverted trapezoidal structure, and the thrust generated by the water flow on the force receiving block b12 can make the force receiving block b12 slide upwards, so that the water flow can enter the interior of the object through the force receiving block b12 and the inner wall of the frame b13.
其中,所述受力块b12包括连接杆c1、下滑杆c2、板体c3,所述连接杆c1与板体c3为一体化结构,所述下滑杆c2与连接杆c1活动卡合,所述下滑杆c2设有三个,且均匀在板体c3上呈平行分布,通过机构向下伸出产生的惯性力,能够使下滑杆c2沿着连接杆c1向下伸出。Wherein, the stressed block b12 includes a connecting rod c1, a lower rod c2, and a board body c3, the connecting rod c1 and the board body c3 are an integrated structure, the lower rod c2 is movably engaged with the connecting rod c1, and the There are three sliding rods c2, and they are evenly distributed in parallel on the plate body c3. Through the inertial force generated by the downward extension of the mechanism, the sliding rod c2 can be extended downward along the connecting rod c1.
其中,所述下滑杆c2包括结合环c21、重力球c22、外摆板c23、上接框c24,所述重力球c22安装于外摆板c23的内部位置,所述外摆板c23通过结合环c21与上接框c24铰链连接,所述外摆板c23设有两个,且均匀在上接框c24的底部呈对称分布,通过机构转动产生的甩力,能够使外摆板c23沿着结合环c21向两侧摆动。Wherein, the lower link c2 includes a combination ring c21, a gravity ball c22, an outer swing plate c23, and an upper frame c24. The gravity ball c22 is installed on the inner position of the outer swing plate c23, and the outer swing plate c23 is c21 is hingedly connected with the upper frame c24. There are two outer swing plates c23, which are evenly distributed symmetrically on the bottom of the upper frame c24. The swing force generated by the rotation of the mechanism can make the outer swing plate c23 The ring c21 swings to both sides.
本实施例的详细使用方法与作用:The detailed use method and function of this embodiment:
本发明中,由于集水腔b1是外敞开的,以至于被外伸块a43打散的淤泥容易向上进入集水腔b1内部,长时间累积则会使集水腔b1出现堵塞的情况,再通过水流对受力块 b12产生的推力,能够使受力块b12沿着导杆b11向上滑动,从而使水流能够通过受力块b12与框架b13之间的间隙进入集水腔b1的内部,再通过集水腔b1内部的水流排出时对受力块b12产生的推力,能够使下滑杆c2沿着连接杆c1向下伸出,并且通过下滑杆c2下滑到极致产生的惯性力,能够使下滑杆c2沿着连接杆c1进行转动,从而使外摆板c23能够沿着上接框c24向外摆动,故而使外摆板c23能够跟随下滑杆c2的转动对淤泥进行打散,有效的避免了被外伸块a43打散的淤泥容易向上进入集水腔b1内部的情况。In the present invention, since the water collecting chamber b1 is open to the outside, the mud dispersed by the overhanging block a43 easily enters the interior of the water collecting chamber b1 upwards, and if accumulated for a long time, the water collecting chamber b1 will be blocked. Through the thrust generated by the water flow on the force-bearing block b12, the force-bearing block b12 can slide upward along the guide rod b11, so that the water flow can enter the interior of the water collection chamber b1 through the gap between the force-bearing block b12 and the frame b13, and then The thrust generated by the water flow inside the water collection chamber b1 on the force-bearing block b12 can make the sliding rod c2 protrude downward along the connecting rod c1, and the inertial force generated by the sliding of the sliding rod c2 to the extreme can make the sliding The rod c2 rotates along the connecting rod c1, so that the outer swing plate c23 can swing outward along the upper frame c24, so that the outer swing plate c23 can follow the rotation of the lower rod c2 to break up the mud, effectively avoiding The silt scattered by the overhanging block a43 easily enters the inside of the water collection chamber b1 upwards.
利用本发明所述技术方案,或本领域的技术人员在本发明技术方案的启发下,设计出类似的技术方案,而达到上述技术效果的,均是落入本发明的保护范围。Utilize the technical solution described in the present invention, or those skilled in the art design a similar technical solution under the inspiration of the technical solution of the present invention, and achieve the above-mentioned technical effects, all fall into the protection scope of the present invention.

Claims (7)

  1. 一种水泵设备,其结构包括驱动端(1)、出水管(2)、增压腔(3)、进水管(4),所述出水管(2)嵌固于增压腔(3)的右端位置,所述进水管(4)安装于增压腔(3)的左侧位置,其特征在于:所述增压腔(3)与驱动端(1)的底部相连接;A water pump device, the structure of which includes a driving end (1), a water outlet pipe (2), a pressurized chamber (3), and a water inlet pipe (4), and the water outlet pipe (2) is embedded in the pressurized chamber (3) At the right end position, the water inlet pipe (4) is installed on the left side of the pressurization chamber (3), which is characterized in that: the pressurization chamber (3) is connected to the bottom of the driving end (1);
    所述增压腔(3)包括转轴(31)、外框(32)、转动机构(33),所述转轴(31)贯穿于外框(32)的中部位置,所述转动机构(33)嵌固于转轴(31)的底部位置。The pressurized chamber (3) includes a rotating shaft (31), an outer frame (32), and a rotating mechanism (33). The rotating shaft (31) runs through the middle of the outer frame (32), and the rotating mechanism (33) Embedded in the bottom position of the rotating shaft (31).
  2. 根据权利要求1所述的一种水泵设备,其特征在于:所述转动机构(33)包括回扯条(a1)、中固轴(a2)、增压叶片(a3)、下伸块(a4)、固定板(a5),所述回扯条(a1)安装于下伸块(a4)的顶部与增压叶片(a3)的内壁上端位置,所述增压叶片(a3)与中固轴(a2)活动卡合,所述下伸块(a4)与增压叶片(a3)间隙配合,所述固定板(a5)与中固轴(a2)为一体化结构。A water pump device according to claim 1, characterized in that: the rotating mechanism (33) includes a pullback bar (a1), a central solid shaft (a2), a booster vane (a3), a downward extension block (a4 ), the fixed plate (a5), the pull-back strip (a1) is installed on the top of the down extension block (a4) and the upper end of the inner wall of the booster vane (a3), the booster vane (a3) and the middle solid shaft (a2) Movable engagement, the downward extension block (a4) is in clearance fit with the booster vane (a3), and the fixing plate (a5) and the central solid shaft (a2) are of an integrated structure.
  3. 根据权利要求2所述的一种水泵设备,其特征在于:所述下伸块(a4)包括衔接板(a41)、转动辊(a42)、外伸块(a43),所述转动辊(a42)与衔接板(a41)活动卡合,所述外伸块(a43)与转动辊(a42)间隙配合。A water pump device according to claim 2, characterized in that: the downward extension block (a4) includes an engaging plate (a41), a rotating roller (a42), and an overhanging block (a43), and the rotating roller (a42 ) is movably engaged with the connecting plate (a41), and the overhanging block (a43) is in clearance fit with the rotating roller (a42).
  4. 根据权利要求3所述的一种水泵设备,其特征在于:所述转动辊(a42)包括集水腔(b1)、助推片(b2)、框 体(b3),所述集水腔(b1)与框体(b3)为一体化结构,所述助推片(b2)与集水腔(b1)的内壁嵌固连接。A water pump device according to claim 3, characterized in that: the rotating roller (a42) includes a water collection chamber (b1), a booster piece (b2), and a frame (b3), and the water collection chamber ( b1) and the frame body (b3) are an integrated structure, and the booster piece (b2) is embedded and connected with the inner wall of the water collecting cavity (b1).
  5. 根据权利要求4所述的一种水泵设备,其特征在于:所述集水腔(b1)包括导杆(b11)、受力块(b12)、框架(b13),所述导杆(b11)与框架(b13)为一体化结构,所述受力块(b12)与导杆(b11)活动卡合。A water pump device according to claim 4, characterized in that: the water collecting chamber (b1) includes a guide rod (b11), a force bearing block (b12), a frame (b13), and the guide rod (b11) It is an integrated structure with the frame (b13), and the force-receiving block (b12) is movably engaged with the guide rod (b11).
  6. 根据权利要求5所述的一种水泵设备,其特征在于:所述受力块(b12)包括连接杆(c1)、下滑杆(c2)、板体(c3),所述连接杆(c1)与板体(c3)为一体化结构,所述下滑杆(c2)与连接杆(c1)活动卡合。A water pump device according to claim 5, characterized in that: the stressed block (b12) includes a connecting rod (c1), a lower rod (c2), a plate body (c3), and the connecting rod (c1) It is an integrated structure with the plate body (c3), and the lower bar (c2) is movably engaged with the connecting bar (c1).
  7. 根据权利要求6所述的一种水泵设备,其特征在于:所述下滑杆(c2)包括结合环(c21)、重力球(c22)、外摆板(c23)、上接框(c24),所述重力球(c22)安装于外摆板(c23)的内部位置,所述外摆板(c23)通过结合环(c21)与上接框(c24)铰链连接。A water pump device according to claim 6, characterized in that: the lower bar (c2) includes a coupling ring (c21), a gravity ball (c22), an outer swing plate (c23), and an upper frame (c24), The gravity ball (c22) is installed at the inner position of the outer swing plate (c23), and the outer swing plate (c23) is hingedly connected with the upper frame (c24) through a coupling ring (c21).
PCT/CN2021/098126 2021-05-24 2021-06-03 Water pump apparatus WO2022246890A1 (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN206386278U (en) * 2016-10-18 2017-08-08 滁州市大工机电有限公司 A kind of high-efficient energy-saving vertical-type water pump
CN207297394U (en) * 2017-10-19 2018-05-01 浙江中杭水泵有限公司 A kind of vertical bipolar centrifugal pump with filtering function
CN208474145U (en) * 2018-06-12 2019-02-05 湖南长佳泵业制造有限公司 A kind of vertical water pump
JP2020159261A (en) * 2019-03-26 2020-10-01 株式会社荏原製作所 Pump comprising foreign substance removal device
CN212803603U (en) * 2020-07-13 2021-03-26 苏州田发机械有限公司 Vertical shock attenuation fire control water pump

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN206386278U (en) * 2016-10-18 2017-08-08 滁州市大工机电有限公司 A kind of high-efficient energy-saving vertical-type water pump
CN207297394U (en) * 2017-10-19 2018-05-01 浙江中杭水泵有限公司 A kind of vertical bipolar centrifugal pump with filtering function
CN208474145U (en) * 2018-06-12 2019-02-05 湖南长佳泵业制造有限公司 A kind of vertical water pump
JP2020159261A (en) * 2019-03-26 2020-10-01 株式会社荏原製作所 Pump comprising foreign substance removal device
CN212803603U (en) * 2020-07-13 2021-03-26 苏州田发机械有限公司 Vertical shock attenuation fire control water pump

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