CN110550594A - Manual liquid raw material taking device - Google Patents

Abstract

The invention discloses a manual liquid raw material taking device, which comprises a middle mounting base plate, is used for manually taking materials, so the using place is not influenced by a driving medium, can independently work by manpower, has strong applicability, can be used for higher promotion on the utilization rate of force by combining a force reduction principle according to the working principle of a piston compressor, and has a rotating structure, a gear difference type part middle part connecting conversion mechanism, reduces the force required by driving by utilizing the principle of gear difference, reduces the single labor intensity during working, in addition, the device is provided with a heavy circular plate rotating type part connecting driving mechanism, can improve the utilization rate of force by utilizing the characteristic of larger inertia of a heavy circular plate during rotating, thereby reducing the total labor intensity during working, in addition, the device is provided with a copper sphere gravity type pipeline connecting material sucking mechanism, can sink into the storage tank bottom under the effect of gravity, realize retractable's the material of getting.

Description

manual liquid raw material taking device

Technical Field

The invention relates to the technical field of material taking devices, in particular to a manual liquid raw material taking device.

Background

At present, many places need be stored required liquid raw materials, and because many reasons restrict for some holding vessel can only get the material through the notes material hole of top, so need specific extracting device, and current extracting device is most all electronic material of getting, and some manual material of getting are relatively inefficient, and highly strong enemy is big moreover.

Disclosure of Invention

The invention aims to provide a manual liquid raw material taking device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a manual formula liquid raw materials extracting device, includes mid-mounting base plate and copper spheroid gravity type pipe connection auto sucking machine structure, mid-mounting base plate's bottom is provided with rather than the main hollow shell of integral type structure, mid-mounting base plate's inside is provided with a infundibulate structure, main hollow shell is lieing in the bottom of infundibulate structure is provided with main hollow structure, main hollow shell's bottom is provided with rather than the main inlet conduit of integral type structure, one side of main hollow shell is provided with rather than the main discharge pipeline of integral type structure, main inlet conduit and main discharge pipeline's inside is provided with the main liquid pipeline hole that leads to of the external and main hollow structure bottom of intercommunication, is located first liquid check valve and second liquid check valve are installed respectively to main inlet conduit and the inside main liquid pipeline hole that leads to of main inlet conduit and main discharge pipeline, just first liquid check valve and second liquid check valve's flowing back port and inlet port all towards main cavity Structure, mid-mounting base plate's upper surface is being located a main connecting plate, two are installed respectively to the both sides of infundibulate structure a riser is all installed at the main connecting plate top, two main first rotation axis and main second rotation axis are installed respectively through the bearing to riser inside, a main plectane is all installed at the opposition end to main first rotation axis and main second rotation axis, two main plectane is at an edge installation third rotation axis of opposition terminal surface, cup joint a main rotatory sleeve on the axis body of third rotation axis, a main connecting axle is installed to main rotatory sleeve's bottom, a movable hinge is installed at the one end that is located main hollow structure inside to main rotation axis, a piston plate is installed to the expansion end of movable hinge, the differential part middle part connection conversion mechanism of a revolution mechanic is installed to the other end of main second rotation axis, revolution mechanic gear middle part connection conversion mechanism's a heavy circular plate part of one side-mounting rotation formula rotation type connects conversion mechanism And a moving mechanism.

Furthermore, the rotating structure gear differential type part middle connecting and converting mechanism comprises a connecting plate for the rotating structure gear differential type part middle connecting and converting mechanism, a bolt hole for the rotating structure gear differential type part middle connecting and converting mechanism, a gear box for the rotating structure gear differential type part middle connecting and converting mechanism, a gear mounting space for the rotating structure gear differential type part middle connecting and converting mechanism, a first bearing for the rotating structure gear differential type part middle connecting and converting mechanism, the middle part of the rotating structure gear differential type component is connected with a second bearing for the conversion mechanism, the middle part of the rotating structure gear differential type component is connected with a first rotating shaft for the conversion mechanism, the middle part of the rotating structure gear differential type component is connected with a second rotating shaft for the conversion mechanism, the middle part of the rotating structure gear differential type component is connected with a first gear for the conversion mechanism, and the middle part of the rotating structure gear differential type component is connected with a second gear for the conversion mechanism; the connecting plate for the rotary structure gear differential type part middle connecting conversion mechanism is internally provided with a plurality of bolt holes for the rotary structure gear differential type part middle connecting conversion mechanism, the upper surface of the connecting plate for the rotary structure gear differential type part middle connecting conversion mechanism is provided with a gear box for the rotary structure gear differential type part middle connecting conversion mechanism of an integrated structure, the gear box for the rotary structure gear differential type part middle connecting conversion mechanism is internally provided with a gear installation space for the rotary structure gear differential type part middle connecting conversion mechanism, the bottom of one side of the gear box for the rotary structure gear differential type part middle connecting conversion mechanism is provided with a first bearing for the rotary structure gear differential type part middle connecting conversion mechanism, the inner ring of the first bearing for the rotary structure gear differential type part middle connecting conversion mechanism is provided with a first rotating shaft for the rotary structure gear differential type part middle connecting conversion mechanism, the first rotation axis is lieing in the first rotation axis is connecting conversion mechanism at the differential part middle part of revolution structure gear and is connecting the differential part middle part of revolution structure gear and connect conversion mechanism and use first gear at the inside one end installation of the gear installation space for conversion mechanism at the differential part middle part of revolution structure gear, the differential part middle part of revolution structure gear is connected conversion mechanism and is connected the differential part middle part of revolution structure gear and connect conversion mechanism and use the second bearing at the differential part opposite side top installation of gear box for conversion mechanism, the differential part middle part of revolution structure gear is connected the differential part of revolution structure gear and is installed the differential part middle part of revolution structure and connect conversion mechanism and use the second rotation axis in the differential part middle part of revolution structure, the differential part middle part of revolution structure is connected conversion mechanism and is lieing in the differential part middle part of revolution structure gear connects the differential part of revolution structure and connects the differential part middle part of Two gears.

Further, the structure radius that conversion mechanism used first gear reference circle was connected at the differential part middle part of revolution mechanic gear is greater than the structure radius of conversion mechanism used second gear reference circle is connected at the differential part middle part of revolution mechanic gear, the other end that conversion mechanism used second bearing was connected at the differential part middle part of revolution mechanic gear with first bearing and the differential part middle part of revolution mechanic gear is connected with main second swivel spindle tip and heavy plectane rotation type part respectively and is connected actuating mechanism and be connected.

Further, the connecting plate for connecting and converting the middle part of the gear differential type component of the rotary structure is arranged on the upper surface of the middle mounting substrate through bolts inserted into the bolt holes for connecting and converting the middle part of the gear differential type component of the rotary structure.

Further, the heavy disc rotary member connecting and driving mechanism includes a disc for the heavy disc rotary member connecting and driving mechanism, a first connecting plate for the heavy disc rotary member connecting and driving mechanism, a connecting rod for the heavy disc rotary member connecting and driving mechanism, a second connecting plate for the heavy disc rotary member connecting and driving mechanism, a rotary shaft for the heavy disc rotary member connecting and driving mechanism, a rotary sleeve for the heavy disc rotary member connecting and driving mechanism, a shaft hole for the heavy disc rotary member connecting and driving mechanism, and a bearing for the heavy disc rotary member connecting and driving mechanism; heavy circular plate rotary type part connects first connecting plate for actuating mechanism of mid-mounting heavy circular plate rotary type part connection actuating mechanism of a plectane one end face for actuating mechanism is connected to heavy circular plate rotary type part, heavy circular plate rotary type part connection actuating mechanism is provided with first connecting plate terminal surface center rather than the connecting rod for heavy circular plate rotary type part connection actuating mechanism of integral type structure, heavy circular plate rotary type part connects second connecting plate for actuating mechanism is connected to the edge part installation heavy circular plate rotary type part of another terminal surface of plectane for actuating mechanism, heavy circular plate rotary type part connection actuating mechanism is provided with the rotation axis for heavy circular plate rotary type part connection actuating mechanism rather than the integral type structure with second connecting plate terminal surface center, heavy circular plate rotary type part connection actuating mechanism is connected with rotation axis body through heavy circular plate rotary type part connection actuating mechanism for bearing and is installed at heavy circular plate rotary type part connection actuating The inner heavy circular plate rotating component is connected with the shaft hole for the driving mechanism.

Furthermore, the circular plate for the heavy circular plate rotating component connecting driving mechanism is a large circular plate structure made of iron materials.

furthermore, the end part of the heavy circular plate rotary component, which is connected with the connecting rod for the driving mechanism, is fixedly connected with the end part of the second bearing, which is connected with the middle part of the differential component of the rotary structure gear and used for the conversion mechanism.

Further, the copper ball gravity type pipeline connecting and sucking mechanism comprises a hollow ball for the copper ball gravity type pipeline connecting and sucking mechanism, a hollow structure for the copper ball gravity type pipeline connecting and sucking mechanism, a liquid discharge pipeline hole for the copper ball gravity type pipeline connecting and sucking mechanism and a liquid inlet hole for the copper ball gravity type pipeline connecting and sucking mechanism; the center of the inside of the hollow sphere for the copper sphere gravity type pipeline connecting and absorbing mechanism is provided with a hollow structure for the copper sphere gravity type pipeline connecting and absorbing mechanism, the surface of the hollow sphere for the copper ball gravity type pipeline connecting and sucking mechanism is provided with a liquid discharge pipeline structure which is integrated with the hollow sphere for the copper ball gravity type pipeline connecting and sucking mechanism, the interior of the liquid discharge pipeline structure for the copper ball gravity type pipeline connecting and sucking mechanism is provided with a liquid discharge pipeline hole for the copper ball gravity type pipeline connecting and sucking mechanism, which is communicated with the outside and has a hollow structure for the copper ball gravity type pipeline connecting and sucking mechanism, the copper ball gravity type pipeline connection material suction mechanism is characterized in that a plurality of copper ball gravity type pipeline connection material suction mechanism liquid inlet holes which are communicated with the outside and have a hollow structure are formed in the copper ball gravity type pipeline connection material suction mechanism hollow sphere.

Furthermore, the copper ball gravity type pipeline connecting and sucking mechanism is a hollow ball made of copper materials.

Furthermore, the liquid inlet holes for the copper ball gravity type pipeline connecting and sucking mechanisms are arranged in an annular array around the axis line of the liquid discharge pipeline holes for the copper ball gravity type pipeline connecting and sucking mechanisms.

Compared with the prior art, the invention has the beneficial effects that: the invention is to take the supplies manually, so its use place will not be influenced by driving medium, can rely on manpower to carry on the work alone, the serviceability is strong, according to the working principle of the piston compressor, and combine the principle of reducing the strength, can get the higher promotion in the utilization rate of the dynamics, and, the apparatus has the differential part middle part of gear of the rotating construction to connect the transformation organization, utilize the principle of the gear difference, reduce the necessary dynamics of the drive type, reduce the single labour intensity while working, in addition, the apparatus has the heavy circular plate rotating part to connect the driving mechanism, utilize the characteristic that the heavy circular plate has greater inertia while rotating, can improve the utilization rate of the dynamics, thus reduce the total labour intensity while working, in addition, the apparatus has copper ball gravity type pipeline to connect the suction mechanism, can sink into the storage tank bottom under the function of gravity, realize retractable getting the material, the practicality is strong.

Drawings

Fig. 1 is a schematic view of a manual liquid material taking device according to the present invention;

Fig. 2 is a schematic structural diagram of a rotary gear differential type component middle connection converting mechanism in a manual liquid raw material taking device according to the present invention;

Fig. 3 is a schematic structural diagram of a heavy circular plate rotating type component connecting driving mechanism in a manual liquid raw material taking device according to the present invention;

Fig. 4 is a schematic structural diagram of a gravity type pipeline connection material sucking mechanism with copper spheres in a manual liquid raw material taking device according to the present invention;

In the figure: 1, a middle mounting substrate, 2, a main hollow shell, 3, a funnel-shaped structure, 4, a main hollow structure, 5, a main liquid inlet pipeline, 6, a main liquid discharge pipeline, 7, a main liquid through pipeline hole, 8, a first liquid one-way valve, 9, a second liquid one-way valve, 10, a main connecting plate, 11, a vertical plate, 12, a main first rotating shaft, 13, a main second rotating shaft, 14, a main circular plate, 15, a third rotating shaft, 16, a main rotating sleeve, 17, a main connecting shaft, 18, a movable hinge, 19, a rotating structure gear differential type part middle connecting conversion mechanism, 191, a rotating structure gear differential part middle connecting conversion mechanism connecting plate, 192, a rotating structure gear differential part middle connecting conversion mechanism bolt hole, 193, a rotating structure gear differential part middle connecting conversion mechanism gear box, 194, a rotating structure gear differential part middle connecting conversion mechanism gear mounting space, 195, a first bearing for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 196, a second bearing for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 197, a first rotating shaft for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 198, a second rotating shaft for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 199, a first gear for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 1910, a second gear for a conversion mechanism is connected in the middle of a differential part of a gear of a rotary structure, 20, a heavy circular plate rotary part connecting drive mechanism, 201, a circular plate for a heavy circular plate rotary part connecting drive mechanism, 202, a first connecting plate for a heavy circular plate rotary part connecting drive mechanism, 203, a connecting rod, 205, heavy-duty disk rotary member connecting drive mechanism rotating shaft, 206, heavy-duty disk rotary member connecting drive mechanism rotating sleeve, 207, heavy-duty disk rotary member connecting drive mechanism shaft hole, 208, heavy-duty disk rotary member connecting drive mechanism bearing, 21, piston plate, 22, copper ball gravity type pipe connecting suction mechanism, 221, copper ball gravity type pipe connecting suction mechanism hollow ball, 222, copper ball gravity type pipe connecting suction mechanism hollow structure, 223, copper ball gravity type pipe connecting suction mechanism drain pipe structure, 224, copper ball gravity type pipe connecting suction mechanism drain pipe hole, 225, copper ball gravity type pipe connecting suction mechanism liquid inlet hole.

Detailed Description

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.

Referring to fig. 1, an embodiment of the present invention: the gravity type pipeline connecting material suction mechanism comprises a middle mounting base plate 1 and a copper ball body gravity type pipeline connecting material suction mechanism 22, wherein a main hollow shell 2 with an integrated structure is arranged at the bottom of the middle mounting base plate 1, a funnel-shaped structure 3 is arranged in the middle mounting base plate 1, a main hollow structure 4 is arranged at the bottom of the funnel-shaped structure 3 of the main hollow shell 2, a main liquid inlet pipeline 5 with an integrated structure is arranged at the bottom of the main hollow shell 2, a main liquid discharge pipeline 6 with an integrated structure is arranged at one side of the main hollow shell 2, a main liquid through pipeline hole 7 communicated with the outside and the bottom of the main hollow structure 4 is arranged in the main liquid inlet pipeline 5 and the main liquid discharge pipeline 6, a first liquid one-way valve 8 and a second liquid one-way valve 9 are respectively arranged in the main liquid through pipeline hole 7 in the main liquid inlet pipeline 5 and the main liquid discharge pipeline 6, the liquid discharge port and the liquid inlet port of the first liquid check valve 8 and the second liquid check valve 9 face the main hollow structure 4, the upper surface of the middle mounting substrate 1 is positioned at two sides of the funnel-shaped structure 3 and is respectively provided with a main connecting plate 10, the top of each main connecting plate 10 is provided with a vertical plate 11, the two vertical plates 11 are respectively provided with a main first rotating shaft 12 and a main second rotating shaft 13 through bearings, the main first rotating shaft 12 and the main second rotating shaft 13 are respectively provided with a main circular plate 14 at opposite ends, the two main circular plates 14 are provided with a third rotating shaft 15 at the edge of the opposite end surfaces, the shaft body of the third rotating shaft 15 is sleeved with a main rotating sleeve 16, the bottom of the main rotating sleeve 16 is provided with a main connecting shaft 17, the main rotating shaft 17 is provided with a movable hinge 18 at one end positioned inside the main hollow structure 4, the movable end of the movable hinge 18 is provided with a piston plate 21, the other end of the main second rotating shaft 13 is provided with a rotating structure gear differential type part middle part connecting conversion mechanism 19, and one side of the rotating structure gear differential type part middle part connecting conversion mechanism 19 is provided with a heavy circular plate rotating type part connecting driving mechanism 20.

Referring to fig. 2, the rotating structure gear differential type part middle connection conversion mechanism 19 includes a connecting plate 191 for the rotating structure gear differential type part middle connection conversion mechanism, a bolt hole 192 for the rotating structure gear differential type part middle connection conversion mechanism, a gear box 193 for the rotating structure gear differential type part middle connection conversion mechanism, a gear installation space 194 for the rotating structure gear differential type part middle connection conversion mechanism, a first bearing 195 for the rotating structure gear differential type part middle connection conversion mechanism, the second bearing 196 for connecting the middle part of the gear differential component of the rotary structure to the conversion mechanism, the first rotating shaft 197 for connecting the middle part of the gear differential component of the rotary structure to the conversion mechanism, the second rotating shaft 198 for connecting the middle part of the gear differential component of the rotary structure to the conversion mechanism, the first gear 199 for connecting the middle part of the gear differential component of the rotary structure to the conversion mechanism and the second gear 1910 for connecting the middle part of the gear differential component of the rotary structure to the conversion mechanism; the inside of the connecting plate 191 for the middle connection conversion mechanism of the differential part of revolution mechanic gear is provided with a plurality of bolt holes 192 for the middle connection conversion mechanism of the differential part of revolution mechanic gear, the upper surface of the connecting plate 191 for the middle connection conversion mechanism of the differential part of revolution mechanic gear is provided with the gear box 193 for the middle connection conversion mechanism of revolution mechanic gear with the integral structure, the inside of the gear box 193 for the middle connection conversion mechanism of revolution mechanic gear is provided with the gear installation space 194 for the middle connection conversion mechanism of revolution mechanic gear, the differential part of revolution mechanic gear is connected with the gear box 193 for the middle part of revolution mechanic gear, one side of the bottom of the gear box 193 for the middle connection conversion mechanism of revolution mechanic gear is provided with the first bearing 195 for the middle connection conversion mechanism of revolution mechanic gear, the second bearing 195 for the middle connection conversion mechanism of revolution mechanic gear is installed in the inner ring of the first bearing 195 A rotation axis 197, the differential part middle part of revolution structure gear is connected the first rotation axis 197 and is located the differential part middle part of revolution structure gear is connected the differential part middle part of revolution structure gear inside one end installation a differential part middle part of revolution structure gear and is connected the first gear 199 for conversion mechanism, the differential part middle part of revolution structure gear is connected the differential part middle part of revolution structure and is connected the differential part middle part of revolution structure gear and is connected the differential part middle part of revolution structure and is used the second bearing 196 for conversion mechanism with the gear box 193 opposite side top installation, the differential part middle part of revolution structure gear is connected the differential part middle part of revolution structure and is connected the differential part of revolution structure gear and is used the second rotation axis 198 and is located the differential part middle part of revolution structure gear connects the The middle part of the wheel difference type part is connected with a second gear 1910 for the conversion mechanism; the structural radius of the reference circle of the first gear 199 connected with the middle part of the gear difference type part of the rotary structure is larger than the structural radius of the reference circle of the second gear 1910 connected with the middle part of the gear difference type part of the rotary structure, the other ends of the first bearing 195 used for the middle part of the gear difference type part of the rotary structure and the second bearing 196 used for the middle part of the gear difference type part of the rotary structure and the middle part of the gear difference type part of the rotary structure are respectively connected with the end part of the main second rotating shaft 13 and the heavy circular plate rotary type part connecting and driving mechanism 20; the connecting plate 191 for the rotary structure gear differential type part middle connection conversion mechanism is installed on the upper surface of the middle mounting substrate 1 through inserting bolts inside the bolt holes 192 for the rotary structure gear differential type part middle connection conversion mechanism, and the main functions are as follows: and the input of smaller force is realized by utilizing the gear difference.

Referring to fig. 3, the heavy disc rotary member connecting/driving mechanism 20 includes a disc 201 for the heavy disc rotary member connecting/driving mechanism, a first connecting plate 202 for the heavy disc rotary member connecting/driving mechanism, a connecting rod 203 for the heavy disc rotary member connecting/driving mechanism, a second connecting plate 204 for the heavy disc rotary member connecting/driving mechanism, a rotary shaft 205 for the heavy disc rotary member connecting/driving mechanism, a rotary sleeve 206 for the heavy disc rotary member connecting/driving mechanism, a shaft hole 207 for the heavy disc rotary member connecting/driving mechanism, and a bearing 208 for the heavy disc rotary member connecting/driving mechanism; the middle of one end face of the circular plate 201 for the heavy circular plate rotary member connecting drive mechanism is provided with a first connecting plate 202 for the heavy circular plate rotary member connecting drive mechanism, the center of the end face of the first connecting plate 202 for the heavy circular plate rotary member connecting drive mechanism is provided with a connecting rod 203 for the heavy circular plate rotary member connecting drive mechanism of an integrated structure with the first connecting plate, the edge of the other end face of the circular plate 201 for the heavy circular plate rotary member connecting drive mechanism is provided with a second connecting plate 204 for the heavy circular plate rotary member connecting drive mechanism, the center of the end face of the second connecting plate 204 for the heavy circular plate rotary member connecting drive mechanism is provided with a rotating shaft 205 for the heavy circular plate rotary member connecting drive mechanism of an integrated structure with the second connecting plate, one end shaft body of the rotating shaft 205 for the heavy circular plate rotary member connecting drive mechanism is mounted on a bearing 208 for the A heavy circular plate rotating member attached to the inside of the driving mechanism rotating sleeve 206 is attached to the driving mechanism shaft hole 207; the circular plate 201 for connecting the heavy circular plate rotating part with the driving mechanism is a large circular plate structure made of iron materials; the end of the connecting rod 203 for connecting the heavy circular plate rotating type component with the driving mechanism is fixedly connected with the end of the second bearing 196 for connecting the middle part of the rotating structure gear differential type component with the conversion mechanism, and the main functions are as follows: the force utilization rate can be improved by utilizing the characteristics of the heavy circular plate during rotation.

Referring to fig. 4, the copper ball gravity type pipeline connecting and sucking mechanism 22 includes a copper ball gravity type pipeline connecting and sucking mechanism hollow ball 221, a copper ball gravity type pipeline connecting and sucking mechanism hollow structure 222, a copper ball gravity type pipeline connecting and sucking mechanism drainage pipeline structure 223, a copper ball gravity type pipeline connecting and sucking mechanism drainage pipeline hole 224, and a copper ball gravity type pipeline connecting and sucking mechanism liquid inlet hole 225; the center inside the hollow sphere 221 for the copper ball gravity type pipeline connecting and sucking mechanism is provided with a hollow structure 222 for the copper ball gravity type pipeline connecting and sucking mechanism, the surface of the hollow sphere 221 for the copper sphere gravity type pipeline connecting and sucking mechanism is provided with a liquid discharge pipeline structure 223 which is integrated with the hollow sphere 221 for the copper sphere gravity type pipeline connecting and sucking mechanism, a liquid discharge pipe hole 224 for the copper ball gravity type pipe connecting and sucking mechanism for communicating the outside and the hollow structure 222 for the copper ball gravity type pipe connecting and sucking mechanism is arranged inside the liquid discharge pipe structure 223 for the copper ball gravity type pipe connecting and sucking mechanism, a plurality of liquid inlet holes 225 for the copper ball gravity type pipeline connecting and sucking mechanism are formed in the hollow ball 221 for the copper ball gravity type pipeline connecting and sucking mechanism, and are communicated with the outside and the hollow structure 222 for the copper ball gravity type pipeline connecting and sucking mechanism; the copper ball gravity type pipeline connecting and sucking mechanism is a hollow ball made of copper material and the hollow ball 221 is a hollow ball made of copper material; the plurality of liquid inlet holes 225 for the copper ball gravity type pipeline connecting and sucking mechanism are arranged in an annular array by taking the axial lead of the liquid outlet pipeline hole 224 for the copper ball gravity type pipeline connecting and sucking mechanism as the circle center, and the main functions are as follows: the liquid is absorbed by throwing the device into a room and has strong capacity.

The specific use mode is as follows: in the working process of the invention, a support is used for supporting the device, then a copper ball gravity type pipeline connecting and sucking mechanism 22 is thrown to the bottom of a storage tank, the copper ball gravity type pipeline connecting and sucking mechanism 22 is connected with a main liquid inlet pipeline 5 through a hose, then a heavy circular plate rotating component is rotated to be connected with a driving mechanism 20, at the moment, under the driving action of each component, a main third rotating shaft 15 drives a piston plate 21 to move up and down in a reciprocating mode, and simultaneously, under the combined action of a first liquid one-way valve 8 and a second liquid one-way valve 9, liquid is sucked out under the action of pressure and is discharged through a main liquid outlet pipeline 6.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a manual formula liquid raw materials extracting device, includes that mid-mounting base plate (1) and copper spheroid gravity type pipe connection inhale material mechanism (22), its characterized in that: the bottom of the middle mounting base plate (1) is provided with a main hollow shell (2) of an integrated structure, the inside of the middle mounting base plate (1) is provided with a funnel-shaped structure (3), the main hollow shell (2) is provided with a main hollow structure (4) at the bottom of the funnel-shaped structure (3), the bottom of the main hollow shell (2) is provided with a main liquid inlet pipeline (5) of the integrated structure, one side of the main hollow shell (2) is provided with a main liquid discharge pipeline (6) of the integrated structure, the insides of the main liquid inlet pipeline (5) and the main liquid discharge pipeline (6) are provided with a main liquid through pipeline hole (7) communicated with the outside and the bottom of the main hollow structure (4), and the main liquid through pipeline hole (7) at the insides of the main liquid inlet pipeline (5) and the main liquid discharge pipeline (6) are respectively provided with a first liquid one-way valve (8) and a second liquid one-way valve (9), and the liquid discharge port and the liquid inlet port of the first liquid check valve (8) and the second liquid check valve (9) are both towards the main hollow structure (4), the upper surface of the middle mounting base plate (1) is positioned at two sides of the funnel-shaped structure (3) and is respectively provided with a main connecting plate (10), two vertical plates (11) are respectively arranged at the tops of the main connecting plates (10), two main first rotating shafts (12) and main second rotating shafts (13) are respectively arranged in the vertical plates (11) through bearings, the main first rotating shafts (12) and the main second rotating shafts (13) are respectively provided with a main circular plate (14) at opposite ends, two main circular plates (14) are provided with a third rotating shaft (15) at the edges of opposite end faces, a main rotating sleeve (16) is sleeved on the shaft body of the third rotating shaft (15), and a main connecting shaft (17) is arranged at the bottom of the main rotating sleeve (16), the main rotating shaft (17) is located a movable hinge (18) installed at one end inside the main hollow structure (4), a piston plate (21) is installed at the movable end of the movable hinge (18), a rotating structure gear differential type part middle part is installed at the other end of the main second rotating shaft (13) to connect the conversion mechanism (19), and a heavy circular plate rotating type part installed at one side of the rotating structure gear differential type part middle part to connect the conversion mechanism (19) is connected with the driving mechanism (20).

2. A manual liquid material take-out device according to claim 1, wherein: conversion mechanism (19) is connected at differential part middle part of revolution mechanic gear includes that the differential part middle part of revolution mechanic connects conversion mechanism with connecting plate (191), the differential part middle part of revolution mechanic gear connects bolt hole (192) for conversion mechanism, the differential part middle part of revolution mechanic gear connects gear box (193) for conversion mechanism, the differential part middle part of revolution mechanic gear connects conversion mechanism with gear installation space (194), the differential part middle part of revolution mechanic connects conversion mechanism with first bearing (195), the differential part middle part of revolution mechanic gear connects second bearing (196) for conversion mechanism, the differential part middle part of revolution mechanic gear connects conversion mechanism with first rotation axis (197), the differential part middle part of revolution mechanic connects conversion mechanism with second rotation axis (198), the differential part middle part of revolution mechanic connects conversion mechanism with first gear (199) and the differential part middle part of revolution mechanic gear connects conversion mechanism with second rotation axis (197), the differential part middle part of revolution mechanic gear connects conversion mechanism Two gears (1910); the inside of the connecting plate (191) for the middle part connecting conversion mechanism of the differential part of revolution mechanic gear is provided with a plurality of bolt holes (192) for the middle part connecting conversion mechanism of revolution mechanic gear, the upper surface of the connecting plate (191) for the middle part connecting conversion mechanism of revolution mechanic gear is provided with the gear box (193) for the middle part connecting conversion mechanism of revolution mechanic with the differential part of revolution mechanic's gear of its integral structure, the inside of the gear box (193) for the middle part connecting conversion mechanism of revolution mechanic is provided with the gear installation space (194) for the middle part connecting conversion mechanism of revolution mechanic, the bottom of one side of the gear box (193) for the middle part connecting conversion mechanism of revolution mechanic gear is provided with the first bearing (195) for the middle part connecting conversion mechanism of revolution mechanic gear, the inner ring of the first bearing (195) for the middle part connecting conversion mechanism of revolution mechanic gear is provided with a rotary rotation The differential part middle part of structure gear is connected conversion mechanism and is used first rotation axis (197), the differential part middle part of revolution structure gear is connected conversion mechanism and is being located first rotation axis (197) and being located the differential part middle part of revolution structure gear is connected the differential part middle part of revolution structure gear and is connected the differential part middle part of revolution structure gear inside one end installation a differential part of revolution structure gear middle part and connect conversion mechanism and use first gear (199), the differential part middle part of revolution structure gear is connected conversion mechanism and is used gear box (193) opposite side top installation a differential part of revolution structure gear middle part and is connected conversion mechanism and use second bearing (196), the differential part middle part of revolution structure gear is connected the differential part of revolution structure and is installed a differential part middle part of revolution structure and is connected conversion mechanism and is used second rotation axis (198) in the inner ring of second bearing (196), the differential part middle part of revolution structure gear is connected conversion mechanism and is located second rotation axis One end of the middle part of the gear difference type component, which is connected with the inside of the gear installation space (194) for the conversion mechanism, is provided with a second gear (1910) for the middle part of the gear difference type component for the rotary structure, which is connected with the conversion mechanism.

3. A manual liquid material take-out device according to claim 2, wherein: the structure radius of the first gear (199) reference circle for the rotary structure gear differential type part middle connecting conversion mechanism is larger than the structure radius of the second gear (1910) reference circle for the rotary structure gear differential type part middle connecting conversion mechanism, and the other ends of the first bearing (195) for the rotary structure gear differential type part middle connecting conversion mechanism and the second bearing (196) for the rotary structure gear differential type part middle connecting conversion mechanism are respectively connected with the end part of the main second rotating shaft (13) and the heavy circular plate rotary type part connecting driving mechanism (20).

4. a manual liquid material take-out device according to claim 2, wherein: the connecting plate (191) for the rotary structure gear differential type component middle connection conversion mechanism is arranged on the upper surface of the middle mounting base plate (1) through bolts inserted into bolt holes (192) for the rotary structure gear differential type component middle connection conversion mechanism.

5. A manual liquid material take-out device according to claim 1, wherein: the heavy circular plate rotating member connecting and driving mechanism (20) comprises a circular plate (201) for the heavy circular plate rotating member connecting and driving mechanism, a first connecting plate (202) for the heavy circular plate rotating member connecting and driving mechanism, a connecting rod (203) for the heavy circular plate rotating member connecting and driving mechanism, a second connecting plate (204) for the heavy circular plate rotating member connecting and driving mechanism, a rotating shaft (205) for the heavy circular plate rotating member connecting and driving mechanism, a rotating sleeve (206) for the heavy circular plate rotating member connecting and driving mechanism, an axle hole (207) for the heavy circular plate rotating member connecting and driving mechanism and a bearing (208) for the heavy circular plate rotating member connecting and driving mechanism; the middle part of one end face of the circular plate (201) for the heavy circular plate rotary component connecting driving mechanism is provided with a first connecting plate (202) for the heavy circular plate rotary component connecting driving mechanism, the center of the end face of the first connecting plate (202) for the heavy circular plate rotary component connecting driving mechanism is provided with a connecting rod (203) for the heavy circular plate rotary component connecting driving mechanism of an integrated structure with the first connecting plate, the edge part of the other end face of the circular plate (201) for the heavy circular plate rotary component connecting driving mechanism is provided with a second connecting plate (204) for the heavy circular plate rotary component connecting driving mechanism, the center of the end face of the second connecting plate (204) for the heavy circular plate rotary component connecting driving mechanism is provided with a rotary shaft (205) for the heavy circular plate rotary component connecting driving mechanism of the integrated structure with the second connecting plate rotary component connecting driving mechanism, one end shaft body of the rotary shaft The structural bearing (208) is mounted in a heavy disk rotating member connecting drive mechanism shaft hole (207) inside a heavy disk rotating member connecting drive mechanism rotating sleeve (206).

6. A manual liquid material take-out device according to claim 5, wherein: the circular plate (201) for the heavy circular plate rotating part connecting driving mechanism is a large circular plate structure made of iron materials.

7. A manual liquid material take-out device according to claim 5, wherein: the end part of the heavy circular plate rotary component, which is connected with the connecting rod (203) for the driving mechanism, is fixedly connected with the end part of the second bearing (196) for the rotating structure gear differential component, which is connected with the conversion mechanism, in the middle.

8. A manual liquid material take-out device according to claim 1, wherein: the copper ball gravity type pipeline connecting and sucking mechanism (22) comprises a hollow ball (221) for the copper ball gravity type pipeline connecting and sucking mechanism, a hollow structure (222) for the copper ball gravity type pipeline connecting and sucking mechanism, a liquid discharge pipeline structure (223) for the copper ball gravity type pipeline connecting and sucking mechanism, a liquid discharge pipeline hole (224) for the copper ball gravity type pipeline connecting and sucking mechanism and a liquid inlet hole (225) for the copper ball gravity type pipeline connecting and sucking mechanism; the copper ball gravity type pipeline connection material suction mechanism is characterized in that a hollow structure (222) for a copper ball gravity type pipeline connection material suction mechanism is arranged at the center inside a hollow ball (221) for the copper ball gravity type pipeline connection material suction mechanism, a liquid discharge pipeline structure (223) for the copper ball gravity type pipeline connection material suction mechanism and an integrated structure of the hollow ball (221) are arranged on the surface of the hollow ball (221) for the copper ball gravity type pipeline connection material suction mechanism, a liquid discharge pipeline hole (224) for the copper ball gravity type pipeline connection material suction mechanism is formed in the liquid discharge pipeline structure (223) for the copper ball gravity type pipeline connection material suction mechanism, the liquid discharge pipeline hole communicates with the outside and is communicated with the hollow structure (222) for the copper ball gravity type pipeline connection material suction mechanism, and a plurality of liquid inlet pipeline connection material suction mechanisms communicate with the outside and are arranged in the hollow ball (221) for the copper ball gravity type pipeline connection material suction mechanism An aperture (225).

9. a manual liquid material take-off device according to claim 8, wherein: the copper ball gravity type pipeline connection material suction mechanism is a hollow ball body made of a copper material, and the hollow ball body (221) is used as the copper material.

10. A manual liquid material take-off device according to claim 8, wherein: the plurality of liquid inlet holes (225) for the copper ball gravity type pipeline connecting and sucking mechanism are arranged in an annular array around the axis line of the liquid outlet pipe holes (224) for the copper ball gravity type pipeline connecting and sucking mechanism.