CN207195252U - A kind of high efficiency air compression plant - Google Patents
A kind of high efficiency air compression plant Download PDFInfo
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- CN207195252U CN207195252U CN201721193280.8U CN201721193280U CN207195252U CN 207195252 U CN207195252 U CN 207195252U CN 201721193280 U CN201721193280 U CN 201721193280U CN 207195252 U CN207195252 U CN 207195252U
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Abstract
The utility model discloses a kind of high efficiency air compression plant, including the internal main hollow housing for main hollow structure, the bottom of the main hollow housing is provided with supporting leg, a motor support plate is bolted at the top of the main hollow housing side, one first motor is fixed at the top of the motor support plate, the end of the first motor main shaft in first motor is fixed on the center of a plectane end face, a rotary shaft is fixed in the other end of the plectane at 3/4 radius apart from its center of circle, the axis body of the rotary shaft is socketed in the inside of an axle sleeve, a connecting rod is fixed in the bottom of the axle sleeve.The utility model can be divided into main compressor structure and auxiliary compression mechanism, the compression of larger pressure is provided using the past renaturation of piston, recycles turbine to provide the compensated with air effect of compression early stage, so that can be maximized per second compression, efficiency of air compression is improved, practicality is stronger.
Description
Technical field
Field of mechanical technique is the utility model is related to, specially a kind of high efficiency air compression plant.
Background technology
At present, in terms of air compression, air compressor can be all used, and in general air compressor is all connecting rod drive
It is dynamic, but the driving of in general connecting rod is all circle first compression effect, when actual pneumatics compresses, due to the compression of internal piston
Space is limited, and its air intensity per second compression is also fewer, causes compression efficiency low, has a strong impact on compression efficiency.
Utility model content
The purpose of this utility model is to provide a kind of high efficiency air compression plant, to solve to carry in above-mentioned background technology
The problem of going out.
To achieve the above object, the utility model provides following technical scheme:
A kind of high efficiency air compression plant, including the internal main hollow housing for main hollow structure, the main hollow shell
The bottom of body is provided with supporting leg, and a motor support plate, the electricity are bolted at the top of the main hollow housing side
Fix one first motor at the top of motivation supporting plate, the end of the first motor main shaft in first motor is fixed on
The center of one plectane end face, a rotary shaft is fixed in the other end of the plectane at 3/4 radius apart from its center of circle, described
The axis body of rotary shaft is socketed in the inside of an axle sleeve, and a connecting rod is fixed in the bottom of the axle sleeve, and the bottom of the connecting rod is set
The spherical with its integral structure is equipped with, the inside installation one side of the main hollow structure is socketed with the valve element of sealing ring
Plate, the through-hole structure for being internally provided with multiple its upper and lower surface of connection of the valve core plate, the center of the valve core plate upper surface
The 3/5 hollow sphere housing with its integral structure is provided with, the spherical is connected to the inside of the hollow sphere housing,
The main hollow housing is being provided with spacing hole, the company of being internally provided with of the main hollow housing positioned at the bottom of main hollow structure
The primary inlet port of logical spacing hole, the inside of the primary inlet port and through-hole structure is mounted on air check valve, and the air
The exhaust outlet of check valve towards spacing hole, the main hollow housing positioned at the side of described primary inlet port one end be provided with
The auxiliary compression mechanism of its integral structure, the inside of the main hollow housing is to fix one positioned at the bottom of the spacing hole high
Air flow in one direction mechanism is pressed, the bottom of the main hollow housing is provided with the discharge duct with its integral structure, the row
Feed channel is internally provided with the extraneous main exhaust hole with pressure-air one-way flow mechanism of connection.
Arranged preferably, the auxiliary compression mechanism includes circular turbine installation housing, auxiliary input duct, auxiliary
Liquid pipe road, turbine installing space, aid in the first air admission hole, auxiliary first row stomata, the second motor, the second electronic owner
Axle, turbine, auxiliary hollow housing, auxiliary hollow structure, baffler groove, auxiliary the second air admission hole, baffler, auxiliary
With second row stomata and helical spring.
Preferably, the circular turbine installation housing be respectively arranged with the both ends of opposition it is auxiliary with its integral structure
Help and use input duct and auxiliary Drainage pipe, the circular turbine installation housing is internally provided with turbine installing space, institute
State auxiliary and be provided with input duct with auxiliary with the inside of Drainage pipe and connect the auxiliary of turbine installing space and entered with first
One second motor, second electricity are fixed in stomata and auxiliary first row stomata, one end of the circular turbine installation housing
The second motor main shaft in motivation, sky is being installed positioned at the turbine through the circular turbine installation housing and its axis body
Between inside one turbine is installed, the auxiliary is provided with the auxiliary hollow shell with its integral structure with the bottom of Drainage pipe
Body, the auxiliary hollow structure is provided centrally with inside the auxiliary hollow housing, the auxiliary hollow structure
Top is provided with baffler groove, and the auxiliary hollow housing is internally provided with connection auxiliary first row stomata and barrier
The second air admission hole of the auxiliary of plate groove, the auxiliary hollow housing are internally provided with the extraneous use with auxiliary of connection
A baffler, the auxiliary hollow structure are inserted in the auxiliary of hollow structure second row stomata, the inside of the baffler groove
Inside fix a helical spring, and the top of the helical spring is fixed on the center of the baffler basal surface, described auxiliary
Help and connected with the exhaust end of first row stomata with primary inlet port.
Preferably, during the turbine rotation, caused exhaust outlet direction the second air admission hole of auxiliary.
Preferably, the initial length of the helical spring is more than the scope of activities inside the auxiliary hollow structure.
Preferably, the pressure-air one-way flow mechanism includes pressure-air one-way flow housing, spherical hollow area
Between, steel ball, pressure-air one-way flow be with air admission hole and pressure-air one-way flow steam vent.
Preferably, the pressure-air one-way flow housing is fixed on the inside of hollow housing, the pressure-air list
Spherical hollow section is provided centrally with to flowing enclosure interior, a steel ball is placed in the inside in the spherical hollow section, described
Pressure-air one-way flow housing is internally provided with above connection pressure-air one-way flow housing and spherical hollow section bottom
The pressure-air one-way flow air admission hole at portion center, the pressure-air one-way flow housing are internally provided with connection high pressure
Air flow in one direction housing lower section and the pressure-air one-way flow steam vent of spherical hollow section top center.
Preferably, the structure radius of the steel ball is less than the structure radius in the spherical hollow section, the steel ball
Structure radius is more than the structure radius of the pressure-air one-way flow air admission hole and pressure-air one-way flow steam vent.
Compared with prior art, the beneficial effects of the utility model are:
The utility model can be divided into main compressor structure and auxiliary compression mechanism, and larger pressure is provided using the past renaturation of piston
The compression of power, turbine is recycled to provide the compensated with air effect of compression early stage, so that can be maximum per second compression
Change, improve efficiency of air compression, practicality is stronger.
Brief description of the drawings
Fig. 1 is a kind of complete section structural representation of high efficiency air compression plant of the utility model;
Fig. 2 is the structural representation of auxiliary compression mechanism in a kind of high efficiency air compression plant of the utility model;
Fig. 3 is a kind of structural representation of high efficiency air compression plant mesohigh air flow in one direction mechanism of the utility model
Figure.
In figure:1, main hollow housing, 2, supporting leg, 3, motor support plate, 4, main hollow structure, 5, the first motor, 6,
First motor main shaft, 7, plectane, 8, rotary shaft, 9, axle sleeve, 10, connecting rod, 11, spherical, 12, hollow sphere housing, 13,
Valve core plate, 14, through-hole structure, 15, air check valve, 16, spacing hole, 17, primary inlet port, 18, auxiliary compression mechanism, 181, circle
Shape turbine installation housing, 182, auxiliary input duct, 183, auxiliary Drainage pipe, 184, turbine installing space, 185 are auxiliary
Help with the first air admission hole, 186, auxiliary first row stomata, 187, the second motor, 188, the second motor main shaft, 189, whirlpool
Wheel, 1810, auxiliary hollow housing, 1811, auxiliary hollow structure, 1812, baffler groove, 1813, auxiliary are entered with second
Stomata, 1814, baffler, 1815, auxiliary second row stomata, 1816, helical spring, 19, pressure-air one-way flow mechanism,
191, pressure-air one-way flow housing, 192, spherical hollow section, 193, steel ball, 194, pressure-air one-way flow air inlet
Hole, 195, pressure-air one-way flow steam vent, 20, discharge duct, 21, main exhaust hole.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
A kind of referring to Fig. 1, embodiment provided by the utility model:A kind of high efficiency air compression plant, including inside
For the main hollow housing 1 of main hollow structure 4, the bottom of the main hollow housing 1 is provided with supporting leg 2, the main side of hollow housing 1
A motor support plate 3 is bolted at the top of face, one first motor 5 is fixed at the top of the motor support plate 3,
The end of the first motor main shaft 6 in first motor 5 is fixed on the center of the end face of a plectane 7, the plectane 7
A rotary shaft 8 is fixed in other end at 3/4 radius apart from its center of circle, and the axis body of the rotary shaft 8 is socketed in an axle sleeve 9
A connecting rod 10 is fixed in inside, the bottom of the axle sleeve 9, and the bottom of the connecting rod 10 is provided with the ball with its integral structure
Body 11, the inside installation one side of the main hollow structure 4 are socketed with the valve core plate 13 of sealing ring, the valve core plate 13 it is interior
Portion is provided with the through-hole structure 14 of multiple its upper and lower surface of connection, and the upper surface of valve core plate 13 is provided centrally with and its one
3/5 hollow sphere housing 12 of formula structure, the spherical 11 are connected to the inside of the hollow sphere housing 12, in the master
Empty capsid 1 is being provided with spacing hole 16 positioned at the bottom of main hollow structure 4, and the main hollow housing 1 is internally provided with connection
The primary inlet port 17 of spacing hole 16, the inside of the primary inlet port 17 and through-hole structure 14 are mounted on air check valve 15, and
The exhaust outlet of the air check valve 15 is towards spacing hole 16, and the main hollow housing 1 is positioned at the primary inlet port 17 1
The side at end is provided with the auxiliary compression mechanism 18 with its integral structure, and the inside of the main hollow housing 1 is positioned at described
A pressure-air one-way flow mechanism 19 is fixed in the bottom of spacing hole 17, and the bottom of the main hollow housing 1 is provided with and one
The discharge duct 20 of body formula structure, the discharge duct 20 are internally provided with the connection external world and pressure-air one-way flow mechanism
19 main exhaust hole 21, at work, the first motor 5 can be utilized to realize the air compression of piston effect formula, in sky
In the presence of gas check valve 15, air can be compressed, played as main air compression.
Referring to Fig. 2, the auxiliary compression mechanism 18 includes circular turbine installation housing 181, auxiliary input duct
182nd, auxiliary Drainage pipe 183, turbine installing space 184, auxiliary use first row stomata with the first air admission hole 185, auxiliary
186th, the second motor 187, the second motor main shaft 188, turbine 189, auxiliary are with hollow housing 1810, auxiliary hollow structure
1811st, baffler groove 1812, auxiliary use second row stomata 1815 and spiral shell with the second air admission hole 1813, baffler 1814, auxiliary
Revolve spring 1816;The circular turbine installation housing 181 is respectively arranged with the auxiliary with its integral structure at the both ends of opposition
With input duct 182 and auxiliary Drainage pipe 183, the circular turbine installation housing 181 is internally provided with turbine installation
Space 184, the auxiliary is provided with input duct 182 with auxiliary with the inside of Drainage pipe 183 connects turbine installation sky
Between 184 auxiliary the first air admission hole 185 and auxiliary first row stomata 186, the circular turbine installs one end of housing 181
Fix one second motor 187, the second motor main shaft 188 in second motor 187, pacify through the circular turbine
Fill housing 181 and its axis body is installing a turbine 189, the auxiliary discharge opeing positioned at the inside of the turbine installing space 184
The bottom of pipeline 183 is provided with uses hollow housing 1810 with the auxiliary of its integral structure hollow housing 1810, the auxiliary
Internal is provided centrally with the auxiliary hollow structure 1811, and the auxiliary is provided with barrier with the top of hollow structure 1811
Plate groove 1812, the auxiliary hollow housing 1810 are internally provided with connection auxiliary first row stomata 186 and baffler
Second air admission hole 1813 of the auxiliary of groove 1812, the auxiliary hollow housing 1810 are internally provided with the connection external world
With the auxiliary second row stomata 1815 of auxiliary hollow structure 1811, the barrier of inside insertion one of the baffler groove 1812
Plate 1814, the auxiliary fix a helical spring 1816, and the top of the helical spring 1816 with the inside of hollow structure 1811
End is fixed on the center of the basal surface of baffler 1814, the exhaust end and primary inlet port of the auxiliary first row stomata 186
17 connections;When the turbine 189 rotates, caused exhaust outlet direction the second air admission hole 1813 of auxiliary;The helical spring
1816 initial length is more than the scope of activities of the auxiliary inside hollow structure 1811, and the device can play additional-air inlet
Effect, its operation principle be when valve core plate 13 moves upwards, turbine 189 cause air air pressure is compressed to by preliminary
Inside contracting space 4, when the air pressure inside air compression stroke 4 is more than the elastic force of helical spring 1816, baffler 1814
Baffler groove 1812 can be removed so that the air caused by turbine is discharged by auxiliary second row stomata 1815, the second electricity
Overloading will not occur in the presence of air pressure in motivation 187, so as to prevent the second motor 187 from burning out.
Referring to Fig. 3, the pressure-air one-way flow mechanism 19 includes pressure-air one-way flow housing 191, spherical
Hollow section 192, steel ball 193, pressure-air one-way flow air admission hole 194 and pressure-air one-way flow steam vent 195;
The pressure-air one-way flow housing 191 is fixed on the inside of hollow housing 1, the pressure-air one-way flow housing 191
Internal is provided centrally with spherical hollow section 192, and a steel ball 193, the height are placed in the inside in the spherical hollow section 192
Pressure air flow in one direction housing 191 is internally provided with the top of connection pressure-air one-way flow housing 191 and spherical hollow area
Between 192 bottom centre pressure-air one-way flow air admission hole 194, the inside of the pressure-air one-way flow housing 191
The pressure-air for being provided with the lower section of connection pressure-air one-way flow housing 191 and the top center of spherical hollow section 192 is unidirectional
Steam vent 195 is used in flowing;The structure radius of the steel ball 193 is less than the structure radius in the spherical hollow section 192, the steel
The structure radius of pearl 193 is more than the pressure-air one-way flow with air admission hole 194 and pressure-air one-way flow steam vent
195 structure radius, when intake air is required, because powerful air pressure can eject steel ball 193, realize the entrance of air
Work, when resting, air blow back is prevented in the presence of the gravity of steel ball 193 and air pressure.
Specifically used mode:In utility model works, in use, by the inlet end for the tank body for needing stored air with being somebody's turn to do
The discharge duct 20 of device is connected by flexible pipe, then opens the first motor 5 and the second motor 187, in the first motor 5
In the presence of so that plectane 7 moves in a circle, in the presence of all parts so that valve core plate 13 does reciprocating, works as valve
When core plate 13 moves upwards, turbine 189 causes air to be compressed to by preliminary inside air compression stroke 4, when air compresses sky
Between air pressure inside 4 when being more than the elastic force of helical spring 1816, baffler 1814 can remove baffler groove 1812 so that
Air caused by turbine is discharged by auxiliary second row stomata 1815, and the second motor 187 will not be in the work of air pressure
There is overloading under, so as to prevent the second motor 187 from burning out, when 13 downward compressed air of valve core plate, strong
Steel ball 193 moves up under big air pressure, realizes that air is discharged, realizes air compression.
It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and
And in the case of without departing substantially from spirit or essential attributes of the present utility model, it can realize that this practicality is new in other specific forms
Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new
The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained
All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation
Involved claim.
Claims (8)
1. a kind of high efficiency air compression plant, including the internal main hollow housing (1) for main hollow structure (4), its feature exist
In:The bottom of the main hollow housing (1) is provided with supporting leg (2), and the top of main hollow housing (1) side is consolidated by bolt
Determine a motor support plate (3), fix one first motor (5) at the top of the motor support plate (3), described first is electronic
The end of the first motor main shaft (6) in machine (5) is fixed on the center of a plectane (7) end face, the plectane (7) it is another
A rotary shaft (8) is fixed in end face at 3/4 radius apart from its center of circle, and the axis body of the rotary shaft (8) is socketed in an axle sleeve (9)
Inside, the bottom of the axle sleeve (9) fixes a connecting rod (10), and the bottom of the connecting rod (10) is provided with and its integral type
The spherical (11) of structure, the inside installation one side of the main hollow structure (4) are socketed with the valve core plate (13) of sealing ring, institute
State the through-hole structure (14) for being internally provided with multiple its upper and lower surface of connection of valve core plate (13), valve core plate (13) upper surface
3/5 hollow sphere housing (12) being provided centrally with its integral structure, the spherical (11) is connected to described hollow
The inside of spherical shell (12), the main hollow housing (1) are being provided with spacing hole positioned at the bottom of main hollow structure (4)
(16), the primary inlet port (17) for being internally provided with connection spacing hole (16) of the main hollow housing (1), the primary inlet port
(17) and the inside of through-hole structure (14) is mounted on air check valve (15), and the exhaust outlet of the air check valve (15) is equal
Towards spacing hole (16), the main hollow housing (1) is being provided with and one positioned at the side of the primary inlet port (17) one end
The auxiliary compression mechanism (18) of body formula structure, the inside of the main hollow housing (1) is positioned at the bottom of the spacing hole (16)
A pressure-air one-way flow mechanism (19) is fixed, the bottom of the main hollow housing (1) is provided with and its integral structure
Discharge duct (20), the discharge duct (20) are internally provided with the connection external world and pressure-air one-way flow mechanism (19)
Main exhaust hole (21).
A kind of 2. high efficiency air compression plant according to claim 1, it is characterised in that:The auxiliary compression mechanism
(18) include circular turbine installation housing (181), auxiliary input duct (182), auxiliary Drainage pipe (183), turbine to pacify
Fill space (184), auxiliary the first air admission hole (185), auxiliary first row stomata (186), the second motor (187), second
Motor main shaft (188), turbine (189), auxiliary hollow housing (1810), auxiliary hollow structure (1811), baffler are recessed
Groove (1812), auxiliary the second air admission hole (1813), baffler (1814), auxiliary use second row stomata (1815) and helical spring
(1816)。
A kind of 3. high efficiency air compression plant according to claim 2, it is characterised in that:The circular turbine mounting shell
Body (181) is respectively arranged with the auxiliary of its integral structure at the both ends of opposition with input duct (182) and auxiliary discharge opeing
Pipeline (183), the circular turbine installation housing (181) are internally provided with turbine installing space (184), and the auxiliary is with entering
Liquid pipe road (182) is provided with the inside of Drainage pipe (183) with auxiliary connects the auxiliary of turbine installing space (184) with the
One air admission hole (185) and auxiliary use first row stomata (186), and one end that the circular turbine installs housing (181) fixes one the
Two motor (187), the second motor main shaft (188) in second motor (187), installed through the circular turbine
Housing (181) and its axis body are installing a turbine (189) positioned at the inside of the turbine installing space (184), and the auxiliary is used
The bottom of Drainage pipe (183) is provided with the auxiliary of its integral structure with hollow housing (1810), and the auxiliary is with hollow
Housing (1810) inside is provided centrally with the auxiliary hollow structure (1811), the auxiliary hollow structure (1811)
Top is provided with baffler groove (1812), and the auxiliary hollow housing (1810) is internally provided with connection auxiliary with first
The auxiliary of steam vent (186) and baffler groove (1812) the second air admission hole (1813), the auxiliary hollow housing
(1810) be internally provided with that connection is extraneous and the auxiliary of auxiliary hollow structure (1811) is with second row stomata (1815), it is described
A baffler (1814) is inserted in the inside of baffler groove (1812), and the auxiliary fixes one with the inside of hollow structure (1811)
Helical spring (1816), and the top of the helical spring (1816) is fixed on the center of the baffler (1814) basal surface,
The auxiliary is connected with the exhaust end of first row stomata (186) with primary inlet port (17).
A kind of 4. high efficiency air compression plant according to claim 3, it is characterised in that:Turbine (189) rotation
When, caused exhaust outlet direction is aided in the second air admission hole (1813).
A kind of 5. high efficiency air compression plant according to claim 4, it is characterised in that:The helical spring (1816)
Initial length be more than the auxiliary internal scope of activities of hollow structure (1811).
A kind of 6. high efficiency air compression plant according to claim 1, it is characterised in that:The pressure-air unidirectionally flows
Motivation structure (19) includes pressure-air one-way flow housing (191), spherical hollow section (192), steel ball (193), pressure-air
One-way flow air admission hole (194) and pressure-air one-way flow steam vent (195).
A kind of 7. high efficiency air compression plant according to claim 6, it is characterised in that:The pressure-air unidirectionally flows
Dynamic housing (191) is fixed on the inside of hollow housing (1), and the internal center of the pressure-air one-way flow housing (191) is set
Spherical hollow section (192) is equipped with, a steel ball (193), the pressure-air are placed in the inside of the spherical hollow section (192)
One-way flow housing (191) is internally provided with above connection pressure-air one-way flow housing (191) and spherical hollow section
(192) the pressure-air one-way flow of bottom centre is with air admission hole (194), the pressure-air one-way flow housing (191)
It is internally provided with the high pressure with spherical hollow section (192) top center below connection pressure-air one-way flow housing (191)
Air flow in one direction is with steam vent (195).
A kind of 8. high efficiency air compression plant according to claim 7, it is characterised in that:The knot of the steel ball (193)
Structure radius is less than the structure radius of the spherical hollow section (192), and the structure radius of the steel ball (193) is more than the high pressure
Air flow in one direction air admission hole (194) and the structure radius of pressure-air one-way flow steam vent (195).
Priority Applications (1)
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CN201721193280.8U CN207195252U (en) | 2017-09-18 | 2017-09-18 | A kind of high efficiency air compression plant |
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CN201721193280.8U CN207195252U (en) | 2017-09-18 | 2017-09-18 | A kind of high efficiency air compression plant |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109356400A (en) * | 2018-12-01 | 2019-02-19 | 潍坊工程职业学院 | A kind of interior decoration ceiling support device |
CN111237173A (en) * | 2020-01-15 | 2020-06-05 | 湖北气佬板节能技术有限公司 | Boosting device based on air compressor |
-
2017
- 2017-09-18 CN CN201721193280.8U patent/CN207195252U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109356400A (en) * | 2018-12-01 | 2019-02-19 | 潍坊工程职业学院 | A kind of interior decoration ceiling support device |
CN111237173A (en) * | 2020-01-15 | 2020-06-05 | 湖北气佬板节能技术有限公司 | Boosting device based on air compressor |
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