One supercharging device with output pressure control function
Technical field
The present invention relates to field of mechanical technique, specially one supercharging devices with output pressure control function.
Background technique
Currently, in order to realize the difference in height discharge of liquid, water plug can be all used in some places, and due to height
The influence of difference, leads to the output insufficient height or weaker of some water plugs, at this point, supercharging device is just needed, and it is general
Supercharging device is unable to control output pressure, so causing the pressure value inside main pumping conduit unstable, will affect main pumping
The proper flow of waterpipe inside water pressure.
Summary of the invention
The purpose of the present invention is to provide a supercharging devices with output pressure control function, to solve above-mentioned background skill
The problem of being proposed in art.
To achieve the above object, the invention provides the following technical scheme: a pressurization with output pressure control function fills
It sets, including bottom installation base plate, the bottom installation base plate is internally provided with multiple kingbolts for installation, the bottom
A motor mounting plate is installed in the side of installation base plate upper surface, and a whirlpool is installed in the other side of bottom installation base plate upper surface
Installation base plate is taken turns, a motor is installed at the top of the motor mounting plate, and a whirlpool is installed at the top of the turbine installation base plate
Wheel pressurization installing mechanism, the secondary rotary shaft of center installation one of the turbocharging installing mechanism, the axis body of the pair rotary shaft are logical
The inside that base bearing is mounted on turbocharging installing mechanism is crossed, the pair rotary shaft is being located in the turbocharging installing mechanism
One main turbine is installed, the motor main shaft end in the motor is connected outside a hollow rotation by connecting plate on the axis body in portion
Shell, the hollow rotational shell are provided centrally with main hollow structure, and hollow one end face of rotational shell is provided centrally with
It is connected to the main through-hole structure of main hollow structure, the hollow rotational shell end face is provided with multiple about the hollow rotational shell
Axial line be the setting of center of circle circular array threaded hole, a main rotating shaft is installed in the inside of the main through-hole structure, described
Main rotating shaft installs a main plectane in the one end being located inside the main hollow structure, and an end face of the main plectane is provided with more
A axle center about main plectane is the main hemispherical groove structure of center of circle circular array setting, the inside of each threaded hole
By the maximum rotation dynamics unit control mechanism of main thread structure connection one, the other end installation one of the main rotating shaft is flexible
Property lateral length regulating mechanism, one end of the retractility lateral length regulating mechanism is fixedly connected with the end of secondary rotary shaft.
Further, the maximum rotation dynamics unit control mechanism includes that maximum rotation dynamics unit control mechanism is empty
Heart shell, maximum rotation dynamics unit control mechanism external thread structure, maximum rotation dynamics unit control mechanism limit plate,
Maximum rotation dynamics unit control mechanism through-hole structure, maximum rotation dynamics unit control mechanism hollow structure, maximum rotation
Turn dynamics unit control mechanism movable plate, maximum rotation dynamics unit control mechanism helical spring, maximum rotation dynamics list
First control mechanism push rod and maximum rotation dynamics unit control mechanism snaphead;The maximum rotation dynamics unit control
Maximum rotation dynamics unit control mechanism external thread structure, the maximum rotary force are provided on the outside of mechanism hollow casing
Degree unit control mechanism is provided with one end of hollow casing side and is controlled with the maximum rotation dynamics unit of its integral structure
Mechanism limit plate, the maximum rotation dynamics unit control mechanism hollow casing are internally provided with maximum rotation dynamics list
One end face of first control mechanism hollow structure, the maximum rotation dynamics unit control mechanism hollow casing is provided centrally with
Maximum rotation dynamics unit control mechanism through-hole structure, in the maximum rotation dynamics unit control mechanism hollow structure
Place a maximum rotation dynamics unit control mechanism movable plate, the maximum rotation dynamics unit control mechanism movable plate in portion
An end face installation one be in compressive state maximum rotation dynamics unit control mechanism helical spring, it is described maximum rotary force
Spend the maximum rotation dynamics unit control mechanism push rod of other end center installation one of unit control mechanism movable plate, it is described most
The body of rod of big rotation dynamics unit control mechanism push rod runs through the maximum rotation dynamics unit control mechanism through-hole structure,
And the end of the maximum rotation dynamics unit control mechanism push rod is provided with the maximum rotation dynamics with its integral structure
Unit control mechanism snaphead.
Further, the interior spiral shell in the maximum rotation dynamics unit control mechanism external thread structure and main thread structure
Line structure is meshed.
Further, the construction profile and size and hemisphere of the maximum rotation dynamics unit control mechanism snaphead
The construction profile and size of connected in star structure correspond to identical.
Further, the retractility lateral length regulating mechanism includes retractility lateral length regulating mechanism with hollow outer
Shell, retractility lateral length regulating mechanism hollow structure, retractility lateral length regulating mechanism through-hole structure, retractility are horizontal
It is lateral to length adjustment mechanism bar shaped hemispherical groove structure, retractility lateral length regulating mechanism movable plate and retractility
Length adjustment mechanism hemispherical projections structure;Center inside the retractility lateral length regulating mechanism hollow casing is set
It is equipped with retractility lateral length regulating mechanism hollow structure, described retractility lateral length regulating mechanism hollow casing one end
Face is provided centrally with retractility lateral length regulating mechanism through-hole structure, the retractility lateral length regulating mechanism through-hole
The both ends of structure are respectively communicated with retractility lateral length regulating mechanism hollow structure and the external world, the retractility lateral length tune
Section mechanism multiple is in being located to be provided on the inside of the retractility lateral length regulating mechanism hollow structure with hollow casing
The retractility lateral length regulating mechanism bar shaped hemispherical groove structure of annular array setting, the retractility lateral length tune
It saves mechanism hollow casing and one retractility is installed in the inside for being located at the retractility lateral length regulating mechanism hollow structure
Lateral length regulating mechanism movable plate, the side of the retractility lateral length regulating mechanism movable plate, which is provided with, multiple is in
The retractility lateral length regulating mechanism hemispherical projections structure of annular array setting, the retractility lateral length adjust machine
Structure is fixedly connected with the center of one end face of movable plate with one end of secondary rotary shaft, and the axis body of the secondary rotary shaft is stretched through described
Contracting lateral length regulating mechanism through-hole structure.
Further, center and main rotating shaft of the retractility lateral length regulating mechanism with hollow casing other end
One end be fixedly connected.
Further, multiple retractility lateral length regulating mechanism bar shaped hemispherical groove structures and retractility are horizontal
Axis to length adjustment mechanism with hemispherical projections structure about the retractility lateral length regulating mechanism hollow casing
Heart line is the setting of center of circle circular array.
Further, the turbocharging installing mechanism includes turbocharging installing mechanism cylinder type hollow shell, whirlpool
Wheel pressurization installing mechanism turbine installation space, turbocharging installing mechanism bearing mounting hole, turbocharging installing mechanism are used
Input duct body, turbocharging installing mechanism Drainage pipe body, turbocharging installing mechanism input duct hole and turbine increase
Press installing mechanism Drainage pipe hole;The turbocharging installing mechanism cylinder type hollow interior of shell is provided centrally with whirlpool
Wheel pressurization installing mechanism turbine installation space, the turbocharging installing mechanism are set with the side of cylinder type hollow cover top portion
It is equipped with the turbocharging installing mechanism inlet tube being an integral structure with turbocharging installing mechanism with cylinder type hollow shell
Road body, the turbocharging installing mechanism input duct body are internally provided with the connection external world and turbocharging installing mechanism use
The turbocharging installing mechanism input duct hole of turbine installation space, outside the turbocharging installing mechanism cylinder type hollow
The side of shell bottom, which is provided with, is pacified with turbocharging installing mechanism with the turbocharging that cylinder type hollow shell is an integral structure
Mounting mechanism Drainage pipe body, the turbocharging installing mechanism Drainage pipe body are internally provided with the connection external world and turbine
It is pressurized the turbocharging installing mechanism Drainage pipe hole of installing mechanism turbine installation space, the turbocharging installing mechanism
Turbocharging installing mechanism bearing mounting hole is provided centrally with cylinder type hollow shell.
Further, the inside of the turbocharging installing mechanism bearing mounting hole is equipped with base bearing, and the whirlpool
Wheel pressurization installing mechanism is fixed on the top of turbine installation base plate with the bottom of cylinder type hollow shell.
Further, turbocharging installing mechanism input duct body and turbocharging installing mechanism Drainage pipe
The sideline of body is connect with the perimeter tangent of turbocharging installing mechanism cylinder type hollow shell.
Compared with prior art, the beneficial effects of the present invention are: the present invention is used for the pressurization of liquid output, to protect
The pressure value and uninterrupted for demonstrate,proving output liquid, moreover, the device can effectively control the maximum pressure value of pressurization value, to protect
The not too big hydraulic pressure and water flow influenced inside main pumping conduit is demonstrate,proved, it is adaptable, moreover, the device has maximum rotary force
Unit control mechanism is spent, peak torque power when rotation can be effectively controlled, thus maximum output pressure when being converted into pressurization
Value, in addition, the device has retractility lateral length regulating mechanism, it can be real while realizing laterally free adjustment length
The transmitting effect of existing rotation status, in addition, there is the device turbocharging installing mechanism more to be accorded in tangentially connected mode
The attraction and output of Heshui stream, it is practical.
Detailed description of the invention
Fig. 1 is the complete section structural schematic diagram of supercharging device of the present invention one with output pressure control function;
Fig. 2 is knot of the present invention one with rotation dynamics unit control mechanism maximum in the supercharging device of output pressure control function
Structure schematic diagram;
Fig. 3 is structure of the present invention one with retractility lateral length regulating mechanism in the supercharging device of output pressure control function
Schematic diagram;
Fig. 4 is structural representation of the present invention one with turbocharging installing mechanism in the supercharging device of output pressure control function
Figure;
In figure: 1, bottom installation base plate, 2, kingbolt, 3, motor mounting plate, 4, motor, 5, turbine installation base plate, 6, electricity
Motivation main shaft, 7, hollow rotational shell, 8, main hollow structure, 9, main through-hole structure, 10, threaded hole, 11, main thread structure, 12,
Maximum rotation dynamics unit control mechanism, 121, maximum rotation dynamics unit control mechanism hollow casing, 122, maximum rotation
Dynamics unit control mechanism external thread structure, 123, maximum rotation dynamics unit control mechanism limit plate, 124, maximum rotation
Turn dynamics unit control mechanism through-hole structure, 125, maximum rotation dynamics unit control mechanism hollow structure, 126 are maximum
Rotation dynamics unit control mechanism movable plate, 127, maximum rotation dynamics unit control mechanism helical spring, 128 are maximum
Rotation dynamics unit control mechanism push rod, 129, maximum rotation dynamics unit control mechanism snaphead, 13, main rotation
Axis, 14, main plectane, 15, main hemispherical groove structure, 16, retractility lateral length regulating mechanism, 161, retractility lateral length
Regulating mechanism hollow casing, 162, retractility lateral length regulating mechanism hollow structure, 163, retractility lateral length tune
Save mechanism through-hole structure, 164, retractility lateral length regulating mechanism bar shaped hemispherical groove structure, 165, retractility cross
To length adjustment mechanism movable plate, 166, retractility lateral length regulating mechanism hemispherical projections structure, 17, pair rotation
Axis, 18, turbocharging installing mechanism, 181, turbocharging installing mechanism cylinder type hollow shell, 182, turbocharging installation
Mechanism turbine installation space, 183, turbocharging installing mechanism bearing mounting hole, 184, turbocharging installing mechanism with into
Liquid pipe road body, 185, turbocharging installing mechanism Drainage pipe body, 186, turbocharging installing mechanism input duct hole,
187, turbocharging installing mechanism Drainage pipe hole, 19, main turbine, 20, base bearing.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Referring to Fig. 1, a kind of embodiment provided by the invention: including bottom installation base plate 1, the bottom installation base plate 1
Be internally provided with multiple kingbolts 2 for installation, motor peace is installed in the side of 1 upper surface of bottom installation base plate
A turbine installation base plate 5 is installed in the other side of loading board 3,1 upper surface of bottom installation base plate, the motor mounting plate 3
A motor 4 is installed at top, and a turbocharging installing mechanism 18 is installed at the top of the turbine installation base plate 5, and the turbine increases
The secondary rotary shaft 17 of center installation one of installing mechanism 18 is pressed, the axis body of the pair rotary shaft 17 is mounted on turbine by base bearing 20
It is pressurized the inside of installing mechanism 18, the pair rotary shaft 17 is pacified on the axis body being located inside the turbocharging installing mechanism 18
A main turbine 19 is filled, 6 end of motor main shaft in the motor 4 connects a hollow rotational shell 7 by connecting plate, described
Hollow rotational shell 7 is provided centrally with main hollow structure 8, and hollow 7 one end face of rotational shell is provided centrally with connection
The main through-hole structure 9 of main hollow structure 8, hollow 7 end face of rotational shell are provided with multiple about the hollow rotational shell 7
Axial line be the setting of center of circle circular array threaded hole 10, the inside of the main through-hole structure 9 installs a main rotating shaft 13,
The main rotating shaft 13 be located at the main hollow structure 8 inside one end installation one main plectane 14, the one of the main plectane 14
End face is provided with the main hemispherical groove structure 15 that multiple axle center about main plectane 14 are the setting of center of circle circular array, each
The inside of the threaded hole 10 passes through the maximum rotation dynamics unit control mechanism 12 of the connection of main thread structure 11 one, the main rotation
The other end one retractility lateral length regulating mechanism 16 of installation of shaft 13, the one of the retractility lateral length regulating mechanism 16
It holds and is fixedly connected with the end of secondary rotary shaft 17.
Referring to Fig. 2, the maximum rotation dynamics unit control mechanism 12 includes maximum rotation dynamics unit control mechanism
Machine is controlled with hollow casing 121, maximum rotation dynamics unit control mechanism external thread structure 122, maximum rotation dynamics unit
Structure limit plate 123, maximum rotation dynamics unit control mechanism through-hole structure 124, maximum rotation dynamics unit control mechanism
It is used with hollow structure 125, maximum rotation dynamics unit control mechanism movable plate 126, maximum rotation dynamics unit control mechanism
Helical spring 127, maximum rotation dynamics unit control mechanism push rod 128 and maximum rotation dynamics unit control mechanism hemisphere
Forming head 129;The maximum rotation dynamics unit control mechanism is provided with maximum rotation dynamics unit with the outside of hollow casing 121
Control mechanism external thread structure 122, the maximum rotation dynamics unit control mechanism are set with one end of 121 side of hollow casing
It is equipped with the maximum rotation dynamics unit control mechanism limit plate 123 with its integral structure, the maximum rotation dynamics unit
Control mechanism hollow casing 121 is internally provided with maximum rotation dynamics unit control mechanism hollow structure 125, it is described most
One end face of big rotation dynamics unit control mechanism hollow casing 121 is provided centrally with maximum rotation dynamics unit control mechanism
With through-hole structure 124, a maximum rotary force is placed in the inside of the maximum rotation dynamics unit control mechanism hollow structure 125
Spend unit control mechanism movable plate 126, the end face installation of the maximum rotation dynamics unit control mechanism movable plate 126
One is in the maximum rotation dynamics unit control mechanism helical spring 127 of compressive state, the maximum rotation dynamics unit control
The maximum rotation dynamics unit control mechanism push rod 128 of other end center installation one of mechanism processed movable plate 126, the maximum
Rotation dynamics unit control mechanism is with the body of rod of push rod 128 through the maximum rotation dynamics unit control mechanism through-hole structure
124, and the maximum rotation dynamics unit control mechanism is provided with the end of push rod 128 and is revolved with the maximum of its integral structure
Turn dynamics unit control mechanism snaphead 129;It is described maximum rotation dynamics unit control mechanism external thread structure 122 with
Internal thread structure in main thread structure 11 is meshed;The maximum rotation dynamics unit control mechanism snaphead 129
Construction profile and size are corresponding identical as the construction profile of hemispherical groove structure 15 and size, and main function is: due to most
Big rotation dynamics unit control mechanism is meshed with external thread structure 122 with the internal thread structure in main thread structure 11;It is described
The construction profile and size of maximum rotation dynamics unit control mechanism snaphead 129 and the structure of hemispherical groove structure 15
Shape and size correspond to it is identical, so the device can screw up the inside of each threaded hole 10 under the action of helicitic texture,
Since maximum rotation dynamics unit control mechanism helical spring 127 is in compressive state, so can be by maximum rotation dynamics
Unit control mechanism snaphead 129 is contradicted in the inside of hemispherical groove structure 15, and the dynamics required for rotating is greater than
When the elastic force of maximum rotation dynamics unit control mechanism helical spring 127, maximum rotation dynamics unit control mechanism spiral
Spring 127 can be compressed, and maximum rotation dynamics unit control mechanism snaphead 129 can exit hemispherical groove structure 15,
To realize relative rotation.
Referring to Fig. 3, the retractility lateral length regulating mechanism 16 includes that retractility lateral length regulating mechanism is empty
Heart shell 161, retractility lateral length regulating mechanism hollow structure 162, retractility lateral length regulating mechanism through-hole knot
Structure 163, retractility lateral length regulating mechanism bar shaped hemispherical groove structure 164, retractility lateral length regulating mechanism are used
Movable plate 165 and retractility lateral length regulating mechanism hemispherical projections structure 166;The retractility lateral length adjusts machine
Retractility lateral length regulating mechanism hollow structure 162, the retractility are provided centrally with inside structure hollow casing 161
Lateral length regulating mechanism is provided centrally with retractility lateral length regulating mechanism through-hole structure with 161 1 end face of hollow casing
163, the retractility lateral length regulating mechanism is respectively communicated with retractility lateral length with the both ends of through-hole structure 163 and adjusts machine
Structure hollow structure 162 and the external world, the retractility lateral length regulating mechanism are being located at the retractility with hollow casing 161
Lateral length regulating mechanism is provided with the retractility lateral length tune of multiple circular array settings with the inside of hollow structure 162
Mechanism bar shaped hemispherical groove structure 164 is saved, the retractility lateral length regulating mechanism is being located at institute with hollow casing 161
The inside for stating retractility lateral length regulating mechanism hollow structure 162 is installed by the movement of one retractility lateral length regulating mechanism
Plate 165, the retractility lateral length regulating mechanism are provided with stretching for multiple circular arrays settings with the side of movable plate 165
Contracting lateral length regulating mechanism hemispherical projections structure 166, the retractility lateral length regulating mechanism movable plate 165
The center of one end face is fixedly connected with one end of secondary rotary shaft 17, and the axis body of the secondary rotary shaft 17 is horizontal through the retractility
To length adjustment mechanism through-hole structure 163;The retractility lateral length regulating mechanism 161 other end of hollow casing
Center is fixedly connected with one end of main rotating shaft 13;Multiple retractility lateral length regulating mechanism bar shaped hemispherical grooves
Structure 164 and retractility lateral length regulating mechanism are with hemispherical projections structure 166 about the retractility lateral length tune
Section mechanism is the setting of center of circle circular array with the axial line of hollow casing 161, and main function is: since retractility is laterally long
Degree regulating mechanism is fixedly connected with the center of 161 other end of hollow casing with one end of main rotating shaft 13;It is multiple described flexible
Property lateral length regulating mechanism bar shaped hemispherical groove structure 164 and retractility lateral length regulating mechanism hemispherical projections
Structure 166 is center of circle circular array with the axial line of hollow casing 161 about the retractility lateral length regulating mechanism
Setting, so retractility lateral length regulating mechanism hollow casing 161 and retractility lateral length regulating mechanism movable plate
It can be realized the transmitting of rotation status between 165, while will not influence retractility lateral length regulating mechanism movable plate 165
Transverse shifting.
Referring to Fig. 4, the turbocharging installing mechanism 18 includes turbocharging installing mechanism cylinder type hollow shell
181, turbocharging installing mechanism turbine installation space 182, turbocharging installing mechanism bearing mounting hole 183, turbine increase
Installing mechanism input duct body 184, turbocharging installing mechanism Drainage pipe body 185, turbocharging installing mechanism is pressed to use
Input duct hole 186 and turbocharging installing mechanism Drainage pipe hole 187;The turbocharging installing mechanism cylindrical empty
Turbocharging installing mechanism turbine installation space 182, the turbocharging fitting machine are provided centrally with inside heart shell 181
Structure is provided with the side at 181 top of cylinder type hollow shell
The turbocharging installing mechanism input duct body 184 of integral structure, the turbocharging installing mechanism input duct body
The 184 turbocharging installing mechanism for being internally provided with the connection external world and turbocharging installing mechanism turbine installation space 182
With input duct hole 186, the turbocharging installing mechanism is provided with the side of 181 bottom of cylinder type hollow shell and turbine
The turbocharging installing mechanism Drainage pipe body 185 that pressurization installing mechanism cylinder type hollow shell 181 is an integral structure,
The turbocharging installing mechanism Drainage pipe body 185 is internally provided with the connection external world and turbocharging installing mechanism whirlpool
Take turns the turbocharging installing mechanism Drainage pipe hole 187 of installation space 182, the turbocharging installing mechanism cylindrical empty
Heart shell 181 is provided centrally with turbocharging installing mechanism bearing mounting hole 183;The turbocharging installing mechanism axis
The inside for holding mounting hole 183 is equipped with base bearing 17, and the bottom of the turbocharging installing mechanism cylinder type hollow shell 181
Portion is fixed on the top of turbine installation base plate 5;Turbocharging installing mechanism input duct body 184 and turbocharging installation
The sideline of mechanism Drainage pipe body 185 and the perimeter of the turbocharging installing mechanism cylinder type hollow shell 181 are tangent
Formula connection, main function is: in use, the end of turbocharging installing mechanism input duct body 184 is placed into one
Pipeline inside reservoir is attached, and then again connects the end of turbocharging installing mechanism Drainage pipe body 185 with one
The pipeline for connecing main drainage pipeline is attached.
Specifically used mode: in present invention work, bottom installation base plate 1 is bolted on working position, then
Pumping conduit and turbocharging installing mechanism 18 are attached, when work, motor 4 is opened, at this point, motor 4 drives respectively
A component is rotated, under the transmitting of dynamics, the main quickly rotation of turbine 19, so that the liquid being located inside reservoir enters
Inside main discharge tube, when occur causes hydraulic pressure excessive since main 19 rotation speed of turbine is too fast, maximum rotation dynamics list
First control mechanism 12 works, so that motor 4 continues to rotate, and main turbine 19 stops working, to prevent hydraulic pressure excessive.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.