CN110465051A - A kind of Telescopic Fixed formula exercising apparatus of counterbody - Google Patents
A kind of Telescopic Fixed formula exercising apparatus of counterbody Download PDFInfo
- Publication number
- CN110465051A CN110465051A CN201910743890.8A CN201910743890A CN110465051A CN 110465051 A CN110465051 A CN 110465051A CN 201910743890 A CN201910743890 A CN 201910743890A CN 110465051 A CN110465051 A CN 110465051A
- Authority
- CN
- China
- Prior art keywords
- collision type
- control mechanism
- type maximum
- hydraulic pressure
- helical spring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/068—User-manipulated weights using user's body weight
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B23/00—Exercising apparatus specially adapted for particular parts of the body
- A63B23/035—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously
- A63B23/12—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for upper limbs or related muscles, e.g. chest, upper back or shoulder muscles
- A63B23/1209—Involving a bending of elbow and shoulder joints simultaneously
- A63B23/1218—Chinning, pull-up, i.e. concentric movement
Abstract
The invention discloses a kind of Telescopic Fixed formula exercising apparatus of counterbody, including main thread sleeve and main hollow stem.The present invention utilizes the technology of hydraulic pressures technology and reverse thread structure, the device is enabled to realize elongation, it contradicts between two symmetrical metopes, realize the clamping installation of collision type, stability is strong, wall inside will not be caused to damage, it drives simultaneously conveniently, it can be installed according to specific location, it is effectively utilized some spatial positions, and, the device has helical spring elasticity collision type maximum hydraulic pressure control mechanism, utilize the elasticity of spring, maximum hydraulic pressure pressure value inside control, it prevents fluid pressure excessive and main thread structure is caused to damage, guard block, furthermore, the device has piston sealed fluid-driving mechanism, it can be under the action of liquid, it is driven, in addition, the device has annular array elasticity collision type maximum spin intensity control mechanism, it prevents from damaging phenomenon caused by the pressure being subject to is excessive Generation.
Description
Technical field
The present invention relates to exercise apparatus technical field, specially a kind of Telescopic Fixed formula exercising apparatus of counterbody.
Background technique
Currently, in exercise place, what is lacked is chin-up exercising apparatus, because of the ground epitope that the device occupies
It sets, so inner space position can not preferably be used, limitation is bigger.
Summary of the invention
The purpose of the present invention is to provide a kind of Telescopic Fixed formula exercising apparatus of counterbody, to solve above-mentioned background technique
The problem of middle proposition.
To achieve the above object, the invention provides the following technical scheme: a kind of Telescopic Fixed formula exercising apparatus of counterbody,
Including main thread sleeve and main hollow stem, the main thread sleeve inner is provided centrally with fluid storage space, the main spiral shell
The both ends of line sleeve inner are respectively arranged with the first screw thread section and the second screw thread section, the side master of the main thread sleeve into
The inside of fluid apertures and main drainage hole, the main inlet opening and main drainage hole is separately installed with liquid spool and helical spring elasticity is supported
The inside of touch maximum hydraulic pressure control mechanism, the fluid storage space is installed by two symmetrical piston sealed liquid driven machines
Structure, the two piston sealed fluid-driving mechanisms are separately installed with connection by base bearing at one end center outside
Axis, the axis body of two connecting shafts runs through the center of main thread sleeve, and the connecting shaft is being located at first screw thread section
The first threaded rod and the second threaded rod, first threaded rod and second are separately installed with one end inside the second screw thread section
Threaded rod is connect with the inner wall in the first screw thread section and the second screw thread section by main thread structure, and the main thread structure includes
The internal thread structure in the first screw thread section and the second screw thread section inner wall is set and is arranged in the first threaded rod and the second screw thread
External thread structure on club shaft, and it is located at the screw thread side of external thread structure on first threaded rod and the second screw thread club shaft
To on the contrary, the outer end of first threaded rod and the second threaded rod is respectively mounted an annular array elasticity collision type maximum spin intensity
One end center of control mechanism, the two annular array elasticity collision type maximum spin intensity control mechanisms is respectively mounted a main rotation
Axis, the end of two main rotating shafts are respectively mounted a main touch panel, and the end face of the two main touch panels is provided with integral structure
Hemisphere jut structure, a collar bush is respectively mounted on the axis body of two main rotating shafts, and the installation one of two collar bushes is symmetrical
Main L shape telescopic rod, the main hollow stem are provided centrally with main insertion hole, the lateral body of rod insertion of the two main L shape telescopic rods
To the inside in main insertion hole, the bottom of the main hollow stem is equipped with multiple L shape pull rods.
Further, the helical spring elasticity collision type maximum hydraulic pressure control mechanism includes helical spring elasticity collision type
Maximum hydraulic pressure control mechanism hollow casing, helical spring elasticity collision type maximum hydraulic pressure control mechanism empty liquid sealing ring, spiral shell
Revolve spring collision type maximum hydraulic pressure control mechanism hollow structure, helical spring elasticity collision type maximum hydraulic pressure control mechanism
With drainage hole, helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space, helical spring elasticity collision type
Maximum hydraulic pressure control mechanism inlet opening, helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate, helical spring
Elastic collision type maximum hydraulic pressure control mechanism valve plate, helical spring elasticity collision type maximum hydraulic pressure control mechanism liquid-passing hole and
Helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring;The helical spring elasticity collision type maximum hydraulic pressure control
The side of mechanism hollow casing processed is socketed a helical spring elasticity collision type maximum hydraulic pressure control mechanism empty liquid sealing ring, institute
The helical spring elasticity that is provided centrally with inside helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing is stated to support
Touch maximum hydraulic pressure control mechanism hollow structure, the helical spring elasticity collision type maximum hydraulic pressure control mechanism is with hollow outer
Shell is provided with helical spring in the side for being located at the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure
Elastic collision type maximum hydraulic pressure control mechanism drainage hole, the helical spring elasticity collision type maximum hydraulic pressure control mechanism row
One end of one end connection helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing of fluid apertures, the helical spring
Elastic collision type maximum hydraulic pressure control mechanism hollow casing is being located at helical spring elasticity collision type maximum hydraulic pressure control
The other side of mechanism hollow structure is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space,
The helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing is being located at the helical spring elasticity collision type
Maximum hydraulic pressure control mechanism is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism with the side of valve plate insertion space
With inlet opening, the helical spring elasticity collision type maximum hydraulic pressure control mechanism is connected to the helical spring elasticity with inlet opening and supports
The other side of touch maximum hydraulic pressure control mechanism hollow casing, the helical spring elasticity collision type maximum hydraulic pressure control mechanism
With hollow casing in the inside installation one for being located at the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure
Helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate, the helical spring elasticity collision type maximum hydraulic pressure control
Mechanism movable plate is being located at the helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space side
End face center is provided with the helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate with its integral structure, the spiral shell
The side of rotation spring collision type maximum hydraulic pressure control mechanism movable plate is provided with the helical spring bullet for being connected to its both ends of the surface
Property collision type maximum hydraulic pressure control mechanism liquid-passing hole, helical spring elasticity collision type maximum hydraulic pressure control mechanism movement
The other end of plate is installed by one helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring.
Further, the helical spring elasticity collision type maximum hydraulic pressure control mechanism is connected to main row with empty liquid sealing ring
One end of the inside of fluid apertures, the helical spring elasticity collision type maximum hydraulic pressure control mechanism inlet opening is connected to liquid air storage
Between.
Further, the initial length of the helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring is big
In the lateral length of the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure.
Further, the piston sealed fluid-driving mechanism includes piston sealed fluid-driving mechanism piston
Valve, piston sealed fluid-driving mechanism tapered guide moving structure, piston sealed fluid-driving mechanism are with first annular
Groove structure, piston sealed fluid-driving mechanism second annular groove structure, piston sealed fluid-driving mechanism are with
One sealing ring, the second sealing ring of piston sealed fluid-driving mechanism and piston sealed fluid-driving mechanism are installed with the body of rod
Groove structure;The piston sealed fluid-driving mechanism is provided with the piston seal with its integral structure with piston valve one end
The other end center of formula fluid-driving mechanism tapered guide moving structure, piston sealed fluid-driving mechanism piston valve is set
It is equipped with piston sealed fluid-driving mechanism body of rod installation groove structure, piston sealed fluid-driving mechanism piston valve
Upper bit is respectively arranged with piston sealed fluid-driving mechanism first annular groove structure and piston sealed liquid under side
Body driving mechanism second annular groove structure, and piston sealed fluid-driving mechanism first annular groove structure and piston
Sealed liquid driving mechanism is separately installed with piston sealed fluid-driving mechanism with the inside of second annular groove structure and uses
First sealing ring, the second sealing ring of piston sealed fluid-driving mechanism, piston sealed fluid-driving mechanism are pacified with the body of rod
Fill groove structure and piston sealed fluid-driving mechanism conflict bar, the piston sealed fluid-driving mechanism piston valve
The other end be provided centrally with piston sealed fluid-driving mechanism and contradict bar.
Further, the two piston sealed fluid-driving mechanisms are mounted in liquid compression space with piston valve
Portion, and two-piston sealed liquid driving mechanism is symmetrical arranged with bar is contradicted.
Further, main connection is installed in the inside of piston sealed fluid-driving mechanism body of rod installation groove structure
One end body of rod of axis.
Further, the annular array elasticity collision type maximum spin intensity control mechanism includes that annular array elasticity is supported
The main hollow housing of touch maximum spin intensity control mechanism, annular array elasticity collision type maximum spin intensity control mechanism are used
Main hollow section, annular array elasticity collision type maximum spin intensity control mechanism column spinner, annular array elasticity collision type
Maximum spin intensity control mechanism semi-circular recesses structure, annular array elasticity collision type maximum spin intensity control mechanism are used
Secondary hollow section, annular array elasticity collision type maximum spin intensity control mechanism movable plate, annular array elasticity collision type
Maximum spin intensity control mechanism helical spring and annular array elasticity collision type maximum spin intensity control mechanism push rod;
The center of main one end face of hollow housing of the annular array elasticity collision type maximum spin intensity control mechanism and one first spiral shell
The end of rasp bar and the second screw thread club shaft is fixedly connected, the annular array elasticity collision type maximum spin intensity control mechanism
It is the main hollow area of the annular array elasticity collision type maximum spin intensity control mechanism with the center inside main hollow housing
Between, the annular array elasticity collision type maximum spin intensity control mechanism is being located at the annular array bullet with main hollow housing
Property the main hollow section of collision type maximum spin intensity control mechanism inside be socketed annular array elasticity collision type maximum rotation
Turn strength control mechanism column spinner, the main hollow housing of the annular array elasticity collision type maximum spin intensity control mechanism
Inside be the hollow section of annular array elasticity collision type maximum spin intensity control mechanism pair, the annular array elasticity is supported
The inside in the secondary hollow section of touch maximum spin intensity control mechanism is being located at annular array elasticity collision type maximum rotation
Place annular array elasticity collision type maximum spin intensity control machine in the end face for turning the main hollow section of strength control mechanism
Structure movable plate, the secondary hollow section of the annular array elasticity collision type maximum spin intensity control mechanism is in place in the ring
Annular array elasticity conflict is fixed between one end of shape array elasticity collision type maximum spin intensity control mechanism movable plate
Formula maximum spin intensity control mechanism helical spring, the annular array elasticity collision type maximum spin intensity control mechanism are used
One end face of movable plate is provided with to be used with the annular array elasticity collision type maximum spin intensity control mechanism of its integral structure
Push rod, and the annular array elasticity collision type maximum spin intensity control mechanism is supported with push rod through the annular array elasticity
The main hollow housing of touch maximum spin intensity control mechanism, and it is located at the annular array elasticity collision type maximum spin intensity
The inside in the main hollow section of control mechanism, the annular array elasticity collision type maximum spin intensity control mechanism push rod exist
It with the one end in main hollow section is semicircular structure positioned at the annular array elasticity collision type maximum spin intensity control mechanism,
The side of the annular array elasticity collision type maximum spin intensity control mechanism column spinner is provided with for placing the ring
The annular array elasticity collision type maximum rotation of shape array elasticity collision type maximum spin intensity control mechanism push rod end is strong
Spend control mechanism semi-circular recesses structure, the annular array elasticity collision type maximum spin intensity control mechanism column spinner
One end and the end of main rotating shaft fix.
Further, the initial length of the annular array elasticity collision type maximum spin intensity control mechanism helical spring
Degree is greater than the length in the secondary hollow section of the annular array elasticity collision type maximum spin intensity control mechanism.
Further, outside structure of the annular array elasticity collision type maximum spin intensity control mechanism with push rod end
Shape and annular array elasticity collision type maximum spin intensity control mechanism are consistent with the construction profile of semi-circular recesses structure.
Compared with prior art, the beneficial effects of the present invention are: the present invention utilizes hydraulic pressures technology and reverse thread knot
The technology of structure enables to the device to realize elongation, contradicts between two symmetrical metopes, realizes the clamping installation of collision type, surely
It is qualitative strong, wall inside will not be caused to damage, while driving conveniently, can be installed according to specific location, efficiently used
Some spatial positions utilize the bullet of spring moreover, the device has helical spring elasticity collision type maximum hydraulic pressure control mechanism
Property, internal maximum hydraulic pressure pressure value is controlled, prevents fluid pressure excessive and main thread structure is caused to damage, guard block, this
Outside, which has piston sealed fluid-driving mechanism, can be driven under the action of liquid, in addition, the device has
There is annular array elasticity collision type maximum spin intensity control mechanism, the maximum weighted value for being fixed metope is controlled, prevents
The generation of phenomenon is damaged caused by the pressure being only subject to is excessive.
Detailed description of the invention
Fig. 1 is a kind of complete section structural schematic diagram of the Telescopic Fixed formula exercising apparatus of counterbody of the present invention;
Fig. 2 is helical spring elasticity collision type maximum hydraulic pressure in a kind of Telescopic Fixed formula exercising apparatus of counterbody of the present invention
The structural schematic diagram of control mechanism;
Fig. 3 is the knot of piston sealed fluid-driving mechanism in a kind of Telescopic Fixed formula exercising apparatus of counterbody of the present invention
Structure schematic diagram;
Fig. 4 is annular array elasticity collision type maximum rotation in a kind of Telescopic Fixed formula exercising apparatus of counterbody of the present invention
The structural schematic diagram of strength control mechanism;
In figure: 1, main thread sleeve, 2, fluid storage space, 3, the first screw thread section, 4, the second screw thread section, 5, it is main into
Fluid apertures, 6, main drainage hole, 7, liquid spool, 8, helical spring elasticity collision type maximum hydraulic pressure control mechanism, 81, helical spring bullet
Property collision type maximum hydraulic pressure control mechanism hollow casing, 82, helical spring elasticity collision type maximum hydraulic pressure control mechanism is empty
Liquid sealing ring, 83, helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure, 84, helical spring elasticity contradict
Formula maximum hydraulic pressure control mechanism drainage hole, 85, helical spring elasticity collision type maximum hydraulic pressure control mechanism is inserted into empty with valve plate
Between, 86, helical spring elasticity collision type maximum hydraulic pressure control mechanism inlet opening, 87, helical spring elasticity collision type maximum liquid
Pressure control mechanism movable plate, 88, helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate, 89, helical spring bullet
Property collision type maximum hydraulic pressure control mechanism liquid-passing hole, 810, helical spring elasticity collision type maximum hydraulic pressure control mechanism spiral
Spring, 9, piston sealed fluid-driving mechanism, 91, piston sealed fluid-driving mechanism piston valve, 92, it is piston sealed
Fluid-driving mechanism tapered guide moving structure, 93, piston sealed fluid-driving mechanism first annular groove structure,
94, piston sealed fluid-driving mechanism second annular groove structure, 95, piston sealed fluid-driving mechanism is close with first
Seal, 96, the second sealing ring of piston sealed fluid-driving mechanism, 97, piston sealed fluid-driving mechanism is pacified with the body of rod
Dress groove structure, 10, base bearing, 12, connecting shaft, 13, main thread structure, 14, the first threaded rod, 15, the second threaded rod, 16,
Annular array elasticity collision type maximum spin intensity control mechanism, 161, the control of annular array elasticity collision type maximum spin intensity
The main hollow housing of mechanism, 162, the main hollow section of annular array elasticity collision type maximum spin intensity control mechanism, 163,
Annular array elasticity collision type maximum spin intensity control mechanism column spinner, 164, the rotation of annular array elasticity collision type maximum
Strength control mechanism semi-circular recesses structure, 165, in annular array elasticity collision type maximum spin intensity control mechanism pair
Empty interval, 166, annular array elasticity collision type maximum spin intensity control mechanism movable plate, 167, annular array elasticity is supported
Touch maximum spin intensity control mechanism helical spring, 168, annular array elasticity collision type maximum spin intensity control mechanism
With push rod, 17, main rotating shaft, 18, main touch panel, 19, hemisphere jut structure, 20, collar bush, 21, main L shape telescopic rod, 22, main sky
Core bar, 23, main insertion hole, 24, L shape pull rod.
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 main thread sleeve 1 and main hollow stem 22, the main spiral shell
It is provided centrally with fluid storage space 2 inside line sleeve 1, the both ends inside the main thread sleeve 1 are respectively arranged with first
Screw thread section 3 and the second screw thread section 4, the main inlet opening 5 in the side of the main thread sleeve 1 and main drainage hole 6, the main feed liquor
Hole 5 and the inside of main drainage hole 6 are separately installed with liquid spool 7 and helical spring elasticity collision type maximum hydraulic pressure control mechanism 8,
The inside in the fluid storage space 2 is installed by two symmetrical piston sealed fluid-driving mechanisms 9, the two piston sealed liquid
Body driving mechanism 9 is separately installed with connecting shaft 12, two connecting shafts 12 by base bearing 10 at one end center outside
Axis body run through main thread sleeve 1 center, and the connecting shaft 12 be located at first screw thread section 3 and the second threaded area
Between one end inside 4 be separately installed with the first threaded rod 14 and the second threaded rod 15, first threaded rod 14 and the second screw thread
Bar 15 is connect with the inner wall in the first screw thread section 3 and the second screw thread section 4 by main thread structure 13, the main thread structure 13
Including the internal thread structure of 4 inner wall of the first screw thread section 3 and the second screw thread section is arranged in and is arranged in 14 He of the first threaded rod
External thread structure on second threaded rod, 15 body of rod, and it is located at outer spiral shell on 15 body of rod of first threaded rod 14 and the second threaded rod
The hand of spiral of line structure is on the contrary, the outer end of first threaded rod 14 and the second threaded rod 15 is respectively mounted annular array elasticity
Collision type maximum spin intensity control mechanism 16, the two annular array elasticity collision type maximum spin intensity control mechanisms 16
One end center is respectively mounted a main rotating shaft 17, and the end of two main rotating shafts 17 is respectively mounted a main touch panel 18, the two main touchings
The end face of plate 18 is provided with the hemisphere jut structure 19 of integral structure, is respectively mounted one on the axis body of two main rotating shafts 17
Collar bush 20, the symmetrical main L shape telescopic rod 21 of the installation one of two collar bushes 20, the main hollow stem 22 is provided centrally with
Main insertion hole 23, the lateral body of rod of the two main L shape telescopic rods 21 are inserted into the inside in main insertion hole 23, the main hollow stem 22
Bottom multiple L shape pull rods 24 are installed.
Referring to Fig. 2, the helical spring elasticity collision type maximum hydraulic pressure control mechanism 8 is contradicted including helical spring elasticity
Formula maximum hydraulic pressure control mechanism hollow casing 81, the empty liquid sealing ring of helical spring elasticity collision type maximum hydraulic pressure control mechanism
82, helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure 83, helical spring elasticity collision type maximum hydraulic pressure
Control mechanism drainage hole 84, helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space 85, spiral bullet
Spring elasticity collision type maximum hydraulic pressure control mechanism inlet opening 86, helical spring elasticity collision type maximum hydraulic pressure control mechanism move
Movable plate 87, helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate 88, helical spring elasticity collision type maximum hydraulic pressure
Control mechanism liquid-passing hole 89 and helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring 810;The spiral
The one helical spring elasticity collision type of side socket of spring collision type maximum hydraulic pressure control mechanism hollow casing 81 is maximum
Hydraulic control empty liquid sealing ring 82, the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing 81
Internal is provided centrally with helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure 83, the helical spring bullet
Property collision type maximum hydraulic pressure control mechanism with hollow casing 81 be located at the helical spring elasticity collision type maximum hydraulic pressure control
Mechanism is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism drainage hole 84 with the side of hollow structure 83, described
One end connection helical spring elasticity collision type of helical spring elasticity collision type maximum hydraulic pressure control mechanism drainage hole 84 is maximum
One end of hydraulic control hollow casing 81, the helical spring elasticity collision type maximum hydraulic pressure control mechanism is with hollow outer
Shell 81 is being provided with spiral shell with the other side of hollow structure 83 positioned at the helical spring elasticity collision type maximum hydraulic pressure control mechanism
Revolve spring collision type maximum hydraulic pressure control mechanism valve plate insertion space 85, the helical spring elasticity collision type maximum liquid
Pressure control mechanism is being inserted into positioned at the helical spring elasticity collision type maximum hydraulic pressure control mechanism with valve plate with hollow casing 81
The side in space 85 is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism inlet opening 86, the helical spring bullet
Property collision type maximum hydraulic pressure control mechanism inlet opening 86 is connected to the helical spring elasticity collision type maximum hydraulic pressure control mechanism
With the other side of hollow casing 81, the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing 81 is being located at
One helical spring elasticity is installed and is supported in the inside of the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure 83
Touch maximum hydraulic pressure control mechanism movable plate 87, the helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate
87 in the end face center for being located at the helical spring elasticity collision type maximum hydraulic pressure control mechanism 85 side of valve plate insertion space
It is provided with the helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate 88 with its integral structure, the helical spring
Elastic collision type maximum hydraulic pressure control mechanism with the side of movable plate 87 be provided be connected to its both ends of the surface helical spring elasticity support
Touch maximum hydraulic pressure control mechanism liquid-passing hole 89, the helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate
87 other end is installed by one helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring 810;The spiral bullet
The empty liquid sealing ring 82 of spring elasticity collision type maximum hydraulic pressure control mechanism is connected to the inside of main drainage hole 6, the helical spring
One end of elastic collision type maximum hydraulic pressure control mechanism inlet opening 86 is connected to fluid storage space 2;The helical spring elasticity
The initial length of collision type maximum hydraulic pressure control mechanism helical spring 810 is greater than the helical spring elasticity collision type maximum liquid
The lateral length of control mechanism hollow structure 83 is pressed, main function is: the control of helical spring elasticity collision type maximum hydraulic pressure
The elastic stool and urine of mechanism helical spring 810 is the size of maximum pressure value, when internal pressure value is greater than helical spring elasticity
When the elastic force of collision type maximum hydraulic pressure control mechanism helical spring 810, internal liquid will be discharged in time, thus be depressured,
So helical spring elasticity collision type maximum hydraulic pressure control mechanism is less than main thread structure 13 with the elastic force of helical spring 810
Maximum weighted value.
Referring to Fig. 3, the piston sealed fluid-driving mechanism 9 includes piston sealed fluid-driving mechanism piston
Valve 91, piston sealed fluid-driving mechanism tapered guide moving structure 92, piston sealed fluid-driving mechanism are with first
Circular groove structure 93, piston sealed fluid-driving mechanism second annular groove structure 94, piston sealed liquid driven
The first sealing ring 95 of mechanism, piston sealed fluid-driving mechanism the second sealing ring 96 and piston sealed liquid driven machine
Structure body of rod installation groove structure 97;The piston sealed fluid-driving mechanism is provided with and its one with 91 one end of piston valve
The piston sealed fluid-driving mechanism tapered guide moving structure 92 of formula structure, piston sealed fluid-driving mechanism are lived
The other end of plug valve 91 is provided centrally with piston sealed fluid-driving mechanism body of rod installation groove structure 97, piston sealed
Fluid-driving mechanism is respectively arranged with piston sealed fluid-driving mechanism with the first ring with upper bit under the side of piston valve 91
Connected in star structure 93 and piston sealed fluid-driving mechanism second annular groove structure 94, and piston sealed liquid driven
The inner part of mechanism first annular groove structure 93 and piston sealed fluid-driving mechanism second annular groove structure 94
The first sealing ring 95 of piston sealed fluid-driving mechanism, the second sealing of piston sealed fluid-driving mechanism are not installed
Circle 96, piston sealed fluid-driving mechanism body of rod installation groove structure 97 and piston sealed fluid-driving mechanism contradict
Bar 98, the piston sealed fluid-driving mechanism are provided centrally with piston sealed liquid driven with the other end of piston valve 91
Mechanism conflict bar 98;The two piston sealed fluid-driving mechanism piston valves 91 are mounted in liquid compression space 2
Portion, and two-piston sealed liquid driving mechanism is symmetrical arranged with bar 98 is contradicted;The piston sealed fluid-driving mechanism is used
One end body of rod of main connecting shaft 12 is installed in the inside of body of rod installation groove structure 97, and main function is: under the action of liquid,
Realize driving effect.
Referring to Fig. 4, the annular array elasticity collision type maximum spin intensity control mechanism 16 includes annular array bullet
The main hollow housing 161 of property collision type maximum spin intensity control mechanism, annular array elasticity collision type maximum spin intensity control
The main hollow section 162 of mechanism processed, annular array elasticity collision type maximum spin intensity control mechanism column spinner 163, annular
Array elasticity collision type maximum spin intensity control mechanism semi-circular recesses structure 164, annular array elasticity collision type are maximum
The secondary hollow section 165 of spin intensity control mechanism, the control mechanism activity of annular array elasticity collision type maximum spin intensity
Plate 166, annular array elasticity collision type maximum spin intensity control mechanism helical spring 167 and annular array elasticity collision type
Maximum spin intensity control mechanism push rod 168;The annular array elasticity collision type maximum spin intensity control mechanism master
The center of 161 1 end face of hollow housing is fixedly connected with the end of 15 body of rod of one first threaded rod 14 and the second threaded rod, described
Center of the annular array elasticity collision type maximum spin intensity control mechanism inside main hollow housing 161 is the annular array
The main hollow section 162 of elastic collision type maximum spin intensity control mechanism, the annular array elasticity collision type maximum rotation
Strength control mechanism is being located at annular array elasticity collision type maximum spin intensity control mechanism use with main hollow housing 161
The inside in main hollow section 162 is socketed an annular array elasticity collision type maximum spin intensity control mechanism column spinner 163, institute
It is that annular array elasticity is supported that annular array elasticity collision type maximum spin intensity control mechanism, which is stated, with the inside of main hollow housing 161
The secondary hollow section 165 of touch maximum spin intensity control mechanism, the annular array elasticity collision type maximum spin intensity control
The inside in the secondary hollow section 165 of mechanism processed is being located at annular array elasticity collision type maximum spin intensity control mechanism use
An annular array elasticity collision type maximum spin intensity control mechanism movable plate 166 is placed in one end face in main hollow section 162,
The secondary hollow section 165 of the annular array elasticity collision type maximum spin intensity control mechanism is being located at the annular array bullet
Property collision type maximum spin intensity control mechanism it is maximum with an annular array elasticity collision type is fixed between one end of movable plate 166
Spin intensity control mechanism helical spring 167, the annular array elasticity collision type maximum spin intensity control mechanism are lived
One end face of movable plate 166 is provided with to be used with the annular array elasticity collision type maximum spin intensity control mechanism of its integral structure
Push rod 168, and annular array elasticity collision type maximum spin intensity control mechanism push rod 168 runs through the annular array
The main hollow housing 161 of elastic collision type maximum spin intensity control mechanism, and it is located at the annular array elasticity collision type most
The inside in the big main hollow section 162 of spin intensity control mechanism, the annular array elasticity collision type maximum spin intensity control
Mechanism processed is being located at the main hollow section of the annular array elasticity collision type maximum spin intensity control mechanism with push rod 168
162 one end is semicircular structure, the annular array elasticity collision type maximum spin intensity control mechanism column spinner 163
Side is provided with the ring for placing 168 end of annular array elasticity collision type maximum spin intensity control mechanism push rod
Shape array elasticity collision type maximum spin intensity control mechanism semi-circular recesses structure 164, the annular array elasticity contradict
Formula maximum spin intensity control mechanism is fixed with one end of column spinner 163 and the end of main rotating shaft 17;The annular array bullet
Property collision type maximum spin intensity control mechanism helical spring 167 initial length be greater than the annular array elasticity collision type
The length in the secondary hollow section 165 of maximum spin intensity control mechanism;The annular array elasticity collision type maximum spin intensity
The control mechanism construction profile of 168 end of push rod and annular array elasticity collision type maximum spin intensity control mechanism semicircle
The construction profile of connected in star structure 164 is consistent, and main function is: when driving resistance excessive, resistance is greater than annular array
When the elasticity of elastic collision type maximum spin intensity control mechanism helical spring 167, annular array elasticity collision type can be made
Maximum spin intensity control mechanism is compressed with helical spring 167, and under causation, connecting component plays rotation status, plays
Protective effect, so the elasticity of annular array elasticity collision type maximum spin intensity control mechanism helical spring 167 should be small
In the deformation intensity of installation wall.
Specifically used mode: in present invention work, main thread sleeve 1 is first rotated, under the action of main thread structure 13, together
When control balance each other touch panel 18, so that it can not find rotation phenomenon, in this role, the first threaded rod 14 and the second threaded rod 15
It stretches out, when balancing each other, touch panel 18 is contradicted in metope, highly pressurised liquid is injected to the inside of liquid spool 7 by a hydraulic pump, in liquid
Under the action of body, so that two threaded rods can reduce the stress intensity to helicitic texture, at this point, in rotation main thread sleeve 1, when
When relative rotation occurs for annular array elasticity collision type maximum spin intensity control mechanism 16, surface work is finished, at this time
It is performed physical exercise using multiple L shape pull rods 24.
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.
Claims (10)
1. a kind of Telescopic Fixed formula exercising apparatus of counterbody, including main thread sleeve (1) and main hollow stem (22), feature exists
In: the main thread sleeve (1) is internal to be provided centrally with fluid storage space (2), and the two of main thread sleeve (1) inside
End is respectively arranged with the first screw thread section (3) and the second screw thread section (4), the main inlet opening in side of the main thread sleeve (1)
(5) and main drainage hole (6), the inside of the main inlet opening (5) and main drainage hole (6) is separately installed with liquid spool (7) and spiral shell
It revolves spring collision type maximum hydraulic pressure control mechanism (8), two symmetrical pistons are installed in the inside of the fluid storage space (2)
Sealed liquid driving mechanism (9), the two piston sealed fluid-driving mechanisms (9) pass through at one end center outside
Base bearing (10) is separately installed with connecting shaft (12), and the axis body of two connecting shafts (12) runs through the center of main thread sleeve (1),
And the connecting shaft (12) is installed respectively in the one end for being located at first screw thread section (3) and the second screw thread section (4) inside
There are the first threaded rod (14) and the second threaded rod (15), first threaded rod (14) and the second threaded rod (15) and the first screw thread
The inner wall in section (3) and the second screw thread section (4) is connected by main thread structure (13), and the main thread structure (13) includes setting
Set in the internal thread structure of the first screw thread section (3) and second screw thread section (4) inner wall and setting in the first threaded rod (14) and
External thread structure on second threaded rod (15) body of rod, and it is located at first threaded rod (14) and the second threaded rod (15) body of rod
The hand of spiral of upper external thread structure is on the contrary, the outer end of first threaded rod (14) and the second threaded rod (15) is respectively mounted a ring
Shape array elasticity collision type maximum spin intensity control mechanism (16), the two annular array elasticity collision type maximum spin intensities
One end center of control mechanism (16) is respectively mounted a main rotating shaft (17), and it is main that the end of two main rotating shafts (17) is respectively mounted one
The end face of touch panel (18), the two main touch panels (18) is provided with the hemisphere jut structure (19) of integral structure, two masters
It is respectively mounted on the axis body of rotary shaft (17) collar bush (20), the symmetrical main L shape of the installation one of two collar bushes (20) is flexible
Bar (21), the main hollow stem (22) are provided centrally with main insertion hole (23), the transverse bar of the two main L shape telescopic rods (21)
Body is inserted into the inside of main insertion hole (23), and the bottom of the main hollow stem (22) is equipped with multiple L shape pull rods (24).
2. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 1, it is characterised in that: the spiral bullet
Spring elasticity collision type maximum hydraulic pressure control mechanism (8) includes helical spring elasticity collision type maximum hydraulic pressure control mechanism with hollow outer
Shell (81), helical spring elasticity collision type maximum hydraulic pressure control mechanism sky liquid sealing ring (82), helical spring elasticity collision type
Maximum hydraulic pressure control mechanism hollow structure (83), helical spring elasticity collision type maximum hydraulic pressure control mechanism drainage hole
(84), helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space (85), helical spring elasticity collision type
Maximum hydraulic pressure control mechanism inlet opening (86), helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate (87),
Helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate (88), helical spring elasticity collision type maximum hydraulic pressure control machine
Structure liquid-passing hole (89) and helical spring elasticity collision type maximum hydraulic pressure control mechanism helical spring (810);The spiral bullet
The one helical spring elasticity collision type of side socket of spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing (81) is maximum
Hydraulic control empty liquid sealing ring (82), the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow casing
(81) helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure (83), the spiral are provided centrally with inside
Spring collision type maximum hydraulic pressure control mechanism is being located at the helical spring elasticity collision type maximum with hollow casing (81)
Hydraulic control is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism row with the side of hollow structure (83)
One end of fluid apertures (84), helical spring elasticity collision type maximum hydraulic pressure control mechanism drainage hole (84) is connected to helical spring
One end of elastic collision type maximum hydraulic pressure control mechanism hollow casing (81), the helical spring elasticity collision type maximum hydraulic pressure
Control mechanism is being located at the helical spring elasticity collision type maximum hydraulic pressure control mechanism hollow structure with hollow casing (81)
(83) the other side is provided with helical spring elasticity collision type maximum hydraulic pressure control mechanism valve plate insertion space (85), the spiral shell
It revolves spring collision type maximum hydraulic pressure control mechanism and is being located at the helical spring elasticity collision type most with hollow casing (81)
Big hydraulic control is provided with helical spring elasticity collision type maximum hydraulic pressure control machine with the side of valve plate insertion space (85)
Structure is connected to the spiral with inlet opening (86) with inlet opening (86), the helical spring elasticity collision type maximum hydraulic pressure control mechanism
The other side of spring collision type maximum hydraulic pressure control mechanism hollow casing (81), the helical spring elasticity collision type is most
Big hydraulic control is with hollow casing (81) in being located at helical spring elasticity collision type maximum hydraulic pressure control mechanism use
The inside of hollow structure (83) is installed by one helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate (87), the spiral
Spring collision type maximum hydraulic pressure control mechanism is being located at the helical spring elasticity collision type maximum liquid with movable plate (87)
Pressure control mechanism is provided with and the helical spring of its integral structure elasticity with the end face center of valve plate insertion space (85) side
Collision type maximum hydraulic pressure control mechanism valve plate (88), the helical spring elasticity collision type maximum hydraulic pressure control mechanism movement
The side of plate (87) is provided with the helical spring elasticity collision type maximum hydraulic pressure control mechanism liquid-passing hole for being connected to its both ends of the surface
(89), a spiral bullet is installed in the other end of helical spring elasticity collision type maximum hydraulic pressure control mechanism movable plate (87)
Spring elasticity collision type maximum hydraulic pressure control mechanism is with helical spring (810).
3. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 2, it is characterised in that: the spiral bullet
Spring elasticity collision type maximum hydraulic pressure control mechanism is connected to the inside of main drainage hole (6), the spiral with empty liquid sealing ring (82)
One end of spring collision type maximum hydraulic pressure control mechanism inlet opening (86) is connected to fluid storage space (2).
4. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 2, it is characterised in that: the spiral bullet
The initial length of spring elasticity collision type maximum hydraulic pressure control mechanism helical spring (810) is contradicted greater than the helical spring elasticity
The lateral length of formula maximum hydraulic pressure control mechanism hollow structure (83).
5. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 1, it is characterised in that: the piston is close
Envelope formula fluid-driving mechanism (9) includes piston sealed fluid-driving mechanism piston valve (91), piston sealed liquid driven
Mechanism tapered guide moving structure (92), piston sealed fluid-driving mechanism first annular groove structure (93), piston
Sealed liquid driving mechanism second annular groove structure (94), the first sealing ring of piston sealed fluid-driving mechanism
(95), piston sealed fluid-driving mechanism is installed with the second sealing ring (96), piston sealed fluid-driving mechanism with the body of rod
Groove structure (97) and conflict bar (98) of piston sealed fluid-driving mechanism;The piston sealed fluid-driving mechanism is used
Piston valve (91) one end is provided with the piston sealed fluid-driving mechanism tapered guide moving structure with its integral structure
(92), piston sealed fluid-driving mechanism is provided centrally with piston sealed liquid driven machine with the other end of piston valve (91)
Structure body of rod installation groove structure (97), upper bit is distinguished under the side of piston sealed fluid-driving mechanism piston valve (91)
It is provided with piston sealed fluid-driving mechanism first annular groove structure (93) and piston sealed fluid-driving mechanism is used
Second annular groove structure (94), and piston sealed fluid-driving mechanism first annular groove structure (93) and piston seal
Formula fluid-driving mechanism is separately installed with piston sealed fluid-driving mechanism with the inside of second annular groove structure (94) and uses
First sealing ring (95) and piston sealed fluid-driving mechanism the second sealing ring (96), the piston sealed liquid driven
Mechanism is respectively arranged with piston sealed fluid-driving mechanism body of rod installation groove structure (97) with the both ends of piston valve (91)
With conflict bar (98) of piston sealed fluid-driving mechanism.
6. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 5, it is characterised in that: two pistons
Sealed liquid driving mechanism is mounted on the inside of liquid compression space (2), and two-piston sealed liquid with piston valve (91)
Driving mechanism is symmetrical arranged with bar (98) are contradicted.
7. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 5, it is characterised in that: the piston is close
The inside of envelope formula fluid-driving mechanism body of rod installation groove structure (97) is installed by one end body of rod of main connecting shaft (12).
8. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 1, it is characterised in that: the circular array
Arranging elastic collision type maximum spin intensity control mechanism (16) includes annular array elasticity collision type maximum spin intensity control machine
The main hollow section (162) of structure main hollow housing (161), annular array elasticity collision type maximum spin intensity control mechanism,
Annular array elasticity collision type maximum spin intensity control mechanism column spinner (163), the rotation of annular array elasticity collision type maximum
Turn strength control mechanism semi-circular recesses structure (164), annular array elasticity collision type maximum spin intensity control mechanism is used
Secondary hollow section (165), annular array elasticity collision type maximum spin intensity control mechanism movable plate (166), annular array
Elastic collision type maximum spin intensity control mechanism helical spring (167) and annular array elasticity collision type maximum spin intensity
Control mechanism is with push rod (168);The main hollow housing of the annular array elasticity collision type maximum spin intensity control mechanism
The center of (161) one end faces is fixedly connected with the end of one first threaded rod (14) and the second threaded rod (15) body of rod, the ring
The internal center of shape array elasticity collision type maximum spin intensity control mechanism main hollow housing (161) is the annular array
The main hollow section (162) of elastic collision type maximum spin intensity control mechanism, the annular array elasticity collision type maximum rotation
Turn strength control mechanism and is located at annular array elasticity collision type maximum spin intensity control machine with main hollow housing (161)
Structure is socketed an annular array elasticity collision type maximum spin intensity control mechanism column spinner with the inside of main hollow section (162)
(163), the inside of the annular array elasticity collision type maximum spin intensity control mechanism main hollow housing (161) is annular
The secondary hollow section (165) of array elasticity collision type maximum spin intensity control mechanism, the annular array elasticity collision type is most
The inside of the big secondary hollow section (165) of spin intensity control mechanism is being located at annular array elasticity collision type maximum rotation
Place annular array elasticity collision type maximum spin intensity control in one end face of the main hollow section (162) of strength control mechanism
Mechanism is with movable plate (166), the secondary hollow section (165) of the annular array elasticity collision type maximum spin intensity control mechanism
One is fixed between one end of movable plate (166) being located at the annular array elasticity collision type maximum spin intensity control mechanism
Annular array elasticity collision type maximum spin intensity control mechanism helical spring (167), the annular array elasticity collision type
Maximum spin intensity control mechanism is provided with an end face of movable plate (166) and is supported with the annular array elasticity of its integral structure
Touch maximum spin intensity control mechanism is with push rod (168), and the annular array elasticity collision type maximum spin intensity controls
Mechanism runs through the main hollow housing of the annular array elasticity collision type maximum spin intensity control mechanism with push rod (168)
(161), and it is located at the interior of the main hollow section (162) of the annular array elasticity collision type maximum spin intensity control mechanism
Portion, the annular array elasticity collision type maximum spin intensity control mechanism are being located at the annular array bullet with push rod (168)
Property the main hollow section (162) of collision type maximum spin intensity control mechanism one end be semicircular structure, the annular array
Elastic collision type maximum spin intensity control mechanism is provided with the side of column spinner (163) for placing the annular array bullet
The annular array elasticity collision type maximum spin intensity control of property collision type maximum spin intensity control mechanism push rod (168) end
Mechanism processed semi-circular recesses structure (164), the annular array elasticity collision type maximum spin intensity control mechanism rotation
One end of column (163) and the end of main rotating shaft (17) are fixed.
9. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 8, it is characterised in that: the circular array
The initial length for arranging elastic collision type maximum spin intensity control mechanism helical spring (167) is greater than the annular array elasticity
The length of the secondary hollow section (165) of collision type maximum spin intensity control mechanism.
10. the Telescopic Fixed formula exercising apparatus of a kind of counterbody according to claim 8, it is characterised in that: the annular
The construction profile and annular array elasticity of array elasticity collision type maximum spin intensity control mechanism push rod (168) end contradict
Formula maximum spin intensity control mechanism is consistent with the construction profile of semi-circular recesses structure (164).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910743890.8A CN110465051A (en) | 2019-09-25 | 2019-09-25 | A kind of Telescopic Fixed formula exercising apparatus of counterbody |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910743890.8A CN110465051A (en) | 2019-09-25 | 2019-09-25 | A kind of Telescopic Fixed formula exercising apparatus of counterbody |
Publications (1)
Publication Number | Publication Date |
---|---|
CN110465051A true CN110465051A (en) | 2019-11-19 |
Family
ID=68510714
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910743890.8A Pending CN110465051A (en) | 2019-09-25 | 2019-09-25 | A kind of Telescopic Fixed formula exercising apparatus of counterbody |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN110465051A (en) |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110936308A (en) * | 2019-12-09 | 2020-03-31 | 庄清梅 | Triangular positioning inner sleeve type support |
CN110977848A (en) * | 2019-12-20 | 2020-04-10 | 薛春红 | Synchronous wrench for arranging bolts in annular array |
CN111014549A (en) * | 2019-12-12 | 2020-04-17 | 张建兴 | One-machine-multi-purpose stamping device for parallel forging |
CN111184421A (en) * | 2020-03-14 | 2020-05-22 | 泉州市富永盛技术服务有限公司 | Contact type suspension device for close-distance object |
CN111301615A (en) * | 2020-03-26 | 2020-06-19 | 王红 | Accurate sea surface buoy |
CN111319671A (en) * | 2020-03-26 | 2020-06-23 | 杨夫华 | Dislocation type connecting device for connecting steering wheel and shaft body for automobile |
CN111365382A (en) * | 2020-03-17 | 2020-07-03 | 泉州市鑫鼎合德技术服务有限公司 | Integrative multi-functional formula rotary part middle part connecting device |
CN111396232A (en) * | 2020-03-25 | 2020-07-10 | 泉州市欣泓润工业设计有限公司 | Hydraulic type rotary driving device |
CN111547189A (en) * | 2020-04-16 | 2020-08-18 | 秦江澎 | Ship fixing device for port berthing of civil ships |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140323275A1 (en) * | 2013-04-24 | 2014-10-30 | II James Edward MOSES | Exercise system |
CN204170341U (en) * | 2014-10-23 | 2015-02-25 | 金学哲 | A kind of Domestic horizontal bar |
CN206381549U (en) * | 2017-01-16 | 2017-08-08 | 常志利 | A kind of chin-up apparatus |
CN109356400A (en) * | 2018-12-01 | 2019-02-19 | 潍坊工程职业学院 | A kind of interior decoration ceiling support device |
CN110091163A (en) * | 2019-05-22 | 2019-08-06 | 郭毅义 | A kind of wind drive formula large-scale nut clamp device with controllability |
-
2019
- 2019-09-25 CN CN201910743890.8A patent/CN110465051A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140323275A1 (en) * | 2013-04-24 | 2014-10-30 | II James Edward MOSES | Exercise system |
CN204170341U (en) * | 2014-10-23 | 2015-02-25 | 金学哲 | A kind of Domestic horizontal bar |
CN206381549U (en) * | 2017-01-16 | 2017-08-08 | 常志利 | A kind of chin-up apparatus |
CN109356400A (en) * | 2018-12-01 | 2019-02-19 | 潍坊工程职业学院 | A kind of interior decoration ceiling support device |
CN110091163A (en) * | 2019-05-22 | 2019-08-06 | 郭毅义 | A kind of wind drive formula large-scale nut clamp device with controllability |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110936308A (en) * | 2019-12-09 | 2020-03-31 | 庄清梅 | Triangular positioning inner sleeve type support |
CN111014549A (en) * | 2019-12-12 | 2020-04-17 | 张建兴 | One-machine-multi-purpose stamping device for parallel forging |
CN110977848A (en) * | 2019-12-20 | 2020-04-10 | 薛春红 | Synchronous wrench for arranging bolts in annular array |
CN111184421A (en) * | 2020-03-14 | 2020-05-22 | 泉州市富永盛技术服务有限公司 | Contact type suspension device for close-distance object |
CN111365382A (en) * | 2020-03-17 | 2020-07-03 | 泉州市鑫鼎合德技术服务有限公司 | Integrative multi-functional formula rotary part middle part connecting device |
CN111396232A (en) * | 2020-03-25 | 2020-07-10 | 泉州市欣泓润工业设计有限公司 | Hydraulic type rotary driving device |
CN111301615A (en) * | 2020-03-26 | 2020-06-19 | 王红 | Accurate sea surface buoy |
CN111319671A (en) * | 2020-03-26 | 2020-06-23 | 杨夫华 | Dislocation type connecting device for connecting steering wheel and shaft body for automobile |
CN111547189A (en) * | 2020-04-16 | 2020-08-18 | 秦江澎 | Ship fixing device for port berthing of civil ships |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN110465051A (en) | A kind of Telescopic Fixed formula exercising apparatus of counterbody | |
CN110371883A (en) | A kind of building tower crane rotary shaft brake apparatus | |
CN105298461B (en) | The unlimited solvable ball fracturing sliding bush of full-bore | |
CN110469356A (en) | A kind of anti-inbreak support frame of underground work | |
CN106369213B (en) | Hydraulic rotating actuator for opening and closing butterfly valve | |
CN207420537U (en) | Self-aiming rotates float shoe | |
CN109356400A (en) | A kind of interior decoration ceiling support device | |
CN110294222A (en) | A kind of controllability pressure-air energy-storage type liquor storage device | |
CN110206738A (en) | One supercharging device with output pressure control function | |
US20140348670A1 (en) | Smart hybrid actuator | |
CN110107076A (en) | A kind of high building outdoor work Multifunctional fastening device | |
CN110497266A (en) | A kind of industrial production columnar object grinding device | |
CN205744325U (en) | The power end component of a kind of reciprocating pump and multi-cylinder reciprocating pump | |
CN215057261U (en) | Bridge type eccentric high-pressure gas lift valve | |
CN106437587B (en) | High pressure liquid drives eccentric wheel type shaft bottom casing ripper | |
CN206205823U (en) | Oil drilling remote control diameter variable stabilizer | |
CN111853014B (en) | Diagonal bracing anti-seismic anchor bolt | |
CN209379684U (en) | A kind of double-throw charging tray of wire rod wire drawing machine | |
CN106799579A (en) | A kind of valve element gland automatic assembling device | |
CN106121947B (en) | A kind of power end component of reciprocating pump and the multi-cylinder reciprocating pump using the component | |
CN208686533U (en) | A kind of water pumper middle section water flow supercharging device | |
CN207813542U (en) | Self-rotary hydraulic reshaper | |
CN207513574U (en) | Screw pump cam-type righting turnover panel anchor | |
CN207036883U (en) | Sample adding device with folded form sample arm | |
CN110848529A (en) | Transmission assembly and lifting upright column applied by same |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20191119 |