CN110303392A - A kind of rod-like articles side high efficiency sander - Google Patents
A kind of rod-like articles side high efficiency sander Download PDFInfo
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- CN110303392A CN110303392A CN201910647497.9A CN201910647497A CN110303392A CN 110303392 A CN110303392 A CN 110303392A CN 201910647497 A CN201910647497 A CN 201910647497A CN 110303392 A CN110303392 A CN 110303392A
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- Prior art keywords
- power control
- helical spring
- rotatory power
- rod
- control mechanism
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B41/00—Component parts such as frames, beds, carriages, headstocks
- B24B41/02—Frames; Beds; Carriages
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B41/00—Component parts such as frames, beds, carriages, headstocks
- B24B41/06—Work supports, e.g. adjustable steadies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B47/00—Drives or gearings; Equipment therefor
- B24B47/10—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces
- B24B47/12—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces by mechanical gearing or electric power
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B5/00—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor
- B24B5/02—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor involving centres or chucks for holding work
- B24B5/04—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor involving centres or chucks for holding work for grinding cylindrical surfaces externally
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
The invention discloses a kind of rod-like articles side high efficiency sanders, including bottom supporting substrate.The present invention can will need the body of rod level polished to fix, atwirl grinding disc is then recycled to polish, when polishing, the position where grinding disc can be moved manually, simultaneously, 360 degree rotation can be carried out to the body of rod again, so comprehensive burnishing action can be carried out to the body of rod, and, the device feature is mostly mechanical part so low cost, maintenance cost is low, and, there is the device rod end to dock rotary limited stabilizing mechanism, one end of the body of rod can be limited, simultaneously, it will not influence the normal turning effort of the body of rod again, furthermore, the device has helical spring controller perturbation formula maximum rotatory power control mechanism, the elasticity of helical spring can be utilized, control the maximum value of rotation dynamics, it prevents since body of rod polishing is excessive caused by resistance is excessive.
Description
Technical field
The present invention relates to grinding technology field, specially a kind of rod-like articles side high efficiency sander.
Background technique
Currently, the application for rod-like members, widely, and for some Code in Hazardous Special Locations, need to the body of rod into
Row polishing, so that the precision of its body of rod surface size is improved, and existing sander includes two kinds, one kind is high electronic equipment collection
An accepted way of doing sth, cost and maintenance cost are very high, are not appropriate for medium-sized and small enterprises, and another kind is manual operation, polishing essence
Degree is relatively difficult to control, and time-consuming and laborious.
Summary of the invention
The purpose of the present invention is to provide a kind of rod-like articles side high efficiency sanders, 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 rod-like articles side high efficiency sander,
Including bottom supporting substrate, a bottom installation base plate is installed at the top of the bottom supporting substrate, on the bottom installation base plate
The two sides on surface are separately installed with main first support bar and main second support bar, the main first support bar and main second support bar
Middle part be respectively arranged with rod end docking rotary limited stabilizing mechanism mounting hole and base bearing, the rod end docking limit
The inner ring of position spin stabilization mechanism mounting hole and base bearing is separately installed with rod end docking rotary limited stabilizing mechanism and spiral shell
It revolves spring and controls formula maximum rotatory power control mechanism, the helical spring controller perturbation formula maximum rotatory power controls machine
One first rotary shaft is installed at one end center of structure, and a swivel plate, the helical spring bullet are installed in the end of first rotary shaft
Property control formula maximum rotatory power control mechanism other end center install one second rotary shaft, the end of second rotary shaft
One main plectane is installed, the main plectane end face is provided centrally with main conical socket structure, the main first support bar and main the
The top of two support rods is respectively mounted a reverse thread structural formula distance adjusting mechanism, two reverse threads by connecting flange plate
The top of structural formula distance adjusting mechanism is mounted on the end of a cross bar by hinges, and the body of rod of the cross bar is mounted on one
A push plate, bottom centre's installation of the collar bush are installed in the inside of axle sleeve hole inside collar bush, the top of the collar bush
One master link, the lateral driving motor of bottom installation one of the master link install shell, and the driving motor installation is outer
A driving motor is installed in the inside of shell, and an existing grinding disc is installed in the electric machine main shaft end in the driving motor.
Further, the rod end docking rotary limited stabilizing mechanism includes that rod end docking rotary limited is stablized
Mechanism cylindrical outer cover, rod end docking rotary limited stabilizing mechanism external thread structure, rod end dock rotary limited
Stabilizing mechanism rings configuration, rod end docking rotary limited stabilizing mechanism groove structure, rod end docking limit
Spin stabilization mechanism bearing, rod end docking rotary limited stabilizing mechanism plectane and rod end docking rotary limited are steady
Determine mechanism conical socket structure;The side of the rod end docking rotary limited stabilizing mechanism cylindrical outer cover is provided with bar
Rotary limited stabilizing mechanism external thread structure is docked in body end portion, and the rod end docks rotary limited stabilizing mechanism cylindricality
One end face of shell is provided with and docks rotary limited stabilizing mechanism rings configuration with the rod end of its integral structure, described
The other end of rod end docking rotary limited stabilizing mechanism cylindrical outer cover is internally provided with rod end docking limit rotation
Turn stabilizing mechanism groove structure, a bar is installed in the inside of the rod end docking rotary limited stabilizing mechanism groove structure
Dock rotary limited stabilizing mechanism bearing, the inner ring of the rod end docking rotary limited stabilizing mechanism bearing in body end portion
One rod end docking rotary limited stabilizing mechanism plectane, the rod end docking rotary limited stabilizing mechanism circle are installed
One end of plate is provided centrally with rod end docking rotary limited stabilizing mechanism conical socket structure.
Further, the rod end docking rotary limited stabilizing mechanism external thread structure and setting are in rod end
Internal screw thread inside docking rotary limited stabilizing mechanism mounting hole is meshed.
Further, the rod end docking rotary limited stabilizing mechanism conical socket structure and main cone connected in star knot
Structure opposition setting, and the axial line and the main cone of rod end docking rotary limited stabilizing mechanism conical socket structure
The axis line location of connected in star structure is in same horizontal line.
Further, the helical spring controller perturbation formula maximum rotatory power control mechanism includes helical spring elasticity control
The main hollow housing of standard maximum rotatory power control mechanism, helical spring controller perturbation formula maximum rotatory power control mechanism are used
Main hollow section, helical spring controller perturbation formula maximum rotatory power control mechanism column spinner, helical spring controller perturbation formula
Maximum rotatory power control mechanism semi-circular recesses structure, helical spring controller perturbation formula maximum rotatory power control mechanism are used
Secondary hollow section, helical spring controller perturbation formula maximum rotatory power control mechanism movable plate, helical spring controller perturbation formula
Maximum rotatory power control mechanism helical spring and helical spring controller perturbation formula maximum rotatory power control mechanism push rod;
The center of main one end face of hollow housing of the helical spring controller perturbation formula maximum rotatory power control mechanism and the second rotation
Axis is fixedly connected, and the helical spring controller perturbation formula maximum rotatory power control mechanism is with the center inside main hollow housing
The main hollow section of the helical spring controller perturbation formula maximum rotatory power control mechanism, the helical spring controller perturbation formula
Maximum rotatory power control mechanism is being located at helical spring controller perturbation formula maximum rotatory power control with main hollow housing
The inside in the main hollow section of mechanism is socketed a helical spring controller perturbation formula maximum rotatory power control mechanism column spinner, institute
It is helical spring controller perturbation that helical spring controller perturbation formula maximum rotatory power control mechanism, which is stated, with the inside of main hollow housing
The secondary hollow section of formula maximum rotatory power control mechanism, the helical spring controller perturbation formula maximum rotatory power control mechanism
Inside with secondary hollow section is being located at the main hollow area of the helical spring controller perturbation formula maximum rotatory power control mechanism
Between an end face place a helical spring controller perturbation formula maximum rotatory power control mechanism movable plate, the helical spring bullet
Property the secondary hollow section of control formula maximum rotatory power control mechanism in place in helical spring controller perturbation formula maximum rotation
Helical spring controller perturbation formula maximum rotatory power control mechanism use is fixed between one end of capability control mechanism movable plate
One end face of helical spring, the helical spring controller perturbation formula maximum rotatory power control mechanism movable plate is provided with and it
The helical spring controller perturbation formula maximum rotatory power control mechanism push rod of integral structure, and the helical spring elasticity control
Standard maximum rotatory power control mechanism push rod runs through the helical spring controller perturbation formula maximum rotatory power control mechanism
With main hollow housing, and it is located at the helical spring controller perturbation formula maximum rotatory power control mechanism and leads the interior of hollow section
Portion, the helical spring controller perturbation formula maximum rotatory power control mechanism push rod are being located at the helical spring controller perturbation
Formula maximum rotatory power control mechanism is semicircular structure with the one end in main hollow section, and the helical spring controller perturbation formula is most
The side of big rotatory power control mechanism column spinner is provided with for placing the helical spring controller perturbation formula maximum rotation
The helical spring controller perturbation formula maximum rotatory power control mechanism semi-circular recesses knot of capability control mechanism push rod end
The end of the first rotary shaft is fixed in one end of structure, the helical spring controller perturbation formula maximum rotatory power control mechanism column spinner
Portion.
Further, the initial length of the helical spring controller perturbation formula maximum rotatory power control mechanism helical spring
Degree is greater than the length in the secondary hollow section of the helical spring controller perturbation formula maximum rotatory power control mechanism.
Further, outside structure of the helical spring controller perturbation formula maximum rotatory power control mechanism with push rod end
Shape and helical spring controller perturbation formula maximum rotatory power control mechanism are consistent with the construction profile of semi-circular recesses structure.
Further, the reverse thread structural formula distance adjusting mechanism includes reverse thread structural formula distance adjusting mechanism
It is used with screw shell, reverse thread structural formula distance adjusting mechanism screw thread section, reverse thread structural formula distance adjusting mechanism
Helicitic texture, reverse thread structural formula distance adjusting mechanism bottom thread bar, reverse thread structural formula distance adjusting mechanism are used
Screw top bar, reverse thread structural formula distance adjusting mechanism limit hole and reverse thread structural formula distance adjusting mechanism limit
Position bar;Connection reverse thread structure is provided centrally with inside the reverse thread structural formula distance adjusting mechanism screw shell
The reverse thread structural formula distance adjusting mechanism screw thread section of formula distance adjusting mechanism screw shell both ends of the surface, it is described reversed
Helicitic texture formula distance adjusting mechanism is being located at the reverse thread structural formula distance adjusting mechanism threaded area with screw shell
Between inner wall be provided with reverse thread structural formula distance adjusting mechanism helicitic texture, the reverse thread structural formula distance is adjusted
Mechanism passes through reverse thread structural formula distance adjusting mechanism with the bottom and top in screw thread section respectively and is connected with helicitic texture
Reverse thread structural formula distance adjusting mechanism bottom thread bar and reverse thread structural formula distance adjusting mechanism screw top
Bar, reverse thread structural formula distance adjusting mechanism bottom thread bar and reverse thread structural formula distance adjusting mechanism top
Portion's threaded rod is provided with reverse thread structural formula distance adjusting mechanism limit hole, two reverse threads inside opposite end
A reverse thread structural formula distance adjusting mechanism gag lever post is inserted into the inside of structural formula distance adjusting mechanism limit hole.
Further, the reverse thread structural formula distance adjusting mechanism includes being arranged in reverse thread knot with helicitic texture
The internal thread structure of structure formula distance adjusting mechanism screw shell inner wall and setting are in reverse thread structural formula distance adjusting mechanism
With the external thread structure on bottom thread bar and reverse thread structural formula distance adjusting mechanism screw top club shaft, and it is located at
At the top of reverse thread structural formula distance adjusting mechanism bottom thread bar and reverse thread structural formula distance adjusting mechanism
The hand of spiral of helicitic texture on screw thread club shaft is opposite.
Further, the construction profile of reverse thread structural formula distance adjusting mechanism limit hole cross section and reversed
Helicitic texture formula distance adjusting mechanism is triangular structure with the construction profile of gag lever post cross section, and the reverse thread knot
The bottom end of structure formula distance adjusting mechanism bottom thread bar and reverse thread structural formula distance adjusting mechanism screw top bar
Top is separately mounted to the upper surface of connecting flange plate and the movable end of hinges.
Compared with prior art, the beneficial effects of the present invention are: the present invention can will need the body of rod level polished to fix,
It then recycles atwirl grinding disc to polish, when polishing, the position where grinding disc can be moved manually,
Meanwhile and 360 degree rotation can be carried out to the body of rod, so comprehensive burnishing action can be carried out to the body of rod, also, the device
Component is mostly mechanical part so low cost, maintenance cost is low, moreover, there is the device rod end docking rotary limited to stablize
Mechanism can limit one end of the body of rod, meanwhile, and will not influence the normal turning effort of the body of rod, in addition, the device has
There is helical spring controller perturbation formula maximum rotatory power control mechanism, the elasticity of helical spring can be utilized, control rotation dynamics
Maximum value, prevent due to resistance it is excessive caused by the body of rod polishing excessively, in addition, the device have reverse thread structural formula away from
From regulating mechanism, reverse thread principle can be utilized, height adjustment is realized, thus the pressure between adjusting rod body surface face and grinding disc
Power.
Detailed description of the invention
Fig. 1 is a kind of complete section structural schematic diagram of rod-like articles side high efficiency sander of the present invention;
Fig. 2 is that rod end docks rotary limited stabilizing mechanism in a kind of rod-like articles side high efficiency sander of the present invention
Structural schematic diagram;
Fig. 3 is helical spring controller perturbation formula maximum rotatory power in a kind of rod-like articles side high efficiency sander of the present invention
The structural schematic diagram of control mechanism;
Fig. 4 is the knot of reverse thread structural formula distance adjusting mechanism in a kind of rod-like articles side high efficiency sander of the present invention
Structure schematic diagram;
In figure: 1, bottom supporting substrate, 2, bottom installation base plate, 3, main first support bar, 4, main second support bar, 5, body of rod end
Rotary limited stabilizing mechanism mounting hole, 6 are docked in portion, and rod end docks rotary limited stabilizing mechanism, 61, rod end docking limit
Position spin stabilization mechanism cylindrical outer cover, 62, rod end docking rotary limited stabilizing mechanism external thread structure, 63, the body of rod
End docking rotary limited stabilizing mechanism rings configuration, 64, rod end docks rotary limited stabilizing mechanism groove knot
Structure, 65, rod end docking rotary limited stabilizing mechanism bearing, 66, rod end docks rotary limited stabilizing mechanism circle
Plate, 67, rod end docks rotary limited stabilizing mechanism conical socket structure, 7, the rotation of helical spring controller perturbation formula maximum
Capability control mechanism, 71, the main hollow housing of helical spring controller perturbation formula maximum rotatory power control mechanism, 72, spiral bullet
The main hollow section of spring controller perturbation formula maximum rotatory power control mechanism, 73, helical spring controller perturbation formula maximum rotational energy
Power control mechanism column spinner, 74, helical spring controller perturbation formula maximum rotatory power control mechanism semi-circular recesses structure,
75, the secondary hollow section of helical spring controller perturbation formula maximum rotatory power control mechanism, 76, helical spring controller perturbation formula is most
Big rotatory power control mechanism movable plate, 77, helical spring controller perturbation formula maximum rotatory power control mechanism spiral bullet
Spring, 78, helical spring controller perturbation formula maximum rotatory power control mechanism push rod, 8, base bearing, 9, the first rotary shaft, 10,
Swivel plate, 11, the second rotary shaft, 12, main plectane, 13, main conical socket structure, 14, reverse thread structural formula distance adjust machine
Structure, 141, reverse thread structural formula distance adjusting mechanism screw shell, 142, reverse thread structural formula distance adjusting mechanism is used
Screw thread section, 143, reverse thread structural formula distance adjusting mechanism helicitic texture, 144, reverse thread structural formula distance is adjusted
Mechanism bottom thread bar, 145, reverse thread structural formula distance adjusting mechanism screw top bar, 146, reverse thread structure
Formula distance adjusting mechanism limit hole, 147, reverse thread structural formula distance adjusting mechanism gag lever post, 15, connecting flange plate,
16, hinges, 17, cross bar, 18, collar bush, 19, axle sleeve hole, 20, push plate, 21, master link, 22, driving motor is installed outer
Shell, 23, driving motor, 24, electric machine main shaft, 25, grinding disc.
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 supporting substrate 1, the bottom supporting substrate 1
Top install a bottom installation base plate 2, the two sides of 2 upper surface of bottom installation base plate are separately installed with main first support bar
3 and main second support bar 4, the middle part of the main first support bar 3 and main second support bar 4 is respectively arranged with rod end docking
Rotary limited stabilizing mechanism mounting hole 5 and base bearing 8, the rod end docking rotary limited stabilizing mechanism mounting hole 5 and master
The inner ring of bearing 8 is separately installed with rod end docking rotary limited stabilizing mechanism 6 and the rotation of helical spring controller perturbation formula maximum
Turn capability control mechanism 7, one end center installation 1 of the helical spring controller perturbation formula maximum rotatory power control mechanism 7 the
A swivel plate 10, the helical spring controller perturbation formula maximum rotation are installed in one rotary shaft 9, the end of first rotary shaft 9
One second rotary shaft 11 is installed at the other end center of capability control mechanism 7, and a main circle is installed in the end of second rotary shaft 11
Plate 12, main 12 end face of plectane are provided centrally with main conical socket structure 13, the main first support bar 3 and master second
The top of strut 4 is respectively mounted a reverse thread structural formula distance adjusting mechanism 14, the two reversed spiral shells by connecting flange plate 15
The top of line structural formula distance adjusting mechanism 14 is mounted on the end of a cross bar 17, the bar of the cross bar 17 by hinges 16
Body is mounted on the inside of the axle sleeve hole 19 inside a collar bush 18, and a push plate 20, the master are installed in the top of the collar bush 18
A master link 21, the lateral driving motor installation of the bottom installation one of the master link 21 are installed by the bottom centre of axle sleeve 18
A driving motor 23, the motor master in the driving motor 23 are installed in shell 22, the inside of the driving motor installation shell 22
24 end of axis is installed by one existing grinding disc 25.
Referring to Fig. 2, the rod end docking rotary limited stabilizing mechanism 6 includes that rod end docking rotary limited is steady
Determine mechanism cylindrical outer cover 61, rod end docking rotary limited stabilizing mechanism external thread structure 62, rod end docking limit
Position spin stabilization mechanism rings configuration 63, rod end dock rotary limited stabilizing mechanism groove structure 64, body of rod end
Rotary limited stabilizing mechanism bearing 65 is docked in portion, rod end docks rotary limited stabilizing mechanism plectane 66 and rod end
Dock rotary limited stabilizing mechanism conical socket structure 67;Outside the rod end docking rotary limited stabilizing mechanism cylindricality
The side of shell 61 is provided with rod end docking rotary limited stabilizing mechanism external thread structure 62, the rod end docking limit
Position spin stabilization mechanism is provided with that dock rotary limited with the rod end of its integral structure steady with 61 1 end face of cylindrical outer cover
Determine mechanism rings configuration 63, the rod end docks in other end of the rotary limited stabilizing mechanism with cylindrical outer cover 61
Portion is provided with rod end docking rotary limited stabilizing mechanism groove structure 64, and the rod end docking rotary limited is stablized
The inside of mechanism groove structure 64 is installed by one rod end docking rotary limited stabilizing mechanism bearing 65, the rod end
The inner ring for docking rotary limited stabilizing mechanism bearing 65 installs rod end docking rotary limited stabilizing mechanism plectane 66,
The rod end docking rotary limited stabilizing mechanism is provided centrally with rod end docking rotary limited with one end of plectane 66
Stabilizing mechanism conical socket structure 67;The rod end docking rotary limited stabilizing mechanism external thread structure 62 and setting
Internal screw thread inside rod end docking rotary limited stabilizing mechanism mounting hole 5 is meshed;The rod end docking limit
Spin stabilization mechanism conical socket structure 67 and main conical socket structure 13 opposition are arranged, and rod end docking limit
The axis line location of the axial line of spin stabilization mechanism conical socket structure 67 and the main conical socket structure 13 is in same water
On horizontal line, main function is: body of rod both ends are inserted into docking rotary limited stabilizing mechanism conical socket to rod end
Inside the axial line of structure 67 and the main conical socket structure 13, fastening and turning effort can be realized.
Referring to Fig. 3, the helical spring controller perturbation formula maximum rotatory power control mechanism 7 includes helical spring elasticity
The main hollow housing 71 of control formula maximum rotatory power control mechanism, helical spring controller perturbation formula maximum rotatory power control machine
The main hollow section 72 of structure, helical spring controller perturbation formula maximum rotatory power control mechanism column spinner 73, helical spring bullet
Property control formula maximum rotatory power control mechanism semi-circular recesses structure 74, helical spring controller perturbation formula maximum rotatory power
The secondary hollow section 75 of control mechanism, helical spring controller perturbation formula maximum rotatory power control mechanism movable plate 76, spiral
Spring controls formula maximum rotatory power control mechanism helical spring 77 and helical spring controller perturbation formula maximum rotational energy
Power control mechanism push rod 78;The main hollow housing 71 1 of the helical spring controller perturbation formula maximum rotatory power control mechanism
The center of end face is fixedly connected with the second rotary shaft 11, and the helical spring controller perturbation formula maximum rotatory power control mechanism is used
Center inside main hollow housing 71 is the main hollow area of the helical spring controller perturbation formula maximum rotatory power control mechanism
Between 72, the helical spring controller perturbation formula maximum rotatory power control mechanism with main hollow housing 71 be located at the spiral bullet
The inside in the main hollow section 72 of spring controller perturbation formula maximum rotatory power control mechanism is socketed a helical spring controller perturbation formula
Maximum rotatory power control mechanism column spinner 73, the helical spring controller perturbation formula maximum rotatory power control mechanism master
The inside of hollow housing 71 is the secondary hollow section 75 of helical spring controller perturbation formula maximum rotatory power control mechanism, the spiral shell
The inside for revolving the secondary hollow section 75 of spring control formula maximum rotatory power control mechanism is being located at the helical spring bullet
Property the main hollow section 72 of control formula maximum rotatory power control mechanism one helical spring controller perturbation formula of end face placement most
Big rotatory power control mechanism movable plate 76, during the helical spring controller perturbation formula maximum rotatory power control mechanism is secondary
Empty interval 75 is between the one end of the helical spring controller perturbation formula maximum rotatory power control mechanism with movable plate 76
Fix a helical spring controller perturbation formula maximum rotatory power control mechanism helical spring 77, the helical spring controller perturbation
One end face of formula maximum rotatory power control mechanism movable plate 76 is provided with the helical spring elasticity control with its integral structure
Standard maximum rotatory power control mechanism push rod 78, and the helical spring controller perturbation formula maximum rotatory power control mechanism
Run through the main hollow housing 71 of the helical spring controller perturbation formula maximum rotatory power control mechanism with push rod 78, and is located at institute
State the inside in the main hollow section 72 of helical spring controller perturbation formula maximum rotatory power control mechanism, the helical spring elasticity
Control formula maximum rotatory power control mechanism is being located at the helical spring controller perturbation formula maximum rotatory power control with push rod 78
Mechanism processed is semicircular structure with the one end in main hollow section 72, the helical spring controller perturbation formula maximum rotatory power control
Mechanism is provided with the side of column spinner 73 for placing the helical spring controller perturbation formula maximum rotatory power control mechanism
With the helical spring controller perturbation formula maximum rotatory power control mechanism semi-circular recesses structure 74 of 78 end of push rod, the spiral shell
Rotation spring control formula maximum rotatory power control mechanism fixes the end of the first rotary shaft 7 with one end of column spinner 73;Institute
The initial length for stating helical spring controller perturbation formula maximum rotatory power control mechanism helical spring 77 is greater than the spiral bullet
The length in the secondary hollow section 75 of spring controller perturbation formula maximum rotatory power control mechanism;The helical spring controller perturbation formula is most
The construction profile and the control of helical spring controller perturbation formula maximum rotatory power of big rotatory power control mechanism 78 end of push rod
Mechanism is consistent with the construction profile of semi-circular recesses structure 74, and main function is: reversely rotating between grinding disc 25 and the body of rod
When, it will form resistance, resistance is greater than helical spring controller perturbation formula maximum rotatory power control mechanism helical spring 77
When elastic, helical spring controller perturbation formula maximum rotatory power control mechanism helical spring 77 can be made to compress, made in cause and effect
Under so that realize relative rotation between the first rotary shaft 9 and the second rotary shaft 11, thus will not the rotation of driven rod body, play
Protective effect.
Referring to Fig. 4, the reverse thread structural formula distance adjusting mechanism 14 includes that reverse thread structural formula distance is adjusted
Mechanism screw shell 141, reverse thread structural formula distance adjusting mechanism screw thread section 142, reverse thread structural formula distance
Regulating mechanism helicitic texture 143, reverse thread structural formula distance adjusting mechanism bottom thread bar 144, reverse thread structure
Formula distance adjusting mechanism screw top bar 145, reverse thread structural formula distance adjusting mechanism limit hole 146 and reverse thread
Structural formula distance adjusting mechanism gag lever post 147;Inside reverse thread structural formula distance adjusting mechanism screw shell 141
Be provided centrally with connection 141 both ends of the surface of reverse thread structural formula distance adjusting mechanism screw shell reverse thread structural formula
Distance adjusting mechanism screw thread section 142, the reverse thread structural formula distance adjusting mechanism are being located at institute with screw shell 141
It states reverse thread structural formula distance adjusting mechanism and is provided with reverse thread structural formula apart from adjusting machine with the inner wall in screw thread section 142
The bottom and top of structure helicitic texture 143, reverse thread structural formula distance adjusting mechanism screw thread section 142 lead to respectively
It crosses reverse thread structural formula distance adjusting mechanism helicitic texture 143 and is connected with reverse thread structural formula distance adjusting mechanism bottom
Portion's threaded rod 144 and reverse thread structural formula distance adjusting mechanism screw top bar 145, the reverse thread structural formula distance
Regulating mechanism bottom thread bar 144 and reverse thread structural formula distance adjusting mechanism screw top bar 145 are in opposite end
Portion is provided with reverse thread structural formula distance adjusting mechanism limit hole 146, and the two reverse thread structural formula distances are adjusted
A reverse thread structural formula distance adjusting mechanism gag lever post 147 is inserted into the inside of mechanism limit hole 146;The reverse thread
Structural formula distance adjusting mechanism includes being arranged in reverse thread structural formula distance adjusting mechanism screw shell with helicitic texture 143
The internal thread structure of 141 inner walls and setting are in reverse thread structural formula distance adjusting mechanism bottom thread bar 144 and reversed spiral shell
External thread structure of the line structural formula distance adjusting mechanism on 145 body of rod of screw top bar, and it is located at the reverse thread structure
145 body of rod of formula distance adjusting mechanism bottom thread bar 144 and reverse thread structural formula distance adjusting mechanism screw top bar
On helicitic texture hand of spiral it is opposite;The reverse thread structural formula distance adjusting mechanism 146 cross section of limit hole
Construction profile is triangle knot with the construction profile of 147 cross section of gag lever post with reverse thread structural formula distance adjusting mechanism
Structure, and the bottom end of reverse thread structural formula distance adjusting mechanism bottom thread bar 144 and reverse thread structural formula distance
Regulating mechanism is separately mounted to the upper surface of connecting flange plate 15 and the activity of hinges 16 with the top of screw top bar 145
End, main function is: reverse thread has adjustment effect, can be used by rotation reverse thread structural formula distance adjusting mechanism
Screw shell 141 carries out height adjustment.
Specifically used mode: in present invention work, the body of rod is inserted into main conical socket structure 13 and rod end docks
Between rotary limited stabilizing mechanism 6, then rotates rod end and dock rotary limited stabilizing mechanism 6, enable the body of rod tight
Gu two helical spring controller perturbation formula maximum rotatory power control mechanisms 14 are then adjusted, so that grinding disc 25 and body of rod surface
Between contact, at this time rotate swivel plate 10, if it is possible to drive the body of rod to rotate, can surface modulation formed pressure value satisfaction beat
Mill, conversely, continuing to adjust helical spring controller perturbation formula maximum rotatory power control mechanism 14, then i.e. openable driving motor
23, it then can be manually rotated swivel plate 10, so that reversely rotated between the body of rod and grinding disc 25, in the grinding process, then
Constantly at the uniform velocity move push plate 20.
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 rod-like articles side high efficiency sander, including bottom supporting substrate (1), it is characterised in that: the bottom
A bottom installation base plate (2) is installed at the top of supporting substrate (1), and the two sides of bottom installation base plate (2) upper surface are pacified respectively
Equipped with main first support bar (3) and main second support bar (4), in the main first support bar (3) and main second support bar (4)
Portion is respectively arranged with rod end docking rotary limited stabilizing mechanism mounting hole (5) and base bearing (8), the rod end docking
The inner ring of rotary limited stabilizing mechanism mounting hole (5) and base bearing (8) is separately installed with rod end docking rotary limited and stablizes
Mechanism (6) and helical spring controller perturbation formula maximum rotatory power control mechanism (7), the helical spring controller perturbation formula are maximum
One end center of rotatory power control mechanism (7) is installed by one first rotary shaft (9), the end installation of first rotary shaft (9)
One swivel plate (10), the other end center installation one of the helical spring controller perturbation formula maximum rotatory power control mechanism (7)
A main plectane (12) is installed in the end of second rotary shaft (11), second rotary shaft (11), main plectane (12) end face
It is provided centrally with main conical socket structure (13), passes through company at the top of the main first support bar (3) and main second support bar (4)
Acting flange plate (15) is respectively mounted a reverse thread structural formula distance adjusting mechanism (14), and the two reverse thread structural formula distances are adjusted
The top of section mechanism (14) is mounted on the end of a cross bar (17), the body of rod installation of the cross bar (17) by hinges (16)
In the inside of the internal axle sleeve hole (19) of a collar bush (18), a push plate (20) are installed at the top of the collar bush (18), described
A master link (21) are installed by the bottom centre of collar bush (18), the lateral driving of bottom installation one of the master link (21)
Motor installs shell (22), and a driving motor (23) are installed in the inside of driving motor installation shell (22), the driving electricity
Electric machine main shaft (24) end in machine (23) is installed by one existing grinding disc (25).
2. a kind of rod-like articles according to claim 1 side high efficiency sander, it is characterised in that: the body of rod end
Portion's docking rotary limited stabilizing mechanism (6) includes rod end docking rotary limited stabilizing mechanism cylindrical outer cover (61), the body of rod
Rotary limited stabilizing mechanism external thread structure (62) is docked in end, rod end docks rotary limited stabilizing mechanism rotating ring
Structure (63), rod end docking rotary limited stabilizing mechanism groove structure (64), rod end docking rotary limited are stablized
Mechanism bearing (65), rod end docking rotary limited stabilizing mechanism plectane (66) and rod end docking rotary limited are steady
Determine mechanism conical socket structure (67);The side of rod end docking rotary limited stabilizing mechanism cylindrical outer cover (61)
It is provided with rod end docking rotary limited stabilizing mechanism external thread structure (62), the rod end docking rotary limited is steady
Determine mechanism and be provided with (61) one end face of cylindrical outer cover to dock rotary limited stabilizing mechanism with the rod end of its integral structure
With rings configuration (63), the rod end is docked inside other end of the rotary limited stabilizing mechanism with cylindrical outer cover (61)
It is provided with rod end docking rotary limited stabilizing mechanism groove structure (64), the rod end docking rotary limited is stablized
The inside of mechanism groove structure (64) is installed by one rod end docking rotary limited stabilizing mechanism bearing (65), the body of rod
The inner ring that rotary limited stabilizing mechanism bearing (65) is docked in end is installed rod end docking rotary limited stabilizing mechanism and is used
Plectane (66), the rod end docking rotary limited stabilizing mechanism are provided centrally with rod end pair with one end of plectane (66)
Connect rotary limited stabilizing mechanism conical socket structure (67).
3. a kind of rod-like articles according to claim 2 side high efficiency sander, it is characterised in that: the body of rod end
It docks rotary limited stabilizing mechanism and docks rotary limited stabilizing mechanism peace in rod end with setting with external thread structure (62) in portion
The internal internal screw thread of dress hole (5) is meshed.
4. a kind of rod-like articles according to claim 2 side high efficiency sander, it is characterised in that: the body of rod end
Portion docks rotary limited stabilizing mechanism and is arranged with conical socket structure (67) and main conical socket structure (13) opposition, and the bar
The axial line of body end portion docking rotary limited stabilizing mechanism conical socket structure (67) and the main conical socket structure (13)
Axis line location in same horizontal line.
5. a kind of rod-like articles according to claim 1 side high efficiency sander, it is characterised in that: the spiral bullet
Spring controller perturbation formula maximum rotatory power control mechanism (7) includes helical spring controller perturbation formula maximum rotatory power control mechanism
With main hollow housing (71), the main hollow section (72) of helical spring controller perturbation formula maximum rotatory power control mechanism, spiral
Spring controls formula maximum rotatory power control mechanism column spinner (73), helical spring controller perturbation formula maximum rotatory power
Control mechanism semi-circular recesses structure (74), the secondary hollow area of helical spring controller perturbation formula maximum rotatory power control mechanism
Between (75), helical spring controller perturbation formula maximum rotatory power control mechanism movable plate (76), helical spring controller perturbation formula
Maximum rotatory power control mechanism helical spring (77) and helical spring controller perturbation formula maximum rotatory power control mechanism are used
Push rod (78);The helical spring controller perturbation formula maximum rotatory power control mechanism is in main (71) one end face of hollow housing
The heart is fixedly connected with the second rotary shaft (11), and the helical spring controller perturbation formula maximum rotatory power control mechanism master is hollow
The internal center of shell (71) is the main hollow section of the helical spring controller perturbation formula maximum rotatory power control mechanism
(72), the helical spring controller perturbation formula maximum rotatory power control mechanism is being located at the spiral with main hollow housing (71)
The inside that spring controls the main hollow section (72) of formula maximum rotatory power control mechanism is socketed a helical spring elasticity control
Standard maximum rotatory power control mechanism controls machine with column spinner (73), the helical spring controller perturbation formula maximum rotatory power
The inside of structure main hollow housing (71) is the secondary hollow section of helical spring controller perturbation formula maximum rotatory power control mechanism
(75), the inside of the secondary hollow section (75) of the helical spring controller perturbation formula maximum rotatory power control mechanism is being located at institute
Place a spiral bullet in the end face for stating the main hollow section (72) of helical spring controller perturbation formula maximum rotatory power control mechanism
Spring controller perturbation formula maximum rotatory power control mechanism movable plate (76), the helical spring controller perturbation formula maximum rotational energy
The secondary hollow section (75) of power control mechanism is being located at helical spring controller perturbation formula maximum rotatory power control mechanism use
A helical spring controller perturbation formula maximum rotatory power control mechanism helical spring is fixed between one end of movable plate (76)
(77), the helical spring controller perturbation formula maximum rotatory power control mechanism be provided with an end face of movable plate (76) and its
The helical spring controller perturbation formula maximum rotatory power control mechanism of integral structure is with push rod (78), and the helical spring bullet
Property control formula maximum rotatory power control mechanism with push rod (78) run through the helical spring controller perturbation formula maximum rotatory power
Control mechanism is located at helical spring controller perturbation formula maximum rotatory power control mechanism master with main hollow housing (71)
The inside of hollow section (72), the helical spring controller perturbation formula maximum rotatory power control mechanism push rod (78) are being located at
One end of the main hollow section (72) of the helical spring controller perturbation formula maximum rotatory power control mechanism is semicircular structure,
The helical spring controller perturbation formula maximum rotatory power control mechanism is provided with the side of column spinner (73) for placing
State the helical spring controller perturbation formula of helical spring controller perturbation formula maximum rotatory power control mechanism push rod (78) end most
Big rotatory power control mechanism semi-circular recesses structure (74), the helical spring controller perturbation formula maximum rotatory power control
Mechanism fixes the end of the first rotary shaft (7) with one end of column spinner (73).
6. a kind of rod-like articles according to claim 5 side high efficiency sander, it is characterised in that: the spiral bullet
The initial length of spring controller perturbation formula maximum rotatory power control mechanism helical spring (77) is greater than the helical spring elasticity
The length of the secondary hollow section (75) of control formula maximum rotatory power control mechanism.
7. a kind of rod-like articles according to claim 5 side high efficiency sander, it is characterised in that: the spiral bullet
The construction profile and helical spring controller perturbation formula of spring controller perturbation formula maximum rotatory power control mechanism push rod (78) end
Maximum rotatory power control mechanism is consistent with the construction profile of semi-circular recesses structure (74).
8. a kind of rod-like articles according to claim 1 side high efficiency sander, it is characterised in that: the reversed spiral shell
Line structural formula distance adjusting mechanism (14) includes reverse thread structural formula distance adjusting mechanism screw shell (141), reversed spiral shell
Line structural formula distance adjusting mechanism is with screw thread section (142), reverse thread structural formula distance adjusting mechanism helicitic texture
(143), reverse thread structural formula distance adjusting mechanism bottom thread bar (144), reverse thread structural formula distance adjusting mechanism
With screw top bar (145), reverse thread structural formula distance adjusting mechanism limit hole (146) and reverse thread structural formula distance
Regulating mechanism is with gag lever post (147);The internal center of reverse thread structural formula distance adjusting mechanism screw shell (141)
It is provided with the reverse thread structural formula distance of connection reverse thread structural formula distance adjusting mechanism screw shell (141) both ends of the surface
Regulating mechanism is being located at institute with screw shell (141) with screw thread section (142), the reverse thread structural formula distance adjusting mechanism
It states reverse thread structural formula distance adjusting mechanism and the inner wall of screw thread section (142) is provided with the distance adjusting of reverse thread structural formula
Mechanism helicitic texture (143), the bottom and top of reverse thread structural formula distance adjusting mechanism screw thread section (142)
Reverse thread structural formula distance is connected with helicitic texture (143) by reverse thread structural formula distance adjusting mechanism respectively to adjust
Mechanism bottom thread bar (144) and reverse thread structural formula distance adjusting mechanism screw top bar (145), the reversed spiral shell
Line structural formula distance adjusting mechanism bottom thread bar (144) and reverse thread structural formula distance adjusting mechanism screw top bar
(145) reverse thread structural formula distance adjusting mechanism limit hole (146), the two reversed spiral shells are provided with inside opposite end
Reverse thread structural formula distance adjusting mechanism limit is inserted into the inside of line structural formula distance adjusting mechanism limit hole (146)
Bar (147).
9. a kind of rod-like articles according to claim 8 side high efficiency sander, it is characterised in that: the reversed spiral shell
Line structural formula distance adjusting mechanism includes being arranged in reverse thread structural formula distance adjusting mechanism screw thread with helicitic texture (143)
The internal thread structure of sleeve (141) inner wall and setting are in reverse thread structural formula distance adjusting mechanism with bottom thread bar (144)
With external thread structure of the reverse thread structural formula distance adjusting mechanism on screw top bar (145) body of rod, and it is located at described anti-
To helicitic texture formula distance adjusting mechanism bottom thread bar (144) and reverse thread structural formula distance adjusting mechanism top spiral shell
The hand of spiral of helicitic texture on rasp bar (145) body of rod is opposite.
10. a kind of rod-like articles according to claim 8 side high efficiency sander, it is characterised in that: described reversed
Construction profile and reverse thread the structural formula distance of helicitic texture formula distance adjusting mechanism limit hole (146) cross section adjust machine
Structure is triangular structure with the construction profile of gag lever post (147) cross section, and reverse thread structural formula distance adjusts machine
The bottom end of structure bottom thread bar (144) and the top of reverse thread structural formula distance adjusting mechanism screw top bar (145)
It is separately mounted to the upper surface of connecting flange plate (15) and the movable end of hinges (16).
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Cited By (5)
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CN110788744A (en) * | 2019-10-24 | 2020-02-14 | 张国来 | Columnar raw material efficient type polishing rotating device |
CN111022583A (en) * | 2019-12-12 | 2020-04-17 | 薛春红 | Integrated rod-shaped object driving device |
CN111037377A (en) * | 2019-12-21 | 2020-04-21 | 泉州市富永盛技术服务有限公司 | Cylindrical grinding machine for industrial production and manufacturing |
CN111300232A (en) * | 2020-03-17 | 2020-06-19 | 宋乐庆 | Multi-purpose formula part grinding device of a tractor |
CN111361016A (en) * | 2020-03-17 | 2020-07-03 | 秦江澎 | Connecting device for feeding device of stirring tank |
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CN111361016A (en) * | 2020-03-17 | 2020-07-03 | 秦江澎 | Connecting device for feeding device of stirring tank |
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