CN109386569A - A kind of high shock resistance controller - Google Patents
A kind of high shock resistance controller Download PDFInfo
- Publication number
- CN109386569A CN109386569A CN201811304238.8A CN201811304238A CN109386569A CN 109386569 A CN109386569 A CN 109386569A CN 201811304238 A CN201811304238 A CN 201811304238A CN 109386569 A CN109386569 A CN 109386569A
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- square type
- wall
- controller ontology
- controller
- hole
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16F—SPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
- F16F15/00—Suppression of vibrations in systems; Means or arrangements for avoiding or reducing out-of-balance forces, e.g. due to motion
- F16F15/02—Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems
- F16F15/04—Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using elastic means
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Acoustics & Sound (AREA)
- Aviation & Aerospace Engineering (AREA)
- Mechanical Engineering (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Blinds (AREA)
Abstract
The invention discloses a kind of high shock resistance controllers, including pedestal, dashpot is offered at the top of the pedestal, and controller ontology is equipped in dashpot, the bottom of the controller ontology is welded with multiple first springs, and first spring bottom end and the bottom interior wall of dashpot be welded and fixed, the outside of the dashpot is arranged symmetrically, and there are two the cavitys being provided on pedestal, and the first square type hole is offered on two cavitys side inner wall close to each other, the same locating rod is fixedly installed in the top inner wall and bottom interior wall of the cavity, and the outside sliding sleeve of locating rod is equipped with transverse slat, transverse slat is fixedly mounted close to the side of controller ontology through the outside of corresponding first square type Kong Bingyu controller ontology.The configuration of the present invention is simple, can the buffer strength according to actual needs to controller ontology be adjusted, convenient for carrying out damping in use to controller ontology, be conducive to the use to controller.
Description
Technical field
The present invention relates to controller technology field more particularly to a kind of high shock resistance controllers.
Background technique
Controller is many kinds of, and controller refers to the wiring and change for changing main circuit or control circuit according to predetermined order
Resistance value enables device to control starting, speed regulation, braking and reversely main of motor in circuit, in mechanical equipment, controller
The operating surface of equipment is often directly fixedly mounted on, often along with biggish vibration in mechanical equipment operation, in order to avoid control
Device damage is mostly directly to install cushion in controller bottom.
The existing controller cushioning ability for being mounted directly cushion is weaker, and cannot be according to actual needs to controller
Buffer strength are adjusted, and if things go on like this controller are easily damaged in vibration, increase the use cost of controller, and shadow
Working efficiency is rung, the problem of the buffer strength of controller must not be adjusted according to actual needs for solution, therefore we mention
A kind of high shock resistance controller is gone out.
Summary of the invention
The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of high shock resistance control proposed
Device.
To achieve the goals above, present invention employs following technical solutions:
A kind of high shock resistance controller, including pedestal offer dashpot at the top of the pedestal, and are equipped with control in dashpot
Device ontology, the bottom of the controller ontology are welded with multiple first springs, and the bottom of the bottom end of the first spring and dashpot
Inner wall is welded and fixed, and the outside of the dashpot is arranged symmetrically, and there are two the cavitys being provided on pedestal, and two cavitys are mutual
The first square type hole is offered on close side inner wall, is fixedly installed in the top inner wall and bottom interior wall of the cavity same
One locating rod, and the outside sliding sleeve of locating rod is equipped with transverse slat, transverse slat is close to the side of controller ontology through corresponding the
The outside of one square type Kong Bingyu controller ontology is fixedly mounted, and offers second on the side inner wall that two cavitys are located remotely from each other
Square type hole, the top of transverse slat is equipped with and slides the cross bar being arranged on the outside of locating rod, and the bottom of cross bar is welded with multiple second bullets
It is welded and fixed at the top of spring, the bottom end of second spring and corresponding transverse slat, the one end of cross bar far from controller ontology is through correspondence
The second square type hole and extend to outside pedestal, the locating rod offers square type slot, and square type far from the side of controller ontology
Slot is welded with multiple first square type blocks on the side inner wall of controller ontology, and inclination is set as at the top of the first square type block and is cut
Face, the cross bar offers round slot far from one end of controller ontology, and round slot is connected with corresponding square type slot, described
Sliding sleeve is equipped with horizontal axis in round slot, and horizontal axis is extended in square type slot and is fixedly installed with close to one end of corresponding square type slot
Second square type block, the bottom of the second square type block are set as the angled section matched with the first square type block, the round slot
Third square type hole is offered in top inner wall, vertical bar is welded at the top of horizontal axis, and corresponding third square is run through on the top of vertical bar
Type hole and the top for extending to cross bar, the side that two vertical bars are located remotely from each other is welded with third spring, and third spring is separate
One end of vertical bar is welded and fixed with third square type hole far from the side inner wall of controller ontology.
Preferably, offer the first round through-hole at the top of the transverse slat, and the side wall of the first round through-hole with it is corresponding
Slide suit in the outside of locating rod.
Preferably, offer the second round through-hole at the top of the cross bar, and the side wall of the second round through-hole with it is corresponding
Slide suit in the outside of locating rod.
Preferably, the two sides inner wall in first square type hole is slidably connected with the two sides of corresponding transverse slat respectively.
Preferably, the two sides inner wall in second square type hole is slidably connected with the two sides of corresponding cross bar respectively.
Preferably, the two sides inner wall in third square type hole is slidably connected with the two sides of corresponding vertical bar respectively.
Preferably, the quantity of first spring is ten to two ten, and ten to two ten the first spring equidistantly distributeds
In the bottom of controller ontology.
Compared with prior art, the beneficial effects of the present invention are:
Pass through controller ontology, pedestal, dashpot, the first spring, the first square type hole, locating rod, transverse slat, cross bar, square type slot,
One square type block, round slot, horizontal axis, the second square type block, the second square type hole, third square type hole, vertical bar, third spring, cavity and
Two springs, pull down two cross bars, cross bar by corresponding second spring with motion plate locating rod outside slide downward,
Cross bar also drives the second square type block down position mobile by horizontal axis, and the first square type block, which squeezes the second square type block, drives horizontal axis to exist
It is slided in round slot to the direction far from controller ontology, horizontal axis drives corresponding vertical bar to compress third spring, simultaneously
Band movement controller ontology down position is mobile jointly and compresses to multiple first springs for two transverse slats;
When controller ontology adjusting to suitable position, stopping presses cross bar, and the third spring for being now in compressive state passes through
Corresponding vertical bar drives X direction to be moved close to the direction of controller ontology, at this time the top of the second square type block and the first square
The bottom connection of type block is touched and is mutually limited, so that the position of cross bar is limited, when the position for needing to transfer controller ontology upwards
When setting, it is only necessary to be pulled in the direction away from each other to two vertical bars, two vertical bars drive two the second squares by two horizontal axis
Type block moves in the direction away from each other, so that the second square type block lifts restrictions with corresponding first square type block, it can be according to reality
Border needs the position of adjusting controller ontology, so that the elastic force of the first spring changes, convenient for using controller ontology
Middle carry out damping, effectively improves the buffer strength of controller ontology, is conducive to the use to controller.
The configuration of the present invention is simple, can the buffer strength according to actual needs to controller ontology be adjusted, convenient for pair
Controller ontology carries out damping in use, is conducive to the use to controller.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of high shock resistance controller proposed by the present invention;
Fig. 2 is a kind of part A schematic cross-sectional view of high shock resistance controller proposed by the present invention.
In figure: 1 controller ontology, 2 pedestals, 3 dashpots, 4 first springs, 5 first square type holes, 6 locating rods, 7 transverse slats, 8
Cross bar, 9 square type slots, 10 first square type blocks, 11 round slots, 12 horizontal axis, 13 second square type blocks, 14 second square type holes, 15 third squares
Type hole, 16 vertical bars, 17 third springs, 18 cavitys, 19 second springs.
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.
Referring to Fig.1-2, a kind of high shock resistance controller, including pedestal 2, the top of pedestal 2 offer dashpot 3, and slow
Controller ontology 1 is equipped in jet-bedding 3, the bottom of controller ontology 1 is welded with multiple first springs 4, and the bottom end of the first spring 4
It being welded and fixed with the bottom interior wall of dashpot 3, the outside of dashpot 3 is symmetrical arranged there are two the cavity 18 being provided on pedestal 2,
And the first square type hole 5 is offered on two cavitys 18 side inner wall close to each other, in the top inner wall and bottom of cavity 18
The same locating rod 6 is fixedly installed on wall, and the outside sliding sleeve of locating rod 6 is equipped with transverse slat 7, transverse slat 7 is close to controller sheet
The side of body 1 is fixedly mounted through corresponding first square type hole 5 and with the outside of controller ontology 1, and two cavitys 18 are mutually remote
From side inner wall on offer the second square type hole 14, the top of transverse slat 7 is equipped with and slides the cross bar being arranged on the outside of locating rod 6
8, and the bottom of cross bar 8 is welded with multiple second springs 19, the bottom end of second spring 19 and the welding of the top of corresponding transverse slat 7 are solid
Fixed, the one end of cross bar 8 far from controller ontology 1 is through corresponding second square type hole 14 and extends to outside pedestal 2, and locating rod 6 is remote
Side from controller ontology 1 offers square type slot 9, and square type slot 9 be welded on the side inner wall of controller ontology 1 it is more
A first square type block 10, the top of the first square type block 10 are set as angled section, and cross bar 8 is opened up far from one end of controller ontology 1
There is round slot 11, and round slot 11 is connected with corresponding square type slot 9, sliding sleeve is equipped with horizontal axis 12, and horizontal axis in round slot 11
12 extend in square type slot 9 close to one end of corresponding square type slot 9 and are fixedly installed with the second square type block 13, the second square type block 13
Bottom be set as the angled section matched with the first square type block 10, third square type hole is offered in the top inner wall of round slot 11
15, the top of horizontal axis 12 is welded with vertical bar 16, and the top of vertical bar 16 through corresponding third square type hole 15 and extends to cross bar 8
Top, the side that two vertical bars 16 are located remotely from each other is welded with third spring 17, and third spring 17 far from vertical bar 16 one
End is welded and fixed with third square type hole 15 far from the side inner wall of controller ontology 1, passes through controller ontology 1, pedestal 2, buffering
Slot 3, the first spring 4, the first square type hole 5, locating rod 6, transverse slat 7, cross bar 8, square type slot 9, the first square type block 10, round slot 11,
Horizontal axis 12, the second square type block 13, the second square type hole 14, third square type hole 15, vertical bar 16, third spring 17, cavity 18 and second
Spring 19 pulls down two cross bars 8, and cross bar 8 is by corresponding second spring 19 with motion plate 7 in the outer lateral of locating rod 6
Lower slider, cross bar 8 also drive 13 down position of the second square type block mobile by horizontal axis 12, and the first square type block 10 is to the second square type block
13, which squeeze drive horizontal axis 12, slides in round slot 11 to the direction far from controller ontology 1, and horizontal axis 12 drives corresponding vertical bar
16 pairs of third springs 17 compress, while band 1 down position of movement controller ontology is mobile and to multiple the jointly for two transverse slats 7
One spring 4 is compressed, and arrives suitable position when controller ontology 1 is adjusted, stopping presses cross bar 8, is now in compressive state
Third spring 17 drive horizontal axis 12 to be moved to close to the direction of controller ontology 1 by corresponding vertical bar 16, at this time the
The bottom connection of the top of two square type blocks 13 and the first square type block 10 is touched and is mutually limited, so that the position of cross bar 8 is limited, when
When needing to transfer the position of controller ontology 1 upwards, it is only necessary to be pulled in the direction away from each other to two vertical bars 16, two perpendicular
Bar 16 drives two the second square type blocks 13 to move in the direction away from each other by two horizontal axis 12 so that the second square type block 13 with
Corresponding first square type block 10 lifts restrictions, can adjusting controller ontology 1 according to actual needs position so that the first spring
4 elastic force changes, and convenient for carrying out damping in use to controller ontology 1, effectively improves the slow of controller ontology 1
Impulse force degree is conducive to the use to controller, and the configuration of the present invention is simple can be according to actual needs to the slow of controller ontology 1
Impulse force degree is adjusted, and convenient for carrying out damping in use to controller ontology 1, is conducive to the use to controller.
In the present invention, the top of transverse slat 7 offers the first round through-hole, and the side wall of the first round through-hole with it is corresponding fixed
Suit is slided in the outside of position bar 6, and the top of cross bar 8 offers the second round through-hole, and the side wall of the second round through-hole with it is corresponding
The outside of locating rod 6 slide suit, the two sides inner wall in the first square type hole 5 is slidably connected with the two sides of corresponding transverse slat 7 respectively,
The two sides inner wall in the second square type hole 14 is slidably connected with the two sides of corresponding cross bar 8 respectively, the two sides inner wall in third square type hole 15
It is slidably connected respectively with the two sides of corresponding vertical bar 16, the quantity of the first spring 4 is ten to two ten, and ten to two ten first
4 equidistantly distributed of spring passes through controller ontology 1, pedestal 2, dashpot 3, the first spring 4, in the bottom of controller ontology 1
One square type hole 5, locating rod 6, transverse slat 7, cross bar 8, square type slot 9, the first square type block 10, round slot 11, horizontal axis 12, the second square type block
13, the second square type hole 14, third square type hole 15, vertical bar 16, third spring 17, cavity 18 and second spring 19, pull down two
A cross bar 8, cross bar 8 by corresponding second spring 19 with motion plate 7 in the outside slide downward of locating rod 6, cross bar 8 also passes through
Horizontal axis 12 drives 13 down position of the second square type block mobile, and the first square type block 10, which squeezes the second square type block 13, drives horizontal axis 12 to exist
It is slided in round slot 11 to the direction far from controller ontology 1, horizontal axis 12 drives corresponding vertical bar 16 to carry out third spring 17
Compression, while band 1 down position of movement controller ontology is mobile jointly and compresses to multiple first springs 4 for two transverse slats 7, when
Controller ontology 1, which is adjusted, arrives suitable position, and stopping presses cross bar 8, be now in the third spring 17 of compressive state by pair
The vertical bar 16 answered drives horizontal axis 12 to be moved to the direction close to controller ontology 1, at this time the top of the second square type block 13 with
The bottom connection of first square type block 10 is touched and is mutually limited, so that the position of cross bar 8 is limited, when needs transfer controller upwards
When the position of ontology 1, it is only necessary to be pulled in the direction away from each other to two vertical bars 16, two vertical bars 16 pass through two horizontal axis 12
Two the second square type blocks 13 are driven to move in the direction away from each other, so that the second square type block 13 and corresponding first square type block 10
Lift restrictions, can adjusting controller ontology 1 according to actual needs position so that the elastic force of the first spring 4 changes, just
In carrying out damping in use to controller ontology 1, the buffer strength of controller ontology 1 are effectively improved, are conducive to control
The use of device processed, the configuration of the present invention is simple, can the buffer strength according to actual needs to controller ontology 1 be adjusted, just
In carrying out damping in use to controller ontology 1, be conducive to the use to controller.
Working principle: in use, pull down two cross bars 8, cross bar 8 corresponding locating rod 6 outside slide downward,
Cross bar 8 by corresponding second spring 19 with motion plate 7 locating rod 6 outside slide downward, while cross bar 8 pass through horizontal axis 12
Drive 13 down position of the second square type block mobile, since the bottom of the second square type block 13 is set as and corresponding first square type block, 10 phase
The angled section of cooperation, the first square type block 10, which squeezes the second square type block 13, drives horizontal axis 12 in round slot 11 to far from control
The direction of device ontology 1 is slided, and horizontal axis 12 drives corresponding vertical bar 16 to compress third spring 17, while two transverse slats 7 are total
With the movement of band 1 down position of movement controller ontology and multiple first springs 4 are compressed, according to actual needs adjusting controller
Ontology 1 arrives suitable position, and stopping presses cross bar 8, and the third spring 17 for being now in compressive state passes through corresponding vertical bar 16
Horizontal axis 12 is driven to be moved to the direction close to controller ontology 1, at this time the top of the second square type block 13 and the first square type block
10 bottom connection touching, the first square type block 10 limits the second square type block 13, so that the position of cross bar 8 is limited, it is upward when needing
When transferring the position of controller ontology 1, it is only necessary to be pulled in the direction away from each other to two vertical bars 16, two vertical bars 16 pass through
Two horizontal axis 12 drive two the second square type blocks 13 to move in the direction away from each other, so that the second square type block 13 and corresponding the
One square type block 10 lifts restrictions, can adjusting controller ontology 1 according to actual needs position so that the elastic force of the first spring 4
It changes, convenient for carrying out damping in use to controller ontology 1, effectively improves the buffer strength of controller ontology 1,
Be conducive to the use to controller.
Claims (7)
1. a kind of high shock resistance controller, including pedestal (2), offer dashpot (3), and buffers at the top of the pedestal (2)
It is equipped with controller ontology (1) in slot (3), the bottom of the controller ontology (1) is welded with multiple first springs (4), and first
The bottom end of spring (4) and the bottom interior wall of dashpot (3) are welded and fixed, which is characterized in that the outside of the dashpot (3) is symmetrical
It is arranged there are two being provided with cavity (18) on pedestal (2), and is opened up on two cavitys (18) side inner wall close to each other
There is the first square type hole (5), be fixedly installed with the same locating rod (6) in the top inner wall and bottom interior wall of the cavity (18),
And the outside sliding sleeve of locating rod (6) is equipped with transverse slat (7), transverse slat (7) close to controller ontology (1) side through corresponding the
One square type hole (5) is simultaneously fixedly mounted with the outside of controller ontology (1), on the side inner wall that two cavitys (18) are located remotely from each other
The second square type hole (14) is offered, the top of transverse slat (7) is equipped with and slides the cross bar (8) being arranged, and cross bar on the outside of locating rod (6)
(8) bottom is welded with multiple second springs (19), and the bottom end of second spring (19) and the welding of the top of corresponding transverse slat (7) are solid
Fixed, the one end of cross bar (8) far from controller ontology (1) is through corresponding second square type hole (14) and extends to pedestal (2) outside, institute
It states locating rod (6) to offer square type slot (9) far from the side of controller ontology (1), and square type slot (9) is close to controller ontology
(1) it is welded with multiple first square type blocks (10) on side inner wall, is set as angled section at the top of the first square type block (10), it is described
Cross bar (8) offers round slot (11) far from the one end of controller ontology (1), and round slot (11) and corresponding square type slot (9)
It is connected, the interior sliding sleeve of the round slot (11) is equipped with horizontal axis (12), and horizontal axis (12) is close to one end of corresponding square type slot (9)
Extend in square type slot (9) and be fixedly installed with the second square type block (13), the bottom of the second square type block (13) is set as and the
The angled section that one square type block (10) matches offers third square type hole (15) in the top inner wall of the round slot (11),
It is welded at the top of horizontal axis (12) vertical bar (16), and the top of vertical bar (16) through corresponding third square type hole (15) and extends to
The top of cross bar (8), the side that two vertical bars (16) are located remotely from each other are welded with third spring (17), and third spring (17) is remote
One end from vertical bar (16) is welded and fixed with third square type hole (15) far from the side inner wall of controller ontology (1).
2. a kind of high shock resistance controller according to claim 1, which is characterized in that opened up at the top of the transverse slat (7)
There is the first round through-hole, and the side wall of the first round through-hole is slided with the outside of corresponding locating rod (6) and is set with.
3. a kind of high shock resistance controller according to claim 1, which is characterized in that opened up at the top of the cross bar (8)
There is the second round through-hole, and the side wall of the second round through-hole is slided with the outside of corresponding locating rod (6) and is set with.
4. a kind of high shock resistance controller according to claim 1, which is characterized in that the two of first square type hole (5)
Side inner wall is slidably connected with the two sides of corresponding transverse slat (7) respectively.
5. a kind of high shock resistance controller according to claim 1, which is characterized in that the two of second square type hole (14)
Side inner wall is slidably connected with the two sides of corresponding cross bar (8) respectively.
6. a kind of high shock resistance controller according to claim 1, which is characterized in that the two of third square type hole (15)
Side inner wall is slidably connected with the two sides of corresponding vertical bar (16) respectively.
7. a kind of high shock resistance controller according to claim 1, which is characterized in that the quantity of first spring (4)
It is ten to two ten, and ten to two ten the first spring (4) equidistantly distributeds are in the bottom of controller ontology (1).
Priority Applications (1)
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CN201811304238.8A CN109386569A (en) | 2018-11-03 | 2018-11-03 | A kind of high shock resistance controller |
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CN201811304238.8A CN109386569A (en) | 2018-11-03 | 2018-11-03 | A kind of high shock resistance controller |
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CN109386569A true CN109386569A (en) | 2019-02-26 |
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CN201811304238.8A Pending CN109386569A (en) | 2018-11-03 | 2018-11-03 | A kind of high shock resistance controller |
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CN110375031A (en) * | 2019-07-26 | 2019-10-25 | 秦依凤 | A kind of aluminum alloy die casting |
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