CN107178576A - The electromechanical equipment damping device acted on bidirectional damping - Google Patents

Abstract

The invention discloses a kind of electromechanical equipment damping device acted on bidirectional damping, including：Casing, it includes the side wall surrounded by side plate, the bottom closed by bottom plate；Side wall be inside and outside plate composition double-decker, there is the cavity for accommodating buffer solution or buffering matter, the thickness of cavity is 24 times of single side plate thickness between biside plate；The cavity is separated to form multiple cavity units, and each cavity inside is each filled with buffer solution；The interlayer of honeycomb is set in cavity unit, and honeycomb hole on interlayer is non-perpendicular or non-parallel correspondence side plate；X-axis damping module, it is arranged between side wall and electromechanical equipment, and X-axis damping module is symmetrically distributed in each orientation of electromechanical equipment and withstands the electromechanical equipment at least provided with three, to balance the electromechanical equipment；Y-axis damping module, it is arranged between bottom plate and electromechanical equipment to flexibly support the electromechanical equipment；And supporting part, it is arranged on the bottom of casing.

Description

The electromechanical equipment damping device acted on bidirectional damping

Technical field

The present invention relates to shock-absorption device technical field, it is more particularly related to which a kind of have bidirectional damping effect Electromechanical equipment damping device.

Background technology

Electromechanical equipment or electric power electrical apparatus are commonly used carrying out metallurgical production, Electronic products manufacturing industry, these equipment Inside includes motor, operationally inevitably produces vibration, these vibrations metallurgical or electronics exigent to precision It is very unfavorable for manufacture.Also, mechanical oscillation can be divided into vertically and horizontally both direction, and the vibration of both direction is all to machine The work of electric equipment produces material impact, if can not effectively weaken or eliminate vibration, can also produce resonance, after bringing seriously Really.

Therefore a kind of electromechanical equipment damping device acted on bidirectional damping is designed, to block the transmission of vibration, even Weaken the vibration of electromechanical equipment in itself, prevent the problem of generation of noise is as a urgent need to resolve.

The content of the invention

It is an object of the invention to solve at least the above defect, and provide the advantage that at least will be described later.

In order to realize according to object of the present invention and further advantage, the present invention provides a kind of with bidirectional damping effect Electromechanical equipment damping device, wherein, including：

Casing, it includes the side wall surrounded by side plate, the bottom closed by bottom plate, and the casing is half-open for upper opening Formula structure is put, inside has the cavity for installing electromechanical equipment；

X-axis damping module, it is arranged between the side wall and electromechanical equipment, and the X-axis damping module is at least provided with three It is individual, and be symmetrically distributed in each orientation of the electromechanical equipment and withstand the electromechanical equipment, to balance the electromechanical equipment；

Y-axis damping module, it is arranged between the bottom plate and electromechanical equipment to flexibly support the electromechanical equipment；And

Supporting part, its bottom for being arranged on the casing supports the casing.Traditional damping device is only to vertical direction I.e. Y direction carries out damping, it is impossible to effectively eliminate the oscillation crosswise of electromechanical equipment, therefore vibration is divided into transverse axis by the present invention With vertical pivot both direction, while targetedly setting damping device weakens the vibration for even eliminating electromechanical equipment, therefore damping is imitated Fruit is more preferably.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the side wall is inside and outside two There is the cavity for accommodating buffer solution or buffering matter between the double-decker of side plate composition, biside plate, the thickness of the cavity is 2-4 times of single side plate thickness.By setting cavity, while pouring buffering matter in the cavities, effectively vibration can be blocked Weaken, shock absorbing is better.The thickness of the thickness of cavity and side plate keeps aforementioned proportion to enable to the weight of casing to divide simultaneously Do not balance more, contribute to uniform weaken to vibrate.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the cavity is by separation shape Into multiple cavity units, each cavity closing is not connected mutually, and each cavity inside is each filled with buffer solution.The setting of cavity unit Contribute to buffer solution to be more uniformly distributed, will not because of gravity effect and undue concentration, lightness sensation in the upper and heaviness in the lower will not be caused, beneficial to shaking Dynamic elimination.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, set in the cavity unit The interlayer of honeycomb is put, side plate described in the interlayer is relatively fixed, and the honeycomb hole on interlayer is non-perpendicular or non-parallel right Answer the side plate.The interlayer of honeycomb can be effectively increased damping, particularly when being full of buffer solution in honeycomb, can more improve Damping, eliminates the effect of resonance, and honeycomb hole has certain angle with side plate, and vibrations are delivered to side plate again by honeycomb wall, Increase damping.

Preferably, in the described electromechanical equipment damping device that there is bidirectional damping to act on, the buffer solution include with The raw material of lower components by weight percent：

Pitch 20~25, latex 20~25, waste vegetable oil 20~25, discarded machine oil 20~25, thickener 5~6, emulsification Agent 5~6 and sisal fiber 20~25；

Wherein, the length of the sisal fiber is 1~3 millimeter, after the sisal fiber is broken up, with other above-mentioned raw materials The jelly being together uniformly mixing to obtain is the buffer solution.Buffer solution is glue, and viscosity is very high, therefore good damping effect, And with excellent elastic recovery capability.After well mixed, sisal fiber can form the framework of buffer solution, improve buffer solution Toughness and viscosity, damping is more preferably.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the X-axis damping module bag Include：

Sleeve, its one end closing, another end opening；

Support column, it is slidably matched to the sleeve from the opening, and the gap between the sleeve and support column passes through Lubricating oil is closed so that sleeve inner forms closed compression chamber, and the support column is provided centrally with passage insertion support column Two end faces, and be provided with check valve in the passage to limit gas unidirectional into the compression chamber；

Support block, its one end for being fixed on the sleeve closing is used to withstand the electromechanical equipment；And

Fixed block, its one side is arranged on the side wall, and another side and the support column are affixed, and on the support column also A spring is arranged with, the spring one end withstands fixed block one end, and the sleeve is withstood with sleeve described in elastic recovery in one end.

Sleeve and support column combination formation inflator structure, add the elastic force of spring so that damping module can keep electromechanical The stability of equipment, when electromechanical equipment shakes, and is particularly horizontal vibrations, the elastic restoring force of compression chamber and spring Vibrations can effectively be alleviated, and the deformation of compression chamber and spring recovers have time delay, can be prevented effectively from resonance.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, it is provided with the side wall Vertical track, the fixed block is equipped with relative altitude on the track to adjust the X-axis damping module.With suitable Answer the electromechanical equipment of different height.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the X-axis damping module is also Including resonance digestion unit, the two sides of the resonance digestion unit is removably solid with electromechanical equipment and sleeve respectively It is fixed；The resonance digestion unit includes：

Rectangular block, its one side is detachably fixed with the electromechanical equipment, simultaneously sets fluted, and in the upper following of groove Limited block is fixed with, the limited block inwardly stretches to reduce the notch of the groove, and the cross section of the groove is with two The T-type structure of individual inside groove point and a notch；

Elastic plate, its two ends head into two inside groove points respectively, and the notch is protruded in middle part elastic bending；Wherein described sleeve Removably withstand on the middle part of the elastic plate protrusion.Due to the effect of elastic plate, sleeve can by the tighter of electromechanical equipment top, More firm, the elasticity of elastic plate contributes to the elimination of vibrations again.

Preferably, in the described electromechanical equipment damping device that there is bidirectional damping to act on, in the middle part of the elastic plate with The position of the barrel contacts is provided with the texture of complications, while corresponding position is also provided with the texture of complications on sleeve, both Coordinate to strengthen cooperation intensity.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the elastic plate is by least Two pieces of arch bouncing plates are superimposed to be formed, and the elastic force plate shape matches so as to be brought into close contact between piece and piece.Bouncing plate it is folded Plus elasticity can be strengthened, while the gap between bouncing plate also contributes to the elimination of vibrations.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the insertion of the bouncing plate The two ends of inside groove point are in curved shape, and inside groove point is the arcuate structure matched with the bouncing plate.Work as bouncing plate Middle part vibrations be pressurized when, two ends can be tilted, and the pressure of horizontal direction can be dissolved into multiple directions by the two ends of curved shape Thrust so that reach vibrations eliminate effect.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the two ends of the bouncing plate Breach is respectively provided with, is formed after multiple bouncing plate superpositions after gap slot, the bouncing plate insertion inside groove point, the gap slot and inside groove A closed space is formed between point, the space is used to fill buffering colloid.Filling buffer solution can be prevented effectively from elastic force Piece and groove friction are damaged, while closed space avoids the leakage of buffer solution, and play effectiveness for a long time.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the Y-axis damping module bag Include：

Supporting plate, it is horizontally set on cavity bottom, and top is used to install electromechanical equipment, each side of the supporting plate It is connected and closes with the sidewall elastomer of the casing so that closed space layer is formed between supporting plate and the bottom plate, it is described Buffer solution is full of in space layer；The downward vertical of supporting plate is provided with multiple cylinders, and centrally disposed one at least in supporting plate；

Limited post, it is vertically fixed on the bottom plate, and corresponds cooperation with the cylinder, to limit the support Plate lateral displacement or inclination.In space layer supporting plate vertical direction i.e. Y direction is effectively eliminated full of buffer solution formation cushion Vibrations.

Preferably, in the described electromechanical equipment damping device acted on bidirectional damping, the supporting part includes：

Skate, it is obtained the series connection of multiple wheels by a central shaft, and tensioned is set between wheel；

Stay fork, two prong distinguishes frame at the two ends of the central shaft, and upper end and the bottom of the casing are rotatable Connection.Traditional universal wheel or support feet are replaced using skate, the contact area with ground is added, more stablized.

The present invention at least includes following beneficial effect：First, the present invention sets damping module damping in Y direction, can Solve conventional art and only focus on the problem of damping effect caused by the damping of vertical direction is not good.

Secondly, the present invention sets the cavity full of buffer solution on side plate, can be effectively increased damping, weakens and even blocks Vibrations.

Again, buffer solution of the invention is formulated using cheap raw material, and cost is low, and viscosity is good, and damping is big, and elasticity is recovered Ability is good, can effectively weaken vibrations.

Finally, X-axis damping module of the invention uses compression chamber and the dual reinforcement elastic force of spring, strengthens damping effect.

Further advantage, target and the feature of the present invention embodies part by following explanation, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Brief description of the drawings

Fig. 1 is the structural representation of the electromechanical equipment damping device of the present invention acted on bidirectional damping；

Fig. 2 is the structural representation of X-axis damping module of the present invention；

Fig. 3 digests the structural representation of unit for resonance of the present invention；

Fig. 4 is the structural representation of elastic plate of the present invention.

Embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings, to make those skilled in the art with reference to specification text Word can be implemented according to this.

As shown in figures 1-4, a kind of electromechanical equipment damping device acted on bidirectional damping, wherein, including：Casing 1, It includes the side wall surrounded by side plate 2, the bottom closed by bottom plate 7, and the casing 1 is the semi open model structure of upper opening, Inside has the cavity for installing electromechanical equipment 8；Casing 1 can be rectangular parallelepiped structure, can also be cylindrical structure, sidepiece and bottom Portion is closed, and can be put into electromechanical equipment from upper opening.

X-axis damping module 4, it is arranged between the side wall and electromechanical equipment 8, the X-axis damping module 4 at least provided with Three, and be symmetrically distributed in each orientation of the electromechanical equipment 8 and withstand the electromechanical equipment 8, to balance the electromechanical equipment 8；The quantity that X-axis damping module 4 is set is determined according to the shape of electromechanical equipment, if triangle, can be set Three, respectively against three faces of electromechanical equipment to reach balance.Equally if rectangle just can be corresponding four.

Y-axis damping module 5, it is arranged between the bottom plate 7 and electromechanical equipment 8 to flexibly support the electromechanical equipment.

Supporting part 6, its bottom for being arranged on the casing 1 supports the casing.Supporting part 6 can be that support feet can also It is support wheel, support feet can be weldingly fixed on bottom half, and support wheel can pass through the bearing with being arranged on bottom half Coordinate, casing can also be rotated freely by not only playing support effect.

Further, the side wall be inside and outside the double-decker that constitutes of plate 2, have between biside plate accommodate buffer solution or It is the cavity for buffering matter, the thickness of the cavity is 2-4 times of single side plate thickness.It can be foam, the class of plastics one to buffer matter Material.The thickness of cavity should be bigger than the thickness of side plate, in order to play the effect of buffer solution

Further, the cavity is separated to form multiple cavity units by dividing plate, and cavity unit etc. is set greatly, each cavity envelope Close and do not connect mutually, and each cavity inside is each filled with buffer solution.Each cavity can be provided for being filled with the valve of buffer solution.

Further, the interlayer of honeycomb is set in the cavity unit, and side plate described in the interlayer is relative to be welded and fixed On, interlayer, which is obliquely installed, makes the honeycomb hole on interlayer non-perpendicular or the non-parallel correspondence side plate, and inclined angle is at 10~80 ° Most preferably.

Further, in order to improve the damping of buffer solution, viscosity and elasticity, the buffer solution includes the original of following components by weight percent Material：Pitch 20~25, latex 20~25, waste vegetable oil 20~25, discarded machine oil 20~25, thickener 5~6, emulsifying agent 5~ 6 and sisal fiber 20~25；Wherein, the length of the sisal fiber is 1~3 millimeter, after the sisal fiber is broken up, with The jelly that other above-mentioned raw materials are together uniformly mixing to obtain is the buffer solution.

Further, as shown in Fig. 2 the X-axis damping module 4 includes：Sleeve 9, its one end closing, another end opening；Branch Dagger 10, it is slidably matched to the sleeve 9 from the opening, and the termination of support column 10 can set piston to improve sealing Property, the gap between the sleeve 9 and support column 10 is closed by lubricating oil so that sleeve 9 is internally formed closed compression chamber, The support column 10 is provided centrally with two end faces of the insertion support column of passage 13, and is provided with check valve in the passage 13 Entered with limiting gas unidirectional in the compression chamber；Support block, one end that it is fixed on the sleeve closing is described for withstanding Electromechanical equipment；And fixed block 11, its one side is arranged on the side wall, another side and the support column affixed 10, and described A spring 12 is also arranged with support column, the one end of fixed block 11 is withstood in described one end of spring 12, and the sleeve is withstood with bullet in one end Property reply the sleeve.

Further, be provided with vertical track on the side wall, the fixed block 11 be equipped with the track with Adjusting can set limited block that fixed block is fixed on into corresponding height on the relative altitude of the X-axis damping module 4, track. To adapt to the electromechanical equipment of different height.

Further, as shown in figure 3, the X-axis damping module 4 also includes resonance digestion unit, the resonance digests unit Two sides removably fixed respectively with electromechanical equipment 8 and sleeve 9；The resonance digestion unit includes：Rectangular block 14, Bolt-hole is provided with its one side to be detachably fixed with the electromechanical equipment 8, simultaneously sets fluted 15, groove 15 Cross sectional shape is rectangle, is then fixed with limited block 17 below in the upper of groove 15, the limited block 17 inwardly stretches to reduce The notch of the groove 15 so that the cross section of the groove 15 is turned into T-shaped with two inside grooves point 16 and notch Structure.Elastic plate 18, its two ends head into two inside groove points 16 respectively, head into after inside groove point, because the length of elastic plate 18 is more than The width of groove 15, therefore elastic plate 18 is bent, middle part elastic bending obtains part and protrudes the notch；Wherein described sleeve 9 The middle part that the elastic plate 18 protrudes removably is withstood on, when can make it that elastic force panel vibration is pressurized, occurs elastic force deformation and cuts Weak vibration.

Further, in order to prevent relative slide occurs for elastic plate 18 and sleeve 9 from causing vibration not eliminate effectively.The bullet The middle part of power plate 18 and the position of the barrel contacts are provided with the texture of complications, while corresponding position is also provided with song on sleeve 9 The texture of folding, both coordinate to strengthen cooperation intensity.

Further, as shown in figure 4, the elastic plate 18 is superimposed by least two pieces arch bouncing plates is formed, the bouncing plate Shape matches so as to be brought into close contact between piece and piece.The superposition of bouncing plate can strengthen elasticity, while between bouncing plate Gap also contributes to the elimination of vibrations.

Further, the bouncing plate 18 insertion inside groove point two ends be in curved shape, and the inside groove point 16 be with The arcuate structure that the bouncing plate matches.When the middle part of bouncing plate, which is shaken, to be pressurized, two ends can be tilted, the two ends of curved shape Along the arc sliding of inside groove point, the pressure of horizontal direction can be dissolved into the thrust of multiple directions, so as to reach that vibrations disappear The effect removed.

Further, the two ends of the bouncing plate 18 are respectively provided with breach, and gap slot, the bullet are formed after multiple bouncing plate superpositions After power piece insertion inside groove point, a closed space is formed between gap slot and the inside groove point, the space is used to fill slow Rush colloid.Filling buffer solution can be prevented effectively from bouncing plate and groove friction is damaged, while closed space avoids buffer solution Leakage, and play effectiveness for a long time.Solve the problem of buffer solution is easily revealed in conventional buffer layer.

Further, the Y-axis damping module 5 includes：Supporting plate 3, it is horizontally set on cavity bottom, and top is used to install Electromechanical equipment, each side of the supporting plate 3 and the elastic connection of side wall 2 of the casing and closing so that supporting plate and institute State and closed space layer is formed between bottom plate, buffer solution is full of in the space layer；The downward vertical of supporting plate is provided with multiple Cylinder, and centrally disposed one at least in supporting plate；Limited post, it is vertically fixed on the bottom plate, and with the cylinder one One corresponding matching, to limit the supporting plate lateral displacement or inclination.Effectively disappear full of buffer solution formation cushion in space layer Except supporting plate vertical direction is the vibrations of Y direction.

Further, the supporting part 6 includes：Skate, the series connection of multiple wheels is obtained, set between wheel by it by a central shaft Tensioned is put, skate is at least provided with one group, and setting is multigroup to contribute to increase and the contact area on ground, and multigroup skate can be simultaneously Row；Stay fork, two prong difference frame is rotatably connected in the two ends of the central shaft, upper end and the bottom of the casing 1. Upper end and the bearing fit for being arranged on bottom half.

Although embodiment of the present invention is disclosed as above, it is not restricted in specification and embodiment listed With.It can be applied to various suitable the field of the invention completely., can be easily for those skilled in the art Realize other modification.Therefore under the universal limited without departing substantially from claim and equivalency range, the present invention is not limited In specific details and shown here as the legend with description.

Claims (10)

1. a kind of electromechanical equipment damping device acted on bidirectional damping, wherein, including：

Casing, it includes the side wall surrounded by side plate, the bottom closed by bottom plate, and the casing is the semi open model of upper opening Structure, inside has the cavity for installing electromechanical equipment；The side wall be inside and outside plate composition double-decker, between biside plate With accommodating buffer solution or buffering the cavity of matter, the thickness of the cavity is 2-4 times of single side plate thickness；The cavity quilt Multiple cavity units are separated to form, each cavity closing is not connected mutually, and each cavity inside is each filled with buffer solution；The cavity The interlayer of honeycomb is set in unit, and side plate described in the interlayer is relatively fixed, and the honeycomb hole on interlayer it is non-perpendicular or The non-parallel correspondence side plate；

X-axis damping module, it is arranged between the side wall and electromechanical equipment, the X-axis damping module at least provided with three, and The electromechanical equipment is withstood in each orientation for being symmetrically distributed in the electromechanical equipment, to balance the electromechanical equipment；

Y-axis damping module, it is arranged between the bottom plate and electromechanical equipment to flexibly support the electromechanical equipment；And

Supporting part, its bottom for being arranged on the casing supports the casing；The supporting part includes skate and stay fork, described Skate is obtained the series connection of multiple wheels by a central shaft, and tensioned is set between wheel；Two prongs of the stay fork point Other frame is rotatably connected at the two ends of the central shaft, and upper end and the bottom of the casing.

2. the electromechanical equipment damping device acted on as claimed in claim 1 with bidirectional damping, wherein, the buffer solution is included The raw material of following components by weight percent：

Pitch 20~25, latex 20~25, waste vegetable oil 20~25, discarded machine oil 20~25, thickener 5~6, emulsifying agent 5 ~6 and sisal fiber 20~25；

Wherein, the length of the sisal fiber is 1~3 millimeter, after the sisal fiber is broken up, with other above-mentioned raw materials together The jelly being uniformly mixing to obtain is the buffer solution.

3. the electromechanical equipment damping device acted on as claimed in claim 1 with bidirectional damping, wherein, the X-axis damping mould Block includes：

Sleeve, its one end closing, another end opening；

Support column, it is slidably matched to the sleeve from the opening, and the gap between the sleeve and support column passes through lubrication Oil sealing is closed so that sleeve inner forms closed compression chamber, be provided centrally with passage insertion support column the two of the support column Check valve is provided with individual end face, and the passage and is entered with limiting gas unidirectional in the compression chamber；

Support block, its one end for being fixed on the sleeve closing is used to withstand the electromechanical equipment；And

Fixed block, its one side is arranged on the side wall, and another side and the support column are affixed, and are also arranged on the support column There is a spring, the spring one end withstands fixed block one end, and the sleeve is withstood with sleeve described in elastic recovery in one end.

4. the electromechanical equipment damping device acted on as claimed in claim 3 with bidirectional damping, wherein, set on the side wall There is vertical track, the fixed block is equipped with relative altitude on the track to adjust the X-axis damping module.

5. the electromechanical equipment damping device acted on as claimed in claim 3 with bidirectional damping, wherein, the X-axis damping mould Block also includes resonance digestion unit, the two sides of resonance digestion unit respectively removably with electromechanical equipment and sleeve It is fixed；The resonance digestion unit includes：

Rectangular block, its one side is detachably fixed with the electromechanical equipment, simultaneously sets fluted, and in the upper following fixation of groove Limited location block, the limited block inwardly stretches to reduce the notch of the groove, and the cross section of the groove is with two The T-type structure of groove point and a notch；

Elastic plate, its two ends head into two inside groove points respectively, and the notch is protruded in middle part elastic bending；Wherein described sleeve is removable That unloads withstands on the middle part of the elastic plate protrusion.

6. the electromechanical equipment damping device acted on as claimed in claim 5 with bidirectional damping, wherein, in the middle part of the elastic plate The texture of complications is provided with the position of the barrel contacts, while corresponding position is also provided with the texture of complications, two on sleeve Person coordinates to strengthen cooperation intensity.

7. the electromechanical equipment damping device acted on as claimed in claim 5 with bidirectional damping, wherein, the elastic plate is by extremely Few two pieces of arch bouncing plates are superimposed to be formed, and the elastic force plate shape matches so as to be brought into close contact between piece and piece.

8. as claimed in claim 7 with bidirectional damping act on electromechanical equipment damping device, wherein, the bouncing plate insert The two ends for entering inside groove point are in curved shape, and inside groove point is the arcuate structure matched with the bouncing plate.

9. the electromechanical equipment damping device acted on as claimed in claim 7 with bidirectional damping, wherein, the two of the bouncing plate End is respectively provided with breach, is formed after multiple bouncing plates superpositions after gap slot, the bouncing plate insertion inside groove point, the gap slot with it is interior A closed space is formed between groove point, the space is used to fill buffering colloid.

10. the electromechanical equipment damping device acted on as claimed in claim 1 with bidirectional damping, wherein, the Y-axis damping mould Block includes：

Supporting plate, it is horizontally set on cavity bottom, and top is used to install electromechanical equipment, each side of the supporting plate and institute State the sidewall elastomer connection of casing and close so that closed space layer, the space are formed between supporting plate and the bottom plate Buffer solution is full of in layer；The downward vertical of supporting plate is provided with multiple cylinders, and centrally disposed one at least in supporting plate；

Limited post, it is vertically fixed on the bottom plate, and corresponds cooperation with the cylinder, horizontal to limit the supporting plate To displacement or inclination.