TWM290891U - Earthquake resistant device featuring exchanging mechanism for static force and dynamic force - Google Patents

Description

M290891 VIII. New description: [New technical field] This creation is a shock absorber that can absorb or eliminate vibration energy in horizontal and vertical directions, especially a static power exchange system between the base and the socket. The shock absorber is used to reduce the wear and compression permanent deformation of the damping device and to maintain the shock absorption and vibration damping performance of the shock absorber. [Prior Art]

In response to the earthquake-proof problems of high-rise buildings and the demand for vibration reduction of precision electronic equipment factories, the creators have successively developed and designed shock absorbers such as M259021 "Building Shock Absorbing Devices", No. 093213448 "Isolation Isolators" and No. 09W05146 "With Damping The various shock absorbers and energy dissipating devices shown in the patent case such as the spherical isolator that absorbs the vibration energy effect provide the construction industry and equipment manufacturers with various shock and vibration reduction requirements. Gokou ang uy〇 51 05146 has a damping absorption vibration energy effect (hereinafter referred to as the reference case), a socket is disclosed, and one or more of the sockets are provided between the base and the socket between the two concave curved surfaces. The elastic material setting of the coefficient can effectively produce excessive displacement motion and absorption/equivalent energy. The shock absorber, although it has been able to produce a spherical isolator with a damping material composed of an elastic material, the invention patent case (a spherical isolator having a base and a facing surface respectively corresponding to a concave curved surface, a rolling element) And in the pedestal, the rolling element and a damping device composed of a damping coefficient (Damping), using the damping device to absorb the seismic gravity of the @ Θ 1、 1, slowing the rolling body to absorb the vertical vibration energy · i L reference case reveals the full isolation vibration effect of the spherical separation, but the M290891 is usually placed to carry the full weight of various implements or buildings located above the bearing, so as not to cause the damping device to be fast. The phenomenon of wear or compression of the Compression Set is generated, which in turn affects the shock absorption effect of the spherical isolator and the omnidirectional isolation vibration performance. 90% of the problem that the spherical isolator must be disassembled and the damper device must be reinstalled frequently. However, re-installing the damper device is not only inconvenient and inconvenient to operate, but also costly work and material costs are quite high, seriously affecting the spherical surface. There are many limitations and inconveniences in the implementation of the shock absorber, and it is necessary to study and improve it. [New content] In order to solve the existing spherical isolation device, there are some disadvantages and limitations of the damper device that are easy to wear or i-permanent and cross-shaped. The creator developed and designed a suspension device with static power exchange system. The main purpose of the creation is to provide a suspension device with static power exchange system mainly for the base and the socket of the suspension device with opposite concave surfaces. In addition to the original rollable ball and damping device, there is further provided: force bearing II, so that the suspension device is in a normal state without vibration, and the moon is directly supported by the side bearing carrier. The weight above the seat effectively solves the problem that the existing shock absorber has a problem of damping the stomach or compressing the permanent shape of the damping device'. The industrial utilization value of the shock absorber is greatly improved. One base 2 describes the purpose, and the technology used in this creation The means is to provide a shock absorber for the dynamic father change mechanism, which is provided with a base temple arranged in parallel intervals; 5 - 2 ^ 丄次一座,在基The facing surface of the socket is concavely disposed, and: the corresponding concave surface on the cymbal, at least/rollable % body is disposed between the corresponding two concave surfaces, and at least between the concave surfaces and the spherical body is provided A 5 M290891 damper 'is at the same time between the base and the socket, which is different from the concave surface, and is provided with a plurality of static bearing bodies for the seat to abut. The static bearing of the creation can be further set to A static ball, a static block, a static protrusion directly protruding from the base, a static protrusion directly protruding from the seat or a static spring, etc. The advance step will be located on both concave surfaces of the base and the socket, and each of them is set as a large spherical concave or concave tapered surface with a considerable spherical diameter; or the concave surface of the base is set as a large concave arc. The face or concave cone shape, and the concave surface of the socket is set to be smaller than the concave or concave surface of the large spherical concave or concave cone.

—, a M=W WJ material layer, an elastic material layer coated on the concave surface of the pedestal, an elastic material layer covering the concave surface of the socket or any combination of the above three The support is provided with a supporting member for the static bearing body to abut, and the supporting material may be a difficult structure or an elastic body. #本创所 provides a shock absorber with a static power exchange mechanism, so that the suspension device can be placed in a normal state without vibration, and can directly carry a variety of implements or buildings located above the seat with a static body. The weight 'when the shock absorber is subjected to the vibration effect, and then the p and the damping H disposed between the opposite concave surfaces provide shock absorption, reduced displacement and absorption isolation level: dynamic energy equivalent energy. This creation utilizes the mechanism of the static bearing body and the dynamic power of the parent to effectively solve the problem that the damping device is easy to grind the water shape and avoids the lengthy operation of re-installing the damping device and (4) into the [large lifting shock absorber implementation] Application of practical performance M290891 and industrial use value [Implementation] In order to understand the technical characteristics of this creation and the contents of each manual, we will use the effect and can explain in detail according to the application example: The preferred embodiment shown in Figure D is a bottom or building knot that can be used for building reed equipment, wafer processing equipment: body::, instrument: for the implementation of this creation Material, this creation ^ ^ shock absorber, as shown in the figure - is the creation and use of this creation, the restrictions of the ,, mouth η, t for the day and night processing equipment floor (50) and raised floor (6 〇) The implementation of the situation. Referring to the first figure, the suspension device of the static power exchange system includes: a base & (丄〇) and a socket (20) 'in the base (10) A plurality of concave surfaces (1 1 ) ( 2 1 ) having a spherical concave arc shape or a concave tapered shape are provided corresponding to the opposing faces of the sockets (2 turns), and the embodiment is as shown in the figure. Correspondingly, a concave surface (1 1 ) ( 2 1 ) having a spherical concave arc shape is provided, and both concave surfaces (!丄) (2 1 ) are set as a large spherical concave curved surface type having a relatively large spherical diameter. Between the two corresponding concaves (11) (21), there is a spherical (30) which is scrollable and sorrow, and is in the two concave surfaces (丄丄) (2 1 ) and the sphere (3 〇) One or more of them is provided with a damping device (4〇) which may be preferably made of elastic rubber, viscoelastic materials, frictional materials or Damping coefficient. The damper device (4 〇) of the embodiment shown in the figure is an elastic material covering at least one layer of M290891 on the surface of the sphere (3 〇). (4 〇a . The pedestal with a = (1°) on the periphery of the concave surface ("), 'the interval is set with a number of latitudes for the bearing (20) & the static force carrier (12) The static load carrier of the embodiment shown in the figure (丄? ^ J is a rigid month r force (12A), on the base (1〇) concave # Τ 9 Λ. The groove (13) of the force ball ( ) is placed and a support member (22) is provided at a position where the seat (20) abuts against the static force, and the support Q Ζ 2 ) is generally a rigid structure such as a metal material. The composition of the body, the support (2 2 ) can be set to ^,, ', and the structure as needed in each autumn;

In this way, when the suspension device is not subjected to the vibration or vibration, it is possible to be able to hold all of the static carrier (1 2 ) (that is, each static ball (i 2 A ) has been carried at ... 20). Weight, effectively use the static bearing body (1 2) to generate a static power exchange system, avoiding the damping device between the two concave surfaces (1 1 ) ( 2 1 ) and the sphere (3 〇)

(4 0 ) is subjected to wear or compression and permanent deformation in the normal state; when an external force such as earthquake or vibration occurs, the shock absorber uses the relative displacement of the base (10) and the seat (2 〇), and is disposed on the two concave surfaces. (11) The sphere (3〇) and the damping device (4〇) between the (21) (ie the elastic material layer (40 A)) can effectively provide shock absorption, vibration reduction, displacement reduction and absorption isolation level. The vibration energy equivalent energy in the vertical direction, and when the external force such as earthquake or vibration ends, the pedestal (1〇) and the socket are designed by the cooperation of the two concave surfaces (1 1 ) ( 2 1 ) and the sphere (3 〇). (2 0 ) automatically returns to the initial set position. 8 M290891 As shown in the second figure, the original bamboo flute->, τ 乍 一 a preferred embodiment, this embodiment is a square; the base (1 〇) concave surface (1 丄) and the seat (20) The concave surfaces ( 2 1 ) are each covered with 'J.-1 BL / , ^ ' reviews & material layer C 4 0 B ) ( 4 〇 C ), which is used as the two concave surfaces r 〇 (5) ^ 丄 1 (21) The damper device (4 〇), 廿, 任 ^ / ) between the sphere (3 〇) is further provided with a layer of elastic material on the lower side of the base (1 〇) (4 〇 d

As shown in the second figure, the upper surface of the surface of the sphere (30) and the concave surface of the base socket (20) (2 4 4 〇 A ) ( 4 〇 B ) (4 〇 ) are covered with _ Elastic state. In a third preferred embodiment, the concave surface (11) and the base of the embodiment (10) are covered with a layer of elastic material (C) and further on the socket (2 0 E material layer (4 0 E) Implementation type

The fourth preferred embodiment of the present invention shown in FIG. 4 is a method in which the concave surface (2 1) of the socket (20) is set as a concave or concave surface of a small ball at a central position m. In the cone-shaped 'state, the surface of the sphere (3 〇) is covered with at least a layer of elastic material (4 〇A), but not at the socket (20). The lower side surface of the support member '@@ further on the base 及) and the upper side surface of the bearing I (2 〇) are each covered with an elastic material layer (4 0 D ) ( 4 〇e ) state. As shown in the fifth embodiment, the fifth preferred embodiment of the present invention is such that the concave surface (2丄) of the socket (20) is set to be a centrally located and concave spherical surface having a smaller spherical diameter. Or concave conical type, and the surface of the sphere (3 〇) and the concave surface (1 1 ) of the pedestal (10) are covered with the implementation of the layer of elastic material (40A) (4〇b) Type. M290891, as shown in the sixth figure, is a preferred embodiment of the present invention. The concave portion (2 > d 1 ) of the bearing (20) is located at the center and has a comparison. The ball of the small spherical diameter is concave or concave, and is concave on the concave surface (1 1) of the pedestal (10) and the concave surface (2 1 ) of the bearing (2 σ 2 0 ). There is a layer of elastic material (4 r Β ) ( 4 nr〉—one, four ◦ C ). The seventh preferred embodiment of the present invention, which is the seventh embodiment, is that the concave surface (ρ Ί % , a J 1 ) 5 of the socket (2 〇) is again located at the center and has a small spherical diameter. The concave or concave conical shape of the small ball, and the surface of the sphere (3 〇), the concave surface of the pedestal (1 〇), the concave surface (11) and the concave surface of the socket (2 〇) (2 1 ) The coating is provided with an embodiment of an elastic material layer (4 〇a ) ( 4 〇β ) (40 C). The eighth preferred embodiment of the present invention shown in the eighth embodiment, which is a static or elastic static pad of the static bearing body (1 9 彳μ & π, , 1 2 ) 5 The block (1 2 Β / 1 is not provided with the groove on the base (10) and the support (2 2 ) is not attached to the socket (20), and is covered on the surface of the sphere (3 〇) (4) - an embodiment of the layer of elastic material (40A). / The ninth preferred embodiment of the present invention, which is a ninth embodiment, which is characterized in that the force carrier (i 2 ) $ is a rigid or elastic static force. The spacer (1) 2B) is provided with a layer of elastic material (4 ") on the concave surface (ιι) of the base (1〇) and the concave surface (2 i) of the socket (2〇) (4〇C) And further, the lower side of the pedestal (")# is covered with an implementation form of at least an elastic material layer (400D). / Tenth preferred embodiment of the present invention shown in the tenth embodiment, the embodiment is to use the static jujube carrier (i 2) $ as a rigid or elastic static block (丄10 M290891 pedestal (1〇) The concave surface 1) is covered with a bomb 0C), and further with a layer of elastic material (4 2B), and on the surface of the sphere (30), (1 1) and the concave surface of the socket (20) (2 The material layer (4 0 A ) ( 4 〇 B ) (the upper plate of the 4 socket ( 2 0 ) is covered with 0 E ). The tenth of the creation as shown in the eleventh figure - Preferably, the embodiment is to set the good force carrier (12) as a rigid or elastic static block (12B), and at the same time, the concave surface of the socket (20) (2) 1) Set to a small glass ~ j砵 concave curved surface or concave tapered surface type with a small ball diameter at the center position, and apply frost on the surface of the sphere (30). A layer of elastic material (40 A) is formed on the lower side of the pedestal (1 〇) and the upper side of the pedestal (2 〇) is covered with at least a layer of elastic material (4qd) (4 0 The implementation type of E). The creation shown in Figure 12筮—^ j忭11 The preferred embodiment of the embodiment, the static bearing body (1 2 ) μ im ul ) 5 is again a rigid or elastic static block (1 2 B ), and The concave surface (2丄) of the seat [9 η, ^ U 〇) is set to a small JJ % concave curved surface or concave concave surface type with a small spherical diameter at the center position, and is on the surface of the sphere (3 〇) And the concave surface (1 1 ) of the pedestal 7 soil, 丄u) is covered with at least one elastic material layer (曰, 4UA) (40B). The thirteenth preferred embodiment of the present invention as shown in Fig. 13 is such that the static bearing member (1 2 ) is a rigid or elastic static block C 1 2 B ), and the seat (9)凹 ϋ ϋ amp 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 罢 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 The concave surface (i丄) of the seat (1 ο) and the concave surface (2 1 ) of the bearing seat (2) are covered with at least one embodiment of the elastic material layer (4 〇 B ) ( 4 〇 c ). The fourteenth preferred embodiment of the present invention shown in the four figures, the embodiment is to set the static bearing body (12) as a rigid or elastic static block (1 2 B) while the bearing ( The concave surface (2 χ ) of 2 〇) is set to a concave or concave shape of a small ball with a small spherical diameter at the center position, and is on the surface of the sphere (30) and the pedestal (丄〇) Both the concave surface (丄丄) and the concave surface (2 1 ) of the socket (20) are covered with at least one embodiment of a layer of elastic material (40Α) (40Β) (4〇c). A fifteenth preferred embodiment of the present invention, the embodiment The static bearing body (1 2 ) is set as a static convex block (: L 2 C ) protruding directly from the base (丄〇), and a static convex block is provided on the bearing seat (2 〇) (1) 2 C) abutting support member (2 2 ), and at the same time covering the surface of the sphere (30) with at least one elastic material layer (4 〇A). As shown in the sixteenth figure A sixteenth preferred embodiment is created, in which the static carrier (! 2) is handed over as a static bump (: [2 C ) protruding directly from the pedestal (丄〇), and The concave surface (1 1) of the base (丄〇), the concave surface (21) of the socket (2〇), and the lower side surface of the base (1〇) are each provided with at least one layer of elastic material (4 Ο B (4〇C) (40D) implementation type. As shown in the seventeenth preferred embodiment of the present invention, the embodiment is to directly expand the static carrier (i 2 ) into a direct Static bump (1 2 C ) from the base (worker) convex 12 M290891, and the surface of the sphere (3 Ο ), the concave surface (11) of the base (1〇), the seat (2〇) The concave surface (21) and the upper side surface of the socket (20) are each provided with at least one Embodiment of the elastic material layer (40A) (4 Ο B ) ( 4 0 C ) (40E). As shown in the eighteenth preferred embodiment of the present invention, the embodiment is a static load bearing The body (1 2 ) is set as a static convex block (1 2 C ) protruding directly from the base (χ 2 ), but the support member is not disposed on the bearing seat ( 20 ), and the bearing seat (2 0 ) The concave surface (2 1 ) is set to a concave or concave shape of a small ball having a small spherical diameter at a central position, and is on the surface of the sphere (3〇) and the lower side of the base ([[〇]) The upper side of the face and the seat (2 〇) are each provided with at least one layer of elastic material (4 〇 A ) ( 4 0 D ) ( 4 Ο E ). As shown in the nineteenth preferred embodiment of the present invention, the static carrier (i 2 ) is a static bump protruding directly from the base (丄〇). "C), at the same time will be the seat (2 〇) concave (2 1). It is also a concave or curved surface of a small ball with a small spherical diameter at the center of the position of the ash, and is covered on the surface of the side 3 〇) and the concave surface (1 1 ) of the pedestal (1 〇). There is at least one embodiment of the elastic material layer (4〇A) (4 Ο B ). In a twenty preferred embodiment, the implementation is directly convex from the base (1〇)

As shown in the tenth figure of the brother, the first part of the creation of the creation of the static bearing body (1 2 ) is a static bump (Ί PC ), ΓΠ ni ^ , B] 冋 守 守 守 (2 0) The concave surface (1) is set to be in the center of the 罟日目& and /, the ball diameter of the V ball diameter concave surface or the concave 13 2 M290891 cone shape, and the concave surface of the base (1 Ο) (ii And the concave surface (2 1 ) of the socket (2 )) is covered with at least one embodiment of the elastic material layer (4 ο B ) (40C). As shown in the twenty-first embodiment, the twenty-first preferred embodiment of the present invention is characterized in that the static bearing body (i 2 ) is set to a force convex which is directly protruded from the base (丄〇). Block (1 2 C ), at the same time, the concave-face (2 1 ) of the bearing seat (2 〇) is set as a concave concave curved surface φ or a concave tapered surface type with a small spherical diameter at a central position, and The surface of the sphere (3 〇), the concave surface (1 1 ) of the pedestal (丄〇) and the concave φ ( 2 丄) of the socket (20) are each covered with at least one layer of elastic material (4 Ο A ) ( 4 〇b ) ( 4 〇c ) implementation type.

The present embodiment shown in Figure 12 is a static bump directly from the seat (2 〇) to (1 0) (the implementation of the support member, ie the static convex as shown) Block (1 2 c ) and the second preferred embodiment, the lower protrusion is formed to abut against the base; and the fifteenth to twenty-first figures are not provided on the base (10) The position of the support member (2 2 ) may be mutually the same as the preferred embodiment of the present invention as shown in the twenty-third figure. The embodiment is a static bearing body (1, people

战月旦1 1 2 ) is set as a static spring (1 2 D )' at the same time as the sphere (30) and φ. The surface is covered with at least one elastic ancestral layer (4〇A) state. ’,

The D is as shown in the twenty-fourth figure, ^^.y, ^] is the twenty-fourth preferred embodiment, and the column is the static carrier (1, the seat (20) ), allow it to be wide, accept (1 2 ) as a static spring (1 2 ) Asian; pedestal (1 〇) concave 14 M290891 concave (21) and pedestal (l〇 less elastic material) Layer (4 0 B ) type. The lower side of the board, each covering is set to 4〇C) (4〇D). The creation is as shown in the twenty-fifth figure. A preferred embodiment, this embodiment is a static carrier (1 2 ) ^ ^ ^ ^

<)a is a static spring (丄2 D )' and the concave surface of the sphere (30), the concave surface of the temple (C1), and the concave surface of the socket (20) (pi, fen : 1) and the seat (2 〇)

The side panels are provided with at least one embodiment of the elastic layer (4 〇 A ) (40 B) (40C) (40E). As shown in the twenty-sixth embodiment of the twenty-sixth preferred embodiment of the present invention, the embodiment is to record the static bearing body (12) as a static magazine (12 〇) while the bearing ( 20) The four sides (21) of the history are small or concave concave or concave cones with a small spherical path at the center, and are on the surface of the sphere (3 〇) and the pedestal (10). The lower side panel and the upper side panel of the socket (2 〇) are each covered with at least the embodiment of the elastic material layer (4 〇A ) ( 4 0 D ) ( 4 0 E ).

As shown in the twenty-seventh figure, the seventeenth preferred embodiment of the present invention is that the static bearing body (12) is said to be a static spring (12D) while the bearing (20) The concave surface (2丄) is a concave or concave concave surface of a small ball with a small spherical diameter at the center, and is on the surface of the sphere (30) and the base (丄〇) The concave surface (丄丄) is covered with at least the embodiment of the elastic material layer (40A) "〇B).

As shown in the twenty-eighth embodiment of the twenty-eighth preferred embodiment of the present invention, the embodiment of the static bearing body (12) is a static spring (i2D M290891) 'the same day the keeper ( The concave surface (2丄) of 2 〇) is set as a concave or concave surface (4) of a small ball with a small ball diameter at the center position, and is concave (1 1 ) and the socket of the base (10) ( The concave surface of the 2 quot) (2" is covered with at least one embodiment of the elastic material layer (40B) (40C). The twenty-ninth preferred embodiment of the present invention, as shown in the twenty-ninth figure, In the embodiment, the static bearing body (12) is set as a static magazine (1), and the concave surface (21) of the bearing seat (20) is set as a small spherical concave body with a small spherical path at a central position.弧面,, , 3〇) ^ ^ The secondary concave cone is ,, the concave surface (H) of the sphere ( )/ pedestal (1〇) and the concave surface of the socket (2 ...) are all covered To::(2 A) (40B) (400^- (4 〇V 4 UL)). The above is only the best of this creation, and it is subject to any form limitation. For this creation

土#丄7 belongs to the technical field of Shen Xinggu A 'The right does not deviate from the technical solutions proposed by this creation, and the "technical content revealed by σ 作 , , 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用 利用%~ : Not divorced from the content of the technical solution of this creation, the scope of the political application, within the scope of the program. Belongs to the creative technology [simple description of the drawing] The first picture is the creation of the flute _ ^ 笙一m The structure of the example shows that the younger brother-picture is the first...Fig. The third picture is the structure of the Taihao|Mubei palladium case. ^ '. The structure of the third preferred embodiment shows the younger brother. Figure 本 本 再 再 再 再 。 。 。 。 。 。 。 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 τ τ τ τ τ 16 M290891 The sixth drawing is a schematic structural view of the sixth preferred embodiment of the present invention. The seventh drawing is a schematic structural view of the seventh preferred embodiment of the present invention. The eighth drawing is a schematic structural view of the eighth preferred embodiment of the present creation. The ninth drawing is a schematic structural view of a ninth preferred embodiment of the present creation. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 11 is a schematic structural view of an eleventh preferred embodiment of the present invention. FIG. 12 is a schematic structural view of a twelfth preferred embodiment of the present invention. Figure 13 is a schematic view showing the structure of the thirteenth preferred embodiment of the present invention. Figure 14 is a schematic view showing the structure of the fourteenth preferred embodiment of the present invention. Figure 16 is a schematic view showing the structure of the sixteenth preferred embodiment of the present invention. Figure 17 is a schematic view showing the structure of the seventeenth preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 19 is a schematic structural view of a nineteenth preferred embodiment of the present invention. FIG. 20 is a schematic structural view of a twentieth preferred embodiment of the present invention. A schematic diagram of the structure of the twenty-first preferred embodiment of the present invention. The twenty-second diagram is a schematic structural view of the twenty-second preferred embodiment of the present invention. Schematic diagram of the structure. A schematic diagram of the structure of the twenty-fourth preferred embodiment of the present invention. The twenty-fifth drawing is a schematic structural view of the twenty-fifth preferred embodiment of the present invention. Figure 27 is a schematic view showing the structure of the twenty-seventh preferred embodiment of the present invention. The twenty-eighth drawing is a schematic structural view of the twenty-eighth preferred embodiment of the present invention. A schematic diagram of the structure of the twenty-ninth preferred embodiment of the present invention. 17 M290891 [Description of main component symbols] (1〇) pedestal (1 2 ) Static bearing body (1 2 B ) Static spacer (1 2 D Static spring (20) bearing (2 2 ) support (30) sphere (40) damping device (4 0 A ) ( 4 Ο B ) (4 0 D ) ( 4 〇 E ) (5 0 ) Floor (60) Raised floor (1 1 ) Concave (1 2 A) Static ball (1 2 C) Static bump (1 3 ) Groove (2 1 ) Concave (2 3 ) Static bump ( 4 0 C) elastic material layer elastic material layer

18

Claims (1)

M290891 IX. Patent application scope: 1. A shock absorber with static power exchange system, which is provided with a base and a seat arranged in parallel with each other, and the concave surface of the base and the socket is concave σ There is a set of corresponding concave surfaces, a scrollable sphere is provided between the corresponding two concave surfaces, and at least one damping split is arranged between the two concave surfaces and the sphere, and the base and the socket are A position different from the position where the concave surface is provided is provided with a plurality of static bearing bodies for the seat to abut. 2. For the suspension device with static power exchange as described in item 1 of the patent scope of the application, the static bearing system described in the 为 is a static ball. 3. The illuminating mechanism of the static power exchange system described in claim 2, wherein a recess for positioning the static ball is recessed in the base. • 4: The suspension device with static power exchange mechanism as described in the scope of claim 2 is a static load bearing system. 5. The static load bearing system described in the suspension device with static power exchange as described in the scope of the patent application is a static bump protruding directly from the base. The static bearing system described in the seismic device as described in the third paragraph of the patent application is the static bearing block directly protruding from the bearing seat. 7, such as the application of the scope of the shock absorber, the bean, ... &quot;, the force of the father change mechanism /, κ spoon static bearing system is a static bomb. «As for the application of the patents Fan Yi, n Shi Weidi 1 to 7 of the items, the static shock exchange system made by the static power exchange system, which is located in the base and the seat of the 19 M290891 rain phase 1 should be concave surface 'all set to a large ball concave curved surface type with a considerable ball diameter. 9. The suspension device with static power exchange as described in claim 8 of the patent application, wherein the shackles are torn, +, and smashed, the surface of the sphere, the concave surface of the pedestal, and the One of the concave surfaces of the socket is more than ^ ^ τ, and the cover layer has at least one layer of elastic material to constitute the damper device. 1 〇 〇 〇 〇 静 静 ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ The suspension device of the static power exchange device of claim 9, wherein the concave surface of the base is covered with the elastic material layer. The suspension device of the static power exchange device of claim 9, wherein the concave surface of the socket is covered with the elastic material layer. The suspension device of the static power exchange device as described in claim 9 wherein the surface of the ball and the concave surface of the base are covered with the elastic material layer. The suspension device of the static power exchange according to claim 9, wherein the surface of the ball and the concave surface of the socket are covered with the elastic material layer. The suspension device of the static power exchange device according to claim 9, wherein the concave surface of the base and the concave surface of the socket are covered with the elastic material layer. . The shock absorber of the static power switch 20 M290891 according to claim 9, wherein the surface of the ball, the concave surface of the base and the concave surface of the seat are covered. The layer of elastic material is provided. </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; The suspension device of the static power exchange device of the above-mentioned item 7 is the support device of the force exchange device described in the "Patent Application No.", wherein the support is The piece is an elastic body. , 2〇, as described in Item (4) (4), the static-moving shock absorber device, in the middle, +, * - t ^, the base and the back of the seat of the seat 1 or more , provided with at least a layer of material. The static shock absorber according to the second aspect of the invention is characterized in that, in the back surface of the base and the socket, an elastic material layer is disposed. 2, as in the application of the patent chart diagram of the shock absorber device, wherein: "house static power switch" A in the base and the seat of the above-mentioned one or more, at least - elastic material layer . . . [2] The suspension device with static and dynamic parent-changing mechanism as described in the application for patent scope to the seventh item, wherein the concave surface of the base is a large spherical concave: surface type 'The concave surface of the bearing seat is set to be smaller than the large concave concave surface type of the large concave concave type. '', ', / 2 4, as described in the scope of claim 2, the static machine The shock absorber of the system, the bean &amp; 斛, +. I 砰 power is changed to the Chinese; the surface of the sphere is 'the recess 21 M290891 of the base and one or more of the concave surfaces of the socket, The damper device is formed by providing at least one layer of elastic material. 2 5 Having a static power exchange stack as described in claim 24 of the patent application, wherein the surface of the sphere is covered The layer of elastic material is provided. 2 6. The static power is as described in item 24 of the patent application. The mechanism for avoiding the device, wherein the elastic material layer is covered on the concave slope of the base. 2 7. The suspension device with the static power exchange mechanism as described in the patent utility model 24th, Wherein the concave surface of the socket is covered with the elastic material layer. The shock absorber device of the static power exchange device according to claim 24, wherein the surface of the spherical body And the concave surface of the pedestal is covered with the elastic material layer. 2 9. The suspension device with static power exchange φ mechanism according to claim 24, wherein the sphere is The surface and the concave surface of the socket are covered with the layer of elastic material. 30. The static power exchange system described in item 24 of the patent application scope is omitted. The concave surface of the pedestal and the concave surface of the pedestal are covered with the elastic material layer. 3 1 . The shock absorber with static power exchange as described in claim 24 of the patent application' Wherein the concave surface of the socket is covered with the elastic material layer. A suspension having a static power exchange 22 M290891 mechanism as described in claim 24, wherein the surface of the sphere, the concave surface of the base, and the concave surface of the socket are both The cover is provided with the layer of elastic material. 3 3. The static power exchange system as described in claim 24 of the patent application scope: the @@表表' The support member against which the force carrier abuts. 3 4. The suspension of the static power exchange system as described in the third paragraph of claim 3, the support member described therein is a rigid structure. 3 . The suspension device of the static power exchange mechanism described in claim 3, wherein the support member is an elastic body. 3 6. If the static power exchange system described in item 24 of the patent application scope is removed, the middle and the middle of the back surface of the base and the socket are more than one. Provided with at least one layer of elastic material. 3 7 A suspension device made of static power exchange according to claim 36 of the patent application scope, wherein the base and the back surface of the socket are provided There is a layer of elastic material. 3 8. The static power exchange as described in item 23 of the patent application scope, "the system is placed on the back side of the base and the back of the socket" At least one layer of elastic material is provided. 3 9 . If the shock absorber F of the power switch system of any one of the claims 1 to 7 of the patent application is located in the corresponding concave surface of the base and the socket, at least one concave surface Set to the concave cone shape. 4 〇 避 〇 避 避 λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ λ , , , , , , , , , , , , , , , , , One or more of the drapes are provided with at least one elastic 23 force exchange carrier 4 4. One or more of the shock absorbers of the Shenzhou mechanism, the M290891 material layer constitutes the damping device. 4 1 . For example, the shock absorber dream of the mechanism of applying for the fourth paragraph of the patent scope, and the stipulations of the support. There are also the #静力承, such as the shock absorber of the 40th mechanism of the patent application scope, 1 in the station, f t辻 /, 抒 power exchange Ml Dan 〒 on the pedestal ik cake, +,? The order of the back side of the seat is further provided with at least one layer of elastic material. 4 3. If the suspension mechanism with a static mechanism described in item 4 of the patent application scope is changed, the power back is changed, and the back surface of the base and the seat is both 5 There is a layer of elastic material. The utility model relates to a static power exchange of the material of the fourth embodiment, wherein at least one layer of elastic material is disposed on the back side of the base and the base of the socket. 4 5. If the suspension device of the static power exchange system described in any one of the above claims is in any one of the above claims, the concave surface of the base is set to be a large ball concave curved surface type sadness. The concave surface is set to a concave cone shape that is significantly smaller than the concave shape of the large sphere. 4. The suspension device of the static power switch according to claim 45, wherein one of a surface of the sphere, a concave surface of the base, and a concave tapered surface of the socket In the above, the damper is formed by providing at least one layer of elastic material. 4. A shock absorber with a static power exchange mechanism as described in claim 46 of the patent application, wherein a support member for the static load bearing body is provided in the socket. 24 M290891 4 8. The shock absorber having a static power switching mechanism according to claim 46, wherein at least one of the base and the back surface of the socket is provided with at least one A layer of elastic material. A shock absorber having a static power switching mechanism according to the invention of claim 4, wherein at least one layer of elastic material is disposed on a back surface of the base and the base of the socket. The avoidance device with a static power switching mechanism according to claim 45, wherein at least one elastic material is disposed on one or more of the opposite sides of the base and the socket. Floor. The suspension device of the static power exchange according to any one of claims 1 to 7, wherein the support is provided with a support member for the static bearing body to abut. Z. The shock absorber having a static power exchange mechanism according to claim 51, wherein the support member is a rigid structure. 5 3. If the static power exchange mechanism is as described in Item 5 of the patent application, the support material-elastic structure described in the towel. And as claimed in paragraph 1 of the patent application, the monthly shock of the monthly power transmission system, "the towel is placed in the seat and the bearing: one or more of the faces" is provided with at least - a layer of elastic material. The mechanism is as described in claim 54 of the invention, wherein the static power exchange unit is disposed on the back surface of the base and the socket, and at least one Elastic material layer. X. Schema: as the next page 25