TW200300072A - Quake-absorbing device and installation method therefor - Google Patents

Abstract

This invention relates to a quake-absorbing device and installation method therefor. A conventional quake-absorbing device has been known as described, for example, in Japanese Patent Application Public Disclosure No. 2000-14472(A). This conventional quake-absorbing device comprises an upper base secured on a subject body to be protected from an earthquake or other vibrations, a lower base on a floor, upper and lower upcurved rails attached to the upper and lower bases, and rollers which moves along the upper and lower rails by rolling. The upper and lower rails are vertically opposed to each other across the rollers at the angle of approximately 90 degrees so as to be arranged in the plane form of a substantially square. However, in a case where computer-associated equipment such as a computer server is protected from seismic waves, wiring such as communication and electric circuits is often laid on a floor and connected to the equipment. The wire or cable possibly comes into contact with the quake-absorbing device, consequently to degrade the quake-absorbing performance of the quake-absorbing device. Thus, it has been very difficult to apply the quake-absorbing device to the equipment having the wiring connected thereto. To remedy the disadvantage suffered from the conventional quake-absorbing device, the present invention provides a quake-absorbing device having improved quake-absorbing performance and a method capable of installing the quake-absorbing device without suspending the operation of existing equipment to be protected. The quake-absorbing device of the invention is distinctively provided with an opening or pass-through port for permitting the wiring connected to the equipment to pass therethrough so as not to bring the wiring into contact with the quake-absorbing device, thereby to achieve high quake-absorbing performance.

Description

200300072 发明 Description of the invention (The description of the invention should state: the technical field, prior art, content, embodiments, and drawings of the invention are briefly explained) Technical field 3 to which the invention belongs 3 TECHNICAL FIELD The present invention relates to an anti-vibration device and anti-vibration Device setting method 5 [Prior art background] The weight (the load of the anti-vibration object) is lowered by the stick, and the movement of the roller to move up and down to absorb the damping vibration (earthquake, etc.). · For example, in Japanese Patent Laid-Open Publication No. 2000-14472, 10 anti-vibration devices are disclosed, which are fixed between a base fixed on an anti-vibration object and a base fixed on the ground, and will face upward and downward. The curved anchor and the roller rotating on the rail are arranged in a well shape at an angle of approximately 90 degrees. The conventional anti-vibration device is configured such that when the roller is raised on the bar with the vibration in the left and right directions to absorb the vibration in the left and right directions, the roller is lowered on the bar due to the structural weight (the load of the shockproof 15 object, etc.) Those who move up and down to absorb damping vibration (earthquake, etc.). @ However, when the shock-proof object is a computer-related device such as a server, most of the wiring equipment such as communication lines and circuits installed along the ground are connected to the shock-proof object, and in the conventional shock-proof device, the wiring equipment must be interspersed 20 Set between the creel and the roller. Therefore, even if the above-mentioned conventional anti-vibration device is used for the anti-vibration object connected to the wiring device, there is a high possibility that the wiring device may contact the left-right movement range of the anti-vibration device, which may reduce the anti-vibration performance and cannot be used. In addition, because of the two-section structure and fixed arrangement of the bead and the roller system, the 0-continuation page (when the description page of the invention is insufficient, please note and use the continued page) 6 200300072 The installation space between the shock-proof object and the ground is high, and there is a disadvantage that it is not easy to use the installation space to install wiring equipment. Also, the cable wiring such as the lighting of exhibition stands for fine arts has the same disadvantage. Furthermore, when the conventional anti-vibration device is to be installed on the already installed anti-vibration object, there are disadvantages that the application of the anti-vibration object must be temporarily stopped and the wiring equipment be temporarily separated, and the wiring equipment must be connected after the anti-vibration device is installed. Therefore, it is not easy to retrofit the shockproof device for the already set shockproof object. At present, the actual shockproof object is rigidly fixed to the ground using a fixture or the like. However, in the case of vibration such as earthquake shaking, it is possible to rigidly fix the shock-proof object and prevent the overturning system from being limited. Therefore, it is imperative to install a shock-proof device for absorbing damping vibration. In addition, the roller is rotated on the rail in the left-right direction, and can absorb and attenuate the earthquake shaking. Therefore, in order to fully exert the anti-vibration performance, it is necessary to ensure the rotation distance of the roller, that is, the required length of the beam must be obtained. Therefore, the external dimension of the shock-proof device is limited by the length of the beam. Designing to increase the external dimension below the size of the length of two beams is difficult and lacks versatility.

[Disclosure of Invention 3 20] The object of the present invention is to provide a shock-proof device and a method for setting the shock-proof device, which are made in consideration of the aforementioned disadvantages, and can exert stable shock-proof performance on shock-proof objects connected to wiring equipment, and at the same time Shockproof objects that have been set up can be installed without stopping the operation of the shockproof objects. 0 Continued pages (If the description page of the invention is insufficient, please note and use the continuation page.) Inventory ®;!; 玖, Invention description In order to solve the aforementioned problems, the shockproof device and the method of setting the shockproof device of the present invention are characterized in that an opening portion or an insertion area through which wiring equipment connected to the shockproof object can be inserted is provided. Brief Description of the Drawings Fig. 1 is a perspective view showing an exploded state of the embodiment (1) of the shock-proof device related to the present invention for implementing the best form of the first invention. Figure 2 is a partially cutaway top view of the combined state of Figure 1. FIG. 3 is a central longitudinal sectional view of the installation state of FIG. 2. Fig. 4 is a vertical cross-sectional view of the center of Fig. 2 in the installation state of Fig. 2. Figure 5 is a simplified diagram showing the actions of Figures 3 and 4. (A) shows the normal case, and (B) shows the time of anti-vibration. Fig. 6 is a schematic diagram showing the operations of Figs. 3 and 4, and is a schematic plan view showing the positional relationship of the openings during earthquake prevention. Fig. 7 is a schematic cross-sectional view showing an embodiment (2) of the vibration-proof device of the present invention for implementing the best mode of the i-th invention. Fig. 8 is a schematic wearing view showing the embodiment (3) of the shock-proof device of the present invention for implementing the best mode of the invention. Fig. 9 is a schematic cross-sectional view showing an embodiment (4) of the vibration-proof device of the present invention for implementing the best mode of the invention. Fig. 10 is a schematic plan view showing an embodiment (5) of the vibration-proof device of the present invention for implementing the best mode of the first invention. Fig. 11 is a central longitudinal sectional view of the installation state of Fig. 10. 0 Continued pages (Please note and use continuation pages when the invention description page is not enough.) 发明, description of invention description, page 12 of the continuation page shows the shockproofing of the present invention in the best form for implementing the second invention A perspective view of the device. Fig. 13 is a perspective view showing the installation of the shock-proof device of the present invention, which is the best form for implementing the second invention. Fig. 14 is a perspective view showing an embodiment (6) of an anti-vibration device according to the present invention for implementing the best mode of the second invention. Fig. 15 is a plan view of Fig. 12 which is the best form for implementing the second invention. FIG. 16 is an enlarged perspective view showing a main part of a method of connecting the shockproof unit and the connecting member of FIG. 12. Figure 17 is a side view of Figure 12. Figure 18 is a side view of Figure 12. Fig. 19 is a side view showing the operation status of the anti-vibration device at the time of anti-vibration. ○ Fig. 20 is a plan view showing the installation method of the anti-vibration device. (A) to (g) are the sequence of operation steps. Fig. 21 shows the installation status of the anti-vibration device of most anti-vibration objects. Fig. 22 is a perspective view showing an embodiment (7) of the vibration-proof device of the present invention for implementing the best mode of the second invention. Fig. 23 shows the installation method (7) of the vibration-proof device according to the present invention for implementing the best form of the second invention, and is a plan view from below; and (a) and (b) describe the operation steps. order. FIG. 24 is a side view showing an embodiment (8) of the shock-proof device of the present invention for implementing the best form of the second invention, and is a 0-type continuation of FIG. (Recognized and continued pages) 200300072 玖, enlarged view of the main part of the description of the invention. Fig. 25 is a plan view showing an embodiment (9) of the vibration-proof device of the present invention for implementing the best form of the second invention, and the upper stage is removed. Fig. 26 is a side view of Fig. 25. FIG. 27 is an enlarged perspective view of a main part A of FIG. 25. Fig. 28 is a perspective view showing an embodiment (10) of an anti-vibration device for implementing the best mode of the third invention. Figure 29 is a partially cutaway top view of Figure 28. 10 Fig. 30 is a central longitudinal sectional view of the installation state of Fig. 29. Fig. 31 is a plan view showing an embodiment (11) of an anti-vibration device for implementing the best mode of the third invention. Fig. 32 is a central longitudinal sectional view of the installation state of Fig. 30. 15

Fig. 33 is a plan view showing an embodiment (12) of the vibration-proof device of the present invention for implementing the best mode of the third invention. [Embodiment 3 Best Mode for Implementing the Invention] In the best mode for implementing each of the first, second, and third inventions, a shockproof device and a method for installing the shockproof device related to the present invention will be described. Figures 1 to 11 show the best form for implementing the first invention. The anti-vibration device of the present invention is used to move a bar that has been bent up and down between the upper rack and the lower rack, and move the bar. The rollers are arranged orthogonally in the left and right directions to attenuate the vibration, which is characterized by a fixed 0 continuation page (when the description page of the invention is insufficient, please note and use the continuation) 10 20 200300072 玖, invention description invention Description Continuing the table above the shock-proof object and fixed under the ground where the shock-proof object is installed. The rack faces the shock-proof object and the ground, and the second rule of the rotatable roller and the second rule of the first rule are rotated. The second roller is movably arranged between the upper rack and the lower rack, and 5 openings for wiring are provided at approximately the center of the upper rack and the lower rack. According to the aforementioned device, the i-th bar and the i-roller are fixedly fixed, and the second bar and the second roller are movably divided and arranged to reduce the installation space, and the rack fixed to the shock-proof object is fixed to the stand. Below the ground, the 胄 φ mouth faces' and installs the second rule and the second roller as reinforcements to improve 10 shock resistance and prevent bending deformation due to vibration. Therefore, in the openings provided on the upper and lower racks with protective elements for wiring, electrical winding materials such as wiring can be inserted without interference with the rollers and rails. In addition, the windows to be opened may be circular and other polygons in addition to the square, so that wiring devices connected to electronic equipment and the like can pass through. 15. In the above-mentioned shock-proof device, the present invention is provided on the opening of the upper shelf and the opening of the lower shelf, and is provided with a protection element that supports either or both of the openings. According to the aforementioned device, the wiring passing through the opening is protected by the protection element, and the air permeability is ensured. 20. In the above-mentioned shock-proof device according to the present invention, the protection element is constituted by a support plate having a vent hole. According to the aforementioned device, it is possible to ensure the air permeability due to the ventilation holes on the entire openings of the upper and lower shelves. According to the present invention, in the aforementioned anti-vibration device, the opening portion of the lower shelf is a 0-continued page (the reprinted page is not touched, and it is memorable and makes the title page) 11 200300072 Invention description mm, invention description is higher than the opening portion of the upper stand The opening is also enlarged. According to the aforementioned device, when the upper stage and the lower stage are moved during the shockproof operation, the openings of the upper stage opening and the lower stage repeating openings can be ensured, so as to ensure the opening space penetrating the wiring and the like of the protective element. 5. According to the present invention, in the anti-vibration device, the protection element is composed of an elastic element.

According to the aforementioned device, the protective element serving as an elastic element is elastically deformed during shockproofing to buffer and protect the wiring equipment inserted inside. Further, in the above-mentioned shockproof device of the present invention, the protection element is composed of a non-elastic element. According to the aforementioned device, since the protection element is composed of an inelastic element, it can provide the function of protecting the wiring equipment from dynamic interference, and at the same time provide the blocking function of blocking the electromagnetic waves and the like generated by the wiring equipment. In addition, the present invention is an air-conditioning apparatus provided with a ventilation fan of 15 in the aforementioned anti-vibration device.

According to the aforementioned device, the space between the shock-proof object and the ground is forcibly exhausted by the ventilation fan provided in the air conditioner. Further, in the above-mentioned shock-proof device of the present invention, the ventilation fan is provided on a support plate. 20 According to the foregoing, the air introduced from the opening of the upper or lower shelf can be properly ventilated, and it can be installed on the support plate provided with the protection element, so that it can be installed without hindering the shock-proof action of the shock-proof device. In addition, since it can be assembled integrally with the support plate, the installation method is not limited by the arrangement area due to the structure or structure of the anti-vibration device. 0 Continued pages (Please note and use continuation pages when the invention description page is not enough.) 12 200300072 玖, invention description / continuation page The following is based on the illustration of the shock-proof device for implementing the best form of the i-th invention Implementation form. Figures 1 to 6 show the embodiment (1) of the shock-proof device according to the present invention. 5 In this embodiment ⑴, the ground F of the earthquake-proof object P is interspersed with wiring equipment such as communication lines and circuits. For example, a floor that is supposed to be a raised floor structure or a structural skeleton that is a flat structure. It is shown that it is set on the base B fixed on the ground F. Then, the wiring device c is installed along the ground F and connected to the shock-proof object p. The wiring device c is a collection of many communication lines and circuits, but its thickness and shape are not limited to this. The shock-proof object p is a computer-related device such as a server, and the wiring device c can be connected. In this embodiment, the upper stage i, the lower stage 2, the i-th rail 3, the second rail 4, the first roller 5, and the second roller 6 are used as the main components to form 150. The upper shelf 1 is formed to face each other. A rectangular plate with a thicker flat plate of quake-proof object p with long sides W2 and short sides… Open approximately at the center of the upper stage i ^, and there is a square opening for wiring on one side W3 ~. Below the upper stage 1, two i-side rollers 5 are mounted on one side and a total of four i-th rollers 5 are mounted along the long side (long side direction) through the square-shaped bearing portion 8. In addition, the upper stage 1 is in contact with and fixed to the shock-proof object p. The bearing portion 8 contacts and fixes the fixing surface 8a to the upper stand 丨. The first roller 5 is provided so as to protrude from a side surface adjacent to the fixed surface of the bearing portion 8. Xiamukou 2 is formed as a thicker plate facing the ground F. _ The next page is said to be inadequate, please note the title page) 13 200300072 发明 Description of the invention Continued description of the invention and the same as the shelf 1 Roughly-to the rectangle. In the central portion of the lower shelf 2, a wiring opening portion 7 b having a square with a side of W4 is opened. The opening portion% has a larger opening than the opening portion 7a. On the lower shelf 2 along the short side (short side direction), there are two women's rails on one side and a total of 4 length L rails 5 3. The first rule 3 extends linearly in the left-right direction and bends in the vertical direction, and a part of the arrangement area repeats to form a repeating section D, and two unilateral lines are arranged in parallel. In addition, the lower frame 2 is in contact with and fixed to the base B underneath. For mounting on the first shelf! The second rod 4 that the roller 5 moves is a holder 9 for the rod, which is dug in an angular column. The second ruling 4 can be arranged in a straight line in such a shape that two first rollers 5 on each side can be moved and extend linearly in the left-right direction and bent in the vertical direction. The second roller 6 that moves on the i-th bar 3 mounted on the lower stand 2 is mounted on a corner-shaped roller support 10. The second roller 6 is structured as 15 corresponding to two unilateral first monolithic bars 3 in which two rails are staggered and a repeating section D is provided, so that the protruding lengths of the two roller supporters 10 on one side are different. The difference is dl, d2. The second roller 6 is provided on the side of the roller bracket 10, and is configured so that the i-th rail 3 is not covered by the roller bracket 10 when viewed from above. During the anti-vibration action, the turning distance S of the 20th roller 6 rotating on the third rail 3 is approximately 1/2 of the length B of the first rail 〇 The bracket 9 for the rails and the bracket 1 for the rollers 〇 Each of the two sets is in the shape of a well and forms a trolley shape together with the second rail 4 and the second roller 6 and is movably arranged between the upper shelf 1 and the lower shelf 2. 0 Continued pages (Please note and use continuation pages when the invention description page is not enough.) 200300072 玖, the invention description description page is continued, and in this embodiment (1), the opening for wiring on the shelf i 7a is to support the protection element 12 through the support plate U. The supporting plate u is provided with a mounting hole 11a at the central portion which can be fitted with the protection element 12, and a large number of perforated holes 11b are perforated in the surroundings, and are surrounded by a mounting frame Uc. The rack 11c is fixed to the upper stand 1 with small screws 13.

The protective element 12 is formed as a conical cylindrical elastic body deformed by a coil spring, and a minimum diameter portion 12a is provided near the lower end portion shortened by a diameter from the upper portion, and a smaller diameter portion 10 is provided at the lower end portion below the minimum diameter portion 12a. The widened portion 12b having a larger diameter Ua, and the upper portion is fitted into the mounting hole 11a of the support plate U, and the widened portion 12b faces the wiring opening portion 7b of the lower stand 2 and becomes suspended, and is located in a floating state. Article 丨 between Article 3, Article 2 and 4, the first roller 5, and the second roller 6. According to this embodiment (1), in the same manner as the conventional anti-vibration device 15 shown in the background art, corresponding to the vibration in the left-right direction, the first roller $, the second roller

When the wheel 6 moves and rises on the first rail 3 and the second rail 4, and the vibration in the left and right directions disappears, the i-th roller 5 and the second roller 6 are on the i-th rail due to the structural weight (the load of the shock-proof object P, etc.). 3. Article 2 moves and descends. Therefore, using the i-th roller 5 and the second roller 6 to move up and down < shift displacement 20 can absorb and attenuate vibration energy in the left-right direction. In the action of absorbing and attenuating vibration energy, the upper shelf 1 is formed by a thicker plate facing the shock-proof object P, and the fifth wheel 5 = the bearing part 8 is installed as a reinforcement, and the lower shelf 2 is Paired by: Thicker plate formed in ground $ F ★, and the first! The rail 3 is used as a reinforcement. 曜 Next page (turning over the fiber, and _ fiber) _ 15 ^ 200300072 Rose, description of the invention Description of the invention continued page, so it can improve the seismic strength and prevent bending deformation. Therefore, a long-term and effective shock-proof function can be exerted, and the openings 7a, 7b provided in the upper rack 1 and the lower rack 2 can be formed to a maximum size. Further, as shown in FIG. 2, the two first rule 3s are arranged to set a repeating section D in the arrangement area 5. Therefore, the rotation distances of the two second rollers 6 on one side that rotate with the vibration in the left-right direction repeat the distance of the length of the repeating interval D. Therefore, the vibration transmission in the left-right direction is attenuated by the vibration energy of the length of the repeating interval d. Go to the upper shelf 1. Therefore, the absorption of the vibration energy is further increased. 10 Furthermore, the arrangement area of the first rule 3 can be reduced without shortening the rotation distance of the second roller 6, and the entire device can be miniaturized without reducing the shock-proof performance. Furthermore, the second rail 4, the second roller 6, and the rail bracket 9 ′, the roller bracket 10 configured as a trolley, are movably arranged between the upper rack 丨 and the lower rack 2 and are mounted on The first roller 5, the bearing portion 8, and the upper stage i and the lower stage 2 are fixedly arranged! Beams are divided into three parts, so the installation space between the upper shelf 1 and the lower shelf 2 is reduced. Therefore, it can be easily set on the ground F. In addition, the first roller 5 and the second roller 6 are relative to the 20 可供 2 rail 4 that can be rotated, and the 1st ruling 3 prefecture sound &, _ Liu Yan * 3 length direction, protruding from the vertical direction Configuration, therefore, can easily form the structure of the previous year: a, wind, up, down, down, and down. In addition, the roller 1 is protruded and provided through a bearing portion 8 ′ having a fixed surface 8a fixed to the upper shelf opening 1 on a side surface connected to the fixed surface ^. Therefore, the roller 1 and the lower shelf 2 can be installed. The interval setting is 0. Continue the next page (please note and make the page when the description page is not enough.) 16 200300072 玖 、 Invention description / Explanation page space is reduced, and it can be stably rotated on the second rule 4 . Therefore, by using the space 5 between the base B and the lower shelf 2 and the ground F, it is possible to pull the wiring equipment c, which is underground and can be connected to the display stand $ electronic equipment, into the lower shelf $. Then, the pulled-in wiring device c can be connected to the shock-proof object p such as an electronic device through the wiring opening 7b of the lower shelf 2 and the protective element 12 (the wiring opening 7a of the upper shelf 丨). Therefore, it is not necessary to install the wiring device c longer than necessary, and therefore, it is not necessary to hinder the shock-proof action of each rail and roller during shock-proof.

10 In the operation of absorbing and attenuating vibration energy, when the protection element 12 is displaced when the upper stage 1 and the lower stage 2 are displaced, the 'smallest diameter portion 12a touches the wiring equipment c, and deforms the entire elasticity to buffer and protect the wiring equipment c. In addition, the enlarged portion 12b of the protective element 12 makes the protective element 12 easily deform elastically. Also, since the enlarged portion 12b of the protective element is in a suspended state with respect to the lower frame 2, the amount of elastic deformation of the protective element 12 increases. Furthermore, according to this embodiment 借, the ventilation holes A on the p-side of the shock-proof object and the F-side of the ground can be secured by the ventilation holes 11b of the inside of the protection element 12 and the support plate 11. Therefore, it is possible to circulate the cooling air supplied from the ground F or the lower part (underground) of the ground F to the shock-proof object p composed of electronic equipment or the like.

20 Furthermore * not shown in Figure 6, for example, during shockproof, the ^ wheel \ moves on the second rail 4 in the X direction by a rotation distance S1, and the second roller rolls on the first rail in the γ direction and rotates distance. At this time, the repeated openings of the openings 7a and 7b of the upper shelf 1 and the lower shelf 2 form a rectangular shape with one side W5 'and the other side W6 and Ht * Tiy, so that the cables connected to the ground F and the protection target P are wired. Really 'K ground interspersed, and will not be in the shock-proof action _ the next page (when the description page is not enough to use, Chen 轫 讣 T said the top pay day inch, 5 keys and make a post) 17 300072 发明, description of the invention Obstructing the first rule 3, the second track 4 and the "quota", the shockproof performance will not be reduced, and the wiring connected to the shockproof object p will not be damaged. Moreover, since the opening portion 7b is larger than the opening portion ^, even if it is mounted on the stand during 5 shockproof! The movement can also ensure that the opening portion% overlaps with the opening portion-the side is W5, and the other side is a rectangular opening ^, so that the wiring device c inserted into the protection element can be surely inserted. On the contrary, the opening portion 7a is formed to be larger than the opening portion 7b, and the wiring device C can also be inserted through the disk. 10 FIG. 7 shows an embodiment (2) of the shock-proof device related to the present invention. In this embodiment (2), the protection element 12 of the aforementioned embodiment ⑴ is formed into a cylindrical shape. The supporting building is on the upper platform i and the lower platform 2. The protective element 12 is formed of paper such as a non-elastic nameplate, and the protective element 12 is provided with an electromagnetic barrier function to block the electromagnetic 15 waves generated by the wiring device c. According to this embodiment (2), the wiring device c can be completely separated from the i-th rule 3, the second rule 4, the first roller 5, the second roller 6, etc., and the wiring device C can be completely prevented from being caused by the first Fouling caused by abrasion dust generated by rule 3, second rule 4, i-th roller 5, second roller 6, etc. Furthermore, since the protective element is formed of paper such as aluminum sheet, it can be easily formed into a tube shape, and at the same time, it can provide the function of protecting the wiring device c from dynamic interference, and it can also block the electromagnetic waves generated by the wiring device C. Interruption function. Regarding other functions and effects of this embodiment (2), it can be the same as the previous implementation. 0 Continued pages (when the invention description page is insufficient, please note and use the continuation page) 200300072 玖, invention description, invention description, continued page form (1 ) Works about the same. Fig. 8 shows an embodiment (3) of the shock-proof device according to the present invention. In this embodiment (3), the middle portion of the protection element 12 of the aforementioned embodiment (1) is provided with the smallest diameter portion 12a of the aforementioned embodiment (1). Knowing: Knowing the 5th form (3), the minimum diameter portion 12a can contact the wiring device c when the upper stage 1 and the lower stage 2 are displaced, and the protection element 12 can be reliably elastically deformed to reliably cushion the protection. Wiring equipment c. The other functions and effects of this embodiment (3) can be performed in substantially the same manner as the aforementioned embodiment (1). 10 Fig. 9 shows an embodiment (4) of the shock-proof device related to the present invention. In this embodiment (4), since the wiring device c of the aforementioned embodiment (1) is movably arranged between the upper rack 1 and the lower rack 2 and combined into a trolley-like shape, the lower portion of the holder 9 for a creel is inserted into the outside. According to this embodiment (4), the wiring equipment can be connected to the ground F or the shock-proof object P via the upper stage 丨 and the lower 15 stages 2, and the movable bracket 9, the roller bracket 10 and The space formed between the lower stands 2 is provided with wiring equipment. Therefore, the wiring equipment C surrounded by the shock-proof object p or the ground F can be installed without interposing the openings 7a and 7b of the upper stage 1 and the lower stage 2. Therefore, it is possible to provide a design for the shock-proof object p or the ground F. High versatility of the method. In addition, the wiring equipment c installed along the shock-proof object P or the ground F can be installed without interposing the openings 7a and 7b of the upper stage 1 and the lower stage 2. Therefore, the openings of the upper stage 1 and the lower stage 2 are not provided. One of 7a and 7b can be set by biting both. In addition, other functions and effects of this embodiment (4) are continued on the next page (when the description page of the invention is insufficient, please note and use the continuation page) 200300072 玖, the description of the invention may be substantially the same as the previous embodiment (1) To work. Fig. 10 and Fig. 11 show the embodiment (5) of the shock-proof device according to the present invention. 5 In this embodiment (5), an air conditioner Η is installed on the support plate 11 of the aforementioned embodiment (1). This air conditioner is constituted by a ventilation fan 20 and a small motor for driving the ventilation fan 20 (not shown). The small motor is provided inside the ventilation fan 20. _ 10 The ventilation fan 20 is formed by combining a square mounting bracket 21 and a plurality of rotating wings 22 through a shaft 23. Four ventilation fans 20 having such a structure are provided at the edge portion of the support plate 11 on which the protection element 12 is mounted. The ventilating fan 20 is provided on the lower surface side of the support plate 11 by using a wide space formed by a movable bracket 9 and a roller bracket 10 provided movably. 15 According to this embodiment (5), when a display stand, a server, an electronic device of a computer or the like is an anti-vibration object P, heat is generated by the main body of the electronic device or the wiring ® device C, so the floor F or the lower part of the floor F ( Underground) The cooling air I is introduced and ventilated toward the shock-proof object P. Therefore, the cooling air I supplied from the ground F is forcibly conducted to the shock-proof object P by the air conditioner, and the shock-proof object P can be maintained in a good state. When cooling equipment such as cold air is provided for the shock-proof object P, the cooling air I discharged from the shock-proof object P may be forced to pass toward the ground F. In addition, the air-conditioning equipment Η can also be forced to exhaust the air or cooling air I passing through the protective element 12 to form a forced exhaust or attract the shock-proof 0 Continued page (When the description page of the invention is not enough, please note and use continued Page) 20 20 200300072 Description of the invention 玖 The air between the object P and the ground F of the invention.

In addition, since the air-conditioning equipment is fixed to the edge portion of the support plate 11 provided in the opening portion 7a, it is not necessary to ensure the installation place on the upper shelf 1 or the lower shelf 2, and it can be arranged along the design of the wiring equipment C. In addition, it may be provided on the edge portion of the opening portion 7b of the lower shelf 2 instead of the support plate 11. Therefore, the arrangement area of the air-conditioning equipment 不会 does not interfere with the upper shelf 1, the lower shelf 2, the holder 9 for the sill, and the roller Use the stand 10 for movement. The other functions and effects of the embodiment (5) can be performed in substantially the same manner as the aforementioned embodiment (1). 10 or more, in addition to the illustrated embodiment, the protective element 12 may be made of a rubber material. The rubber material related to this form can be selected from a rubber tube shape or a telescopic tube shape. Furthermore, as the wiring device C, a metal cable, an optical fiber cable, or the like may be used, and the wiring device C may be inserted inside the protection element 12. 15 The shape of the openings 7a and 7b opened on the upper shelf 1 and the lower shelf 2

The shape is not limited to a square, and may be formed into a circle or the like. The ventilation fan 20 of the air conditioner may be a small-sized air-conditioner for cooling a central processing unit (CPU) installed in a personal computer or the like. Next, the present invention will be described in detail using examples. 20 (Embodiment 1) In Figures 2 and 6, the outer dimensions of the upper shelf 1 and the lower shelf 2 are formed into rectangles of W2 = about 900mm and Wl = about 700, and the length of the first rule 3 is It is about 400mm and is set on the lower shelf 1. As in the present invention, by movably disposing a 0-continuing page between the upper shelf 1 and the lower shelf 2 (when the invention description page is insufficient, please note and use the continued page) 21 200300072 玖, invention description invention description $ 卖 Μ 5 10 15, and combined into a well-shaped bracket 9 and a roller bracket 10, which can form the maximum size of the opening 7 that can be formed by wiring such as cables passing through the opening 7 without reducing the shock resistance, and is formed as W3 = About 450mm. In addition, the space formed between the upper stage 1 and the lower stage 2 is about 80 mm in height. When a normal-size 2000 mm server rack (anti-vibration object P) is fixed to the upper stage 1, the installation height of the ground F is 2100 mm. In addition, in order to ensure the rotation distance of the second roller 6 and the first roller 5 that are rotated in the first and second rulings 3 and 4, and to provide sufficient shock resistance, the length of the ruling must be 400 mm. the above. Therefore, when the outer dimensions W1 and W2 of the upper stage 1 and the lower stage 2 are provided on the straight line, the outer dimension W1 is at least about 800 mm or more. 3 staggered and arranged in parallel to set the repeating interval D = about 100mm, while ensuring the turning distance of the second roller 6 that is rotated on the first rule, and shortening W1, that is, W1 can be less than about 800mm (Approximately Wl = 700). Further, the rotation distance D of the first roller 5 and the second roller 6 on each of the beams during the shockproofing is such that the length of the beam L is about 400 mm.

At this time, it can be rotated to D = about 195mm, and the size of the repeated openings of the upper stage 1 and the lower stage 2 can be guaranteed to be W5 = 20 W6 = about 200mm when the maximum limit is ensured during shockproof. Therefore, it was confirmed that the wiring equipment inserted in the opening portion 7 can be sufficiently protected. Figures 12 to 27 show the best form for implementing the second invention. The present invention is designed so that the upper stage and the lower stage have been directed upwards and downwards. (Please note and use the continuation page) 22 玖, description of the invention Description of the invention, the continuation of the curved strip and the roller moving on the strip are arranged orthogonally to the left and right respectively to attenuate the vibration, characterized in that the shockproof device is divided When most of the shock-proof units are arranged in the dividing direction, the rails and rollers are arranged orthogonally to the left and right directions, and the intersecting part of the combination of the up-and-down direction is arranged at approximately the center, and is located on the ground. Many shock-proof units are combined around the raised shock-proof object and wiring equipment such as the gap between the ground and the ground, and the aforementioned wiring equipment and the like are arranged in the insertion portion. According to the aforementioned device, the anti-vibration device is divided into a plurality of anti-vibration units, whereby the anti-vibration units do not interfere with the wiring equipment connected to the anti-vibration object, and are arranged in the wiring equipment located in the gap between the anti-vibration object raised from the ground and the upper and lower ground Wait around. In addition, most of the shock-proof units provided are configured so that the insertion portion for inserting wiring equipment and the like is approximately centered. Therefore, post-installation can be performed on the installed shock-proof objects to which the wiring equipment is connected, and in the setting at the new setting, the shock-proof device divided into many shock-proof units can also be used to provide settings that are not interfered by the wiring equipment. In addition, when a large number of shock-proof units are arranged in the division direction, the structure is such that the bar and the roller are arranged perpendicular to each other in the left-right direction, and therefore, the combined insertion portion can be arranged in a direction approximately upward and downward from the center. Furthermore, in the above-mentioned anti-vibration device of the present invention, the majority of the anti-vibration units are connected to each upper stage and each lower stage by connecting members on the side in the dividing direction. According to the aforementioned device, each upper stage and each lower stage of the shock-proof unit are respectively The hunting connector is integrally connected. Moreover, in the above-mentioned anti-vibration device of the present invention, most of the anti-vibration units have a 0-page continuation page (when the description page of the invention is insufficient, please note and use the continuation page) 23 200300072 The platform is connected between the shock-proof object and the ground. According to the aforementioned device, even without using a connecting member, a stable positioning connection can be provided by the weight of the shock-proof object itself, and it can be set without fixing the upper and lower racks to the shock-proof object and the ground with bolts or the like. Shockproof unit. Further, in the above-mentioned shock-proof device, when the shock-proof unit is divided into two, two pairs of bars and rollers are provided in the dividing direction, and two pairs of bars and rollers are provided in the non-dividing direction. The device according to the rules is provided with two pairs of bead and roller in the non-dividing direction, and one pair of bead and roller in the dividing direction. Therefore, a cut of the shock-proof device can be formed, and a shock-proof unit is also configured to combine the interspersed parts. Further, in the above-mentioned shock-proof device of the present invention, the insertion portion of the wiring device or the like is extended in the vertical direction and is expanded on the ground side. According to the aforementioned device, it is possible to prevent the wiring equipment and the like from moving through the intersecting part of the upper stage and the lower stage due to earthquake shaking. The rabbit is also described in the shock-proof device described above. Each roller arranged in the dividing direction of most of the shock-proof units is connected by a side roller connection. According to the aforementioned device, the identity of the direction of the shock-proof action of most of the shock-proof units can be ensured 'and most of the shock-proof units can perform the shock-proof action without the rollers being disconnected by the bars arranged in the dividing direction. Furthermore, the method for setting the aforementioned anti-vibration device of the present invention is to make a rule that has been bent upwards and downwards between the upper rack and the lower rack, and to the next page of the rule. (When the description page of the invention is insufficient, please note And use the continuation sheet) 200300072 玖, description of the invention Description of the invention The rollers moving the continuation pages are arranged orthogonally to the left and right to separate the vibration-proof clothes which are damped by vibration into a plurality of vibration-proof units, and when a plurality of vibration-proof units are arranged in the dividing direction, It consists of assembling the up and down insertion parts at approximately the center, and raising the shock-proof object from the ground, and combining most shock-proof units around wiring equipment, such as wiring equipment located between the shock-proof object and the ground 5 above and below. In the interspersed part, each upper stage and each lower stage are connected by the side of the division direction of the majority of shock-proof units, and the shock-proof object is placed on each upper stage of the most shock-proof units, and each lower stage is placed on the ground. 10 According to the foregoing method, for the shock-proof objects that are installed on the upper shelf and connected with wiring equipment, etc., the shock-proof device can be divided into most shock-proof units. After the shock-proof objects are raised from the ground, the shock-proof objects are set up and arranged in the shock-proof position. Around the wiring equipment and other objects above and below the ground. In addition, each upper shelf and each lower shelf are connected by the side of the anti-vibration unit, so that the anti-vibration unit can be installed without disturbing the 15 wiring equipment and the like. In the following, in the best mode for implementing the second invention, an embodiment of the shock-proof device will be described based on the drawings. Figures 12 to 21 show an embodiment (6) of the anti-vibration device and the method of installing the anti-vibration device related to the present invention. 20 In this embodiment (6), an anti-vibration pair is provided, and the ground F such as P can also be interspersed with communication equipment, wiring and other wiring equipment C. For example, the floor that is supposed to be a raised floor structure, or the structural skeleton is a flat structure ground. And the wiring equipment C is installed along the ground F and connected to the shock-proof object p. The wiring device C is a collection of most communication lines, circuits, etc., but its thickness is 0 sequel pages (if the description page of the invention is insufficient, please note and use the continuation page) 200300072 Invention Description & Selling M 玖, DESCRIPTION OF THE INVENTION The shape is not limited. Here, the vibration-proof target ρ is a computer-related device such as a server, and the wiring device c is connected. The anti-vibration device 100 is constituted by the anti-vibration unit 110 of the divided anti-vibration device. 5 The anti-vibration unit 110 connects the upper stand 1, the lower stand 2, and the left and right directions.

The first rule 3, the second rail 4, the first roller 5, and the second roller 6 are arranged as the main components, and are equipped with two anti-vibration units 111 and 112. As shown in Figure 13, most The anti-vibration unit 110 is connected to a connecting member 120 formed by a connecting member 122 connecting each of the lower shelves 2 through a connecting member 121 connecting each of the upper shelves 1 and 10.

The upper platform 1 is a box-shaped plate formed by a thicker plate facing the shock-proof object P, and the long side is W11, the short side is W12, and the height (thickness) is W12a. It is installed along the short side W12 under the upper shelf 1. The first rail 3 is rotated on the first roller 5. In addition, if the upper stage 1 is a plate-shaped element that can be provided with the first rule 3, its shape is not limited. Article No. 1 has a rail length of approximately W12, which is formed to be approximately the same as the short side W12 of the upper platform 1. It extends linearly in the left and right directions of the two rollers 5a and 5b on each side, and extends upward and downward. It is curved and consists of 20 rails 3a, 3b arranged in parallel. The distance between the rails 3a and 3b is W19. The rails 3 a and 3 b are installed on the upper stand 1 with the curved surfaces facing downward, and are configured to be mounted on the first roller 5. The first roller 5 is attached to the trolley 90 described later, and the rollers 5a and 5b are set at the interval W19, as with the spacing distances of the rails 3a and 3b, because the 0-continued page (if the invention description page is insufficient, please note and use (Continued) 26 200300072 Description of the invention 玖, description of the first rule 3 2 The rule 3a, 3b are arranged in parallel, so the protruding lengths of the trolleys 90 are set to the same length. 5 The lower shelf 2 is formed as a thick and approximately box-shaped plate facing the ground F, forming the long side W11, the short side W14, and the height (thickness) W14a. A second rule 4 is installed along the long side W11 on the upper surface of the lower shelf 2. The shape of the upper stage 1 is not limited, and the relationship between the short side W12 of the upper stage 1 and the short side W14 of the lower stage 2 is W12> W14. The second rule 4 is a set of two side rails 4a, 4b that extend linearly in the left and right direction and are bent in the up and down direction 10, and are provided with two one side and a total of four. The strip length is L1, and the second roller 6 rotates on each strip. In addition, the separation distance between the two groups was set to W21. It is also placed at a position orthogonal to the first rule 3.

The second roller 6 is the same as the first roller 5 and is mounted on a trolley 90 in the shape of a column 15 described later. The second roller 6 is composed of rollers 6a and 6b corresponding to two bars 4a and 4b on one side. The lengths of the rollers 6a, 6b projected from the trolley 90 are the same length. The trolley 90 is formed in a columnar shape, and is disposed along the long side of the second roller 6 that rotates on the second rail 4 and is disposed along the short side of the first roller 5 that rotates 20 on the first rail 3. The first rollers 5a, 5b are movably arranged between the upper shelf 1 and the lower shelf 2. The first rollers 5a, 5b are arranged at an interval of W19, and are located at approximately the central portions of the first bars 3a, 3b. The second rollers 6a, 6b are It is arranged at the setting interval W18 similarly to the first roller 5. Therefore, 0 continuation pages (if the description page of the invention is not enough, please note and use the continuation page) 27 200300072 发明, the description of the invention, the first roller 5 and the second roller 6 are attached to each rule when the anti-vibration action, Rotating within the range of the length of the bar, the rotation distance is approximately 1/2 of the length of each bar.

Therefore, the structure of each of the anti-vibration units 111 and 112 is the direction in which the first 5th rail 3 is provided as the division direction. A pair of the first rail 3 and the first roller 5 is provided, and the first rail 3 and the first roller 3 are disposed. When the setting direction of the second rail 4 at the orthogonal position is used as the division direction, two pairs of the second rail 4 and the second roller 6 are provided. As shown in FIG. 16, the connecting member 121 is a square that can be contacted with the contact piece Id and the side lc of the connecting portion 130 of each of the 10 shelves 1 and formed into a long side W112, a short side W113, and a length. Approximately W15. A positioning pin le is provided on an edge portion lc of the upper shelf 1 and a connection hole If is inserted through which a connection screw 123 can be inserted. The connecting member 121 is perforated with a positioning hole 121a corresponding to the positioning pin le, and is perforated with a through hole 121b through which the connection screw 123 can be inserted. 15 Connection piece 122 is the same as connection piece 121.

The contact pieces 2d and the side portions 2c of the connection portion 130 of each of the underframes 2 have a square shape, and are formed into a long side W114, a short side W115, and a length W15. A positioning pin 2e is provided on a side portion 2c of the lower shelf 1 and a connection hole 2f through which a connection screw 124 can be inserted is perforated. The connecting member 122 is also perforated with a positioning hole 122a corresponding to the positioning pin 2e20, and a through hole 122b through which the connecting screw 124 can be inserted. The connecting screws 123 and 124 are provided with six leg holes 123a and 124a for inserting a hexagonal screwdriver. Each connection hole 121b, 122b corresponds to the connection screws 123, 124, and a screw head corresponding to the connection screws 123, 124 is formed with a 0-continuation page (when the invention description page is insufficient, please note and use the continuation page) 28 200300072 (ii) Description of the invention Description of the invention Continued on pages 121c and 122c.

Then, the shock-proof units 111 and 112 are connected with the connecting members 121 and 122 to form the shock-proof unit 100. At this time, the distance between the upper shelves 1 of the shock-proof units m and 112 is W16, and the distance between the lower shelves 2 is W17 5, and the openings 7 a, surrounded by the shock-resistant units m, 112 and the connecting members 121, 122 are made. When the opening area of 7b is κΐ, K2, it constitutes K1CK2. Next, a method of installing the shock-proof device 100 will be described based on FIG. 20. First, as shown in Fig. 20 (a), the shock-proof object P is connected to a wiring device c along the ground F. In the state shown in FIG. 20 (a), the shock-proof device 10 is installed on both sides of the device P, and a claw-type jack 150 having a claw portion 151 is provided on both sides. Here, the claw lifter 15 is used as the lifting machine, but the purpose is to raise the shock-proof object P from the ground F to set the upper and lower gap Y, so it is also possible to lift the shock-proof object P to set the upper-lower gap. γ, lifting machines, etc. are not restricted. 15 Then, the shock-proof object P is raised by the jack 150 to ensure that the upper and lower gaps γ, gp for inserting the shock-proof units 111 and 112 are higher than the height w of the shock-proof units 111 and 112. After ensuring the vertical gap γ, insert the temporary support base 16 into the vertical gap γ, and arrange it near the wiring device 20 and C to stably support the shock-proof object p, and then remove the claw lifter 150. (Fig. 20 (b)) The anti-vibration unit 111 is inserted into the gap Y supported by the temporary support base 160. The anti-vibration unit 111 is arranged so that the end portion P1 of the anti-vibration object P is near the approximate center of the upper stand 1. (Figure 20 (c)). Next, also make the shock-proof 0 continuation page (when the description page is not enough, please note and look) 200200300072 玖, description of the invention, description of the invention, continuation page unit> 112 is the same as the end of the shock-proof object p unit? 2 Near the center of the upper stage 1. (Brother 20 (d)). The shock-proof units 111 and 112 thus configured can form the insertion part z of the wiring device C and easily be arranged on the shock-proof object p without contacting the wiring device c, that is, the 5-wire device c can be configured After the interposition of the shock-proof units 111 and 112 is combined. 〇 The shock-proof units ill and 112 are configured, the temporary support base 60 is removed and the temporary support base 160 is removed in order to raise the shock-proof object P. 15 claw lifter. The claw portion 151 may be provided outside the place where the shock-proof units 111 and 112 are provided, and the claw-type jack 150 may be provided on the bottom edge portion of the shock-proof object p adjacent to the shock-proof units 111 and 112, for example. After the shock-proof object p is stably supported by the claw lifter 50, the temporary support base 160 is removed from the upper and lower gaps. (No. 20 (magic)) After the temporary support base 160 is removed, the final positioning adjustment is performed in order to ensure that the shock-proof units m and 112 are accurately positioned at a predetermined position. Then, the claw-type jack 150 is used to make The shock-proof object p slowly descends, and the shock-proof object P is placed on each of the upper stands 1 of the shock-proof units 111 and U2. (Figure 20 (f)) Confirm that the shock-proof object P has been stably installed on the shock-proof units m, 112 20 'And connect the connecting pieces 121 and 122 to each of the upper stand 1 and the lower stand 2 of the shock-proof units 111 and 112, and the installation of the shock-proof device 100 is completed. (Figure 20 (g)) Describes how the shock-proof device 100 is installed. Anti-seismic action during earthquake shaking, etc. 0 Continued page (When the description page of the invention is insufficient, please note and use the continuation page) 30 发明, the description of the invention is shown in Figure -17, 'brother extending straight in the left and right direction 1 The rails 3a, 3b are such that the first! Rollers 5a, 5b are located at the approximate center of the i-th rails. At this time, for example, the ground is shaken in the direction of F 帛 D as shown in the second figure At this time, the connecting member 121 is connected to each of the objects P on which the anti-vibration is placed. The stage 1 moves in the direction of E. The i-th rails 3a, 3b at the upper opening 1 are rotated or slid on the i-th rollers 5a, 5b as the ground F moves in the direction of D, and start to move to make the end of the beam The portion 30c is located at the i-th roller 5a,%. The first roller core 5b has a stroke length (approximately 1/2 of the length of the bead) in a range from the center portion to the end portion 3c. Therefore, the direction E is used. The i-th rule 3 rotated in the direction, the shock-proof object P also horizontally moves the longest distance (i / 2) xwi2 in the E direction. For example, the first rule 3a is on the i-th roller 5a by the longest stroke length. The amplitude rotates in the direction of E. At this time, the first! Percent% rotates to one end of the i-th roller 5a. After that, the jth percentile starts to move in the d direction, and the first triangle 3a, 3b moves to make the first The first rollers 5a and 5b are located near the other end portions 30b. Therefore, in accordance with the vibration in the left-right direction, the first rule 3 is raised and lowered on the first roller 5 by the bent portion, and when the left-right vibration disappears, the first Rule 3 reduces the weight of the structure (the load of the shock-proof object p, etc.). It can absorb the attenuation by using the displacement of the first rule 3 to move up and down. The second rail 4 and the second roller are opposite to the positional relationship between the first rail 3 and the first roller 5, and the displacement of the second roller 6 moves up and down to absorb the attenuation in the left and right directions. Vibration. 0 Continued pages (When the description page of the invention is insufficient, please note and use the continuation page) 200300072 Invention description, the continuation pages are combined and matched, and the invention description is in accordance with this embodiment (6). The insertion portion Z for forming the passable wiring device C is positioned above and below the approximate center of the shock-proof object p, and is provided around the wiring device C located above and below the gap γ between the shock-proof object P and the ground F raised from the ground. Therefore, since 5 is a wiring device c that is inserted through the combination part Z through the combination, the shock-proof object P that has been set can be post-arranged. Therefore, the shockproof device 100 can provide a shockproof object p to which the wiring device C is connected, and can provide the shockproof object P to be installed on the shockproof object P without having to temporarily disconnect the wiring device C and stopping the operation of the shockproof object P. The anti-vibration device 10 ′ is that the connecting members 121 and 122 are connected to the anti-vibration units after the anti-vibration units 111 and 112 are arranged, and therefore, the wiring device C will not be disturbed. Each of the anti-vibration units 111 and 112 divided by the anti-vibration device is provided with i pairs of the first rule 3 and the first roller 5 and two pairs of second rule 4 and the second roller arranged at a position orthogonal to the first rule 3 6. Therefore, it is possible to provide a 15 anti-vibration device, which can realize the unitization of the anti-vibration device, and has high versatility for the anti-vibration object p which has been set regardless of the new setting. Since the separation interval W16 (wi7) of the shock-proof units 111 and 112 is independent, the use of various lengths and lengths of the connecting member 12 corresponding to the shape, size and installation condition of the shock-proof object P can be used for various shock-proof objects p 20 It is appropriately set, and a shockproof device 100 that does not depend on a newly set or already set shockproof object P can be provided. For example, as shown in FIG. 21, when a large number of shock-proof objects P are installed side by side, one shock-proof unit 110 is arranged in two shock-proof objects P. In the past, one anti-vibration device was provided for one anti-vibration object P. However, two anti-seismic pages were provided for two anti-vibration pages (when the invention description page is insufficient, please note and use the continuation page) 32 200300072 玖 Description of invention invention description, continued The page shock object P can be equipped with three shock-proof units 丨 10, which reduces the number of units to promote the cost reduction of the shock-proof device 100. In addition, by changing the length of the connecting member 120, the distance between the shock-proof units 110 (the area of the intersecting portion z) can be freely adjusted, and at the same time, a plurality of shock-proof units u can be connected with one connecting member 120. 5 The anti-vibration device 100 is composed of unitized anti-vibration units 111 and 112, and connecting members 121 and 122. Therefore, the structural weight of each anti-vibration unit 110 is small, and it can be smoothly carried and carried in, and the transportation is reduced. The effect of moving in costs. The opening portion 7b of the lower shelf 2 has an opening area larger than that of the opening portion 7a of the upper shelf 丨. Therefore, the area of the insertion portion Z on the F side of the ground is larger than the area of the insertion portion Z on the P side of the shock-proof object. . Therefore, during the anti-vibration operation, the overlapping area between the upper stage 1 and the opening 7b of the lower stage 2 is large when the upper stage 1 is moved, and it will not interfere with the wiring equipment C connected to the shock-proof object P. Each of the anti-vibration units 111 and 112 is connected to each of the upper shelves 丨 and each of the lower shelves 15 2. Therefore, the operation of the rear device is particularly easy. In addition, since the connecting member 120 is connected to the sides of the upper rack 1 and the lower rack 2, the installation work of the connector 120 can be easily performed, and at the same time, the stable shockproof performance can be exhibited without reducing the shockproof action. Furthermore, the anti-vibration unit 110 does not need to be fixed to the anti-vibration object p and the ground 20F, and can be arranged around the wiring equipment C and the like located between the anti-vibration object p raised from the ground and the gap Y above and below the ground F, and can be independently anti-vibration Object p and ground F. Therefore, it does not depend on the setting status. Furthermore, in the action of absorbing and attenuating vibration energy, the first rail 3 as a reinforcing material is installed on the contact with the shock-proof object p ^ a E Continued page (If the description page of the invention is insufficient, please note and use Continued) 乂,

200300072 发明, description of the invention Description of the invention, continuation sheet Therefore, ′ can improve the shock resistance and prevent bending deformation. Therefore, a long-term effective shock-proof function can be exerted. 22 and 23 show an embodiment (?) Related to the present invention. 〇 In this embodiment (7), the shock-proof unit 110 is inserted into the upper and lower gaps γ 刖, and most of the foregoing embodiments (6) The anti-vibration unit 110 is combined and arranged in parallel so that the wiring equipment C can be introduced into the space. Each side surface 131 on one side of the plurality of shock-proof units 110 arranged side by side is connected by the connecting member 12 and combined into an approximate shape to form the insertion portion Z, and the other side 132 is not connected by the connecting member 10 12 (). A plurality of shock-proof units 110 are inserted into the upper and lower gaps Y. In addition, the structure of the shock-proof unit 110, the connector 120, and all other structures is the same as the aforementioned aspect (6). Since the shockproof device 100 of this embodiment (2) can clearly define the positional relationship between the majority of the shockproof units 110 and the wiring equipment C, and can adjust 15 positions in advance without disturbing the wiring equipment C, the shockproof unit 11 can be easily configured. 〇, and at the same time, it can be configured to correspond to the shock-proof object P to which a large number of wiring devices c are connected, and a plurality of insertion portions z are formed in advance, which can be temporarily set without affecting the wiring device C. In addition, other functions and effects of this form can be effected in the same manner as in the aforementioned embodiment (6). 20 Hereinafter, the installation of the vibration-proof device 100 of the embodiment (7) in FIG. 23 will be described. Similarly to the arrangement of the aforementioned embodiment (6), a vertical gap γ is provided between the shock-proof object p and the ground F using a jack 150 or the like. The majority of the shock-proof units on the side 131 on one side will be connected by the connector 120. Continued pages (If the description page of the invention is insufficient, please note and use the continued page) 200300072 However, the connected side surface 132 is inserted into the vertical gap γ. (Figure 23 (^)). At this time, the wiring equipment C is introduced into the unconnected side surface 132 with the interval R, and a large number of shock-proof units are arranged in an interference-free state. Then, because the one side is connected by the connecting member 120, it is not necessary to adjust the position of each shockproof unit 5o, and most of the shockproof units 110 inserted in the upper and lower gaps are connected by the connecting member 120. The side surface 132 ends the installation of the shock-proof device 100. (Figure ^ ...) Figure 24 shows an embodiment related to the present invention. In this embodiment (8), after being inserted into the upper and lower gaps γ, the shockproof units 11 are not connected to each other by connecting 0 connectors 12o, and the shockproof unit 1U and the shockproof unit 112 are used by the weight of the shockproof object ρ itself. Positioning connection between the shock-proof object ρ and the ground F. In addition, the anti-vibration unit 11o, the connecting member 12o, and all other structural systems are formed in the same manner as the aforementioned embodiment (6). Based on the weight G of the shock-proof object ρ, each of the lower stands 2 of the shock-proof units ln and ιΐ 2 15 receives a reaction force 来自 from the ground F. Therefore, by virtue of the weight G of the shock-proof object P and the reaction force G1 from the ground F, the shock-proof object p is in close contact with each upper stage 1 and the ground F is in close contact with each lower stage 2. Therefore, even if the upper shelves are not connected by the connecting members 121 and 122! The shock-proof units ln and 112 arranged with the lower rack 2 'can also be connected to the connecting members ⑵ and 122 by the structural weight and pressure of 20 G. Put each of the shockproof units 111 and 112 on the stage! It is integrated with the underframe 2 and shockproofs the shockproof object P. Therefore, it is possible to easily perform the positioning of most anti-vibration units, and it is possible to position and connect each anti-vibration unit 110 to each installation position in a state independent of the anti-vibration object ρ and the ground F. In addition, the second page (the page is not enough to make the scales, please note and make the title page) 200300072 Rose, invention description Other functions of this form The invention description effect is the same as the aforementioned embodiment (6). Fig. 27 shows an embodiment (9) related to the present invention. 5 The anti-vibration device of the embodiment (9) is constituted by a roller connection.

200 is connected to the first roller 5a provided in the anti-vibration unit 111 in the above-mentioned embodiments (6) to (8), and the first roller 5a provided in the anti-vibration unit 112 is also connected in pairs by the roller connector 200. The structure of each first roller 5b. The roller connecting piece 200 is composed of 10 pieces of long ruler having a slightly L-shaped or flat cross-section, and the connecting portion 200a that touches and connects the first roller 5 and extends along the vertical direction from the connecting portion 200a. The portion 200 b is formed, and the connection portion 200 a is a connection hole 201 for perforating the first roller 5.

In addition, a protruding element 205 is arranged between the roller connector 200 and the first roller 5 so that the length protruding from the first roller 5 is d9, and the structure does not hinder the shock-proof action of the first rollers 5a, 5b. . The protruding element 205 is provided with a connecting hole 201 through which the roller connecting member 200 can be inserted, and a connecting screw 125 with a screw groove is formed. In addition, the protruding element 205 may be formed integrally with the first roller 5. Therefore, as shown in FIG. 27, the connecting hole 201 of the connecting member 200 is inserted through 20 into the connecting screw 125 of the protruding element 205 provided on the first roller 5, and the nut 126 screwing the connecting screw 125 is used to fix the first The first roller 5 is connected to the roller, thereby connecting the first roller 5a of the anti-vibration unit 111 and the first roller 5a of the anti-vibration unit 112. Similarly, the first roller 5b of the anti-vibration unit 111 and the first roller 5b of the anti-vibration unit 112 are connected in the same manner. 0 Continued pages (Please note and use the continuation pages when the invention description page is insufficient.) 36 200300072 玖 In the embodiment (9), the direction of the shock-proof action of each shock-proof unit 111 and 112 and the distance of movement of the roller ( The rotation distance) is the same, which prevents the anti-vibration units 111 and 112 from staggering the upper stage 1 and the lower stage 2 (such as the stagger caused by the upper stage 1 and the lower stage 2 rotating horizontally) due to the individual shock-proof action. . Therefore, the anti-vibration units 111 and 112 can stabilize the anti-vibration performance when the first roller 5 is not disconnected by the third bar provided in the dividing direction. ίο The roller connector 200 is the same as the connector 120 of the aforementioned embodiment (6). After the shock-proof units 111 and 112 are installed on the shock-proof object P, they can be easily installed from the sides of the shock-proof units 111 and 112. Improve operation efficiency. 15

In addition, as shown in Fig. 21, when a large number of shock-proof objects P are provided in parallel, a plurality of shock-proof units 110 can be connected to each other with a single roller link 200, as with the link 120. In addition, after the anti-vibration units 111 and 112 are provided after the anti-vibration object P, the roller connector 200 can be easily installed after the anti-vibration object P, and the work efficiency can be improved. In addition, other functions and effects of this form can be effected in the same manner as in the aforementioned embodiment forms (6) to (8). In the above, in addition to the embodiment shown in the figure, a length adjusting mechanism equal to the connecting member 120 may be provided to easily perform the length adjustment during the setting, and the distance between the shockproof units 110 may be freely adjusted. It is also possible to install air-conditioning equipment such as an exhaust fan to the shock-proof unit 110 or the connector 120 to forcibly ventilate the ground F and the shock-proof object P, and to make good use of the shock-proof object P. In addition, the connection between the connector 120 and most of the shock-proof units is respectively connected to the next page. (When the description page of the invention is insufficient, please note and use the continued page.) 37 20 200300072 Invention description βΜ 玖, each shelf of the invention description 1 It can be connected to each of the lower shelves 2, so the aforementioned connection method is not limited. Next, the present invention will be described in detail using examples. (Example 2) 5

The outer dimensions of each of the upper stage 1 and the lower stage 2 of the shock-proof units 111 and 112 are formed into rectangular shapes of upper stage 1 series W12 = about 400mm, lower stage 2 series W14 = about 300, and a total length W11 of about 890, The length of the rails forming the first rail 3 is about 400 mm, and the defense units 111 and 112 arranged in the upper rack 10 are configured in the same manner as in the method shown in FIG. 20. The external dimension of the shock-proof object P is a box shape of about 700 mm and a square shape. The lower side of the shock-proof object P is connected to a wiring device C along the ground F.

The shock-proof units 111 and 112 are arranged so that the approximate center of the upper stage 1 is located at the end of the 15 shock-proof object P, and the connecting pieces 121 and 122 with a length of about 1100 mm are used to connect the upper stage 1 and the lower stage 2 of each shock-proof unit. side. Therefore, it can be confirmed that the anti-vibration device is provided without separating the anti-vibration object P and the wiring device C. In addition, it was also confirmed that the height W of the anti-vibration unit 110 is about 100 mm and is very thin, and it can be easily installed toward an existing anti-vibration object 20P. Figures 28 to 33 show the best form for implementing the third invention. The rods that extend linearly in the left and right directions and bend in the up and down directions and the rollers that rotate on the rails pass through an angle of approximately 90 degrees. Configurable as a continuation page for well 0 (Notes and use of continuation pages when the description page of the invention is insufficient) 38 200300072 玖, the description of the shockproof device in the form of a continuation page of the description of the invention is characterized in that it is fixed on the upper frame of the shockproof object The mouth and the ground are fixed under the δ and the ground of the shock-proof object, and the platform faces the ground between the shock-proof object and the ground, and is provided with a second rod that can rotate the first roller and a second roller that rotates on the rail. Between the upper shelf and the lower shelf, the i-th rule 5 series 2 is a group, and the arrangement area-partly repeats and is arranged in parallel. According to the rules of the device ’Borrow 2 Articles! A part of the rail is arranged repeatedly and in parallel, which can ensure the rotation distance of the roller rotating on the rail, and can exert shock-proof performance on one side. Therefore, the external dimension of the shock-proof device can be shortened by the length of the repeating section repeated by the two ith rails. In addition, the ten pieces of rollers are fixedly and movably divided to reduce the installation space, and the upper and lower shelves are opposed to the shock-proof object and the ground, and the first rule and the first roller are used as reinforcements. Ground installation can improve vibration resistance and prevent bending deformation due to vibration. Further, in the above-mentioned shock-proof device of the present invention, the second roller is made of two wheels with different lengths protruded by the 15 brackets of the roller, and is arranged in a vertical direction with respect to the length direction of the rails, and on the 帛 1 rail. The rotation interval of each second roller rotating on the bar is partially repeated. According to the aforementioned device, since the second roller equipped with two wheels as the i group is rotated in the repeating section repeated by the two rules of the first rule, each of the turning cycles of the 202 wheel is repeated. The vibration transmitted to the shock-proof object is reduced in the shock-proof action. Since the second roller system is not provided between the first roller and the roller bracket, the installation space can be reduced. In addition, the present invention is in the aforementioned anti-vibration device, and the second rail system is made up of two second-page pages. (When the description page of the invention is insufficient, please note and use the continued page.) 39, 200300072 The description is one group, and a part of the arrangement area is arranged repeatedly and in parallel. According to the aforementioned device, by partially and parallelly disposing one of the two second rollers, it is possible to ensure the rotation distance of the first roller that rotates on the second bar while exerting sufficient anti-vibration performance. Further, in the above-mentioned shockproof device of the present invention, the first roller system is composed of two wheels with different protruding lengths of the bearing portion as a group, and is arranged in a vertical direction with respect to the length direction of the second rail. The rotation interval of each first roller rotating on the bar is partially repeated. ίο According to the aforementioned device, when the first wheel configured as two sets of two wheels rotates in the repeating section repeated by the two sections of the second rule, since the two sections of the two wheels repeat each other, it can be reduced during the shock-proof operation. Vibration transmitted to the shock-proof object. In addition, since the first roller system can be protruded from the side surface of the bearing portion without being interposed between the second rod and the bearing portion, the space for installation can be reduced. Further, the present invention resides in the aforementioned anti-vibration device, and the two second rods are integrally formed into a columnar shape. According to the aforementioned device, the strength of the beam can be improved, the shock resistance can be improved, and the bending deformation due to vibration can be prevented. 20 The following is a description of an embodiment of a shock absorbing device in a preferred form for implementing the third invention based on the illustration. The best form for implementing the third invention is an implementation form related to the repetition interval of the first and second rule in the best form for implementing the aforementioned first and second inventions. 0 Continued pages (Please note and use the continuation page when the description page of the invention is insufficient.) 40 200300072 发明, Continued page of the description of the invention 8 2 8 ~ 30 Fig. Shows the anti-vibration device related to the present invention. 〒 Application form (10). This embodiment (10) is the same ground F that is supposed to be used to implement the best form of the first invention, and is a repeating section of the two rules in the 5 best form to implement the i-th invention. The detailed implementation is different. The anti-vibration device 100 of this embodiment (10) has a structure that is substantially the same as the best mode for implementing the aforementioned first invention, and the differences in the structure will be described. In addition, since it is an implementation form 10 related to the repeating section of the two bars, the shockproof device 100 shown in the figure is configured so that an opening portion for inserting the wiring device C into the upper shelf 1 and the lower shelf 2 is not formed. 7. However, it is of course applicable to the best mode for implementing the aforementioned first invention. The i-th roller 5 of the shockproof device 100 of this embodiment (10) is provided with two idlers 5a, 5b on one side at a clearance distance R2, and is protruded from the side surface side of the fixed surface 8a adjacent to the bearing 15 8 A total of four. The first rule 3 is a group of two rule 3a, 3b which extend linearly in the left and right direction and 4 curves in the up and down direction as a group, and are formed in parallel with a part of the arrangement area repeated. Repeat interval D1. The lengths of the two strips on one side and a total of four strips are L1, and the second roller 6 rotates on each of the 20 strips. The second roller 6 is arranged in parallel so that a part of the deployment area is partially repeated, and the rollers 6a and 6b are formed by two strips corresponding to one side of the non-repeated section D1. The rollers 6a and 6b are protruded from the roller bracket 10 by dl and d2, respectively. 0 sequel (Insufficient description page, note and use continued clover) 41 200300072 玖, description of the invention, description of the second page of the second rule 4 series rail length is L2, two rollers 5a on one side, 5b respectively rotates, extends linearly in the left-right direction and bends in the up-and-down direction ', and is composed of bars 4a, 4b arranged on the same base axis. In addition, since the two rods 4a and 4b are arranged in parallel on the same base shaft, the lengths protruding from the bearing portions 8 of the 15th roller are set to the same length. The rail bracket 9 and the roller bracket 10 are a combination of two wells, each of which is formed in the shape of a trolley together with the second rail 4 and the second roller 6 and is movably arranged on the upper stage 1 and the lower stage 2 between. The first rollers 5a, 5b are arranged at the idle distance R2 of the rollers to 10, and are located at approximately the center of each of the second rails 4a, 4b. The second rollers 6a, 6b are arranged at the separation distance ri from the first The rollers 5 are similarly arranged. Therefore, the first roller 5 and the second roller 6 are rotated within the length of the rail on each bar during the shock-proof operation, and the rotation distance is approximately 1/2 of the length of each bar, and the movement ranges si and S2. 15 The first rule 3 of the shock-proof device 100 constructed in this way does not connect the two rules and arrange them on a straight line, and repeats a part of the deployment area to form a repeating section D1. The outer dimension of the rectangular shock-proof device can be configured such that the short side length is W1 = L1 + L1-D1, which can shorten the length of the repeating interval D1. 20 Furthermore, since the shockproof device 100 is configured to shorten the length of the repeating section D1, the outer dimension of the shockproof device 100 is shortened without shortening the length of the rails of the first bar 3 of the rotatable second roller 5, Therefore, it is possible to ensure the length L1 of each rail to make the shockproof device perform adequately in the shockproof action, and to fully provide the rotation distance of the roller rotating on the gripper. 0 Continued pages (the turning page is not a brain, please note and note that The title page) 200300072 Rose, description of the invention Description of the continuation page The shockproof device 100 can provide shockproof objects P, corresponding to various shapes, sizes, etc., without being limited to the length of the rails 3 provided. 10 15

The combination rail bracket 9 and the roller bracket 10 are well-shaped and can be inserted between the upper rack 1 and the lower rack 2 so that the first rollers 5a and 5b can be easily corrected by being adjacent to the bearing portion 8. The side of the fixed surface 8a is arranged on the opposite side of the fixed surface 8a. The distance between the upper shelf and the lower shelf 2 is projected and arranged perpendicular to the length of the second rail. In the face, the width of the wheel portion of the i-th roller 5a, 5b can be shortened, and the weight of the shock-proof object p can be kept low. Therefore, the shock-proof object P is more stably fixed to the upper stand 1. Furthermore, the second roller protruding from the roller bracket 10 is also projected perpendicularly to the longitudinal direction of the first rail, and is provided.

The distance between the upper shelf 1 and the lower shelf m is further shortened, and the center of gravity of the shock-proof object P can be further reduced. Further, the lengths di and 2 of the second rollers 6a and 6b protruding from the roller bracket 10 corresponding to the i-th rule% and the supplement having the repetition interval D1 are different. Therefore, 'Since the weight of the anti-vibration object P is not supported on the i line as in the conventional anti-vibration 20 device, but is supported on the 2 line, it can be distributed and supported in a wide range of the anti-vibration device 100, which can provide more stable anti-vibration performance. . & As shown in Fig. 30, "the structure of the anti-seismic action at the time of the shaking of the earthquake is the same as the best form for implementing the i-th invention", and in particular, 0 consecutive pages are provided (the description page of the invention is insufficient (Please note and use the continuation sheet) 43 200300072 Description of the invention βΜ 玖, the description of the invention has two first rules 3a, 3b, so that the repeating section D1 is set in the installation area. Therefore, the first The different stroke lengths S1 of the rollers 6a and 6b are repeated by the repeating interval D1, and the repeating distance is approximately 5 as D1, and the vibration in the left and right directions of the vibration energy of the repeating distance D1 has been attenuated to the upper stage 1, so it is further improved. The absorption of vibration energy is attenuated.

Fig. 31 and Fig. 32 show an embodiment (11) related to the present invention. 〇10 In this embodiment (11), a part of the arrangement area of the 2nd and 2nd rails of the aforementioned embodiment (10) is made. It repeats, and it arrange | positions similarly to the 1st rail, and forms the rail repeating section D2.

The second rule 4 of this embodiment (11) has a rule length L2, and can be rotated by two rollers 5a, 5b on each side, and extends linearly in the left and right direction by 15, and bends in the vertical direction. Two strips are used as a group, and the strips 4a and 4b are arranged in parallel and partially to form a repeating section D2. The strips 4a and 4b are integrally formed in a columnar shape. Structure of roller bracket. In addition, the first roller 5 corresponds to two side rails 4a and 4b arranged on one side so that the deployment area repeats and forms a 20-repetition interval D2. Therefore, the length of the two protrusions protruding from the bearing portion 8 on one side is different. structure. The projection lengths of the respective rollers 5a and 5b are respectively d3 and d4 protruding from the side surfaces of the fixed surface 8a adjacent to the bearing portion 8. In this embodiment (11), the external dimension of the shock-proof device 100 can make 0 continuation pages (when the description page of the invention is insufficient, please note and use the continuation page) 44 200300072 玖, description of the invention, long side of the page The outer dimension of the direction is W2 = L2 + L2-D2, which is a shockproof device 100 that can shorten the external size and reduce the size without reducing the shockproof performance. Therefore, the anti-vibration device 100 can be provided with high versatility corresponding to various shapes, sizes, and the like of the anti-vibration object P without being limited to the length of the first rule 5 and 3 provided. Also, also in the second rule 4 and the first roller 5, the first rollers 5a, 5b correspond to the second rule 4 having a repeating area to form a protruding length of d3, d4. Therefore, it can be dispersed based on the shock-proof object p itself The weight of the load can provide more stable shock resistance. In addition, the two second rails 4a and 4b are integrally formed in the columnar rail bracket 9. Therefore, it is possible to prevent bending and deformation during the shock-proof operation, and at the same time, it is possible to use NC machine tools and the like in the formation. Make it easily and easily. Furthermore, as shown in FIG. 32, the two first rule 4a, 4b are arranged to have a repeating interval D2 in the arrangement area. Therefore, the first roller 5a, 5b is rotated with the vibration in the left and right directions. The stroke length S2 is repeated by repeating intervals, and the repeating distance is approximately D2, and the vibrations in the left and right directions of the vibration energy attenuated by the repeating distance D2 are transmitted to the upper stage. Therefore, the absorption and attenuation of the vibration energy can be increased by 20%. In addition, the other functions and effects of this embodiment are the same as those of the aforementioned embodiment (10). Fig. 33 shows an embodiment (12) related to the present invention. This embodiment (12) is a deployment area 0 of the second side 2 rail 2 of the shockproof device 100 which is configured to use the best form of the implementation of the second invention described above. (Please note and use the continuation sheet) (200300072) 发明. Description of the Invention The description of the invention is repeated on part of the continuation sheet and forms the repeating interval D1 of the rule. The second roller 6 corresponds to two rails 4a, 4b on one side, which are arranged so that the deployment area is repeated and forms a repeating section D1. The second roller 6 has two unilateral sides and is different in length from the mouthpiece 9. The projection lengths of the respective rollers 6a and 6b are protruded by d1 and d2 from the installation surfaces of the five vehicles 9, respectively. In this embodiment (12), the external dimension of the shock-proof device 100 is such that the external dimension in the longitudinal direction can be W1 = L1 + L1-D1, and the external dimension can be shortened without reducing the anti-vibration performance. And the miniaturized shockproof device 100. 10 Also, although not shown in the figure, the second rollers 6a, 6b are in the range from the vicinity of the central portion to the side of one end portion when the earthquake is shaking, as in the aforementioned embodiment (11). The length (approximately 1/2 of the length of the bar) moves in the left-right direction. At this time, the length of the second roller 6a, 6b, 15 which is rotated with the vibration in the left-right direction is respectively repeated by the repeating interval D1, and the vibration in the left-right direction of the portion of the repeating repeating interval D1 is transmitted to the shelf table. Can improve the absorption and attenuation of vibration. The other functions and effects of this embodiment are the same as those of the aforementioned embodiment (11). In addition, the best mode for implementing the above-mentioned i-th to third inventions is a shock-proof device that can be composed of various forms, but is not limited to the shock-proof device of each form. As described above, in the vibration-proof device of the present invention in the best form for implementing the i-th invention, the yoke and roller are fixedly and movably divided. Therefore, the installation space is reduced, and The page of the central part of the stand is provided with 0 pages (the turning page is not enough, please note and make the page) 200300072 Rose, invention description, invention description / continued pages; openings for wiring are provided, so that it can be connected to electronic equipment The effect of passing the wiring equipment is similar, and the window has a protective element, so it can prevent damage to the wiring equipment. Furthermore, the upper frame fixed to the shock-proof object and the lower frame fixed to the ground are opposite to each other, and the yoke and roller are installed as a reinforcing member to improve the shock resistance. Therefore, it is possible to prevent vibration due to vibration. Causes the effect of bending deformation. In addition, according to the anti-vibration device of the present invention in the best form for implementing the second invention, most of the anti-vibration units are arranged around the wiring equipment located between the anti-vibration object raised from the ground and the space above and below the ground. The wiring device can be inserted through the interposition part of the majority of the shock-proof units, and can be easily installed on the shock-proof object. In particular, the installed shock-proof object can also be post-arranged. Furthermore, the method of installing the anti-vibration device of the present invention in the best form for implementing the second invention can be installed in the upper and lower gaps without interfering with the wiring equipment installed along the ground and connected to the 15-quake-proof object. The anti-vibration unit divided by the anti-vibration device can provide a method for easily setting the anti-vibration object that has been set. In addition, in the first embodiment of the anti-vibration device of the present invention in the best form for implementing the third invention, two articles are used as a group, and the arrangement area is arranged to repeat the damage of the installation area 20 ° and form a repeating section. Therefore, the external dimension of the anti-vibration device can shorten the length of the repeating section, and the external dimension of the anti-vibration device can be shortened without shortening the length of the rail of the first bar that can rotate the second roller 5. In order to make the shockproof device fully play the length of the rail of the 1st rail during the shockproof action, and it can be fully provided on the second rail _ the next page (turning _ remarks, Peng, __ face) 200300072 A. Description of the invention Invention_j§ | The rotation distance of the second roller rotating on the stomach. Therefore, shockproofing corresponds to those who are subject to shockproofing of various shapes and sizes without limiting the length of the rails provided. Furthermore, the motion length of the second roller which rotates with the vibration in the left-right direction in the vibration-proof device of the present invention in the best form for implementing the third invention is repeated by the repeating interval of the first rail and transmitted The vibration in the left-right direction of the vibration energy of the repeated distance portion has been attenuated to the upper stage, so the absorption attenuation of the vibration energy will be further increased. [Brief description of 圏 style] 帛 1 ® is a perspective view showing the exploded state of the embodiment ⑴ of the vibration-proof device related to the present invention, which is the best form for implementing the first invention. Fig. 2 is a partially cutaway plan view of the combined state of Fig. 1. FIG. 3 is a central longitudinal sectional view of the installation state of FIG. 2. FIG. 4 is a vertical cross-sectional view in the center of FIG. 3 in the installation state of FIG. Fig. 5 is a simplified diagram showing the actions of Figs. 3 and 4, (a) when it is in the normal state, and (B) when it is in the case of anti-vibration. Fig. 6 is a schematic plan view showing the actions of Figs. 3 and 4, and is a schematic plan view showing the positional relationship of the openings during earthquake prevention. Fig. 7 is a schematic cross-sectional view showing an embodiment (2) of the shock-proof device of the present invention for implementing the best mode of the invention. Fig. 8 is a schematic cross-sectional view showing an embodiment (3) of the shock-proof device of the present invention for implementing the best mode of the invention. Figure 9 shows the best form for implementing the first invention. Continued pages (When the description page is insufficient, please note and use the next page.) A schematic cross-sectional view of the embodiment (4) of the device. Fig. 10 is a schematic plan view showing an embodiment (5) of the vibration-proof device of the present invention for implementing the best mode of the first invention. Fig. 11 is a central longitudinal sectional view of the installation state of Fig. 10. Fig. 12 is a perspective view showing a vibration-proof device of the present invention in the best form for implementing the second invention. Fig. 13 is a perspective view showing the installation of the shock-proof device of the present invention, which is the best form for implementing the second invention. Fig. 14 is a perspective view showing an embodiment (6) of an anti-vibration device according to the present invention for implementing the best mode of the second invention. Fig. 15 is a plan view of the first figure for implementing the second embodiment of the invention. FIG. 16 is an enlarged perspective view showing a main part of a method of connecting the shockproof unit and the connecting member of FIG. 12. Figure Π is a side view of Figure 12. Figure 18 is a side view of Figure 12. Fig. 19 is a side view showing the operation status of the anti-vibration device at the time of anti-vibration. ○ Fig. 20 is a plan view showing the installation method of the anti-vibration device. (A) to (g) are the sequence of operation steps. Fig. 21 shows the installation status of the anti-vibration device of most anti-vibration objects. Fig. 22 is a perspective view showing an embodiment (7) of the vibration-proof device of the present invention for implementing the best mode of the second invention. Figure 23 shows the best page for implementing the second invention. This page contains 0 pages (turning the pages without brewing, making notes and making dirty pages) 200300072 玖, description of the invention, description of the shockproof device on the next page The setting method of the implementation form (7) is a plan view looking down from below, and (a) and (b) describe the order of operation steps. Fig. 24 is a side view showing an embodiment (8) of the vibration-proof device of the present invention for implementing the best form of the second invention, and is an enlarged view of the main part of Fig. 20 (5). Fig. 25 is a plan view showing an embodiment (9) of the vibration-proof device of the present invention for implementing the best form of the second invention, and the upper stage is removed

Figure 26 is a side view of Figure 25. FIG. 27 is an enlarged perspective view of a main part a of FIG. 25. Fig. 28 is a perspective view showing an embodiment (10) of an anti-vibration device for implementing the best mode of the third invention. Figure 29 is a partially cutaway top view of Figure 28. Fig. 30 is a central longitudinal sectional view of the installation state of Fig. 29.

Fig. 31 is a plan view showing an embodiment (11) of an anti-vibration device for implementing the best mode of the third invention. Fig. 32 is a central longitudinal sectional view of the installation state of Fig. 30. Fig. 33 is a plan view showing an embodiment (12) of the vibration-proof device of the present invention for implementing the best mode of the third invention. [Representative symbol table of the main components of the drawing] 1 ··············································· 2 ············ 2 ， 2e ··· Locating pins 3a, 3b, 4a, 4b ··· Rail 0 Continued pages (when the description page of the invention is insufficient, please note and use the continued page) 50 20 200300072 Description of the invention 玖, Description of the invention 4. ... 2nd rail 5 ... 1st roller 5a, 5b, 6a, 6b ... " roller 6 ... 2nd roller 7a, 7b, 7c ... opening part 8 ... bearing part 8a ... .Fixing surface 9 .. Rail bracket 10 .. Roller bracket 11. Support plate 11a ... Mounting hole lib ... Ventilation hole 11c ... Mounting frame 12 ... Protection element 12a ... Minimum diameter portion 12b ... Expansion portion 13 ... Small screw 20 ... Fan 21 ... Mounting frame 22 ... Rotary wing 23 " Shaft 30a ... Central portion 30b ... The other end portion 30c. ..End 90 ... Trolley 100 ... Anti-shock device 110, 111, 112 ... Anti-vibration units 120, 121, 122 ... Connectors 121a, 122a ... Positioning holes 121b, 122b, 201 ... (Holes) 123, 124, 125 ... Connection screws 123a, 124a ... Hexapod holes 126 ... Nuts 130, 200a. .. Connections 131, 132 ... Side 150 .. Claw lifter 151 ... Claw 160 .. Temporary support 200. Roller connection 200b ... Extension 205 ... Projection element B ... base C. .. wiring equipment F ... ground Η ... air-conditioning equipment

0 Continued pages (Please note and use continuation pages when the invention description page is insufficient.) 51 200300072 发明, invention description p ... Shockproof object PI, P2 ... end Z ...

52

Claims (1)

200300072 Patent application scope L An anti-vibration device, which is used to make the bar that has been bent up and down between the upper rack and the lower rack and the rollers that move along the bar are arranged orthogonally to the left and right to dampen the vibration. It is characterized in that: it is fixed on a stand above the shock-proof object and fixed on the 5th surface provided with shock-proof. The under-stand stand faces between the shock-proof object and the ground, and the second rule of the rotatable first roller and Yudi! The second roller which rotates the sliver is movably arranged between the upper rack and the lower rack, and an opening portion for wiring is provided at approximately the center of the upper rack and the lower rack. 2. If the shockproof device of the scope of application for the patent item No. 丨 is provided at the opening portion of the aforementioned upper frame 10 ° and the opening portion of the aforementioned lower frame, a protection element supporting the aforementioned opening portion of either or both of them is provided. . 3. The anti-vibration device according to item 2 of the patent application range, wherein the protection element is composed of a support plate having a vent hole. 4. The shock-proof device according to claims 1 to 3, wherein the opening of the lower shelf 15 is wider than the opening of the upper shelf. 5. The shockproof device according to item 2 or 3 of the scope of patent application, wherein the protection element is composed of an elastic element. 6. The anti-vibration device according to item 2 or 3 of the patent application scope, wherein the protection element is composed of an inelastic element. 20 7. The shockproof device according to any one of item 3 of the scope of patent application, which is provided with an air-conditioning device having a ventilating fan. 8. The anti-vibration device according to item 4 of the scope of patent application, which is provided with air-conditioning equipment with ventilation fans. 9 · If the shockproof device in the scope of patent application No. 5 is set to have a 0-page continuation page (when the patent application page is insufficient, please note and use the continuation page) 200300072 is, patent application scope, patent application scope, continued Air conditioning equipment for fan. 10 · ^ The shockproof device of the sixth scope of the patent application is an air-conditioning device provided with a ventilation fan. Π · The shockproof device according to item 7 of the scope of patent application, wherein the ventilation fan 5 is arranged on the support plate. 12. The anti-vibration device according to item 8 of the scope of patent application, wherein the ventilation fan is provided on a support plate. 13. The anti-vibration device according to item 9 of the patent application scope, wherein the ventilation fan is arranged on the support plate. 10 14. The shockproof device according to item 10 of the scope of patent application, wherein the ventilation fan is provided on a support plate. 15. An anti-vibration device, which is used to make the rails that have been bent up and down between the upper rack and the lower rack and the rollers that move along the bar are arranged orthogonally to the left and right directions to attenuate the vibration, which are characterized by: The 15 anti-vibration device is divided into a plurality of anti-vibration units, and when the anti-vibration units are arranged in a plurality of directions in the direction of J, it is composed of a bar and a roller arranged orthogonally to the left and right directions, and is constituted as a combination of an up and down direction interspersed portion Approximately the center, and the majority of shock-proof units are assembled around wiring equipment, such as the seismic object raised from the ground and the space above and below the ground, and the aforementioned wiring equipment is arranged in the intersecting! 16. The shock-proof device according to item 15 of the scope of patent application, in which most of the shock-proof units are connected to each upper shelf and each lower shelf by connecting members on the side in the dividing direction. 17. If the shockproof device of the scope of patent application No. 15 or 16, these 0 continuation pages (when the patent application scope page is insufficient, please note and use the continuation page) 200300072 The upper and lower stands of most anti-vibration units are respectively connected between the aforementioned anti-vibration objects and the ground by using the weight of the anti-vibration objects. 18. · Applicable to the anti-vibration device of item 15 or 16 of the patent scope, where the anti-vibration unit is divided into two, i pairs of rails and rollers are provided in the division direction, and two pairs of rods and non-divided directions are provided. Wheel. 19. If the anti-vibration device according to item 17 of the scope of patent application, wherein the anti-vibration unit is divided into two, a pair of bead and rollers are provided in the division direction, and two pairs of bead and rollers are provided in the non-divided direction. · 20 · For the earthquake-resistant installation of item 15 # 16 in the scope of patent application, the interposition part of the 10 and line equipment is in the up-down direction and expands on the ground side. 21. The anti-vibration device according to item 17 of the scope of application for a patent, wherein the interposition part of the wiring equipment and the like is extended in the up-down direction and expanded on the ground side. 22. The shockproof device according to item 18 of the scope of patent application, in which the intervening portions of the wiring equipment and the like are extended in the up-down direction and expanded on the ground side. 15 23 · 2 The shockproof device of the 19th scope of the application for a patent, in which the intersecting part of the wiring equipment and the like is extended in the up-down direction and expanded on the ground side. · 24. For the anti-vibration device in the scope of patent application No. 15 or 16, each roller arranged in the dividing direction of most of these anti-vibration units is connected by a side roller connection. 20 25. For the anti-vibration device of item 17 in the scope of patent application, in which the rollers arranged in the division direction of the majority of these anti-earthquakes are connected by a roller connection on the side. 26. If the anti-vibration device of item 18 of the scope of patent application, in which the rollers arranged in the dividing direction of most of the anti-vibration units are borrowed from the side to continue the next page (when the patent application is insufficient, please note And use continuation) 55 200300072 Pick up, apply for patent scope, apply for patent scope, continuation of the roller connector connection. ^ 27. If the anti-vibration device according to item 19 of the scope of patent application, each of the rollers arranged in the dividing direction of the majority of the anti-vibration units is connected by a roller connection on the side. 5 28. The shockproof device according to item 20 of the scope of patent application, wherein each of the rollers arranged in the division direction of the majority of the shockproof sheets 7G is connected by a roller connection on the side. 29. The shockproof device according to any one of the scope of application patents Nos. 21 to 23, wherein each of the rollers arranged in the dividing direction of the "Haizhuxi Digital Shockproof Unit" is connected by a side roller connection. 3〇 · —A method of setting a shock-proof device is a vibration-proof vibration damping system in which a bar that has been bent upwards and downwards between the upper and lower shelves and a roller that moves along the bar are oriented perpendicularly to the left and right, respectively. When the device is divided into many anti-vibration units and many anti-vibration units are arranged in the division direction, the device is configured to combine the vertical and horizontal interposition parts at about the center, and the anti-vibration object is raised from the ground, and then located between the anti-vibration object and the ground. Many shock-proof units are combined around the wiring equipment such as the upper and lower gaps, thereby arranging the wiring equipment and the like at the insertion portion, and furthermore, each upper stage and each lower stage are connected by the side of the division direction of the most shock-resistant units, and the shock-proof objects are placed. Place racks on most anti-vibration units, and place racks on the ground. 31 · —A kind of anti-vibration device, which is used to make the rails that have been bent up and down between the upper rack and the lower rack and the rollers that move along the bar are arranged orthogonally to the left and right respectively to attenuate the vibration, which is characterized by ： Fixed 0 continuation pages (note that when the patent application page is insufficient, please note and use the continuation page) 200300072 The lower platform is opposite between the shock-proof object and the ground, and the second roller that can rotate the first roller and the second roller that rotates on the second roller are arranged between the upper platform and the lower platform. Article 2 is! Group, and a part of the arrangement area is repeatedly and arranged in parallel. 32. If the shockproof device according to item 31 of the scope of patent application, the second roller is provided by two wheels with different lengths of the bracket for the roller as " Also, the rotation interval of each 2nd roller rotating on the 1st rail is partially repeated. For example, the shockproof device of the 31st or 32nd patent scope is declared, in which the 2nd line is 2nd group, and Part of the arrangement area is arranged repeatedly and in parallel. For example, if the shockproof device of the 31st or 32nd patent scope is declared, the second roller is a group consisting of two wheels with different protruding lengths of the bearing part, and is arranged in a vertical direction with respect to the length direction of the second rule, X, The rotation interval of each of the first rollers rotating on the second rule is partially repeated. 35_ The shockproof device of item 33 in the patent scope, wherein the i-th roller is protruded from the bearing by two wheels of different lengths. As a group, it is arranged vertically with respect to the length direction of the second rail, and the rotation interval of each of the first rollers rotating on the second rail is partially repeated. 36. If the shockproof device according to item 31 or 32 of the patent application scope, the two 2 rails are integrally formed into a columnar shape. _ Jiu page (please note the sickle page when the patent application page is inadequate) 57 200300072 The last page of the patent application scope, the patent application scope 37. If you apply for the anti-vibration device of the patent scope item 33, of which 2 Article 2 The creel is integrally formed into a column shape. 38. For the shockproof device of the scope of application for patent No. 34, wherein the 2nd Article 2 is integrally formed into a columnar shape. 39. For the anti-vibration device in the scope of application for patent No. 35, wherein the 2nd Article 2 is integrally formed into a columnar shape. 58