KR20100006557A - A detachable vibration isolation device and the application thereof - Google Patents

Abstract

A detachable vibration isolation device comprises a coupling sleeve and a spring vibration isolator (3), in which, the coupling sleeve comprises an upper sleeve (2) with a jack support block (7) and a lower sleeve (1) with a support block (5), and the upper sleeve (2) and the lower sleeve (1) are coupled by a detachable connecting structure. Furthermore, a jack-up and installation method for the detachable vibration isolation device is provided.

Description

A detachable vibration isolation device and its application

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention belongs to the field of vibration and noise control, and more particularly relates to a vibration isolator that can reduce adverse effects of vibrations and noises occurring during the operation of tracked vehicles or vibrations of building members and facility foundations.

In the conventional track traffic structure, when the vehicle runs, large vibrations and noises are generated, which may affect surrounding buildings and facilities, and also cause harm to people. Therefore, in urban areas where populations and buildings are relatively concentrated, reduction of vibration and noise caused by orbital traffic is a particularly important problem. At present, by the intervening nodes of the respective damping measures, the damping measures are divided into three types: vibration blocking under track, vibration blocking under sleeper, and vibration blocking under roadbed. According to the vibration isolation principle and structural dynamics, the greater the vibration-involved mass of the vibration isolation system and the elasticity of the elastic element, the better the effect of vibration isolation. According to the structure of the track, the farther the intervening node of the vibration blocking measure is from the rail, the greater the elasticity and vibration engaging mass can be, the natural frequency and the range of vibration blocking can be reduced, and the effect of vibration blocking Improves. However, with respect to strength and mass, there are certain objective limits in other nodes, and they cannot be arbitrarily enlarged or reduced. For example, under the track, if the elasticity of the spacer plate is arbitrarily increased, the rail deforms and its displacement is too large, which affects the safety of the driving. Therefore, when the request for vibration isolating is 10 decibels or more, the request cannot be satisfied unless the vibration isolating measures are taken under the road. A built-in vibration isolator is disclosed by Chinese patent ZL2004100354411, and the connecting sleeve of the vibration isolator is arranged in the floating plate, and the height of the connecting sleeve and the thickness of the floating plate are the same. Since it is necessary to lift, the floating block and the supporting block are spaced apart from the inner wall of the connecting sleeve. Since the space for accommodating the floating tool is made between the floating block and the support block, the height of the connecting sleeve is usually increased. However, in practical applications, due to limitations in space, cost, and environment, it is not possible to employ a floating plate because many connecting sleeves cannot be accommodated in a space made for a floating plate. On the other hand, in the process design, the height of the floating plate is usually determined late, the height and size of the connecting sleeve are respectively determined by the thickness of the floating plate, inventory production cannot be realized, and the time required for delivery becomes long. . In particular, when there is a design change during construction, since the cycle corresponding to the change is long, it is easy to influence the progress of construction.

The object of the present invention is to overcome the above problems, easily change the size of the mounting space for lifting, or do not need to prepare the mounting space for lifting in advance, can be delivered quickly by inventory production In addition, the present invention provides a partition type vibration isolator and its application which can be applied to a floating plate, a building floor, or a foundation of a facility having a different thickness within a larger height range.

Another object of the present invention is to provide a mounting method by lifting a split type vibration shielding device.

The present invention further has an object of providing a floating tool of the divided vibration isolator.

In the split type vibration blocking device according to the present invention, the split type vibration blocking device including a spring and a vibration damper having a support block and a floating block arranged thereon, the connection sleeve is composed of an upper sleeve and a lower sleeve, and an upper sleeve. A splittable connection structure is adopted between the lower sleeve and the lower sleeve, the floating block is disposed on the upper sleeve, and the support block is disposed on the lower sleeve.

As the dividable connection between the upper sleeve and the lower sleeve, various connecting means can be adopted. For example, a connecting flange or a connecting plate may be disposed on the upper sleeve and the lower sleeve, respectively, and the upper sleeve and the lower sleeve may be connected via bolts, pins, or ferrules in the axial direction. In addition, a pin hole, a screw hole, or a chain may be arranged on the sidewalls of the upper sleeve and the lower sleeve so as to correspond to each other, and the upper sleeve and the lower sleeve may be connected through a nail or a bolt. Alternatively, the pins may be arranged on the sidewalls of the upper sleeve and the lower sleeve so as to correspond to each other, and may be connected to each other via a chain fastener spanning the pin. Further, a radial plate in the radial direction is disposed on the sidewalls of the upper sleeve and the lower sleeve, and a pin hole or pin in the tangential direction is disposed on the upper plate, and the upper sleeve and the upper sleeve are interposed. The lower sleeves may be connected to each other, or may be connected to each other via a chain fastener spanning the pins. Furthermore, a latching hawk capable of swinging up and down or tangentially swinging on one sidewall of the upper sleeve and the lower sleeve is disposed, and the engaging hole or the engaging edge is correspondingly disposed on the sidewall of the other sleeve, The upper sleeve and the lower sleeve may be connected to each other via a hawk. Alternatively, the openings and the stop corners, which are sized and overlapped by the positional differences, are respectively arranged in the upper sleeve and the lower sleeve, and the stop corners pass through the openings, and then the contours of both can be superimposed on each other. The sleeve is rotated around the axial direction so as to realize the engaging connection between the upper sleeve and the lower sleeve.

The spring vibration circuit breaker is provided with a spring case and a spring installed in the spring case, and a coil spring, a disk spring, a rubber-metal composite spring, or a disk rubber-metal composite spring having elasticity at an appropriate strength in the longitudinal and transverse directions as a spring. It is possible to ensure the stability and vibration blocking effect in each direction of the floating plate even if the elastic support part or the limiting part which acts in the horizontal direction is not unnecessarily installed. A restraining damping material is provided on at least part of the surface of the spring, or at least part of the spring is fitted in the damping material. A sealing structure is disposed in the spring case, a liquid vibration damper is disposed in the spring case, and a lower portion of the spring is contained in the liquid vibration damper. The spring vibration breaker is arranged inside the connection sleeve and under the support block. A washer is installed between the spring vibration breaker and the support block, and a floating hole is opened in the center of the washer. The support block and the floating block can be fitted with the opening and the shape of the spring case and the size of the washer and overlapped by the positional difference. On the upper surface and / or the lower surface of the spring vibration circuit breaker, a connecting device for preventing the movement in the horizontal direction is provided, and the upper and lower parts of the connecting device are connected based on the connecting sleeve, respectively, Prevent spacing plate, bolt, or uneven structure.

The mounting method by floating of the split type vibration shielding apparatus which concerns on this invention is provided with the following steps. In other words,

(1) According to the specifications of the selected vibration isolator, the connecting sleeve is cast into a floating plate or other member to be suspended. In the case of a temporary auxiliary sleeve for only lifting the upper sleeve, the lower sleeve is molded in a member to be floated.

(2) In the case of mounting, when using the temporary auxiliary sleeve for only lifting the upper sleeve, the upper sleeve and the lower sleeve are first connected by the connecting structure.

(3) Put the spring vibration breaker and washer in the lower sleeve in order, and place the spring vibration breaker under the support block, and arrange the upper surface of the spacer plate slightly higher than the lower surface of the support block.

(4) Insert the hydraulic jack and jack support frame into the upper sleeve, insert the piston rod or its extension into the floating hole of the spacer plate, support the jack support frame by the floating block, drive the jack, and wash the Compress the spring vibration damper until it is slightly lower than the bottom of the support block.

(5) The washer is rotated to realize that the washer and the support block are overlapped by the positional difference.

(6) When the pressure of the jack is released, the spring vibration breaker exerts a force to press the washer against the support block of the lower sleeve, receives the load by the spring vibration breaker, and takes out the jack support frame and the jack.

(7) Repeatedly, the spring vibration breakers in all the lower sleeves of the floating member are subjected to loads sequentially until the floating member is separated from the base surface and finally reached a predetermined height.

(8) In the case of a temporary auxiliary sleeve for lifting the upper sleeve, the connecting structure between the upper sleeve and the lower sleeve is loosened, the upper sleeve is taken out, and the injury is completed.

The floating tool of the divided vibration isolator according to the present invention includes a jack, a jack support frame is disposed in the jack case, and is adapted to the shape of the jack support frame and the opening size and shape of the floating block of the divided vibration isolator. After placing the jack support frame into the opening of the floating block, the floating block and the jack support frame are superimposed by the position difference by the rotation of the jack support frame. The diameter of the piston rod of the jack or its extension is smaller than the diameter of the washer floating hole.

The split type vibration isolator according to the present invention effectively expands the application range of the vibration breaker by disposing a splitable upper sleeve and a lower sleeve. When the floating plate is described as an example, the following two specific application methods are used. That is, the lower sleeve can be standardized and inventory production can be performed. The upper sleeves having different heights may be processed correspondingly to floating plates having different thicknesses. Height matching can be completed before assembling or when assembling in the field, which contributes to shortening the processing cycle and strengthening the ability to respond to the demand. In this case, the upper sleeve is fixed in the floating plate permanently. On the other hand, when the height of the connection sleeve formed by preparing the mounting space by lifting in advance is too high and cannot be applied to the thin track floating plate, the height of the lower sleeve is set in accordance with the floating plate, Only the sleeve and the floating plate may be integrally molded, used as a temporary auxiliary sleeve when lifting the upper sleeve, and the upper sleeve may be removed after lifting. Furthermore, the top sleeve can be used repeatedly by standardization. Based on this principle, the present invention can be applied to the floor of a building or the foundation of a facility, and can achieve a good damping and vibration blocking effect.

The structure of the divided vibration isolator according to the present invention is compact and reasonable, and on the premise that it does not affect the vibration isolating effect, the processing cycle is shortened, the material is saved, and the cost is reduced. The application range has been expanded, the practicality is high, and the economic effect and the environmental protection effect have been provided, thereby providing many application choices by the control of vibration noise during orbital transportation and factory building construction. The mounting method of the injury is simple and convenient, and the effect is reliable. Thus, the associated injury tools are highly practical, simple to use, and promising to be expanded and applied.

The structure of the divided vibration isolation device according to the present invention is simple, the design is reasonable, the production cost is low, the exchange and repair is convenient, the economic effect and the environmental protection effect are good, the floating plate, the floor of the building, or It can be applied to vibration foundation of equipment, especially subway track, and can be widely applied to vibration shielding in track traffic field such as railroad, urban railroad, overpass railroad and confined railroad.

1 is a first schematic diagram of a structure of a split vibration shield according to the present invention.

FIG. 2 is a top view of FIG. 1.

3 is a first schematic view of a mounting process caused by the floating of the split type vibration shield according to the present invention.

4 is a first schematic view of an operating state of the divided vibration blocking device according to the present invention.

Figure 5 is a second schematic diagram of the mounting process by the rise of the split type vibration shield according to the present invention.

6 is a second schematic diagram of an operating state of the divided vibration blocking device according to the present invention;

7 is a second schematic diagram of the structure of the split vibration shielding apparatus according to the present invention.

8 is a third schematic diagram of the structure of the divided vibration isolator according to the present invention.

9 is a fourth schematic diagram of a structure of a split vibration shielding apparatus according to the present invention.

10 is a fifth schematic view of the structure of the divided vibration damping apparatus according to the present invention.

FIG. 11 is a top view of FIG. 10.

12 is a structural schematic diagram of a wound tool in accordance with the present invention.

13 is an application schematic of an injury tool in accordance with the present invention.

(Example 1)

As shown in FIG. 1, the divided vibration blocking device according to the present invention includes a lower sleeve 1, an upper sleeve 2, a spring vibration interrupter 3, and a washer 4. The support block 5 is disposed on the upper side of the lower sleeve 1. Further, in order to simplify the structure, the supporting block 5 is integrally formed with the connecting flange 6 at the upper end of the lower sleeve. The floating block 7 is disposed above the upper sleeve 2. The lower sleeve 1 and the lower sleeve 1 are interposed between the connecting flange 6 at the upper end of the lower sleeve 1 and the connecting flange 8 at the lower end of the upper sleeve 2. Connect the upper sleeve (2). The thickness of the lower sleeve 1 corresponds to the thickness of the floating plate 9.

The spring vibration circuit breaker 3 has a spring case and a spring 21. The spring 21 is a coil spring, is located in the spring case 23, has an appropriate strength in the longitudinal direction and the horizontal direction, and is not unnecessarily provided with an elastic support part or a position limiting part that act in the horizontal direction, Stability in each direction and vibration blocking effect can be guaranteed. The sealing structure 27 is arrange | positioned at the spring case 23, the liquid damping material 22 is arrange | positioned in a spring case, and the lower part of the spring 21 is contained in this liquid damping material 22. As shown in FIG. As shown in FIG. 2, the spring vibration circuit breaker 3 is disposed inside the lower sleeve 1 and under the support block 5. A washer 4 is provided between the spring vibration breaker 3 and the support block 5, and a floating hole is opened in the center of the washer 4. The openings and shapes of the support block 5 and the floating block 7 are matched with the upper surface of the spring case 3 and the size of the washer 4, and are also overlapped by the position difference. On the upper surface of the spring vibration circuit breaker 3, a non-slip gap plate 26 for preventing movement in the horizontal direction is provided, and an uneven structure 24 for preventing movement in the horizontal direction is provided on the lower surface.

As shown in FIG. 3, before mounting, the lower sleeve 1 is cast in the floating plate 9 to solidify, and after the floating strength is achieved, the upper sleeve 2 is formed by the bolt 10. To the lower sleeve (1) to assemble. When mounting, the spring vibration circuit breaker 3 and the washer 4 are in turn in the corresponding positions of the lower sleeve 1, and the upper surface of the washer 4 is slightly higher by the lower surface of the support block 5, respectively. Let's do it. Then, the jack 11 and the jack support frame are inserted to drive the jack 11, and the spring vibration breaker 3 is supported by the floating block 7 using the jack 11 and the jack support frame 12. ) When the washer 4 is lower than the lower surface of the support block 5, the washer 4 is rotated, and the washer 4 and the support block 5 are realized to overlap by the positional difference. After the pressure of the jack 11 is released, the jack support frame 12 and the jack 11 are taken out. At this time, the spring vibration circuit breaker 3 is returned to its original shape, and a force is applied to press the washer 4 against the support block 5 of the lower sleeve 1. Thus repeated, for the spring vibration breakers in all lower sleeves in the floating plate 9, the floating plate 9 is away from the base surface 13 (see FIG. 4) and finally reaches a predetermined height. Until the load is applied in turn. Finally, loosen the bolts 10 and remove the upper sleeve 2. By adjusting the number of washers and the overall thickness, the height and inclination of the floating plate 9 away from the foundation surface can be adjusted. As shown in FIG. 4, in order to prevent dust, sewage, or other miscellaneous goods from entering the lower sleeve, a dust cap 14 and a sealing washer 15 are further disposed on the upper side of the lower sleeve 1. The antivibration cap 14 may be disposed so as to fit completely into the lower sleeve 1.

By standardizing the position and size of the corresponding hole or screw hole in the screw hole and the upper sleeve 2, the upper sleeve 2 can be realized in common, and the upper sleeve 2 is used repeatedly. Can be. Therefore, a lot of material and time can be saved, and product cost can be reduced.

Even if the connecting flange 6 and the connecting flange 8 are arranged inside the lower sleeve 1 and the upper sleeve 2, respectively, and the lower sleeve and the upper sleeve are connected inward by a fastener, the same effect can be obtained. It can be realized. In addition, this connection structure can contribute to further reducing the volume of the vibration shielding device, and can save material. In addition to the entire connecting flange, a plurality of connecting plates may be used instead.

By adjusting the height of the lower sleeve and the height of the washer and / or spring vibration interruption, the vibration isolator according to the present invention can be applied to floating plates having different thicknesses. Of course, on the basis of the above principle, the vibration isolator according to the present invention can be applied to a place such as a floor of a building, a foundation of a facility, etc., and can achieve a good damping and vibration blocking effect.

(Example 2)

In the second embodiment of the present invention, as shown in Figs. 1, 5, and 6, the upper sleeve 2 and the lower sleeve 1 are fixed and connected together, which are previously placed in the floating plate 9 and lifted up. After the operation is completed, the dust cap 14 and the sealing washer 15 are disposed corresponding to the upper side of the upper sleeve 2, which is different from the first embodiment. Of course, the anti-vibration cap 14 may be disposed so as to fit completely into the upper sleeve 2. Then, aesthetics becomes more excellent.

In use, the upper sleeve can be machined to correspond to the actual thickness of the floating plate 9 before the lower sleeve is standardized, restocked and delivered. Since the height of the connecting sleeve can be quickly matched at the factory or construction site, it can contribute to shortening the processing cycle and improving the construction efficiency, requiring vibration isolation of floating plates of different thicknesses or floating plates of varying thickness continuously. Can be better satisfied. In addition to the bolt connection, the upper sleeve and the lower sleeve may be integrally connected by welding or adhesion. Then, the connection flange structure can be omitted, which can further contribute to saving the material, strengthening the connection, and reducing the product cost.

(Example 3)

In the third embodiment of the present invention, as shown in FIG. 7, the pin holes disposed on the sidewalls of the lower sleeve 1 and the upper sleeve 2 are not provided at the bottom of the upper sleeve 2. It differs from Example 1 in the point which connects both via the nail 16 using them.

By this connection method, the structure of the upper sleeve 2 is simpler, less material used, and correspondingly lower cost. After removing the upper sleeve, a dust cap can be placed in the space above the support block 5 of the lower sleeve 1 (not shown), and the use of the space becomes more compact and more rational. Of course, you may arrange a screw hole and implement | achieve a connection by a bolt instead of a nail.

In addition to the method of connecting the pin hole and the pin together, the pins may be arranged to correspond to the sidewalls of the upper sleeve and the lower sleeve, and the upper sleeve and the lower sleeve may be connected to each other via a chain fastener spanning the pin.

In addition, the spring 21 in this embodiment is a metal rubber composite spring, and the rubber is a hollow cylindrical type, and in order to increase the vibration damping effect of the vibration damper, a solid damping material, which is a high damping polyurethane, is disposed in the hollow part. do. A plurality of conical metal rings are arranged on the rubber, and the strength ratio between the longitudinal direction and the transverse direction of the rubber spring can be adjusted by adjusting the thicknesses of the taper and the rubber layer.

(Example 4)

In the fourth embodiment of the present invention, as shown in Fig. 8, the red wheel 18 is disposed on the lower sleeve 1, the lifting lag 17 is disposed on the upper sleeve, and the lifting lag 17 ), And a pin hole is arranged, the lifting lag and the red ring are assembled, and the lower sleeve 1 and the upper sleeve 2 are connected via the bolt 10, which is different from the third embodiment.

Of course, the lifting lags are arranged on the upper sleeve and the lower sleeve at the same time, and the same coupling effect can be achieved by matching the pin hole and the nail in the lifting lag. In addition, even if a pin is placed on the lifting lag and a chain fastener spans the pin, reliable connection between the upper sleeve and the lower sleeve can be realized.

(Example 5)

In the fifth embodiment of the present invention, as shown in Fig. 9, the coupling flange 6 is hinged to the upper sleeve and coupled to the upper end of the latching hawk 25 and the lower sleeve 1, respectively. ) Is different from the fourth embodiment in that the upper sleeve and the lower sleeve are fastened to each other.

Of course, the same effect can also be realized by arranging another hooking device for hooking with the hooking hawk 25 on the upper surface of the connecting flange 6 or by placing a hooking hole corresponding to the bottom sleeve.

(Example 6)

In the sixth embodiment of the present invention, as shown in FIGS. 10 and 11, the stop corner 19 is disposed on the lower sleeve 1, the stop corner 20 is disposed on the upper sleeve 2, and the stop corner is disposed. (20) is inserted into the lower sleeve through an opening that matches the size and shape arranged in the lower sleeve 1, then rotates around the axial direction, and is superimposed by a position difference with the stop corner 19, It differs from Example 3 in that an upper sleeve and a lower sleeve are connected.

(Example 7)

Embodiment 7 of the present invention relates to an injury tool according to the present invention, as shown in Figs. The injury tool of this invention is equipped with the jack 11, The jack support frame 12 is arrange | positioned by the screw structure in the case of the jack 11, The shape of the jack support frame 12 is the opening of a vibration interruption device. It is matched with the shape of, and put into the opening, and is superimposed by the position difference by rotation. The diameter of the jack, piston rod 31 is smaller than the diameter of the floating hole in the center of the washer (5). By using the injury tool according to the present invention, according to the mounting method by the above-mentioned injuries, the floating operation of the vibration isolator can be quickly realized.

The present invention can be used in the industry to which the vibration and noise control field belongs, and manufacture and install a vibration blocking device that can reduce the adverse effect of the vibration and noise generated during the operation of the tracked vehicle or the vibration of the building member and the installation foundation. It is available in the industry.

Claims (16)

In the split type vibration blocking device having a support sleeve and a floating block arranged with a spring vibration breaker, The connecting sleeve is composed of an upper sleeve and a lower sleeve, and a split structure is adopted between the upper sleeve and the lower sleeve, the floating block is disposed on the upper sleeve, and the support block is divided on the lower sleeve. Vibration isolation device. The method of claim 1, Split vibration isolator characterized in that the connecting flange or the connecting plate (耳 坂) is arranged on the upper sleeve and the lower sleeve, respectively, and the upper sleeve and the lower sleeve are connected via bolts, pins or ferrules in the axial direction. . The method of claim 1, Pin holes, screw holes or chains can be arranged on the sidewalls of the upper and lower sleeves, and the upper and lower sleeves can be connected to each other via nails or bolts, or the pins can be applied to the sidewalls of the upper and lower sleeves. And the upper sleeve and the lower sleeve are connected to each other via a chain fastener fastened to the pin. The method of claim 1, A radial plate in the radial direction is disposed on the sidewalls of the upper sleeve and the lower sleeve, and a pin hole or pin in the tangential direction is disposed on the plate, and the upper sleeve is disposed through the pin hole, nail or bolt. And a lower sleeve connected to each other or the upper sleeve and the lower sleeve connected to each other via a chain fastener across the pin. The method of claim 1, Arrange the engaging hawk which can swing up and down or tangentially on one side wall of the upper sleeve and the lower sleeve, and correspondingly arrange the engaging holes or the engaging corners on the side wall of the other sleeve, Split vibration blocking device characterized in that for connecting the upper sleeve and the lower sleeve to each other via. The method of claim 1, In the upper sleeve and the lower sleeve, the openings and the stop corners, which are sized to each other and overlapped by the positional differences, are respectively disposed, and the stop corners penetrate the openings, and then the sleeves can be overlapped and aligned. To the circumferential circumference, and realize a locking connection between the upper sleeve and the lower sleeve. The method of claim 1, Spring vibration breaker, Spring case, A partitioned vibration isolator comprising a spring including a coil spring, a disk spring, a rubber-metal composite spring, or a disk-rubber metal composite spring, which is located in a spring case and has elasticity in an appropriate strength in the longitudinal and transverse directions. The method of claim 7, wherein Restriction damping material is provided on the surface of at least a portion of the spring, or at least a portion of the spring is characterized in that the vibration damping device is fitted into the damping material. The method of claim 7, wherein And a sealing structure disposed in the spring case, a liquid vibration damper disposed in the spring case, and a lower portion of the spring contained in the liquid vibration damper. The method according to any one of claims 7 to 9, The spring vibration breaker is disposed inside the connecting sleeve and under the support block, and the washer is disposed between the spring vibration breaker and the support block, and the floating hole is opened in the center of the washer. Device. The method of claim 10, The support block and the floating block are divided vibration blocking device, characterized in that the opening and the shape is matched with the size of the upper surface and the washer of the spring case, and can be superimposed by the position difference. The method according to any one of claims 7 to 9, On the upper surface and the lower surface of the spring vibration circuit breaker, a connecting device is provided for preventing the movement in the horizontal direction, and the upper and lower portions of the connecting device are connected based on the connecting sleeve, respectively. Split vibration blocker, characterized in that the plate, bolt or uneven structure. Floating mounting method of the split vibration isolator, (1) When the connecting sleeve is molded in a floating plate or other member to be suspended according to the specifications of the selected vibration breaker, and the upper sleeve is merely a temporary auxiliary sleeve for floating, Molding in the member, (2) in the case of mounting, when the upper sleeve is merely a temporary auxiliary sleeve for floating, by connecting structure, firstly connecting the upper sleeve and the lower sleeve, (3) placing the spring vibration blocker and washer in the lower sleeve in turn, placing the spring vibration blocker under the support block and raising the upper surface of the spacer plate slightly higher than the lower surface of the support block; (4) Put the jack and jack support frame in the upper sleeve, put the piston rod or its extension into the floating hole of the spacer plate, support the jack support frame by the floating block, drive the jack, and the washer Compressing the spring vibration damper until it is slightly lower than the bottom of the support block; (5) rotating the washer to realize that the washer and the support block are overlaid by positional differences, and (6) releasing the pressure against the jack, and at this time, the spring vibration circuit breaker is forced to push the washer to the support block of the lower sleeve, and under the load by the spring vibration circuit breaker, the jack support frame and the jack are removed. Wow, (7) repeating the above steps, applying the load sequentially to the spring vibration circuit breakers in all the lower sleeves of the floating member until the floating member is separated from the base surface and finally reached a predetermined height; (8) in the case of a temporary auxiliary sleeve for lifting the upper sleeve, loosening the connection structure between the upper sleeve and the lower sleeve, taking out the upper sleeve, and completing the injury; Floating mounting method of the split type vibration shielding device having a. Application of split type vibration isolators to floating roadbeds, building floors, or plant foundations. In the floating tool of the split type vibration shield including the jack, The jack support frame is arranged in the jack case, the shape of the jack support frame and the opening size and shape of the floating block of the divided vibration isolator are set, the jack support frame is inserted into the opening of the floating block, and then the jack support frame is rotated. The floating tool of the split-vibration blocker, characterized in that for aligning the floating block and the jack support frame by the position difference. The method of claim 15, The piston rod of the jack or its extension has a diameter of which the washer is smaller than the diameter of the floating hole.

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