CN110552460B - Gardens integrated configuration with antidetonation function - Google Patents

Abstract

The invention discloses a garden combined structure with an anti-seismic function, which comprises a garden structure column, a garden structure column foundation and an anti-seismic structure arranged between the garden structure column and the garden structure column foundation; the anti-seismic structure comprises an outer frame, a movable inner frame, a piston type viscous damper, a rolling ball and a transition plate. The garden combined structure has remarkable anti-seismic effect; the structural design is reasonable, the installation and the maintenance are convenient, the cost is low, and the seismic energy-saving device can be repeatedly used in multiple earthquakes.

Description

Gardens integrated configuration with antidetonation function

Technical Field

The invention belongs to the technical field of garden buildings, and relates to a garden combined structure with an anti-seismic function.

Background

Earthquakes are extremely destructive sudden natural disasters, which can cause serious casualties and property loss. China is a country with multiple earthquakes, and according to relevant reports of the earthquake bureau of China, earthquakes of more than 5 grades occur in continental areas of China for 24 times per year since 1950. Even in 2018 years when the overall disaster condition is obviously lighter than the value in the past 5 years, the direct economic loss caused by the earthquake is up to 30 hundred million yuan. Therefore, the use of existing facilities to alleviate earthquake disasters is a long-term appeal in disaster prevention and reduction projects. As the large green land is taken as an emergency shelter in recent years, the emergency shelter is usually used for the leisure, entertainment and fitness of citizens, and after a large-scale disaster such as an earthquake occurs, facilities such as an emergency toilet, deep well water, power supply and the like can be emergently used in a short time for many people to carry out emergency shelter. The existing facility structures in the garden greenbelts are fully utilized to serve as earthquake-proof services, and the development trend of the garden combined structure is also one of the trends.

Chinese patent (application No. 201320632777.0, name: an ecological garden house with good earthquake resistance, publication No. CN203782913U, publication No. 2014-08-20) discloses an ecological garden house with good earthquake resistance, which is formed by overlapping a support and a roof; a damper is arranged at the joint of the bracket and the roof; one end of the damper is fixed on the support, and the other end of the damper is fixed on the roof. Under the action of earthquake, the damper can deform to absorb earthquake energy, so that the earthquake-proof effect is achieved. The traditional damper arranged at the node is difficult to exert effective energy consumption capacity in case of small earthquake and under the action of large earthquake or rare earthquake. The damper is easy to exceed the limit bearing capacity and lose the energy consumption capacity; if a large-tonnage large-stroke damper is adopted, the manufacturing cost is too high to be popularized. In response to this problem, chinese patent (application No. 201910125344.8, titled: gear type shape memory alloy damper with response amplification effect, publication No. CN109811923A, published: 2019-05-28) discloses a gear type shape memory alloy damper with response amplification effect. The damper comprises a limiting frame, a first connecting buckle and a second connecting buckle which are fixed on the limiting frame, a third connecting buckle positioned between the first connecting buckle and the second connecting buckle, a rack frame fixedly connected with the third connecting buckle, a driving rack arranged on the rack frame, a gear assembly rotatably arranged on the limiting frame, a first damper connected with the first connecting buckle and the third connecting buckle, and a second damper connected with the second connecting buckle and the third connecting buckle; the rack frame comprises an upper rack and a lower rack which are fixed relatively; the gear assembly comprises a half gear and a full gear; the third connecting buckle is fixedly connected with the upper rack, the rotation centers of the half gear and the full gear are the same and synchronously rotate, and the upper rack and the lower rack are alternately meshed with the half gear. In the damper, after the corresponding driving rack is amplified by the gear assembly linkage part, the driving rack is transmitted to the damper through the rack frame, so that the damper can play an energy consumption role as early as possible, and the damper can generate smaller restoring force to provide larger restoring force for the structure, thereby saving the manufacturing cost; on the other hand, the damper, namely the shape memory alloy inhaul cable, always reciprocates within a limited stroke, and displacement failure cannot occur under the action of an earthquake, so that stable and effective energy consumption capacity is provided, and the self-resetting function is realized.

The gear type shape memory alloy damper with the response amplification effect has the following problems when being applied to the earthquake resistance of a garden combined structure: the damper is high in cost, is suitable for being applied to large structures or important projects, and is not economical and practical enough for temporary use of garden combined structure earthquake resistance; the damper can only perform shock insulation and shock absorption in a single direction, and the directivity of the damper is still difficult to predict even if only the action of a horizontal earthquake is considered during the occurrence of the earthquake, so the shock absorption effect is poor; in addition, when an earthquake occurs, under the action of the earthquake, once the half gear or the full gear is dislocated under the action of the acting force, the engaged rack clamping lock matched with the half gear or the full gear is easily caused, so that the damper is invalid and cannot work normally.

Disclosure of Invention

The invention aims to provide a garden combined structure with an anti-seismic function, which has high stability, obvious anti-seismic effect and low cost.

The adopted technical scheme is that the garden combination structure with the earthquake-proof function comprises a garden structure column, a garden structure column foundation and an earthquake-proof structure arranged between the garden structure column and the garden structure column foundation;

the anti-seismic structure comprises an outer frame, a movable inner frame, a piston type viscous damper, a rolling ball and a transition plate;

the bottom of the outer frame is fixedly connected with the garden structure column foundation;

the anti-seismic structure comprises two groups of piston type viscous dampers, each group of piston type viscous dampers comprises two oppositely arranged cylinder bodies, and the two cylinder bodies share one damper piston rod; cylinder bodies of the piston type viscous dampers penetrate through damper through holes arranged on the movable inner frame respectively and are fixed on the outer frame through damper fixing plates; piston rod teeth are arranged on the damper piston rod, and an inner frame upper rack and an inner frame lower rack are respectively arranged at the upper part and the lower part of the movable inner frame;

two gear sets are symmetrically arranged in the movable inner frame; each gear set comprises a large gear and a small gear, and the two groups of gears share one central gear shaft; the two pinions are respectively arranged at two ends of the central gear shaft; the two large gears are respectively arranged on the inner sides of the corresponding small gears; the pinion gears are meshed to move on the corresponding piston rod teeth; the large gear is meshed with the corresponding upper rack of the inner frame and the corresponding lower rack of the inner frame;

the upper end of the moving rod tooth penetrates through a moving rod tooth limiting long hole for the moving rod tooth to move on the outer frame and is connected with a transition plate arranged at the top end of the outer part of the outer frame;

a rolling ball capable of rolling universally is arranged between the lower part of the transition plate and the top plate of the outer frame, and the rolling ball can roll between the transition plate and the outer frame;

a roller is arranged between the lower part of the movable inner frame and the lower plate of the outer frame, and the roller can enable the movable inner frame to move in the outer frame;

the top of crossing the cab apron is fixed with through the bolt and is born the column plate, be provided with on bearing the column plate gardens structure post.

The present invention is also characterized in that,

and a spring is arranged between the outer frame and the movable inner frame along the horizontal direction.

The diameter of the moving rod tooth is smaller than the width of the moving rod tooth limiting long hole.

The moving bar teeth may be provided in plurality.

The aperture of the damper through hole is larger than the diameter of the piston type viscous damper cylinder body.

The thickness of the pinion is larger than the width of the piston rod teeth arranged on the damper piston rod.

The thickness of the bull gear is respectively greater than the width of the inner frame lower rack and the inner frame upper rack.

The movable inner frame is arranged in the outer frame and comprises an upper inner frame and a lower inner frame; the upper inner frame and the lower inner frame are connected through a middle jacking mechanism.

The middle jacking mechanism is of a telescopic structure and can jack the upper inner frame from the lower inner frame.

The inner side of the top of the outer frame is provided with a telescopic lifting rod, the top of the telescopic lifting rod is provided with openable claws, and the openable claws can be encircled with the central gear shaft to be tightly clamped;

when the telescopic lifting rod retracts, the telescopic lifting rod is positioned between the movable inner frame and the outer frame; the top of the movable inner frame is provided with a lifting rod hole for the telescopic lifting rod to pass through

The garden combined structure with the anti-seismic function has the advantages that the garden combined structure with the anti-seismic function comprises the piston type viscous damper, the spring, the rolling ball and other structures, three-level multidirectional energy dissipation and shock absorption are achieved, and the anti-seismic effect is obvious; the structure is reasonable in design, convenient to install and maintain, low in cost and suitable for being applied to small structures. In addition, due to the fact that the gear set resetting device is arranged, the garden combination structure has repairability and can be repeatedly used in multiple earthquakes.

Drawings

FIG. 1 is a schematic structural view of a garden combination structure with earthquake-proof function according to the present invention;

FIG. 2 is a front sectional view of the garden combination with earthquake-proof function of the present invention in a non-operation state;

FIG. 3 is a front sectional view of the garden combination with earthquake-proof function of the present invention in an operational state;

FIG. 4 is a cross-sectional view taken along section A-A of FIG. 2;

FIG. 5 is a plan view of the garden combination with earthquake-resistant features of the present invention;

FIG. 6 is a cross-sectional view taken along section B-B of FIG. 2;

FIG. 7 is a detailed structure diagram of the middle jacking mechanism of the garden combined structure with earthquake-proof function during jacking;

FIG. 8 is a detailed structure view of the middle jacking mechanism of the garden combination structure with earthquake-proof function of the invention when retracted;

fig. 9 is a detailed structure view of the telescopic lifting rod of the garden combination structure with the earthquake-proof function.

In the figure, 1, a bearing plate, 2, a moving rod tooth, 3, a transition plate, 4, a rolling ball and 5, a bolt are arranged;

6. a movable inner frame, 61, an upper inner frame, 62, a lower inner frame;

7. the device comprises an outer frame, 8 springs, 9 damper fixing plates, 10 damper through holes, 11 inner frame upper racks, 12 large gears, 13 central gear shafts, 14 small gears, 15 piston type viscous dampers, 16 rollers, 17 inner frame lower racks, 18 piston rod teeth, 19 damper piston rods, 20 moving rod tooth limiting holes, 21 garden structure columns, 22 garden structure column bases, 23 middle jacking mechanisms, 24 anti-seismic mechanisms, 25 telescopic lifting rods, 26 openable claws and 27 lifting rod holes.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The garden combination structure with earthquake-proof function of the invention, as shown in fig. 1, comprises a garden structure column 21, a garden structure column base 22 and an earthquake-proof mechanism 24 arranged between the garden structure column 21 and the garden structure column base 22.

As shown in fig. 2 and 3, the anti-seismic mechanism 24 comprises an outer frame 7, a movable inner frame 6, a piston type viscous damper 15, a rolling ball 4 and a transition plate 3;

the bottom of the outer frame 7 is fixedly connected with the garden structure column base part 22, the movable inner frame 6 is positioned in the outer frame 7, and the movable inner frame 6 comprises an upper inner frame 61 and a lower inner frame 62;

the anti-seismic mechanism 24 comprises two pairs of piston-type viscous dampers 15, the two pairs of piston-type viscous dampers 15 are respectively arranged on the front side and the rear side of the movable inner frame 6, each pair of piston-type viscous dampers 15 comprises two oppositely-arranged cylinder bodies, the two cylinder bodies share one damper piston rod 19, the cylinder body of each piston-type viscous damper 15 respectively penetrates through a damper through hole 10 formed in the movable inner frame 6 and is fixed on the outer frame 7 through a damper fixing plate 9, the damper piston rod 19 is provided with piston rod teeth 18, and an upper inner frame rack 11 and a lower inner frame rack 17 are respectively arranged on an upper inner frame 61 and a lower inner frame 62 of the movable inner frame 6.

As shown in fig. 4, two gear sets are symmetrically arranged inside the movable inner frame 6; each gear set comprises a large gear 12 and a small gear 14, two groups of gears share a central gear shaft 13, and the two small gears 14 are respectively arranged at two ends of the central gear shaft 13; the two bull gears 12 are respectively arranged on the inner sides of the corresponding pinions 14, and each pinion 14 is in meshing motion with the corresponding piston rod teeth 18; each gearwheel 12 meshes with a corresponding inner frame upper rack 11 and a corresponding inner frame lower rack 17.

The arrangement mode of the gear set and the rack amplifies the motion of the movable inner frame through the linkage part and then transmits the amplified motion to the piston type viscous damper, so that the piston type viscous damper can play an energy dissipation role as early as possible, and the energy dissipation function of the piston type viscous damper can be fully played even if the structure only has small displacement under the condition of small earthquake.

The rack 11 on the inner frame is fixedly connected with a plurality of moving rod teeth 2, as shown in fig. 5, the upper ends of the moving rod teeth 2 penetrate through the outer frame 7 to be provided with moving rod tooth limiting long holes 20 for the moving rod teeth 2 to move, and are connected with a transition plate 3 arranged at the top end outside the outer frame 7, and the number of the moving rod teeth 2 can be multiple.

The diameter of the moving rod teeth 2 is smaller than the width of the moving rod tooth limiting long hole 20, so that the horizontal transverse and horizontal longitudinal movement of the movable inner frame 6 relative to the outer frame 7 can be further ensured, and the horizontal seismic energy can be better consumed.

For ease of description, the horizontal transverse direction coincides with the axial direction of the damper piston rod 19 in fig. 2. The horizontal longitudinal direction coincides with the axial direction of the sun gear shaft 13 in fig. 2.

But be provided with universal rolling spin 4 between the lower part of cab apron 3 and the top plate of frame 7, spin 4 can roll between the top plate of cab apron 3 and frame 7, is provided with gyro wheel 16 between the lower part inside casing 62 of portable inside casing 6 and the lower part board of frame 7, and gyro wheel 16 can make and remove inside casing 6 and remove in frame 7, and the top of passing cab apron 3 is fixed with through bolt 5 and holds the post board 1, holds and is provided with gardens structure post 21 on the post board 1.

A spring 8 is horizontally arranged between the outer frame 7 and the movable inner frame 6, and the spring 8 can prevent the collision between the outer frame 7 and the movable inner frame 6 and consume earthquake energy.

As shown in fig. 6, the diameter of the damper penetration hole 10 is larger than the diameter of the cylinder of the piston-type viscous damper 15, which can ensure the horizontal transverse and horizontal longitudinal movement of the movable inner frame 6 relative to the outer frame 7, so as to better consume the seismic energy in the horizontal direction.

As shown in fig. 7 and 8, the upper inner frame 61 and the lower inner frame 62 are connected by a middle jack-up mechanism 23, and the middle jack-up mechanism 23 has a telescopic structure, so that the upper inner frame 61 can be jacked up from the lower inner frame 62, and an operation space for resetting after gear dislocation is ensured.

As shown in fig. 9, a telescopic lifting rod 25 is arranged on the inner side of the top of the outer frame 17, an openable claw 26 is arranged at the bottom of the telescopic lifting rod 25, the openable claw 26 can surround and grasp the central gear shaft 13, the telescopic lifting rod 25 is located between the movable inner frame 6 and the outer frame 7 when retracting, and a lifting rod hole 27 for the telescopic lifting rod 25 to pass through is arranged at the top of the movable inner frame 6.

The thickness of the pinion 14 is greater than the width of the piston rod teeth 18 provided on the damper piston rod 19 in such a manner that the pinion 14 can still mesh with the piston rod teeth 18 when the movable inner frame 6 is horizontally moved longitudinally.

The thickness of the large gear 12 is respectively larger than the width of the inner frame lower rack 17 and the inner frame upper rack 11, and the arrangement ensures that the large gear 12 can still be meshed with the inner frame lower rack 17 and the inner frame upper rack 11 when the movable inner frame 6 moves horizontally and longitudinally.

The working process of the garden combined structure with the earthquake-resistant function comprises the following steps:

when an earthquake occurs, the movable inner frame 6 moves horizontally, longitudinally and horizontally in the outer frame 7 under the action of the earthquake, so that the damper piston rod 19 moves horizontally and horizontally, the piston moves in the piston type viscous damper 15 along with the movement of the damper piston rod 19, and the energy consumption of the piston damper 15 is further realized; meanwhile, the movement of the damper piston rod 19 drives the pinion 14 to rotate, the pinion 14 drives the coaxial gearwheel 12 to rotate, the gearwheel 12 further drives the movable inner frame 6 to move so that the movable inner frame and the spring 8 on the outer frame 7 can act to consume energy again, the rotation of the gearwheel 12 drives the moving rod teeth 2 to move in the moving rod tooth limiting long holes 20, and the influence of an earthquake on the upper garden structure column 21 is reduced under the action of the rolling balls 4 between the transition plate 3 and the outer frame 7.

After the earthquake, in order to prevent the gear dislocation, the anti-seismic mechanism 24 can be adjusted in the following way: the middle jacking mechanism 23 is jacked up, so that the upper inner frame 61 is lifted up and separated from the lower inner frame 62, the retractable lifting rod 25 extends and simultaneously the retractable claw 26 is opened, the retractable claw 26 is clamped on the central gear shaft 13, then the retractable claw 26 is closed, the retractable lifting rod 25 retracts to lift the large gear 12 and the small gear 14, the positions of the large gear 12 and the small gear 14 are adjusted, then the retractable lifting rod 25 extends to place the large gear 12 and the small gear 14 on the inner frame lower rack 17 and the piston rod teeth 18 respectively, then the middle jacking mechanism 23 is retracted to close the upper inner frame 61 and the lower inner frame 62, finally the retractable claw 26 is opened, the retractable lifting rod 25 retracts to a position between the movable inner frame 6 and the outer frame 7, and the position of the gear set is adjusted. Even if the gear is dislocated in an earthquake, the gear can be easily reset after the earthquake by the mode, and the anti-seismic mechanism 24 can effectively work in the next earthquake.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (3)

1. Gardens integrated configuration with antidetonation function, its characterized in that: including gardens structure post (21), gardens structure post basis (22) and setting are in gardens structure post (21) with antidetonation structure (24) of establishing between gardens structure post basis (22), its characterized in that:

the anti-seismic structure (24) comprises an outer frame (7), a movable inner frame (6), a piston type viscous damper (15), a rolling ball (4) and a transition plate (3);

the bottom of the outer frame (7) is fixedly connected with the garden structure column foundation (22);

the anti-seismic structure (24) comprises two groups of piston type viscous dampers (15), each group of piston type viscous dampers (15) comprises two oppositely arranged cylinder bodies, and the two cylinder bodies share one damper piston rod (19); cylinder bodies of the piston type viscous dampers (15) respectively penetrate through damper through holes (10) formed in the movable inner frame (6) and are fixed on the outer frame (7) through damper fixing plates (9); piston rod teeth (18) are arranged on the damper piston rod (19), and an inner frame upper rack (11) and an inner frame lower rack (17) are respectively arranged on the upper part and the lower part of the movable inner frame (6);

two gear sets are symmetrically arranged in the movable inner frame (6); each gear set comprises a large gear (12) and a small gear (14), and two groups of gears share one central gear shaft (13); two pinion gears (14) are respectively arranged at two ends of the central gear shaft (13); the two large gears (12) are respectively arranged on the inner sides of the corresponding small gears (14); the pinions (14) move in meshing engagement on corresponding piston rod teeth (18); the bull gear (12) is meshed with the corresponding upper rack (11) of the inner frame and the corresponding lower rack (17) of the inner frame;

the upper rack (11) of the inner frame is fixedly connected with a moving rod tooth (2), the upper end of the moving rod tooth (2) penetrates through the outer frame (7) to be provided with a moving rod tooth limiting long hole (20) for the moving rod tooth (2) to move, and is connected with a transition plate (3) arranged at the top end of the outer part of the outer frame (7);

a rolling ball (4) capable of rolling in a universal direction is arranged between the lower part of the transition plate (3) and the top plate of the outer frame (7), and the rolling ball (4) can roll between the transition plate (3) and the outer frame (7);

a roller (16) is arranged between the lower part of the movable inner frame (6) and the lower plate of the outer frame (7), and the roller (16) can enable the movable inner frame (6) to move in the outer frame (7);

the top of the transition plate (3) is fixed with a bearing plate (1) through a bolt (5), and the bearing plate (1) is provided with the garden structure column (21);

a spring (8) is arranged between the outer frame (7) and the movable inner frame (6) along the horizontal direction;

the thickness of the pinion (14) is larger than the width of a piston rod tooth (18) arranged on the damper piston rod (19);

the thickness of the large gear (12) is respectively greater than the width of the inner frame lower rack (17) and the width of the inner frame upper rack (11);

the movable inner frame (6) is arranged in the outer frame (7) and comprises an upper inner frame (61) and a lower inner frame (62); the upper inner frame (61) and the lower inner frame (62) are connected through a middle jacking mechanism (23);

the middle jacking mechanism (23) is of a telescopic structure and can jack the upper inner frame (61) up from the lower inner frame (62);

the inner side of the top of the outer frame (17) is provided with a telescopic lifting rod (25), the top of the telescopic lifting rod (25) is provided with an openable claw (26), and the openable claw (26) can surround and tightly grip the central gear shaft (13);

when the telescopic lifting rod (25) retracts, the telescopic lifting rod is positioned between the movable inner frame (6) and the outer frame (7); the top of the movable inner frame (6) is provided with a lifting rod hole (27) for the telescopic lifting rod (25) to pass through.

2. An earthquake-resistant garden combined construction according to claim 1, characterized in that: the diameter of the moving rod tooth (2) is smaller than the width of the moving rod tooth limiting long hole (20);

the moving rod teeth (2) can be arranged in a plurality.

3. An earthquake-resistant garden combined construction according to claim 1, characterized in that: the aperture of the damper perforation (10) is larger than the diameter of the cylinder body of the piston type viscous damper (15).

Images