阅读说明：本技术 一种建筑物整体起升辅助装置 (Integral lifting auxiliary device for building ) 是由 不公告发明人 于 2019-10-11 设计创作，主要内容包括：本发明公开了一种建筑物整体起升辅助装置,包括一对一级支撑构件和一组二级支撑构件,其特征是：每个所述一级支撑构件包括支撑杆一,每个所述支撑杆一的上侧分别设置有一组均匀排布的凹槽一,每个所述凹槽一内部侧壁一端分别固定连接圆轴一。本发明涉及建筑设备领域,具体地讲,涉及一种建筑物整体起升辅助装置。本装置依靠全人工操作,无需电力、液压等,不需要动力机构实现,手动实现可以更加方便在无动力源时使用。(The invention discloses an integral lifting auxiliary device for a building, which comprises a pair of primary supporting members and a group of secondary supporting members, and is characterized in that: each first-stage supporting member comprises a first supporting rod, a group of uniformly distributed first grooves are formed in the upper side of each first supporting rod, and one end of the inner side wall of each first groove is fixedly connected with a first circular shaft. The invention relates to the field of building equipment, in particular to an integral lifting auxiliary device for a building. The device is operated by full manpower, does not need electric power, hydraulic pressure and the like, does not need a power mechanism to realize, and can be more conveniently used without a power source by manual realization.)

1. The utility model provides a building integral lifting auxiliary device, includes a pair of primary support component and a set of secondary support component, characterized by: each primary supporting member comprises a first supporting rod (1), a group of uniformly distributed first grooves (4) are formed in the upper side of each first supporting rod (1), and one end of the inner side wall of each first groove (4) is fixedly connected with a first circular shaft (3);

each round shaft I (3) is hinged to one end of a swinging support rod I (8) respectively, and two ends of the outer side of each swinging support rod I (8) are fixedly connected with a hexagonal nut I (7) respectively;

the lower side of each supporting rod I (1) is provided with a group of uniformly distributed limiting clamping grooves I (6), and the side edge of one side of each limiting clamping groove I (6) is chamfered to form a first fillet (9).

2. A building integral lifting auxiliary device as claimed in claim 1, wherein: threaded holes (5) are formed in two ends of each supporting rod I (8), each threaded hole (5) is internally provided with a bolt (11) in a threaded mode, each bolt (11) is sleeved with a circular ring (11a), and each circular ring (11a) is fixedly connected with two ends of a multi-stage telescopic rod (10).

3. A building integral lifting auxiliary device as claimed in claim 2, wherein: every the upside of bracing piece (1) is provided with a set of spacing arch one (2) of evenly arranging respectively, every the downside of bracing piece one (1) corresponds the position of spacing arch one (2) is provided with circular slot one (12), spacing arch one (2) match circular slot one (12).

4. A building integral lifting auxiliary device as claimed in claim 1, wherein: the second grade supporting member includes bracing piece two (13), the upside of bracing piece two (13) is provided with a set of recess two (14) of evenly arranging, every recess two (14) inside lateral wall one end is two (19) of fixed connection circle respectively, every circle two (19) articulate the one end of swing bracing piece two (16) respectively, every the outside both ends of swing bracing piece two (16) are two (17) of fixed connection hexagon nut respectively.

5. An auxiliary device for integral lifting of a building as claimed in claim 4, wherein: a group of second limiting clamping grooves (18) which are uniformly distributed are formed in the lower side of the second supporting rod (13), and a second side edge rounded corner (20) is formed in one side of each second limiting clamping groove (18).

6. An auxiliary device for integral lifting of a building as claimed in claim 5, wherein: the upside of bracing piece two (13) is provided with a set of spacing protruding two (15) of evenly arranging, every the downside of bracing piece two (13) corresponds the position of spacing protruding two (15) is provided with circular slot two (21), spacing protruding two (15) match circular slot two (21).

Technical Field

The invention relates to the field of building equipment, in particular to an integral lifting auxiliary device for a building.

Background

The translation building is a technology with quite high technical content, the building structure mechanics and the geotechnical engineering technology are tightly combined, the basic principle is similar to the horizontal movement of heavy objects in hoisting and carrying, and the main technical processes are as follows: cutting off the building at a certain horizontal plane to separate the building from the foundation and change the building into a movable 'heavy object'; arranging a underpinning beam at the cut-off part of the building to form a movable underpinning beam; setting a new foundation in place; arranging a walking track beam between the new foundation and the old foundation; installing a traveling mechanism, and applying external power to move the building; and after the moving mechanism is in place, the moving mechanism is detached to carry out up-and-down structural connection, so that the translation is completed.

The manual lifting device is designed aiming at the condition that hydraulic equipment such as jacks cannot be put into some narrow areas to lift or can only lift manually, and is simple in structure and convenient to operate.

Disclosure of Invention

The invention aims to provide an integral lifting auxiliary device for a building, which is convenient for assisting in supporting and lifting the building.

The invention adopts the following technical scheme to realize the purpose of the invention:

the utility model provides a building integral lifting auxiliary device, includes a pair of primary support component and a set of secondary support component, characterized by: each primary supporting member comprises a first supporting rod, a group of uniformly distributed first grooves are formed in the upper side of each first supporting rod, and one end of the inner side wall of each first groove is fixedly connected with a first circular shaft;

each first round shaft is hinged to one end of a first swinging support rod, and two ends of the outer side of each first swinging support rod are fixedly connected with a first hexagonal nut;

the lower side of each first supporting rod is provided with a group of first limiting clamping grooves which are uniformly distributed, and the side edge of one side of each first limiting clamping groove is chamfered.

As a further limitation of the technical scheme, two ends of each first support rod are respectively provided with a threaded hole, each threaded hole is internally and respectively in threaded connection with a bolt, each pair of bolts are respectively sleeved with a circular ring, and each pair of circular rings are respectively and fixedly connected with two ends of the multi-stage telescopic rod.

As a further limitation of the technical scheme, a group of uniformly distributed first limiting bulges are respectively arranged on the upper side of each first supporting rod, a first circular groove is formed in the position, corresponding to the first limiting bulges, of the lower side of each first supporting rod, and the first limiting bulges are matched with the first circular grooves.

As the further limitation of the technical scheme, the secondary supporting member comprises a second supporting rod, a group of second grooves are uniformly distributed on the upper side of the second supporting rod, one end of the inner side wall of each second groove is fixedly connected with a second circular shaft, each second circular shaft is hinged with one end of the second swinging supporting rod, and two ends of the outer side of each second swinging supporting rod are fixedly connected with a second hexagonal nut.

As a further limitation of the technical scheme, a group of second limiting clamping grooves which are uniformly distributed are formed in the lower side of the second supporting rod, and the side edge of one side of each second limiting clamping groove is rounded.

As a further limitation of the technical scheme, a group of second limiting bulges which are uniformly distributed is arranged on the upper side of the second supporting rod, a second circular groove is formed in the position, corresponding to the second limiting bulges, of the lower side of the second supporting rod, and the second limiting bulges are matched with the second circular groove.

Compared with the prior art, the invention has the advantages and positive effects that: the invention provides an integral lifting auxiliary device for a building. The method has the following beneficial effects:

(1) the device is operated by full manpower, does not need electric power, hydraulic pressure and the like, is realized without a power mechanism, and can be more conveniently used without a power source by manual realization;

(2) the service life is long due to the pure mechanical structure;

(3) the multi-stage telescopic rod is designed, the guiding effect is achieved, the limiting structures of the first limiting protrusion, the first circular groove, the second limiting protrusion and the second circular groove are designed, and the use is reliable.

Drawings

Fig. 1 is a schematic perspective view of a primary support member according to the present invention.

Fig. 2 is a schematic perspective view of a primary support member according to the present invention.

Fig. 3 is a schematic perspective view of the first embodiment of the present invention.

Fig. 4 is a schematic perspective view of a secondary support member according to the present invention.

Fig. 5 is a schematic perspective view of a secondary support member according to the present invention.

Fig. 6 is a schematic perspective view of the present invention.

Fig. 7 is a three-dimensional structure diagram of the present invention.

Fig. 8 is a schematic perspective view of a first swinging support rod and a first hexagon nut according to the present invention.

In the figure: 1. the first support rod, 2, the first limiting protrusion, 3, the first circular shaft, 4, the first groove, 5, a threaded hole, 6, the first limiting clamping groove, 7, the first hexagon nut, 8, the first swing support rod, 9, the first circular corner, 10, the multi-stage telescopic rod, 11, a bolt, 11a, a circular ring, 12, the first circular groove, 13, the second support rod, 14, the second groove, 15, the second limiting protrusion, 16, the second swing support rod, 17, the second hexagon nut, 18, the second limiting clamping groove, 19, the second circular shaft, 20, the second circular corner, 21 and the second circular groove.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

As shown in fig. 1-8, the present invention includes a pair of primary support members and a set of secondary support members, each of the primary support members includes a first support rod 1, the upper side of each of the first support rods 1 is respectively provided with a set of uniformly arranged first grooves 4, and one end of the inner side wall of each of the first grooves 4 is respectively and fixedly connected with a first circular shaft 3;

each round shaft I3 is hinged to one end of a swinging support rod I8, and two ends of the outer side of each swinging support rod I8 are fixedly connected with a hexagonal nut I7;

every the downside of bracing piece 1 is provided with a set of spacing draw-in groove 6 of evenly arranging respectively, every the side edge fillet 9 of one side of spacing draw-in groove 6, the swing of the bracing piece 8 of being convenient for swing, the tip of the bracing piece 8 of swing is circular-arc.

Threaded holes 5 are formed in two ends of each supporting rod I8 respectively, bolts 11 are connected in the threaded holes 5 in a threaded mode respectively, each pair of bolts 11 are sleeved with a circular ring 11a respectively, each pair of circular rings 11a are fixedly connected with two ends of a multi-stage telescopic rod 10 respectively, and the bolts 11 are screwed down, so that the multi-stage telescopic rod 10 can be replaced.

Every the upside of bracing piece 1 is provided with a set of spacing arch one 2 of evenly arranging respectively, every the downside of bracing piece 1 corresponds spacing arch one 2's position is provided with circular slot one 12, spacing arch one 2 matches circular slot one 12.

The second grade supporting member includes two bracing pieces 13, the upside of two bracing pieces 13 is provided with two recesses 14 of a set of even arrangement, every two 14 inside lateral walls one end of recess is two 19 of fixed connection circle axle respectively, every two 19 of circle axle articulate the one end of two 16 of swing bracing pieces respectively, every two 16 outside both ends of swing bracing piece are two 17 of fixed connection hexagon nut respectively.

A group of second limiting clamping grooves 18 which are uniformly distributed are formed in the lower side of the second supporting rod 13, and a second side edge rounded corner 20 on one side of each second limiting clamping groove 18 facilitates the swinging of the second supporting rod 16, and the end portion of the second swinging supporting rod 16 is arc-shaped.

The upper side of the second supporting rod 13 is provided with a group of two limiting bulges 15 which are uniformly distributed, the lower side of the second supporting rod 13 corresponds to the two limiting bulges 15, circular grooves 21 are formed in the positions of the two limiting bulges 15, and the two limiting bulges 15 are matched with the circular grooves 21.

When the first swinging support rod 8 is clamped into the first limiting clamping groove 6, the second support rod 16 can be inserted between the first two support rods 1.

The first circular groove 12 is matched with the second limiting protrusion 15.

The structure of the multi-stage telescopic rod 10 is similar to that of a common folding umbrella, and is not described in detail in the prior art.

Every swing bracing piece 8 is one with a round axle 3 articulated one end fixed connection 7 hexagon nut, every the other end of swing bracing piece 8 is another fixed connection respectively hexagon nut 7 is more difficult than using the spanner to block when using the spanner to block a hexagon nut 7 during operation that corresponds round axle 3 another hexagon nut 7 during operation of round axle 3.

Every two 16 two swing bracing pieces and two 19 articulated one ends of round axle are two 17 of fixed connection respectively, every two 16 other ends of swing bracing piece are another of fixed connection respectively two 17 of hexagonal nut, use the spanner to block when using two 17 of hexagonal nut that correspond two 19 of round axle work than use the spanner to block and keep away from two 17 of another 17 of hexagonal nut of two 19 of round axle work is hard.

The working process of the invention is as follows: when the device is used, a pair of first support rods 1 are inserted into a building gap, the first support rod 1 on the lower side is placed on the ground or other support tables, a wrench is used for clamping a first hexagonal nut 7, an upward moving wrench drives the first hexagonal nut 7 to swing upwards, the first hexagonal nut 7 drives a first swinging support rod 8 to swing upwards, the end part of the first swinging support rod 8 is in a fillet shape and can smoothly adhere to the first support rod 1 on the upper side, the swinging support rod 8 swings upwards to push the first support rod 1 on the upper side to move upwards, the first swinging support rod 8 is clamped into a first limit clamping groove 6 after passing through a first fillet 9 in the swinging process, the first support rod 1 on the upper side is fixed, a telescopic rod of a multi-stage telescopic rod 10 moves upwards, after the first support rod 1 on the upper side is fixed, a gap between the first two support rods 1 is clamped into a second support rod 13, a second circular groove 21 on, the upper moving wrench drives the second swing supporting rod 16 to swing upwards, the first supporting rod 1 of the second swing supporting rod 16 to swing upwards and attach to the upper side moves upwards, the first supporting rod 1 of the upper side continues to move upwards under the pushing of the second swing supporting rod 16, the telescopic rod of the multi-stage telescopic rod 10 continues to move upwards, the second swing supporting rod 16 finally goes into the second limiting clamping groove 18 after passing through the second circular corner 20, the first supporting rod 1 of the upper side is fixed, the first swing supporting rod 8 reversely swings and returns under the action of gravity, then the first supporting rod 1 of the lower side in the first supporting rod 1 is placed on the upper side of the first supporting rod 1 of the next side, the first limiting bulge 2 is embedded into the first circular groove 12, the operation is carried out again.

The above disclosure is only one specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.