CN110748703B - Single tube bearing structure for building - Google Patents

Abstract

The invention relates to the field of building steel structures, in particular to a single pipe supporting structure for buildings, which comprises an upper supporting seat, a rack supporting connecting rod, a transverse connecting beam, a base and a driving device, wherein the transverse connecting beam is in clearance fit with the upper supporting seat and the rack supporting connecting rod; the pipeline installation device has the advantages that the installation height of the pipeline can be adjusted, meanwhile, in the process of installing the pipeline, the pipeline is convenient to carry from a low position to a high position, the pipeline and the flange are convenient to install in a centering mode, the operation is simple, and the installation is rapid.

Description

Single tube bearing structure for building

Technical Field

The invention relates to the field of building steel structures, in particular to a single pipe supporting structure for a building.

Background

In the process of water, steam and crude oil transportation, the pipeline is the first choice, and in the installation of pipeline, must need the use of pipeline bearing structure for play the supporting role to the high pipeline. Patent No. CN201210206573.0 discloses a pipe supporting device and a mounting method thereof. The pipeline supporting device comprises a support base, a support main body, a cement mortar block and waterproof sealant, wherein the support base is installed on the top surface of a building, the two ends of the support main body are respectively connected with the support base and a pipeline, the cement mortar block surrounds the support main body, the bottom surface of the cement mortar block is in contact with the top surface of the building, the waterproof sealant is used for connecting the cement mortar block with the top surface of the building and the support main body, the pipeline supporting device further comprises a chemical bolt, a waterproof coating film and a heat preservation body, the chemical bolt enables the support base to be fixed on the top surface of the building, the waterproof coating film is respectively connected with the top surface of the building and the support base, the heat preservation body is installed at the upper. The pipeline supporting device and the installation method thereof enhance the waterproof capability of the top surface of a building, ensure smooth heat transition in the pipeline, reduce and avoid the generation of a cold bridge effect, prolong the service life of the pipeline and reduce the potential safety hazard of the whole building. However, this invention does not allow for adjustment of the height of the lift and is cumbersome to install and remove.

Disclosure of Invention

The invention aims to provide a single pipe supporting structure for buildings, which has the advantages that the installation height of a pipeline can be adjusted, meanwhile, in the process of installing the pipeline, the pipeline is convenient to carry from a low position to a high position, the pipeline and a flange are convenient to install in a centering way, the operation is simple, and the installation is rapid.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide a single pipe supporting structure for buildings, which comprises an upper supporting seat, a rack supporting connecting rod, a transverse connecting beam, a base and a driving device, wherein the transverse connecting beam is in clearance fit with the upper supporting seat and the rack supporting connecting rod, the rack supporting connecting rod is connected in the base in a sliding manner, and the driving device is fixedly connected to the base.

As a further optimization of the invention, the upper support seat of the single-tube support structure for the building comprises an arc-shaped support plate, a support baffle frame, a left lower rack support plate, a right lower rack support plate, two sliding fixed blocks, an arc-shaped chute and connecting slots, wherein the arc-shaped chute is arranged at the lower end of the arc-shaped support plate, the support baffle frame is fixedly connected at the lower end of the arc-shaped support plate, the upper ends of the left lower rack support plate and the right lower rack support plate are both connected in the arc-shaped chute in a sliding manner, the two sliding fixed blocks are respectively and fixedly connected at the left end of the left lower rack support plate and the right end of the right lower rack support plate, and the lower ends of the left lower rack support.

As a further optimization of the invention, the rack support connecting rod of the single pipe support structure for the building comprises a left connecting rack plate, a right connecting rack plate, two lower sliding fixing blocks, two inserting plate fixing slots, two upper connecting blocks and two connecting slots I, wherein the two lower sliding fixing blocks are respectively and fixedly connected to the left end of the left connecting rack plate and the right end of the right connecting rack plate, the two inserting plate fixing slots and the two upper connecting blocks are respectively arranged at the upper ends of the left connecting rack plate and the right connecting rack plate, the two connecting slots I are respectively arranged at the lower ends of the left connecting rack plate and the right connecting rack plate, and the connecting slots I and the connecting slots have the same structure.

As a further optimization of the invention, the transverse connecting beam of the single-tube supporting structure for the building comprises a left connecting plate, a right connecting plate, a fixed connecting inserting plate, fixed connecting baffle plates, a right plate sliding groove, a left plate sliding groove, a sliding shaft, a beam supporting block and a blocking inserting plate, wherein the right plate sliding groove and the left plate sliding groove are respectively arranged at the rear end of the right connecting plate and the front end of the left connecting plate, the front end and the rear end of the sliding shaft are respectively and slidably connected in the right plate sliding groove and the left plate sliding groove, the fixed connecting inserting plate and the fixed connecting baffle plates are respectively provided with two, one end of each fixed connecting inserting plate is respectively and fixedly connected at the lower end of the left connecting plate and the right connecting plate, the other end of each fixed connecting inserting plate is respectively and fixedly matched in the two inserting plate fixing slots, the front ends of the two fixed connecting baffle plates are respectively and fixedly connected at the, two fixed connection baffle plates are respectively attached to two upper connection check blocks, the left connecting plate and the right connecting plate are both connected in the cross beam supporting block in a sliding mode, and the blocking insertion plates are in clearance fit in the cross beam supporting block.

As a further optimization of the invention, the base of the single-pipe supporting structure for the building comprises a support block, a left sliding chute, a right sliding chute, a left fixed sliding chute, a right fixed sliding chute, a main gear groove and a slave gear groove, right gear groove and left gear groove, left side spout, right side spout, left side fixed spout, right side fixed spout, the pinion groove, from the gear groove, right side gear groove and left gear groove all set up in the support piece, the left end of left side spout and the right-hand member of right spout communicate left side fixed spout and right side fixed spout respectively, the left end and the right-hand member in pinion groove communicate respectively from gear groove and right gear groove, from the left end intercommunication left gear groove in gear groove, the left end in left gear groove and the right-hand member in right gear groove communicate left spout and right spout respectively, left side connection rack board and right side connection rack board are sliding connection respectively in left spout and right spout, two lower sliding fixation piece are sliding connection respectively in left side fixed spout and right fixed spout.

As a further optimization of the invention, the driving device of the single pipe supporting structure for the building comprises a fixed baffle, a rotating shaft I, a rotating shaft II, a rotating shaft III, a rotating shaft IV, a driving motor, a right gear, a master gear, a driven gear, a left gear, a front baffle, a rear baffle, a front specification supporting block, a rear specification supporting block and a bottom angle fixing plate, wherein the rotating shaft I, the rotating shaft III and the rotating shaft IV are all fixedly connected on the fixed baffle, the rotating shaft II is connected with a transmission shaft of the driving motor through a coupler, the driving motor is fixedly connected on the fixed baffle, the right gear, the master gear, the driven gear and the left gear are respectively and rotatably connected on the rotating shaft I, the rotating shaft II, the rotating shaft III and the rotating shaft IV, the master gear, the driven gear, the right gear and the left gear are respectively and in a master gear groove, a slave gear groove, a right gear groove and a left gear groove, the left end and, the left end of driven gear meshes with left gear mutually, the left end of left gear and the right-hand member of right gear mesh with left connection rack board and right connection rack board respectively, preceding specification supporting shoe and back specification supporting shoe pass through bolted connection respectively in the front on baffle and backplate, preceding specification supporting shoe and back specification supporting shoe clearance fit respectively in right spout and left spout, fixed stop, preceding baffle and backplate all pass through bolted connection on the support piece, the lower extreme sliding connection of support piece is on the base angle fixed plate, fixed stop's lower extreme fixed connection base angle fixed plate is last, be provided with a plurality of rag bolt holes on the base angle fixed plate.

The technical scheme provided by the invention has the following beneficial effects that compared with the prior art, the pipeline to be installed is placed on the upper supporting seat, the upper supporting seat is connected with the rack supporting connecting rod through the transverse connecting beam, the rack supporting connecting rod and the transverse connecting beam are connected in the base for manual connection, the rack supporting connecting rod is driven to be pushed by the driving device to push the upper supporting seat to move upwards, and meanwhile, the plurality of rack supporting connecting rods are connected with the plurality of transverse connecting beams for high-level connection, so that the pipeline is transported from a low position to a high position and plays a supporting role, the plurality of devices are used simultaneously, the height position is convenient to fix, and meanwhile, the pipeline and the flange are convenient to be installed in a centering way.

Drawings

FIG. 1 is a schematic structural view of a state of use of the present invention;

FIG. 2 is a schematic overall structure of the present invention;

FIG. 3 is a first schematic structural view of the upper support base of the present invention;

FIG. 4 is a second schematic structural view of the upper support base of the present invention;

FIG. 5 is a partially enlarged view of the connection slot of the present invention;

FIG. 6 is a first structural schematic diagram of the rack support extension bar of the present invention;

FIG. 7 is a second structural view of the rack support link of the present invention;

FIG. 8 is a first schematic structural view of a transverse connecting beam of the present invention;

FIG. 9 is a second structural schematic view of the transverse connecting beam of the present invention;

FIG. 10 is a third structural schematic view of the transverse connecting beam of the present invention;

FIG. 11 is a schematic structural view of a base of the present invention;

fig. 12 is a schematic structural view of the driving device of the present invention.

In the figure: an upper support base 1; an arc-shaped support plate 1-1; supporting the baffle frame 1-2; a left lower rack support plate 1-3; a lower right rack support plate 1-4; 1-5 of a sliding fixed block; 1-6 of an arc chute; connecting slots 1-7; a rack support link rod 2; a left connecting rack plate 2-1; a right connecting rack plate 2-2; 2-3 of a lower sliding fixed block; inserting plate fixing slots 2-4; the upper connecting stop block 2-5; connecting slots I2-6; a transverse connecting beam 3; a left connecting plate 3-1; 3-2 of a right connecting plate; fixedly connecting the plugboards 3-3; fixedly connecting baffle plates 3-4; 3-5 of a right plate chute; 3-6 of a left plate chute; 3-7 of a sliding shaft; 3-8 parts of beam supporting blocks; 3-9 parts of a blocking inserting plate; a base 4; a support block 4-1; 4-2 of a left chute; 4-3 of a right chute; 4-4 of a left fixed chute; 4-5 of a right fixed chute; 4-6 of main gear groove; 4-7 of the secondary gear groove; 4-8 parts of right gear groove; 4-9 parts of a left gear groove; a drive device 5; a fixed baffle 5-1; 5-2 of a rotating shaft; 5-3 of a rotating shaft; 5-4 of a rotating shaft III; 5-5 parts of a rotating shaft IV; 5-6 of a driving motor; 5-7 parts of right gear; 5-8 parts of a main gear; 5-9 parts of driven gear; 5-10 parts of a left gear; 5-11 parts of a front baffle plate; 5-12 parts of a rear baffle plate; 5-13 parts of front specification supporting block; 5-14 parts of rear specification supporting block; and bottom corner fixing plates 5-15.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1 to 12, a single pipe supporting structure for buildings comprises an upper supporting seat 1, a rack supporting extension rod 2, a transverse connecting beam 3, a base 4 and a driving device 5, wherein the transverse connecting beam 3 is in clearance fit with the upper supporting seat 1 and the rack supporting extension rod 2, the rack supporting extension rod 2 is slidably connected with the base 4, and the driving device 5 is fixedly connected with the base 4. The pipeline that will need the installation is placed on upper support seat 1, upper support seat 1 connects pole 2 through transverse connection crossbeam 3 with the rack support, the rack support connects pole 2 and transverse connection crossbeam 3 to carry out manual connection in base 4, drive rack support through drive arrangement 5 and connect pole 2 to promote upper support seat 1 upward displacement, connect pole 2 and a plurality of transverse connection crossbeam 3 to connect through a plurality of rack supports simultaneously and carry out the link up of height, and then realize transporting the pipeline to the eminence by the low department, play the supporting role simultaneously, a plurality of devices use simultaneously, the high position's of being convenient for is fixed, also make things convenient for pipeline and pipeline simultaneously, centering installation between pipeline and the flange.

The second embodiment is as follows:

as shown in fig. 1 to 12, the embodiment further illustrates the first embodiment, the upper supporting seat 1 includes an arc-shaped supporting plate 1-1, a supporting blocking frame 1-2, a left lower rack supporting plate 1-3, a right lower rack supporting plate 1-4, sliding fixing blocks 1-5, arc-shaped chutes 1-6 and connecting slots 1-7, the arc-shaped chutes 1-6 are disposed at the lower end of the arc-shaped supporting plate 1-1, the supporting blocking frame 1-2 is fixedly connected to the lower end of the arc-shaped supporting plate 1-1, the upper ends of the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 are both slidably connected in the arc-shaped chutes 1-6, two sliding fixing blocks 1-5 are disposed, the two sliding fixing blocks 1-5 are respectively and fixedly connected to the left end of the left lower rack supporting plate 1-3 and the right end of the right lower rack supporting plate 1-4, the lower ends of the left lower rack support plate 1-3 and the right lower rack support plate 1-4 are respectively provided with a connecting slot 1-7. The rack supporting connecting rod 2 pushes the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 to move upwards, meanwhile, due to the trapezoidal mechanism, the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 move towards the middle on the arc-shaped chute 1-6, and when the left lower rack supporting plate 1-3 is contacted with the right lower rack supporting plate 1-4, the arc-shaped supporting plate 1-1 can rise to the highest height; the left lower rack support plate 1-3 and the right lower rack support plate 1-4 are connected in the arc-shaped sliding groove 1-6 in a sliding mode through pulleys, and the supporting baffle frame 1-2 plays a role in blocking protection.

The third concrete implementation mode:

as shown in fig. 1 to 12, the present embodiment further illustrates the second embodiment, the rack support connection rod 2 includes a left connection rack plate 2-1, a right connection rack plate 2-2, a lower fixed slide block 2-3, an insertion plate fixing slot 2-4, an upper connection block 2-5 and a connection slot i 2-6, two lower fixed slide blocks 2-3, two insertion plate fixing slots 2-4, two upper connection blocks 2-5 and two connection slots i 2-6 are provided, two lower fixed slide blocks 2-3 are respectively fixedly connected to the left end of the left connection rack plate 2-1 and the right end of the right connection rack plate 2-2, two insertion plate fixing slots 2-4 and two upper connection blocks 2-5 are respectively provided at the upper ends of the left connection rack plate 2-1 and the right connection rack plate 2-2, the two connecting slots I2-6 are respectively arranged at the lower ends of the left connecting rack plate 2-1 and the right connecting rack plate 2-2, and the connecting slots I2-6 and the connecting slots 1-7 are identical in structure.

The fourth concrete implementation mode:

as shown in FIGS. 1 to 12, in the third embodiment, the transverse connecting beam 3 includes a left connecting plate 3-1, a right connecting plate 3-2, a fixed connecting insertion plate 3-3, a fixed connecting baffle plate 3-4, a right plate sliding slot 3-5, a left plate sliding slot 3-6, a sliding shaft 3-7, a beam supporting block 3-8 and a blocking insertion plate 3-9, the right plate sliding slot 3-5 and the left plate sliding slot 3-6 are respectively disposed at the rear end of the right connecting plate 3-2 and the front end of the left connecting plate 3-1, the front end and the rear end of the sliding shaft 3-7 are respectively slidably connected in the right plate sliding slot 3-5 and the left plate sliding slot 3-6, the fixed connecting insertion plate 3-3 and the fixed connecting baffle plate 3-4 are both provided with two fixed connecting insertion plates 3-3, one end of which is respectively fixedly connected to the left connecting plate 3-1 and the right connecting plate 3-4 2, the other ends of the two fixed connecting inserting plates 3-3 are respectively in clearance fit in two inserting plate fixing slots 2-4, the front ends of the two fixed connecting baffle plates 3-4 are respectively and fixedly connected to the rear ends of the left connecting plate 3-1 and the right connecting plate 3-2, the two fixed connecting inserting plates 3-3 are respectively in clearance fit in the two inserting plate fixing slots 2-4, the two fixed connecting baffle plates 3-4 are respectively in clearance fit in the two connecting slots 1-7, the two fixed connecting baffle plates 3-4 are respectively attached to the two upper connecting baffle blocks 2-5, the left connecting plate 3-1 and the right connecting plate 3-2 are both in sliding connection in a cross beam supporting block 3-8, and the blocking inserting plates 3-9 are in clearance fit in the cross beam supporting block 3-8. A left connecting rack plate 2-1 and a right connecting rack plate 2-2 which are spare are placed in a support block 4-1 in a supporting block 4-1, a driving device 5 pushes the left connecting rack plate 2-1 and the right connecting rack plate 2-2 to displace upwards, and simultaneously two fixed connecting inserting plates 3-3, two fixed connecting baffle plates 3-4, two inserting plate fixing slots 2-4, two upper connecting baffle plates 2-5 and two connecting slots 1-7 at the left end and the right end of a left connecting plate 3-1 and a right connecting plate 3-2 are mutually connected, so that the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 are respectively connected with the left connecting rack plate 2-1 and the right connecting rack plate 2-2, the lifting of a pipeline is realized because of a trapezoidal structure, when the left connecting rack plate 2-1 and the right connecting rack plate 2-2 are respectively contacted with the beam supporting blocks 3-8, the left connecting rack plate and the right connecting rack plate are the highest height capable of being lifted, meanwhile, the beam supporting blocks 3-8 play a beam supporting role, and the beam supporting blocks 3-8 with different widths are selected for using the beam according to different heights of pipelines. The front end and the rear end of the sliding shaft 3-7 are provided with sliding blocks which are connected in the right plate sliding groove 3-5 and the left plate sliding groove 3-6 in a sliding manner, so that the fixation is realized.

The fifth concrete implementation mode:

as shown in fig. 1 to 12, the fourth embodiment is further explained in the present embodiment, the base 4 includes a support block 4-1, a left sliding groove 4-2, a right sliding groove 4-3, a left fixed sliding groove 4-4, a right fixed sliding groove 4-5, a main gear groove 4-6, a slave gear groove 4-7, a right gear groove 4-8 and a left gear groove 4-9, the left sliding groove 4-2, the right sliding groove 4-3, the left fixed sliding groove 4-4, the right fixed sliding groove 4-5, the main gear groove 4-6, the slave gear groove 4-7, the right gear groove 4-8 and the left gear groove 4-9 are all disposed in the support block 4-1, the left end of the left sliding groove 4-2 and the right end of the right sliding groove 4-3 are respectively communicated with the left fixed sliding groove 4-4 and the right fixed sliding groove 4-5, the left end and the right end of a main gear groove 4-6 are respectively communicated with a slave gear groove 4-7 and a right gear groove 4-8, the left end of the slave gear groove 4-7 is communicated with a left gear groove 4-9, the left end of the left gear groove 4-9 and the right end of the right gear groove 4-8 are respectively communicated with a left sliding groove 4-2 and a right sliding groove 4-3, a left connecting rack plate 2-1 and a right connecting rack plate 2-2 are respectively connected in the left sliding groove 4-2 and the right sliding groove 4-3 in a sliding mode, and two lower sliding fixing blocks 2-3 are respectively connected in the left fixing sliding groove 4-4 and the right fixing sliding groove 4-5 in a sliding mode. When the left connecting rack plate 2-1 and the right connecting rack plate 2-2 are required to be used for connection, the left connecting rack plate 2-1 and the right connecting rack plate 2-2 are placed in the left sliding groove 4-2 and the right sliding groove 4-3 and are driven by the gear of the driving device 5 to move upwards, and meanwhile, the connecting beam 3 is placed in for connection before the support block 4-1 is removed.

The sixth specific implementation mode:

as shown in fig. 1 to 12, in this embodiment, to further explain the fifth embodiment, the driving device 5 includes a fixed baffle 5-1, a rotating shaft i 5-2, a rotating shaft ii 5-3, a rotating shaft iii 5-4, a rotating shaft iv 5-5, a driving motor 5-6, a right gear 5-7, a main gear 5-8, a driven gear 5-9, a left gear 5-10, a front baffle 5-11, a rear baffle 5-12, a front specification supporting block 5-13, a rear specification supporting block 5-14, and a base angle fixing plate 5-15, wherein the rotating shaft i 5-2, the rotating shaft iii 5-4, and the rotating shaft iv 5-5 are all fixedly connected to the fixed baffle 5-1, the rotating shaft ii 5-3 is connected to a transmission shaft of the driving motor 5-6 through a coupling, the driving motor 5-6 is fixedly connected to the fixed baffle 5-1, a right gear 5-7, a master gear 5-8, a driven gear 5-9 and a left gear 5-10 are respectively and rotatably connected to a rotating shaft I5-2, a rotating shaft II 5-3, a rotating shaft III 5-4 and a rotating shaft IV 5-5, the master gear 5-8, the driven gear 5-9, the right gear 5-7 and the left gear 5-10 are respectively in clearance fit in a master gear groove 4-6, a slave gear groove 4-7, a right gear groove 4-8 and a left gear groove 4-9, the left and right ends of the master gear 5-8 are respectively meshed with the driven gear 5-9 and the right gear 5-7, the left end of the driven gear 5-9 is meshed with the left gear 5-10, the left end of the left gear 5-10 and the right end of the right gear 5-7 are respectively meshed with a left connecting rack plate 2-1 and a right connecting rack plate 2-2, the front gauge support blocks 5-13 and the rear gauge support blocks 5-14 are respectively connected to a front baffle 5-11 and a rear baffle 5-12 through bolts, the front gauge support blocks 5-13 and the rear gauge support blocks 5-14 are respectively in clearance fit in a right chute 4-3 and a left chute 4-2, the fixed baffle 5-1, the front baffle 5-11 and the rear baffle 5-12 are respectively connected to a support block 4-1 through bolts, the lower end of the support block 4-1 is slidably connected to a base angle fixing plate 5-15, the lower end of the fixed baffle 5-1 is fixedly connected to the base angle fixing plate 5-15, and a plurality of base bolt holes are formed in the base angle fixing plate 5-15. The right gear 5-7 and the left gear 5-10 synchronously drive the left connecting rack plate 2-1 and the right connecting rack plate 2-2 to move upwards to play a role of upward driving, meanwhile, the driving device 5 is fixed by a base angle bolt on a base angle fixing plate 5-15, after the lifted pipeline is at a specified height, a front specification supporting block 5-13 and a rear specification supporting block 5-14 with proper height are selected to be arranged at the lower ends of the left connecting rack plate 2-1 and the right connecting rack plate 2-2, and the fixed baffle plate 5-1, the front baffle plate 5-11 and the rear baffle plate 5-12 are fixed through bolts to realize the fixing of the pipeline supporting device. The rotary connection between the rotary bearing and the shaft is realized through the bearing and the clamp spring.

The working principle of the invention is as follows: placing a pipeline on an arc-shaped supporting plate 1-1, connecting a driving motor 5-6 with electricity, driving a main gear 5-8 to drive a right gear 5-7, a driven gear 5-9 and a left gear 5-10 to rotate by the aid of the rotating driving motor 5-6, respectively driving a left lower rack supporting plate 1-3 and a right lower rack supporting plate 1-4 to move upwards through a left chute 4-2, a right chute 4-3, a left fixed chute 4-4 and a right fixed chute 4-5 by the aid of the left gear 5-10 and the right gear 5-7, adding a left connecting rack plate 2-1 and a right connecting rack plate 2-2 through the left chute 4-2 and the right chute 4-3 to engage and support gears after the heights are insufficient, and connecting the left connecting rack plate 2-1 and the right connecting rack plate 2-2 through the left chute 4-2, The right chute 4-3, the left fixed chute 4-4 and the right fixed chute 4-5 move upwards, and simultaneously, before a support block 4-1 is not arranged at the joint, the two fixed connecting inserting plates 3-3 at the left and right ends of the left connecting plate 3-1 and the right connecting plate 3-2, the two fixed connecting baffle plates 3-4, the two inserting plate fixed slots 2-4, the two upper connecting baffle blocks 2-5 and the two connecting slots 1-7 are mutually connected, so that the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 are respectively connected and fixed with the left connecting rack plate 2-1 and the right connecting rack plate 2-2, and the pipeline is lifted because of the trapezoidal structure, when the left connecting rack plate 2-1 and the right connecting rack plate 2-2 are respectively contacted with the beam support block 3-8, the device can be lifted to the highest height, meanwhile, the beam supporting blocks 3-8 play a beam supporting role, the beam supporting blocks 3-8 with different widths are selected for using a beam according to different heights of pipelines, meanwhile, because of the trapezoidal mechanism, the left lower rack supporting plate 1-3 and the right lower rack supporting plate 1-4 displace towards the middle on the arc-shaped chute 1-6, and when the left lower rack supporting plate 1-3 is contacted with the right lower rack supporting plate 1-4, the device can be lifted to the highest height; when the pipeline is connected and the height of the pipeline is fixed, the front specification supporting block 5-13 and the rear specification supporting block 5-14 with proper heights are selected to be arranged at the lower ends of the left connecting rack plate 2-1 and the right connecting rack plate 2-2, so that the situation that a gear and a motor play a supporting role all the time and are unsafe to use for a long time is avoided, and the fixed baffle plate 5-1, the front baffle plate 5-11 and the rear baffle plate 5-12 are fixed through bolts, so that the pipeline supporting device is fixed.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.

Claims (1)

1. The utility model provides a single tube bearing structure for building, includes that upper support seat (1), rack support connect pole (2), transverse connection crossbeam (3), base (4) and drive arrangement (5), its characterized in that: the transverse connecting beam (3) is in clearance fit with the upper supporting seat (1) and the rack supporting connecting rod (2), the rack supporting connecting rod (2) is connected in the base (4) in a sliding manner, and the driving device (5) is fixedly connected to the base (4);

the upper supporting seat (1) comprises an arc supporting plate (1-1), a supporting baffle frame (1-2), a left lower rack supporting plate (1-3), a right lower rack supporting plate (1-4), sliding fixing blocks (1-5), arc sliding chutes (1-6) and connecting slots (1-7), wherein the arc sliding chutes (1-6) are arranged at the lower end of the arc supporting plate (1-1), the supporting baffle frame (1-2) is fixedly connected at the lower end of the arc supporting plate (1-1), the upper ends of the left lower rack supporting plate (1-3) and the right lower rack supporting plate (1-4) are respectively and slidably connected in the arc sliding chutes (1-6), the number of the sliding fixing blocks (1-5) is two, the two sliding fixing blocks (1-5) are respectively and fixedly connected at the left end of the left lower rack supporting plate (1-3) and the right end of the right lower rack supporting plate (1-4), the lower ends of the left lower rack support plate (1-3) and the right lower rack support plate (1-4) are provided with connecting slots (1-7);

the rack supporting connecting rod (2) comprises a left connecting rack plate (2-1), a right connecting rack plate (2-2), a lower sliding fixing block (2-3), an inserting plate fixing slot (2-4), an upper connecting stop block (2-5) and a connecting slot I (2-6), wherein the number of the lower sliding fixing block (2-3), the inserting plate fixing slot (2-4), the upper connecting stop block (2-5) and the connecting slot I (2-6) is two, the two lower sliding fixing blocks (2-3) are respectively and fixedly connected with the left end of the left connecting rack plate (2-1) and the right end of the right connecting rack plate (2-2), the two inserting plate fixing slots (2-4) and the two upper connecting stop blocks (2-5) are respectively arranged at the upper ends of the left connecting rack plate (2-1) and the right connecting rack plate (2-2), the two connecting slots I (2-6) are respectively arranged at the lower ends of the left connecting rack plate (2-1) and the right connecting rack plate (2-2), and the connecting slots I (2-6) and the connecting slots (1-7) have the same structure;

the base (4) comprises a support block (4-1), a left sliding chute (4-2), a right sliding chute (4-3), a left fixed sliding chute (4-4), a right fixed sliding chute (4-5), a main gear groove (4-6), a slave gear groove (4-7), a right gear groove (4-8) and a left gear groove (4-9), wherein the left sliding chute (4-2), the right sliding chute (4-3), the left fixed sliding chute (4-4), the right fixed sliding chute (4-5), the main gear groove (4-6), the slave gear groove (4-7), the right gear groove (4-8) and the left gear groove (4-9) are all arranged in the support block (4-1), the left end of the left sliding chute (4-2) and the right end of the right sliding chute (4-3) are respectively communicated with the left fixed sliding chute (4-4) and the right fixed sliding chute (4-5), the left end and the right end of the main gear groove (4-6) are respectively communicated with the slave gear groove (4-7) and the right gear groove (4-8), the left end of the slave gear groove (4-7) is communicated with the left gear groove (4-9), the left end of the left gear groove (4-9) and the right end of the right gear groove (4-8) are respectively communicated with the left sliding groove (4-2) and the right sliding groove (4-3), the left connecting rack plate (2-1) and the right connecting rack plate (2-2) are respectively connected in the left sliding groove (4-2) and the right sliding groove (4-3) in a sliding mode, and the two lower sliding fixing blocks (2-3) are respectively connected in the left fixing sliding groove (4-4) and the right fixing sliding groove (4-5) in a sliding mode.

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