阅读说明：本技术 一种用于建筑施工的非吊装拼接式钢筋输送装置 (A non-hoist and mount concatenation formula reinforcing bar conveyor for construction ) 是由 刘同华 于 2020-07-09 设计创作，主要内容包括：本发明公开了一种用于建筑施工的非吊装拼接式钢筋输送装置,涉及建筑施工技术领域,解决了目前使用的输送装置不便应用于施工现场的实时输送,输送装置的安全性不足,输送装置不变根据使用高度的需要进行方便快捷的组装延长的问题。一种用于建筑施工的非吊装拼接式钢筋输送装置,包括输送底板；所述输送底板还包括有预埋通道和连接柱；所述输送底板的底部一体式设置有预埋通道,且预埋通道的底部通过螺栓连接固定设置有装配座,通过设置有连接筒和橡胶轮,为输送装置提供了封闭的输送结构,可以通过封闭结构保护钢筋的输送过程,提高输送的安全性,同时橡胶轮的一侧均设置单向棘轮,可以避免钢筋脱落,进一步提升了钢筋输送的安全性。(The invention discloses a non-hoisting splicing type steel bar conveying device for building construction, relates to the technical field of building construction, and solves the problems that the existing conveying device is inconvenient to apply to real-time conveying on a construction site, the safety of the conveying device is insufficient, and the conveying device is not changed and is convenient and rapid to assemble and extend according to the requirement of the use height. A non-hoisting splicing type steel bar conveying device for building construction comprises a conveying bottom plate; the conveying bottom plate also comprises a pre-buried channel and a connecting column; the bottom integral type of carrying the bottom plate is provided with pre-buried passageway, and pre-buried passageway's bottom is through fixed assembly seat that is provided with of bolted connection, through being provided with connecting cylinder and rubber pulley, provides confined transport structure for conveyor, can improve the security of carrying through the transportation process of enclosed construction protection reinforcing bar, and one side of rubber pulley all sets up one-way ratchet simultaneously, can avoid the reinforcing bar to drop, has further promoted the security of bar feed.)

1. The utility model provides a non-hoist and mount concatenation formula reinforcing bar conveyor for construction which characterized in that: comprises a conveying bottom plate (1); the conveying bottom plate (1) further comprises a pre-buried channel (101) and a connecting column (105); the bottom of the conveying bottom plate (1) is integrally provided with an embedded channel (101), the embedded channel (101) is of a square structure, and the bottom of the embedded channel (101) is fixedly provided with an assembling seat (2) through bolt connection; five groups of connecting columns (105) are fixedly arranged on two sides of the top of the conveying bottom plate (1), and the top of each connecting column (105) is connected with a top plate (3); the top of the top plate (3) is fixedly provided with a connecting cylinder (4) through a bolt; the side of each connecting cylinder (4) is uniformly provided with an assembly structure, the connecting cylinders (4) can penetrate through the assembly structures through bolts to be fixedly connected, and an interval assembly plate (9) is fixedly arranged between every two adjacent groups of connecting cylinders (4); one side of the group of connecting cylinders (4) at the bottommost part is fixedly provided with a motor (8); the top of the connecting cylinder (4) is fixedly provided with a top cover (10) through a bolt, the middle of the top cover (10) is integrally provided with a cylinder structure, and the inner side of the bottom of the cylinder structure is chamfered.

2. The non-hoisting spliced reinforcement conveying device for building construction according to claim 1, wherein: the conveying bottom plate (1) also comprises a sliding connecting row (102), an inserting cylinder (103) and a sliding groove (104); guide rails are fixedly arranged on two sides of the top of the communication part of the conveying bottom plate (1) and the embedded channel (101), and a sliding connecting row (102) is arranged outside the guide rails in a sliding mode through sliding blocks; the sliding connecting row (102) is of a U-shaped structure, and a handle structure is fixedly arranged on the front side of the sliding connecting row (102) outwards; the inner end of the front side of the sliding continuous row (102) is integrally provided with a cylindrical structure; sliding grooves (104) are uniformly formed in the two sides of the top of the inserting cylinder (103), and cylinders on the two sides of the sliding continuous row (102) are arranged in the sliding grooves (104) in a sliding mode; a connecting shaft structure is integrally arranged at the bottom of the embedded channel (101); a groove is formed in the middle of the top of the assembling seat (2), and the bottom of the embedded channel (101) is rotatably arranged in the groove in the top of the assembling seat (2) through a rotating shaft.

3. The non-hoisting spliced reinforcement conveying device for building construction according to claim 1, wherein: the top plate (3) further comprises a U-shaped groove (301) and a guide cylinder (302); a U-shaped groove (301) is formed in the middle of the front side of the top plate (3); a guide cylinder (302) is integrally arranged in the middle of the top plate (3), and the inner side of the bottom of the guide cylinder (302) is subjected to fillet treatment.

4. The non-hoisting spliced reinforcement conveying device for building construction according to claim 1, wherein: three rows of rubber wheels (5) are transversely and rotatably arranged in the connecting cylinder (4), two groups of rubber wheels (5) are arranged in each row, and two groups of rubber wheels (5) are longitudinally and rotatably arranged at the top of each row of rubber wheels (5); the adjacent two groups of the rubber wheels (5) are in gear engagement transmission connection through a rotating shaft arranged on one side, and the rotating shaft of the rubber wheel (5) transversely arranged at the bottommost part of the connecting cylinder (4) in the lowest group extends outwards and is in transmission connection with the motor (8).

5. The non-hoisting spliced reinforcement conveying device for building construction according to claim 4, wherein: the rubber wheel (5) also comprises a synchronous belt A (501) and a one-way ratchet wheel (502); the rubber wheels (5) transversely arranged at the uppermost row of the connecting cylinder (4) are in transmission connection with the outer ends of two groups of rotating shafts at the rear side of the rubber wheels (5) transversely arranged at the middle row through a synchronous belt A (501); the rubber wheels (5) transversely arranged in the middle of one row of the connecting cylinder (4) are in transmission connection with the outer ends of two groups of rotating shafts on the rear side of the rubber wheels (5) transversely arranged in the lowest row through a synchronous belt A (501); one group of rotating shafts of each row of rubber wheels (5) in the connecting cylinder (4) are connected with a one-way ratchet wheel (502) through keys and are rotationally connected with the inner wall of the connecting cylinder (4); the middle lower sides of the connecting cylinders (4) are fixedly provided with middle plates (6); the driven gear is arranged on the inner side of the top of the connecting cylinder (4) in a rotating mode through a rotating shaft, the driven gear is consistent with a gear on one side of the rubber wheel (5), and the driven gear is meshed with a group of gears on the upper front side of the rubber wheel (5).

6. The non-hoisting spliced reinforcement conveying device for building construction according to claim 5, wherein: the middle plate (6) also comprises a transmission short shaft (601); the middle of the middle plate (6) is rotatably provided with a cleaning and grinding cylinder (7) through a bearing; one side of the middle plate (6) is rotatably provided with a transmission short shaft (601) through a bearing, and the tops of the transmission short shafts (601) are in transmission connection with a rotating shaft of a group of rubber wheels (5) through bevel gears; the outer sides of the transmission short shafts (601) are respectively provided with a synchronous belt which is in transmission connection with the cleaning and grinding cylinder (7); the cleaning and grinding barrel (7) is internally provided with nylon brushes.

7. The non-hoisting spliced reinforcement conveying device for building construction according to claim 1, wherein: the interval assembly plate (9) further comprises a double-sided shaft bracket (901) and a synchronous belt B (902); round hole structures are formed in the middle of the interval assembling plates (9), and the inner sides of the bottoms of the round hole structures are rounded; a square through groove is formed in one side of the rear portion of the interval assembling plate (9), and a double-faced shaft bracket (901) is fixedly arranged at the inner end of the outer side of each square through groove; gears are rotatably arranged at two ends of the double-sided shaft bracket (901) through rotating shafts, and the gears at two sides of the double-sided shaft bracket (901) are consistent with the gears of the rubber wheel (5); two side rotating shafts of the double-sided shaft bracket (901) are in transmission connection through a synchronous belt B (902), and the synchronous belt B (902) penetrates through the square through groove of the interval assembly plate (9).

8. The non-hoisting spliced reinforcement conveying device for building construction according to claim 1, wherein: when the interval assembling plate (9) is assembled, a group of gears at the top of the double-sided shaft bracket (901) are meshed with a group of gears of the rubber wheels (5) at the front side of the bottom of the connecting cylinder (4); when the interval assembling plate (9) is assembled, a group of gears at the bottom of the double-sided shaft bracket (901) are meshed with the driven gear on the inner side of the top of the connecting cylinder (4).

Technical Field

The invention relates to the technical field of building construction, in particular to a non-hoisting splicing type steel bar conveying device for building construction.

Background

Reinforcing steel bars (rebars) are steel materials for reinforced concrete and prestressed reinforced concrete, and have a circular cross section, and sometimes a square cross section with rounded corners. Comprises plain round steel bars, ribbed steel bars and twisted steel bars. The reinforcing steel bar for reinforced concrete is straight bar or wire rod-shaped steel for reinforcing steel bar for reinforced concrete, the shape of the reinforcing steel bar is smooth steel bar and deformed steel bar, and the delivery state is straight bar and wire rod.

A patent, for example, with patent No. CN102554077B, has been searched for, and discloses a moving conveyor mechanism in a reinforcing bar conveying device, the moving conveyor mechanism including: a frame; a plurality of conveying rollers hinged on the frame; drive a plurality of conveying roller pivoted power drive mechanism, still be provided with the removal conveying mechanism who holds up the reinforcing bar removal in the frame, remove conveying mechanism includes: the steel bar supporting device is characterized by comprising a roller frame which is arranged between conveying rollers and used for supporting steel bars, wherein the roller frame is connected with a crank mechanism, and the crank mechanism is arranged on the rack. The invention has the beneficial effects that: the invention overcomes the defects of the prior art, the roller frame is driven by the crank mechanism to support the reinforcing steel bar from the lower surface of the conveying roller, and then the supported reinforcing steel bar is transferred to a position suitable for conveniently taking the reinforcing steel bar in the direction of the reinforcing steel bar processing equipment and stopped. The invention provides convenience for operators of the steel bar processing equipment, and has the advantages of high automation degree, simple structure, stable work, labor saving and high processing efficiency.

For another example, patent No. CN105417051B discloses a steel reinforcement cage hanger transportation device, which comprises two sets of support beam assemblies, wherein the support beam assemblies comprise a row of upright posts and horizontal support beams connected to the top ends of the row of upright posts, the two horizontal support beams are arranged in parallel with the same height, a plurality of sets of roller components are symmetrically arranged on the opposite side surfaces of the two horizontal supporting beams respectively, a plurality of friction driving devices are arranged on one set of the supporting beam components, each friction driving device comprises a friction wheel and a motor reducer used for driving the friction wheel, the friction wheels and the rollers on the corresponding supporting beam components are positioned on the same side of the supporting beam components, the distance between every two adjacent friction wheels is not more than the length of a steel bar net cage hanging bracket to be conveyed, when the friction wheels rotate, the friction force applied to the steel bar net cage hanging frame through the steel bar net cage hanging frame pushes the steel bar net cage hanging frame to move, and the steel bar net cage hanging frame is conveyed. The steel bar net cage hanging bracket can be continuously conveyed and progressively conveyed, the conveying speed and the production efficiency of the aerated concrete plates are improved, and the production cost is reduced.

However, the conveying device used at present is inconvenient to be applied to real-time conveying of a construction site, the safety of the conveying device is insufficient, the conveying device is not convenient and fast to assemble and prolong according to the requirement of the use height, and a function of synchronously cleaning and polishing reinforcing steel bars in the conveying process is not provided in a general conveying device, so that the existing requirement is not met, and a non-hoisting splicing type reinforcing steel bar conveying device for building construction is provided.

Disclosure of Invention

Problem (A)

The invention aims to provide a non-hoisting splicing type steel bar conveying device for building construction, and aims to solve the problems that the conventional conveying device provided in the background art is inconvenient to apply to real-time conveying on a construction site, the safety of the conveying device is insufficient, the conveying device is not required to be conveniently and quickly assembled and lengthened according to the requirement of the use height, and a common conveying device does not have the function of synchronously cleaning and polishing steel bars in the conveying process.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a non-hoisting splicing type steel bar conveying device for building construction comprises a conveying bottom plate; the conveying bottom plate also comprises a pre-buried channel and a connecting column; the bottom of the conveying bottom plate is integrally provided with an embedded channel, the embedded channel is of a square structure, and the bottom of the embedded channel is fixedly provided with an assembling seat through bolt connection; five groups of connecting columns are fixedly arranged on two sides of the top of the conveying bottom plate, and the top of each connecting column is connected with a top plate; the top of the top plate is fixedly provided with a connecting cylinder through a bolt; the side edges of the connecting cylinders are integrally provided with an assembly structure, the connecting cylinders can penetrate through the assembly structure through bolts to be fixedly connected, and an interval assembly plate is fixedly arranged between every two adjacent groups of connecting cylinders; one side of the group of connecting cylinders at the bottommost part is fixedly provided with a motor; the top of connecting cylinder is provided with the top cap through the bolt fastening, and the centre integral type of top cap is provided with the drum structure, and the inboard radius angle of bottom of drum structure is handled.

Preferably, the conveying bottom plate further comprises a sliding connecting row, an inserting cylinder and a sliding groove; guide rails are fixedly arranged on two sides of the top of the communication part of the conveying bottom plate and the embedded channel, and sliding connecting rows are arranged outside the guide rails in a sliding mode through sliding blocks; the sliding connecting row is of a U-shaped structure, and a handle structure is fixedly arranged outside the front side of the sliding connecting row; the inner ends of the front sides of the sliding connected rows are uniformly provided with cylindrical structures in a whole manner; sliding grooves are uniformly formed in the two sides of the top of the inserting cylinder, and cylinders on the two sides of the sliding continuous row are arranged in the sliding grooves in a sliding mode; a connecting shaft structure is integrally arranged at the bottom of the embedded channel; a groove is formed in the middle of the top of the assembling seat, and the bottom of the embedded channel is rotatably arranged in the groove in the top of the assembling seat through a rotating shaft.

Preferably, the top plate further comprises a U-shaped groove and a guide cylinder; a U-shaped groove is formed in the middle of the front side of the top plate; a guide cylinder is integrally arranged in the middle of the top plate, and the inner side of the bottom of the guide cylinder is subjected to fillet treatment.

Preferably, three rows of rubber wheels are transversely and rotatably arranged in the connecting cylinder, two groups of rubber wheels are arranged in each row, and two groups of rubber wheels are longitudinally and rotatably arranged at the top of each row of rubber wheels; adjacent two groups of rubber wheels are meshed with each other through a gear arranged outside a rotating shaft on one side and are in transmission connection, and a rubber wheel shaft transversely arranged at the bottommost part of the connecting cylinder on the lowest group extends outwards and is in transmission connection with a motor.

Preferably, the rubber wheel further comprises a synchronous belt A and a one-way ratchet wheel; the outer ends of two groups of rotating shafts on the rear side of the rubber wheel transversely arranged on the uppermost row of the connecting cylinder and the rubber wheel transversely arranged on the middle row of the connecting cylinder are in transmission connection by arranging a synchronous belt A; the outer ends of two groups of rotating shafts at the rear side of one row of transversely arranged rubber wheels in the middle of the connecting cylinder and the outer ends of two groups of transversely arranged rubber wheels at the lowermost row of transversely arranged rubber wheels are in transmission connection through a synchronous belt A; one group of rotating shafts of each row of rubber wheels in the connecting cylinder are externally connected with a one-way ratchet wheel which is rotationally connected with the inner wall of the connecting cylinder through key connection; the middle lower sides of the connecting cylinders are fixedly provided with middle plates; the top inboard of connecting cylinder has driven gear through the pivot rotation, and driven gear is unanimous with one side gear of rubber wheel, and driven gear and the last front side gear engagement of a set of rubber wheel.

Preferably, the middle plate further comprises a transmission short shaft; the middle of the middle plate is rotatably provided with a cleaning and grinding cylinder through a bearing; one side of the middle plate is rotatably provided with a transmission short shaft through a bearing, and the tops of the transmission short shafts are in transmission connection with a rotating shaft of a group of rubber wheels through bevel gears; the outer sides of the transmission short shafts are respectively provided with a synchronous belt which is in transmission connection with the cleaning and grinding cylinder; and nylon brushes are arranged in the cleaning and grinding cylinders.

Preferably, the interval assembly plate further comprises a double-sided shaft bracket and a synchronous belt B; round hole structures are formed in the middle of the interval assembling plates, and the inner sides of the bottoms of the round hole structures are subjected to fillet treatment; a square through groove is formed in one side of the rear part of each interval assembly plate, and a double-faced shaft bracket is fixedly arranged at the inner end of the outer side of each square through groove; gears are rotatably arranged at two ends of the double-sided shaft bracket through rotating shafts, and the gears at two sides of the double-sided shaft bracket are consistent with the gears of the rubber wheels; the two-side rotating shaft of the double-side shaft bracket is in transmission connection through a synchronous belt B, and the synchronous belt B penetrates through the square through groove of the interval assembly plate.

Preferably, a group of gears at the top of the double-sided shaft bracket are meshed with a group of gears of the rubber wheels at the front side of the bottom of the connecting cylinder during assembly of the interval assembly plate; and a group of gears at the bottom of the double-sided shaft bracket are meshed with the driven gear on the inner side of the top of the connecting cylinder during assembly of the interval assembly plate.

(III) advantageous effects

The invention provides a non-hoisting splicing type steel bar conveying device for building construction, which is provided with a connecting cylinder and a rubber wheel, so that a closed conveying structure is provided for the conveying device, the conveying process of steel bars can be protected through the closed structure, the conveying safety is improved, meanwhile, one side of the rubber wheel is provided with a one-way ratchet wheel, the steel bars can be prevented from falling off, and the conveying safety of the steel bars is further improved.

Secondly, the setting of connecting cylinder and interval assembly plate provides extending structure for conveyor, can assemble the concatenation with two sets of connecting cylinders through the interval assembly plate to utilize the rubber tyer of gear and hold-in range B in with two sets of connecting cylinders to carry out the transmission and connect at the in-process of concatenation, can increase the quantity of connecting cylinder as required and promote the mounting height and realize the transmission and connect, provide convenience for conveyor.

Moreover, the arrangement of the embedded channel and the inserting barrel provides convenience for the conveying device, when the reinforcing steel bars need to be inserted, the reinforcing steel bars can be inserted into the inserting barrel to be jacked, and the inserting barrel can rotate and is convenient to insert; meanwhile, due to the arrangement of the pre-buried channel, the stability of the conveying device is improved.

In addition, the setting of a clean grinding cylinder provides clean function for conveyor, and at the rotatory in-process of rubber wheel, can drive a clean grinding cylinder through bevel gear cooperation transmission minor axis and continuously rotate, carry out the continuous cleaning to the surface of reinforcing bar and polish, sweep the outer spot of reinforcing bar.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective exploded view of an embodiment of the present invention;

FIG. 3 is a perspective view of a connector barrel according to an embodiment of the present invention;

FIG. 4 is a schematic view of the internal perspective of a connector barrel according to an embodiment of the present invention;

FIG. 5 is a schematic bottom view of the interior of the connector barrel according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a pre-buried channel according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a cleaning barrel according to an embodiment of the present invention;

FIG. 8 is a schematic perspective view of a spacer mounting plate according to an embodiment of the present invention;

in fig. 1 to 8, the correspondence between the part names or lines and the reference numbers is:

1. a conveying bottom plate; 101. pre-burying a channel; 102. sliding and connecting the rows; 103. inserting the cylinder; 104. a chute; 105. connecting columns; 2. assembling a seat; 3. a top plate; 301. a U-shaped groove; 302. a guide cylinder; 4. a connecting cylinder; 5. a rubber wheel; 501. a synchronous belt A; 502. a one-way ratchet; 6. a middle plate; 601. a drive stub shaft; 7. cleaning and grinding the cylinder; 8. a motor; 9. assembling plates at intervals; 901. a double-sided shaft bracket; 902. a synchronous belt B; 10. and a top cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a non-hoisting splicing type steel bar conveying device for building construction comprises a conveying bottom plate 1; the conveying bottom plate 1 also comprises a pre-buried channel 101 and a connecting column 105; the bottom of the conveying bottom plate 1 is integrally provided with an embedded channel 101, the embedded channel 101 is of a square structure, and the bottom of the embedded channel 101 is fixedly provided with an assembly seat 2 through bolt connection; wherein, the conveying bottom plate 1 also comprises a sliding connecting row 102, an inserting cylinder 103 and a sliding groove 104; guide rails are fixedly arranged on two sides of the top of the communication part of the conveying bottom plate 1 and the embedded channel 101, and a sliding connecting row 102 is arranged outside the guide rails in a sliding mode through sliding blocks; the sliding connecting row 102 is of a U-shaped structure, and a handle structure is fixedly arranged outside the front side of the sliding connecting row 102; the inner end of the front side of the sliding connecting row 102 is integrally provided with a cylindrical structure; sliding grooves 104 are uniformly formed in the two sides of the top of the inserting cylinder 103, and cylinders on the two sides of the sliding continuous row 102 are arranged in the sliding grooves 104 in a sliding mode; a connecting shaft structure is integrally arranged at the bottom of the embedded channel 101; a groove is formed in the middle of the top of the assembling seat 2, and the bottom of the pre-buried channel 101 is rotatably arranged in the groove in the top of the assembling seat 2 through a rotating shaft; five groups of connecting columns 105 are fixedly arranged on two sides of the top of the conveying bottom plate 1, and the top of each connecting column 105 is connected with a top plate 3; wherein, the top plate 3 also comprises a U-shaped groove 301 and a guide cylinder 302; a U-shaped groove 301 is formed in the middle of the front side of the top plate 3; a guide cylinder 302 is integrally arranged in the middle of the top plate 3, and the inner side of the bottom of the guide cylinder 302 is subjected to rounding treatment; the top of the top plate 3 is fixedly provided with a connecting cylinder 4 through a bolt; three rows of rubber wheels 5 are transversely and rotatably arranged in the connecting cylinder 4, the number of each row of rubber wheels 5 is two, and two rows of rubber wheels 5 are longitudinally and rotatably arranged at the top of each row of rubber wheels 5; wherein, the rubber wheel 5 also comprises a synchronous belt A501 and a one-way ratchet 502; the rubber wheels 5 transversely arranged at the uppermost column of the connecting cylinder 4 and the outer ends of two groups of rotating shafts at the rear side of the rubber wheels 5 transversely arranged at the middle column are in transmission connection by arranging a synchronous belt A501; the rubber wheels 5 transversely arranged in the middle of one row of the connecting cylinder 4 are in transmission connection with the outer ends of two groups of rotating shafts at the rear side of the rubber wheels 5 transversely arranged in the lowest row through a synchronous belt A501; one group of rotating shafts of each row of rubber wheels 5 in the connecting cylinder 4 are connected with a one-way ratchet 502 which is rotationally connected with the inner wall of the connecting cylinder 4 through keys; the middle lower sides of the connecting cylinders 4 are fixedly provided with middle plates 6; wherein, the middle plate 6 also comprises a transmission short shaft 601; the middle of the middle plate 6 is rotatably provided with a cleaning and grinding cylinder 7 through a bearing; one side of the middle plate 6 is rotatably provided with a transmission short shaft 601 through a bearing, and the tops of the transmission short shafts 601 are in transmission connection with a rotating shaft of a group of rubber wheels 5 through bevel gears; the outer sides of the transmission short shafts 601 are respectively provided with a synchronous belt which is in transmission connection with the cleaning and grinding cylinder 7; nylon brushes are arranged inside the cleaning and grinding cylinder 7; a driven gear is rotatably arranged on the inner side of the top of the connecting cylinder 4 through a rotating shaft, the driven gear is consistent with a gear on one side of the rubber wheel 5, and the driven gear is meshed with a group of gears on the upper front side of the rubber wheel 5; two adjacent groups of the rubber wheels 5 are in meshing transmission connection through a gear arranged outside a rotating shaft at one side, and a rotating shaft of the rubber wheel 5 transversely arranged at the bottommost part of the connecting cylinder 4 at the lowest group extends outwards and is in transmission connection with a motor 8; the side edges of the connecting cylinders 4 are uniformly provided with an assembly structure in a whole manner, the connecting cylinders 4 can penetrate through the assembly structure through bolts to be fixedly connected, and an interval assembly plate 9 is fixedly arranged between every two adjacent groups of connecting cylinders 4; one side of the group of connecting cylinders 4 at the bottommost part is fixedly provided with a motor 8; the top of connecting cylinder 4 is provided with top cap 10 through the bolt fastening, and the centre integral type of top cap 10 is provided with the drum structure, and the inboard radius angle in bottom of drum structure is handled.

The interval assembly plate 9 further comprises a double-sided shaft bracket 901 and a synchronous belt B902; round hole structures are formed in the middle of the interval assembly plates 9, and the inner sides of the bottoms of the round hole structures are subjected to fillet treatment; a square through groove is formed in one side of the rear portion of the interval assembling plate 9, and a double-faced shaft bracket 901 is fixedly arranged at the inner end of the outer side of each square through groove; gears are rotatably arranged at two ends of the double-sided shaft bracket 901 through rotating shafts, and the gears at two sides of the double-sided shaft bracket 901 are consistent with the gears of the rubber wheel 5; two-sided pedestal 901's both sides pivot is connected through setting up hold-in range B902 transmission, and hold-in range B902 passes the square through groove of interval assembly plate 9.

When the interval assembling plate 9 is assembled, a group of gears at the top of the double-sided shaft bracket 901 are meshed with a group of gears of the rubber wheels 5 at the front side of the bottom of the connecting cylinder 4; when the interval assembling plate 9 is assembled, a group of gears at the bottom of the double-sided shaft bracket 901 are meshed with a driven gear on the inner side of the top of the connecting cylinder 4.

The working principle is as follows: before use, the pre-buried channel 101 is pre-arranged in an underground position of a construction place and is filled with soil for fixation; when the steel bar inserting device is used, the sliding connecting row 102 is pulled forwards, a group of steel bars are inserted into the inserting cylinder 103, then the sliding connecting row 102 is pushed to the rear, the steel bars are pulled upwards by manually pulling the guide cylinder 302, the steel bars penetrate through the guide cylinder 302 and are inserted into the rubber wheel 5, and locking is carried out through the rubber deformation capacity of the rubber wheel 5.

Starting a motor 8, wherein the motor 8 can drive one group of rubber wheels 5 to rotate through a bevel gear, the rubber wheels 5 drive the other two groups of rubber wheels 5 to rotate through a synchronous belt A501, and meanwhile, the rubber wheels 5 drive the rubber wheels 5 in the same row to rotate through gears, so that the transversely arranged groups of rubber wheels 5 rotate to lift the reinforcing steel bars and finally convey the reinforcing steel bars to a building floor; the number of the connecting cylinders 4 can be increased after the building of the floor is finished to promote the processing position.

At the rotatory in-process of horizontal rubber wheel 5, drive transmission minor axis 601 through bevel gear and continuously rotate, and then drive a clean grinding section of thick bamboo 7 and continuously rotate, utilize the nylon brush in the clean grinding section of thick bamboo 7 to clear up the friction to the surface of reinforcing bar when the reinforcing bar passes clean grinding section of thick bamboo 7, clear away the outer spot of reinforcing bar, finally the reinforcing bar is discharged from top cap 10 and is accomplished the transport.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.