CN212953968U - Anticorrosive device of aerated concrete panel reinforcing bar cylinder mould - Google Patents

Abstract

The utility model relates to an anticorrosive device of aerated concrete panel reinforcing bar cylinder mould, it includes anticorrosive pond and the parking frame that is used for placing reinforcing bar net piece or reinforcing bar cylinder mould, the equal level in both sides that anticorrosive pond is relative is provided with a slide rail, two the slide rail is parallel to each other, just the parking frame is located two between the slide rail, the length direction horizontal migration along the slide rail on the slide rail is provided with the extraction frame, the length direction perpendicular to of extraction frame the length direction of slide rail, be provided with the lift piece that the drive was put up vertical lift on the slide rail, just be provided with the holder that is used for centre gripping reinforcing bar cylinder mould on the extraction frame. This application is in order to have the effect of being convenient for improve work efficiency.

Description

Anticorrosive device of aerated concrete panel reinforcing bar cylinder mould

Technical Field

The application relates to the field of concrete board production and processing equipment, in particular to an anticorrosive device for an aerated concrete board reinforcement cage.

Background

The autoclaved aerated concrete slab is produced by taking cement, lime, silica sand and the like as main raw materials, adding different quantities of anticorrosive steel bar meshes according to structural requirements, curing at high temperature and high pressure by steam, and reacting, and has the advantages of low density compared with common cement materials, good fire resistance, good sound insulation, good heat preservation and other unparalleled performances.

When the steel bar mesh or the steel bar mesh cage needs to be subjected to anti-corrosion treatment, the manufactured steel bar mesh or the manufactured steel bar mesh cage is placed into the anti-corrosion pool, the steel bar mesh cage is usually hung on the rack by a worker and then placed into the anti-corrosion pool, and in a workshop with large production capacity, the defects of time consumption, high labor consumption and low working efficiency are overcome.

SUMMERY OF THE UTILITY MODEL

In order to have the effect of being convenient for improve work efficiency, this application provides an aerated concrete panel steel reinforcement cylinder mould's anticorrosive device.

The application provides a pair of anticorrosive device of aerated concrete panel reinforcing bar cylinder mould adopts following technical scheme:

the utility model provides an anticorrosive device of aerated concrete panel reinforcing bar cylinder mould, includes anticorrosive pond and the parking frame that is used for placing reinforcing bar net piece or reinforcing bar cylinder mould, the equal level in both sides that anticorrosive pond is relative is provided with a slide rail, two the slide rail is parallel to each other, just the parking frame is located two between the slide rail, the length direction horizontal migration along the slide rail on the slide rail is provided with and draws the frame, the length direction perpendicular to that draws the frame the length direction of slide rail, be provided with the drive on the slide rail and draw the lift piece of the vertical lift of frame, just it is provided with the holder that is used for centre gripping reinforcing bar cylinder mould on the frame to draw.

Through adopting above-mentioned technical scheme, can accomodate on the parking frame after reinforcing bar net piece or reinforcing bar cylinder mould processing finish, the drive is drawed the frame and is removed to the parking frame along the slide rail level, then will draw the vertical downstream of frame through the lifting unit, and carry out the centre gripping with reinforcing bar net piece or reinforcing bar cylinder mould through the holder, then the drive is drawed the frame and is moved to anticorrosive pond directly over, and again through the lifting unit with reinforcing bar net piece and the vertical downstream of reinforcing bar cylinder mould go into in the anticorrosive pond and soak, will draw the frame through the lifting unit after finishing and carry out and horizontal migration to next processing region in the anticorrosive pond, thereby have the effect that is convenient for improve work efficiency.

Preferably, be provided with the rack along the length direction of slide rail on the slide rail, the cover is equipped with the removal frame on the slide rail, it is provided with the gear to rotate on the removal frame, the gear with intermeshing between the rack, be provided with the rotation motor on the removal frame, the axis of rotation of rotating the motor passes the removal frame with gear coaxial coupling, and two the level is provided with the crossbeam between the removal frame, it sets up to draw the frame the bottom of crossbeam.

Through adopting above-mentioned technical scheme, start to rotate the motor and drive gear and begin to rotate, through the meshing relation between gear and the rack, and then make the length direction horizontal migration who moves the slide rail that the frame is followed to have the drive crossbeam of being convenient for and draw the effect of horizontal migration between anticorrosive pond and parking frame.

Preferably, the lifting piece comprises a winch, a fixed pulley and a steel cable, the winch is arranged on the cross beam, one end of the steel cable is wound on the winch, the fixed pulley is horizontally arranged on the side wall of the cross beam, one end of the steel cable, which is far away from the winch, is wound on the fixed pulley and vertically sags, and the steel cable is connected with the extraction frame.

Through adopting above-mentioned technical scheme, start the hoist engine and make the steel cable rope continuously wind establish on the hoist engine, and then have and be convenient for draw the vertical effect that upwards drags of frame, start the hoist engine and make the steel cable rope expand from the hoist engine to have the vertical downstream's of drive of being convenient for effect.

Preferably, one end of the steel cable far away from the winch is provided with an iron hook, the top end of the extracting frame is welded with a hook ring, and the iron hook is hooked on the hook ring.

Through adopting above-mentioned technical scheme, through being provided with the iron hook on the wire rope to set up the shackle on the top of drawing the frame, and then have and hang the effect that draws the frame on the wire rope or will draw the frame to take off from the wire rope.

Preferably, the holder includes cylinder, articulated rod and inserted bar, the cylinder level sets up on the extraction frame, the articulated setting in middle part of articulated rod is in on the lateral wall of extraction frame, the inserted bar sets up the articulated rod is kept away from on the cylinder one end.

Through adopting above-mentioned technical scheme, will draw the frame to move behind the parking frame, start the cylinder and make the piston rod shrink of cylinder, and then the articulated rod that drags articulated setting slopes gradually, thereby make two inserted bars relative along the length direction who draws the frame keep away from each other, then will draw the vertical downstream of frame, after reinforcing bar cylinder mould removes to between two articulated rods, restart the cylinder again and make the piston rod extension of cylinder, and then make and make two relative inserted bars be close to each other through the connection of articulated rod, and with the reinforcing bar cylinder mould joint on drawing the frame, thereby have the effect of being convenient for draw the reinforcing bar cylinder mould from the parking frame.

Preferably, the four corners of the bottom end of the parking frame are vertically and upwards provided with positioning rods, and a rectangular space is defined by the four positioning rods.

Through adopting above-mentioned technical scheme, reinforcing bar cylinder mould processing back that finishes, the reinforcing bar cylinder mould is placed in the rectangle space in four locating lever besieged cities, has the effect of being convenient for accomodate the parking frame.

Preferably, the holder includes connecting rod and bearing bar, the connecting rod is vertical to be set up downwards draw one side of frame, the bearing bar level sets up the connecting rod is kept away from draw one of frame and serve, just the bearing bar is located draw the bottom of frame.

Through adopting above-mentioned technical scheme, the drive is drawed the frame and is vertical downwards to horizontal migration draws the frame, and then inserts the bearing bar in the space of reinforcing bar net piece, thereby has the effect of being convenient for draw the reinforcing bar net piece.

Preferably, the bearing rod is provided with anti-falling lines.

Through adopting above-mentioned technical scheme, through set up the anticreep line on the bearing bar, have the in-process that draws the frame to remove and reduce the effect that the reinforcing bar slipped from the bearing bar.

Preferably, the parking frame is vertically and upwards provided with a support rod, and the support rod is horizontally provided with a suspension rod.

Through adopting above-mentioned technical scheme, hang the pole through the setting of the bracing piece upper level, and then have and be convenient for carry out vertical the hanging with the reinforcing bar net piece to have and be convenient for draw the effect that the frame carries out the extraction with the reinforcing bar net piece.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a partial schematic view for showing a positional relationship between the extraction rack and the cross member according to embodiment 1 of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a partial schematic view for showing a positional relationship between a bearing bar and an extraction rack according to embodiment 2 of the present application.

Description of reference numerals: 1. an anticorrosion pool; 11. a carriage; 111. a first motor; 112. a stirrer; 12. a second motor; 13. a lead screw; 14. a guide bar; 2. a parking frame; 21. positioning a rod; 22. a support bar; 221. a suspension rod; 3. a slide rail; 31. a rack; 32. a movable frame; 321. a gear; 322. rotating the motor; 33. a cross beam; 331. a winch; 332. a fixed pulley; 333. a steel cable; 334. an iron hook; 4. an extraction rack; 41. a shackle; 42. a cylinder; 43. a hinged lever; 431. inserting a rod; 44. a connecting rod; 45. a load-bearing bar; 451. thread drop prevention.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses anticorrosive device of aerated concrete panel reinforcing bar cylinder mould.

Example 1

Referring to fig. 1 and 2, an anticorrosive device of aerated concrete panel reinforcing bar cylinder mould, including anticorrosive pond 1 and the parking frame 2 that is used for placing reinforcing bar net piece or reinforcing bar cylinder mould, anticorrosive pond 1 is the rectangle form with parking frame 2, and the length direction in anticorrosive pond 1 is parallel to each other with parking frame 2's length direction, the vertical locating lever 21 that upwards is provided with in parking frame 2's bottom four corners, four locating levers 21 enclose into a rectangle space, the reinforcing bar cylinder mould has been placed on parking frame 2 after the processing is accomplished, the parking board of placing the reinforcing bar cylinder mould conveys to anticorrosive device through the conveyer in workshop.

Referring to fig. 1, a steel bar preservative is filled in an anticorrosion pool 1, a sliding frame 11 is arranged on the anticorrosion pool 1, a first motor 111 which faces downwards vertically is arranged on the sliding frame 11, and a stirrer 112 is coaxially arranged on a rotating shaft of the first motor 111; the stirrer 112 is driven by the first motor 111 to rotate, so that the rebar preservative in the preservative tank 1 can be uniformly stirred.

Referring to fig. 1, a second motor 12 is arranged on one side wall of an anticorrosion pool 1, a screw 13 is coaxially arranged on a rotating shaft of the second motor 12, the screw 13 is horizontally and rotatably arranged on the side wall of the anticorrosion pool 1 along the length direction of the anticorrosion pool 1, and a guide rod 14 parallel to the screw 13 is arranged on the other opposite side wall of the anticorrosion pool 1; the bottom end thread of one side of the sliding frame 11 is arranged on the screw rod 13 in a penetrating mode, and the bottom end of the other side of the sliding frame 11 is sleeved on the guide rod 14.

Start the rotation of second motor 12 drive lead screw 13, and then make the thread bush establish carriage 11 and lead screw 13 on lead screw 13 and take place relative rotation, and because the bottom cover of carriage 11 opposite side establishes on horizontally guide bar 14, and then carriage 11 can not be along with lead screw 13 circumferential direction under the effect of frictional force, only can remove along the horizontal direction at lead screw 13 rotation in-process, and then when soaking the steel reinforcement cylinder mould, remove carriage 11 to the one end in anticorrosive pond 1, have and make carriage 11 can not influence the effect in the anticorrosive pond 1 of steel reinforcement cylinder mould business turn over.

Referring to fig. 1 and 2, the equal level in both sides of anticorrosive pond 1 and parking frame 2 is provided with a slide rail 3, two slide rails 3 are parallel to each other, and the length direction in the anticorrosive pond 1 of length direction perpendicular to of slide rail 3, the length direction along slide rail 3 is provided with rack 31 on the slide rail 3, the cover is equipped with on the slide rail 3 and removes frame 32, it is provided with gear 321 to rotate on removing frame 32, intermeshing between gear 321 and the rack 31, and it is provided with rotation motor 322 to rotate on removing frame 32, the axis of rotation of rotating motor 322 passes and removes frame 32 and gear 321 coaxial coupling.

Referring to fig. 2 and 3, a beam 33 is horizontally arranged between the two moving frames 32, a winch 331 is arranged at the top end of the beam 33, a steel cable 333 is wound on the winch 331, a fixed pulley 332 is horizontally arranged on the side wall of the beam 33, one end of the steel cable 333 far away from the winch 331 is wound on the fixed pulley 332 and vertically droops, and an extraction frame 4 is hung at one vertically drooping end of the steel cable 333; an iron hook 334 is arranged at one end of the steel cable 333 far away from the winch 331, a hook ring 41 is welded at the top end of the extraction frame 4, and the iron hook 334 is hooked on the hook ring 41.

Referring to fig. 3, four cylinders 42 are horizontally arranged on the extraction frame 4, the length direction of the piston rod of each cylinder 42 is perpendicular to the length direction of the extraction frame 4, a hinge rod 43 is connected to the piston rod of each cylinder 42, the middle of each hinge rod 43 is hinged to the side wall of the extraction frame 4, and an insertion rod 431 is arranged at one end of each hinge rod 43, which is far away from the corresponding cylinder 42.

The implementation principle of this application embodiment 1 an aerated concrete panel steel reinforcement cylinder mould's anticorrosive device is: the rotating motor 322 is started and the gear 321 starts to rotate, and then the moving frame 32 moves towards the parking frame 2 through the meshing relation between the gear 321 and the rack 31, after the extracting frame 4 moves to the position right above the steel bar net cage, the winch 331 is started and the steel cable 333 is unfolded from the winch 331, and then the extracting frame 4 is vertically downward close to the steel bar net cage on the parking frame 2.

Then start cylinder 42 and make cylinder 42's piston rod shrink, and then draw articulated rod 43 that sets up to slope gradually, thereby make along the relative inserted bar 431 of two of the length direction of extraction frame 4 keep away from each other, after extraction frame 4 is vertical to move down to reinforcing bar cylinder mould conflict in extraction frame 4 bottom, start cylinder 42 again and make cylinder 42's piston rod extension, and then make the connection through articulated rod 43 make two relative inserted bar 431 be close to each other, and with the reinforcing bar cylinder mould joint on extraction frame 4.

Then, the winch 331 is started, the steel cable 333 is continuously wound on the winch 331, the extraction frame 4 can be pulled vertically upwards until the steel bar net cage is lifted out of the parking frame 2, the gear 321 is driven to rotate by the rotating motor 322, the lifting frame moves towards the anticorrosion pool 1, and after the lifting frame and the steel bar net cage are moved to the upper side of the anticorrosion pool 1, the lifting frame is vertically downwards and the steel bar net cage is completely immersed into the anticorrosion agent in the anticorrosion pool 1 by starting the winch 331.

After soaking, utilize hoist engine 331 to make the vertical rebound of hoisting frame and carry out the reinforcing bar cylinder mould from anticorrosive pond 1 in, then utilize rotation motor 322 drive gear 321 to convey the hoisting frame level to next processing region, the shrink through cylinder 42 makes inserted bar 431 remove from the space of reinforcing bar cylinder mould, and then can separate reinforcing bar cylinder mould and extraction frame 4, anticorrosive in-process does not need the manpower to hang the reinforcing bar cylinder mould and gets, thereby has the effect of being convenient for improve work efficiency.

Example 2

Referring to fig. 4, the main difference between the present embodiment 2 and embodiment 1 is: a connecting rod 44 is vertically and downwardly arranged at the bottom end of the extraction frame 4, a bearing rod 45 is horizontally arranged at one end of the connecting rod 44, which is far away from the extraction frame 4, the bearing rod 45 is positioned below the extraction frame 4, and the length direction of the bearing rod 45 is vertical to the length direction of the extraction frame 4; the bearing rod 45 is provided with an anti-drop line 451.

Referring to fig. 4, the stand 2 is vertically and upwardly provided with a support rod 22, and the support rod 22 is horizontally provided with a hanging rod 221; after the reinforcing mesh is processed, the reinforcing mesh is suspended on the suspension rod 221.

The implementation principle of the anticorrosive device of aerated concrete panel steel reinforcement cylinder mould of this application embodiment is: when the reinforcing bar net piece is extracted from the parking frame 2, the hoisting machine 331 is started to drive the extraction frame 4 to be vertical downward, the rotation motor 322 is started to horizontally move the extraction frame 4 to be close to the parking frame 2, the bearing rod 45 is inserted into a gap of the reinforcing bar net piece, the extraction frame 4 is vertically upwards lifted, the reinforcing bar net piece is attached to the bearing rod 45 from the hanging rod 221, the extraction frame 4 is horizontally moved towards the direction far away from the parking frame 2, and the effect of conveniently extracting the reinforcing bar net piece from the parking frame 2 is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an anticorrosive device of aerated concrete panel steel reinforcement cylinder mould which characterized in that: including anticorrosive pond (1) and parking frame (2) that are used for placing reinforcing bar net piece or reinforcing bar cylinder mould, the equal level in both sides that anticorrosive pond (1) is relative is provided with one slide rail (3), two slide rail (3) are parallel to each other, just parking frame (2) are located two between slide rail (3), the length direction horizontal migration along slide rail (3) is provided with on slide rail (3) and draws frame (4), draw the length direction perpendicular to of frame (4) the length direction of slide rail (3), be provided with the lift piece that the drive draws frame (4) vertical lift on slide rail (3), just be provided with the holder that is used for centre gripping reinforcing bar cylinder mould on drawing frame (4).

2. The aerated concrete panel reinforcement cage corrosion prevention device of claim 1, wherein: the length direction of going up along slide rail (3) on slide rail (3) is provided with rack (31), the cover is equipped with on slide rail (3) and removes frame (32), it is provided with gear (321) to rotate on removing frame (32), gear (321) with intermeshing between rack (31), it rotates motor (322) to be provided with on removing frame (32), the axis of rotation that rotates motor (322) is passed remove frame (32) with gear (321) coaxial coupling, and two the level is provided with crossbeam (33) between removing frame (32), it sets up to draw frame (4) the bottom of crossbeam (33).

3. The aerated concrete panel reinforcement cage corrosion prevention device of claim 2, wherein: the lifting piece comprises a winch (331), a fixed pulley (332) and a steel cable (333), the winch (331) is arranged on the cross beam (33), one end of the steel cable (333) is wound on the winch (331), the fixed pulley (332) is horizontally arranged on the side wall of the cross beam (33), one end, far away from the winch (331), of the steel cable (333) is wound on the fixed pulley (332) and vertically sags, and the steel cable (333) is connected with the extraction frame (4).

4. The aerated concrete panel reinforcement cylinder mould anticorrosion device of claim 3, wherein: an iron hook (334) is arranged at one end, far away from the winch (331), of the steel cable (333), a hook ring (41) is welded at the top end of the extracting frame (4), and the iron hook (334) is hooked on the hook ring (41).

5. The aerated concrete panel reinforcement cylinder mould anticorrosion device of claim 4, wherein: the clamping piece comprises a cylinder (42), an articulated rod (43) and an inserted rod (431), wherein the cylinder (42) is horizontally arranged on the extracting frame (4), the middle part of the articulated rod (43) is articulated on the side wall of the extracting frame (4), and the inserted rod (431) is arranged on one end, far away from the cylinder (42), of the articulated rod (43).

6. The aerated concrete panel reinforcement cage corrosion prevention device of claim 5, wherein: positioning rods (21) are vertically and upwards arranged at four corners of the bottom end of the parking frame (2), and a rectangular space is enclosed by the four positioning rods (21).

7. The aerated concrete panel reinforcement cylinder mould anticorrosion device of claim 4, wherein: the clamping piece comprises a connecting rod (44) and a bearing rod (45), the connecting rod (44) is vertically arranged downwards on one side of the extracting frame (4), the bearing rod (45) is horizontally arranged on one end of the extracting frame (4) far away from the connecting rod (44), and the bearing rod (45) is located at the bottom end of the extracting frame (4).

8. The aerated concrete panel reinforcement cage corrosion prevention device of claim 7, wherein: the bearing rod (45) is provided with an anti-drop line (451).

9. The aerated concrete panel reinforcement cage corrosion prevention device of claim 8, wherein: a support rod (22) is vertically and upwards arranged on the parking frame (2), and a hanging rod (221) is horizontally arranged on the support rod (22).

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