CN215706547U - Steel structural component transfer device - Google Patents

Abstract

The utility model discloses a steel structure component transfer device in the technical field of steel structure transportation equipment, which comprises a chassis and circular connecting seats, wherein the circular connecting seats are fixedly connected to the left side and the right side of the bottom of the chassis, the top of the chassis is fixedly connected with a transfer frame, the left side and the right side of the front side wall of the transfer frame are respectively and rotatably connected with a protective door through hinges, the steel structure component transfer device has reasonable structural design, compared with the traditional transfer device, the device has higher movement stability and better site adaptability, the problem of rollover caused by unstable gravity center of the device due to the inclination of a moving wheel in the prior art is effectively solved, the conveying efficiency of the device for steel structure transportation is improved, the outer wall of a tubular steel structure can be effectively attached between a fixed inclined table and a sliding inclined table by utilizing the structural design of an arc-shaped groove, and the placement stability of the tubular steel structure in the transfer frame is ensured, the phenomenon of rolling and sliding is avoided.

Description

Steel structural component transfer device

Technical Field

The utility model relates to the technical field of steel structure transportation equipment, in particular to a steel structure component transferring device.

Background

The steel structure is a structure formed by steel materials, mainly comprises beam steel, steel columns, steel trusses and other members made of section steel, steel plates and the like, and in order to improve the conveying efficiency of the steel structure on a construction site, the corresponding steel structure is usually placed in a transfer device for rapid transportation.

Traditional steel construction conversion equipment has certain weak point in-service use, because traditional device's removal wheel adopts fixed connection's mode to install usually, lead to removing the wheel and receiving the influence of ground and cause the device slope phenomenon easily at the actual in-process that slides, lead to the device to take place risk such as turn on one's side because of the focus unstability even, greatly reduced the transportation stability of device to the steel construction, directly influenced its conveying efficiency to the steel construction, on the other hand, the tubular steel construction is in transportation process, because its structural design leads to the tubular steel construction to take place the roll landing phenomenon easily on transporting the frame, and traditional transporting frame does not possess and carries out the bearing to it and handle, thereby restricted the working range of device in-service use, its work efficiency has been reduced, we have proposed a steel structural component transfer device for this.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a steel structure component transfer device, which aims to solve the problems that the moving wheels of the traditional device are usually installed in a fixed connection mode, so that the moving wheels are influenced by the ground in the actual sliding process to easily cause the inclination phenomenon of the device, even the device is subjected to side turning and other risks due to unstable gravity center, and on the other hand, the tubular steel structure is easy to roll and slide on a transfer frame due to the structural design in the conveying process, and the traditional transfer frame does not support the tubular steel structure.

In order to achieve the purpose, the utility model provides the following technical scheme: a steel structure component transfer device comprises a chassis and a circular connecting seat, wherein the circular connecting seat is fixedly connected to the left side and the right side of the bottom of the chassis, the top of the chassis is fixedly connected with a transfer frame, the left side and the right side of the front side wall of the transfer frame are respectively rotatably connected with a protective door through a hinge, the top-down equidistance of the inner side wall of the transfer frame is fixedly connected with three layered plates, the top-down equidistance of the rear side wall of the transfer frame is fixedly connected with an electric push rod, the connecting end of the electric push rod is connected with an output shaft in a sliding manner, the connecting end of the output shaft penetrates through and extends to the inner cavity of the transfer frame, the connecting end of the output shaft is positioned above the layered plates, the front side wall of the layered plates is fixedly connected with a fixed inclined table, the rear side wall of the layered plates is connected with a sliding inclined table in a sliding manner, and the rear side wall of the sliding inclined table is connected with the connecting end of the output shaft, the sliding sloping platform with the arc wall has all been seted up to the inside wall of fixed sloping platform, both sides all are rotated through the pivot around the inside of circular connecting seat and are connected with the movable support, the link fixedly connected with connecting axle of movable support, the connecting axle is kept away from the one end of connecting axle is rotated and is connected with the removal wheel, just the removal wheel is located the bottom four corners department on chassis, the lateral wall joint of connecting axle has the mount table, the top fixedly connected with spring of mount table, the spring is kept away from the one end fixed connection of mount table is in the bottom on chassis.

Preferably, the front side walls of the two protection doors are provided with door handles, and the outer side walls of the door handles are provided with rubber jackets.

Preferably, the left side the preceding lateral wall downside of guard gate passes through bolt fixedly connected with controller, the output electric connection of controller is in electric putter's input.

Preferably, the left side the preceding lateral wall upside fixedly connected with electromagnetism door-inhale of guard gate, just the input electric connection that the electromagnetism door-inhale is in the output of controller, right side the preceding lateral wall upside fixedly connected with adsorption plate of guard gate, just the link of adsorption plate with be the level between the link of electromagnetism door-inhale and align.

Preferably, the inner side walls of the fixed inclined table and the sliding inclined table are provided with rubber pads, and the rubber pads are bonded on the outer side wall of the arc-shaped groove.

Preferably, the top of the layered plate is located below the sliding sloping table, a sliding groove is formed in the bottom of the sliding sloping table, and the sliding block is connected to the inside of the sliding groove in a sliding mode.

Preferably, the upper side and the lower side of the outer side wall of the spring are respectively provided with a limiting ring.

Compared with the prior art, the utility model has the beneficial effects that:

1. this steel structural component transfer device, pass through the inside of pivot movable mounting at circular connecting seat with the movable support of both sides, thereby realize that every removes the wheel and can possess independent wobbling function, when this device is at the in-process that slides the removal, remove the wheel and receive when ground influence takes place the luffing motion, then drive movable support through the connecting axle and carry out the tilting in circular connecting seat, and the connecting axle passes through the mount table at its effort of in-process of motion and transmits to the spring in, absorb the effort when making its atress warp, in order to reach the purpose of bradyseism, it is higher that this device compares its mobility stability of traditional transfer device, place adaptability is better, effectively solved and lead to the unstable problem that takes place to turn on one's side of device focus because of the slope that removes the wheel among the prior art, the conveying efficiency of this device to the steel construction transportation has been improved.

2. This steel structural component transfer device, through set up fixed sloping platform and slip sloping platform on the layering board in the frame of transporting, thereby form independent placing space on the layering board, and set up the arc wall on the inside wall of the two, the structural design who utilizes the arc wall makes the outer wall that can effectively laminate the tubulose steel construction between fixed sloping platform and the slip sloping platform, ensure the stability of placing of tubulose steel construction in the frame of transporting, avoid it to take place the phenomenon of roll landing, utilize electric putter and output shaft's cooperation to use simultaneously, it carries out horizontal back-and-forth movement to drive the slip sloping platform on the layering board, thereby carry out size control to the placing space between fixed sloping platform and the slip sloping platform, further improve the bearing effect to the tubulose steel construction, the transportation stability and the work efficiency of this device to the tubulose steel construction in the in-service use has been improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a left cross-sectional structural view of the transfer rack of the present invention;

FIG. 4 is a schematic view of the connection between the circular connecting base and the movable bracket according to the present invention.

In the figure: 100. a chassis; 110. a transfer frame; 120. a protective door; 121. a door handle; 130. a controller; 140. an electromagnetic door stopper; 141. an adsorption plate; 150. an electric push rod; 151. an output shaft; 160. a laminate; 161. a chute; 170. fixing the inclined table; 180. a sliding ramp; 181. a slider; 190. an arc-shaped slot; 200. a circular connecting seat; 210. a movable support; 220. a connecting shaft; 230. a moving wheel; 240. an installation table; 250. a spring; 251. a limit ring.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a steel structure component transfer device, compared with the traditional transfer device, the device has higher movement stability and better site adaptability, effectively solves the problem of side turning caused by unstable gravity center of the device due to the inclination of a moving wheel 230 in the prior art, and utilizes the structural design of an arc-shaped groove 190 to ensure that the outer wall of a tubular steel structure can be effectively attached between a fixed inclined table 170 and a sliding inclined table 180, thereby ensuring the placement stability of the tubular steel structure in a transfer frame 110, please refer to fig. 1-4, and the device comprises a chassis 100 and a circular connecting seat 200;

referring to fig. 1-4 again, the top of the chassis 100 is fixedly connected with a transport frame 110, the left and right sides of the front side wall of the transport frame 110 are rotatably connected with a protective door 120 through hinges, the inner side wall of the transport frame 110 is fixedly connected with three layered plates 160 at equal intervals from top to bottom, the rear side wall of the transport frame 110 is fixedly connected with electric push rods 150 at equal intervals from top to bottom, the connecting ends of the electric push rods 150 are connected with output shafts 151 in a sliding manner, the connecting ends of the output shafts 151 penetrate through and extend to the inner cavity of the transport frame 110, the connecting ends of the output shafts 151 are positioned above the layered plates 160, the front side wall of the layered plates 160 is fixedly connected with fixed ramps 170, the rear side wall of the layered plates 160 is connected with sliding ramps 180 in a sliding manner, the rear side wall of the sliding ramps 180 is connected with the connecting ends of the output shafts 151, the inner side walls of the sliding ramps 180 and the fixed ramps 170 are both provided with arc-shaped grooves 190, the chassis 100 is used for connecting and mounting the transport frame 110 and the circular connecting seat 200, the transportation frame 110 is used for connecting and installing the protective door 120, the electric push rod 150 and the layered plate 160, the protective door 120 is used for controlling the opening and closing of the placement space of the transportation frame 110, the electric push rod 150 is used for connecting the output shaft 151 and driving the output shaft 151 to horizontally move back and forth, the output shaft 151 is used for connecting the sliding ramp 180 and providing power for the sliding ramp 180 on the layered plate 160, so as to adjust the bearing space between the fixed ramp 170 and the sliding ramp 180, the layered plate 160 is used for connecting the fixed ramp 170 and the sliding ramp 180 and providing bottom support for the placement of a steel structure, the fixed ramp 170 and the sliding ramp 180 are used for forming an independent bearing space on the layered plate 160, so as to achieve the purpose of stably placing and storing the steel structure, the arc-shaped groove 190 is used for enabling the inner side walls of the fixed ramp 170 and the sliding ramp 180 to effectively fit the outer wall of a tubular steel structure, so as to achieve the purpose of stably placing the tubular steel structure;

referring to fig. 1-4 again, the front and rear sides of the interior of the circular connecting base 200 are rotatably connected with movable brackets 210 through rotating shafts, the connecting end of the movable bracket 210 is fixedly connected with a connecting shaft 220, one end of the connecting shaft 220 away from the connecting shaft 220 is rotatably connected with a movable wheel 230, the movable wheel 230 is located at the four corners of the bottom of the chassis 100, the outer side wall of the connecting shaft 220 is clamped with a mounting table 240, the top of the mounting table 240 is fixedly connected with a spring 250, one end of the spring 250 away from the mounting table 240 is fixedly connected to the bottom of the chassis 100, the circular connecting base 200 is fixedly connected to the left and right sides of the bottom of the chassis 100, the circular connecting base 200 is used for connecting the movable brackets 210 at both sides, and realizing the purpose that the movable brackets 210 at both sides can rotate independently, the movable bracket 210 is used for connecting the connecting shaft 220, the connecting shaft 220 is used for mounting the movable wheel 230 and providing support for the sliding of the movable wheel 230, the moving wheel 230 is used for realizing that the device can have a sliding movement function, the mounting table 240 is used for mounting the spring 250, and the spring 250 is used for buffering the fluctuation generated by the influence of the ground on the connecting shaft 220 in the using process so as to achieve the purpose that the moving wheel 230 has a shock absorption function.

Referring to fig. 1 again, in order to facilitate the opening and closing operations of the protective doors 120 by the workers, the front side walls of the two protective doors 120 are both provided with door handles 121, and the outer side walls of the door handles 121 are provided with rubber sheaths.

Referring to fig. 1-2 again, in order to facilitate the operation of the electrical devices in the device by the worker through the way of electric control, the lower side of the front side wall of the left protective door 120 is fixedly connected with a controller 130 through a bolt, and the output end of the controller 130 is electrically connected to the input end of the electric push rod 150.

Referring to fig. 1-2 again, in order to convert the electric power into the magnetic force by controlling the opening and closing of the electromagnetic door stopper 140, the magnetic force is utilized to realize the purpose of firm connection between the protective doors 120 on both sides, the electromagnetic door stopper 140 is fixedly connected to the upper side of the front side wall of the left protective door 120, the input end of the electromagnetic door stopper 140 is electrically connected to the output end of the controller 130, the adsorption plate 141 is fixedly connected to the upper side of the front side wall of the right protective door 120, and the connection end of the adsorption plate 141 is horizontally aligned with the connection end of the electromagnetic door stopper 140.

Referring to fig. 3 again, in order to prevent the fixed ramp 170 and the sliding ramp 180 from being worn by the outer wall of the tubular steel structure during the process of carrying the tubular steel structure, and to improve the surface integrity of the tubular steel structure, rubber pads are disposed on the inner side walls of the fixed ramp 170 and the sliding ramp 180, and the rubber pads are adhered to the outer side wall of the arc-shaped groove 190.

Referring to fig. 3 again, in order to reduce the sliding friction between the sliding ramp 180 and the layered plate 160 and improve the working efficiency of the sliding ramp 180, a sliding groove 161 is formed at the top of the layered plate 160 and below the sliding ramp 180, a sliding block 181 is fixedly connected to the bottom of the sliding ramp 180, and the sliding block 181 is connected to the inside of the sliding groove 161 in a sliding manner.

Referring to fig. 2 again, in order to prevent the spring 250 from moving in position during the deformation process, the upper and lower sides of the outer sidewall of the spring 250 are respectively provided with a limiting ring 251.

When the steel structure transporting device is used specifically, a worker opens the protective door 120 through the door handle 121, places a steel structure to be transported on the layered plate 160, and limits the outer side wall of the steel structure through the fixed ramp 170 and the sliding ramp 180 to prevent the steel structure from falling off during transportation, if the steel structure is a tubular steel structure, the worker starts the electric push rod 150 through the controller 130 to drive the sliding ramp 180 to horizontally move back and forth on the layered plate 160 through the output shaft 151, so that the placing space between the fixed ramp 170 and the sliding ramp 180 is adjusted in real time to ensure that the arc-shaped grooves 190 on the fixed ramp 170 and the sliding ramp 180 can be effectively attached to the outer wall of the tubular steel structure, and after the placing work of the steel structure is completed in the transport frame 110, the personnel close the guard door 120 and activate the electromagnetic door stopper 140, causing it to convert electrical power to magnetic force, and the adsorption plate 141 is adsorbed and fixed to ensure that the protection door 120 can completely close the inside of the transportation frame 110, the worker pushes the transportation frame 110 to drive the moving wheels 230 to slide forward, so as to move the device, when the device is in the process of sliding movement, the moving wheel 230 swings up and down under the influence of the ground, the movable bracket 210 is driven by the connecting shaft 220 to rotate up and down in the circular connecting seat 200, and the acting force of the connecting shaft 220 is transmitted into the spring 250 through the mounting table 240 in the moving process, so that the acting force is absorbed while the connecting shaft is stressed and deformed, the transportation stability of the device is ensured, after the device moves to a corresponding working position, the steel structure in the transfer frame 110 can be taken out by opening the protective door 120.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides a steel structural component transfer device which characterized in that: comprises a chassis (100) and a circular connecting seat (200), the circular connecting seat (200) is fixedly connected with the left side and the right side of the bottom of the chassis (100), the top of the chassis (100) is fixedly connected with a transfer frame (110), the left side and the right side of the front side wall of the transfer frame (110) are rotatably connected with a protective door (120) through hinges, the inner side wall of the transfer frame (110) is fixedly connected with three layered plates (160) at equal intervals from top to bottom, the rear side wall of the transfer frame (110) is fixedly connected with electric push rods (150) at equal intervals from top to bottom, the connecting end of the electric push rods (150) is connected with an output shaft (151) in a sliding manner, the connecting end of the output shaft (151) penetrates through and extends to the inner cavity of the transfer frame (110), the connecting end of the output shaft (151) is positioned above the layered plates (160), and the front side wall of the layered plates (160) is fixedly connected with a fixed inclined platform (170), the rear side wall of the layered plate (160) is connected with a sliding inclined table (180) in a sliding way, the rear side wall of the sliding inclined table (180) is connected with the connecting end of the output shaft (151), the inner side walls of the sliding sloping bench (180) and the fixed sloping bench (170) are both provided with arc-shaped grooves (190), the front side and the rear side of the interior of the round connecting seat (200) are respectively connected with a movable bracket (210) through a rotating shaft in a rotating way, the connecting end of the movable bracket (210) is fixedly connected with a connecting shaft (220), one end of the connecting shaft (220) far away from the connecting shaft (220) is rotatably connected with a moving wheel (230), and the moving wheels (230) are positioned at the four corners of the bottom of the chassis (100), the outer side wall of the connecting shaft (220) is clamped with a mounting table (240), the top of the mounting table (240) is fixedly connected with a spring (250), one end of the spring (250) far away from the mounting table (240) is fixedly connected to the bottom of the chassis (100).

2. The steel structural component transfer device of claim 1, wherein: the front side walls of the two protection doors (120) are provided with door handles (121), and the outer side walls of the door handles (121) are provided with rubber sleeves.

3. The steel structural component transfer device of claim 1, wherein: the left side the preceding lateral wall downside of guard gate (120) is through bolt fixedly connected with controller (130), the output electric connection of controller (130) is in the input of electric putter (150).

4. The steel structural component transfer device of claim 3, wherein: the left side preceding lateral wall upside fixedly connected with electromagnetism door-inhale (140) of guard gate (120), just the input electric connection of electromagnetism door-inhale (140) is in the output of controller (130), the right side preceding lateral wall upside fixedly connected with adsorption plate (141) of guard gate (120), just the link of adsorption plate (141) with be the level between the link of electromagnetism door-inhale (140) and align.

5. The steel structural component transfer device of claim 1, wherein: rubber pads are arranged on the inner side walls of the fixed inclined table (170) and the sliding inclined table (180), and the rubber pads are bonded on the outer side wall of the arc-shaped groove (190).

6. The steel structural component transfer device of claim 1, wherein: the top of the layered plate (160) is located below the sliding inclined table (180) and is provided with a sliding groove (161), the bottom of the sliding inclined table (180) is fixedly connected with a sliding block (181), and the sliding block (181) is connected to the inside of the sliding groove (161) in a sliding manner.

7. The steel structural component transfer device of claim 1, wherein: and the upper side and the lower side of the outer side wall of the spring (250) are respectively provided with a limiting ring (251).

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