CN113771930A - Bear frame based on construction management construction usefulness - Google Patents

Abstract

The invention discloses a bearing frame for construction based on building management, and relates to the technical field of building management. This bear frame based on construction management construction usefulness includes the bottom plate, the bottom plate top is fixed with elastic expansion column bottom, elastic expansion column top is fixed with arc loading board center department bottom, the pulley is all installed on bottom plate left side and right side. This bear frame based on construction management construction usefulness, can carry out elastic support to the arc loading board through setting up the flexible post of elasticity, when the iron pipe has been deposited at arc loading board top, the arc loading board can descend, and finally adsorbed by the magnetism strip, the arc loading board carries certain magnetism this moment, the arc loading board can produce decurrent adsorption affinity to the iron pipe at its top, and self also can carry certain magnetism after the iron pipe is adsorbed, make mutual adsorption between the many iron pipes, this adsorption affinity can reduce the removal of iron pipe, thereby reduce the influence of the highway section of jolting to this year transport iron pipe of bearing.

Description

Bear frame based on construction management construction usefulness

Technical Field

The invention relates to the technical field of building management, in particular to a bearing frame for construction based on building management.

Background

The building management refers to a comprehensive management subject for progress, quality, safety, fund, mechanical equipment, materials and personnel in the building construction process, and realizes the goal of building management by overall arrangement of the construction elements, namely, the minimum resource consumption is realized, the goal is maximized, and the significance of building management is realized.

When managing the material to building construction in-process, need use to bear the frame and deposit the iron pipe, install the removal that the pulley can do benefit to and bear the frame on bearing the frame to realize the function of transportation iron pipe, and current bearing frame removes the in-process at the building site, ground probably presents the form of jolting, and then leads to iron pipe stability to reduce when removing and even drop, influences the transportation of iron pipe.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a bearing frame for construction based on building management, which solves the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a bear frame based on construction management construction usefulness, includes the bottom plate, bottom plate top is fixed with elastic expansion column bottom, elastic expansion column top is fixed with arc loading board center department bottom, arc loading board downward protrusion and interior concave surface are fixed with many supplementary filling location strips, the pulley that two symmetries set up is all installed on bottom plate left side and right side, arc loading board bottom is provided with the magnetism strip, the magnetism strip is the same with the radius of arc loading board and is equipped with the space between magnetism strip and the arc loading board, the material of arc loading board is one of iron, cobalt, nickel, the one end side that elastic expansion column and bottom plate are connected is fixed to the magnetism strip, bottom plate front side and rear side all are provided with and are used for preventing the stone from influencing pulley pivoted guiding mechanism.

Preferably, guiding mechanism includes slider one, central connecting strip and arc deflector, vertical spout has been seted up in guiding mechanism department to bottom plate front side and rear side position, slider one both ends respectively with vertical spout both sides sliding connection, central connecting strip both ends are fixed with slider one and arc deflector concave surface center department respectively, and the arc deflector concave surface is the one side that is close to the bottom plate.

Preferably, the one end side and the L shape that the flexible post is connected with the arc loading board push away a horizontal part endpoint department fixedly, L shape pushes away vertical part endpoint department both sides of strip and is articulated with the articulated one end of two symmetries settings respectively, two the articulated other end is articulated with two tops of two sliders respectively, two bottoms and bottom plate sliding connection of slider, and two sliders keep away from one side each other and control strip one end fixedly, the control strip other end is connected with supplementary release mechanism.

Preferably, the auxiliary separation mechanism comprises a rotating plate, a knocking strip and a driving plate, one side of the rotating plate is hinged to the bottom plate, the other side of the rotating plate is fixed to the knocking strip, the center of the sliding block is located in a rotating area of the knocking strip, the driving plate is fixed to the top of the rotating plate and perpendicular to the rotating plate, and one side of the driving plate is in contact with the control strip.

Preferably, movable recess has been seted up to arc loading board bottom, distance between the both sides is less than the distance between the both sides around the magnetism strip around the activity recess, activity recess inner wall is articulated with rotation strip center department, and is provided with the elastic component between rotation strip and the activity recess, it is outside that the strip top is located movable recess to rotate, and the bottom mounting has the collision strip, the collision strip is contradicted with the arc loading board, the mobile recess has been seted up at arc loading board top, supplementary filling location strip erects at mobile recess top.

Preferably, the arc-shaped guide plate is provided with a reinforcing groove at the center of one side thereof far away from the bottom plate, the reinforcing groove is hinged to the reinforcing rotating plate at the inner wall of the end thereof far away from the center of the bottom plate, one side of the reinforcing rotating plate is provided with a bulge contacting with the center of the arc-shaped guide plate, and the other side of the reinforcing rotating plate and the arc-shaped guide plate form a complete arc surface.

(III) advantageous effects

The invention provides a bearing frame for construction based on building management. The method has the following beneficial effects:

(1) this bear frame based on construction management construction usefulness, can carry out elastic support to the arc loading board through setting up the flexible post of elasticity, when the iron pipe has been deposited at arc loading board top, the flexible post of the flexible of the arc loading board step-down elasticity, and finally adsorbed by the magnetism strip, the arc loading board carries certain magnetism this moment, the arc loading board can produce decurrent adsorption affinity to the iron pipe at its top, and the iron pipe also can carry certain magnetism by self after being adsorbed, make mutual adsorption between the many iron pipes, when jolting appears in this bears the frame removal in-process, this adsorption affinity can reduce the removal of iron pipe, thereby reduce the influence of jolting the highway section to this bearing frame transportation iron pipe.

(2) This bear frame based on construction management construction usefulness, can play the effect of blockking to the stone in pulley traffic direction the place ahead through setting up guiding mechanism, and this stone can lead to the direction of arc deflector both sides, prevent that the stone is located pulley travel route and influence the rotation of pulley, the setting up of slider one and central connecting strip makes the arc deflector present the state that can reciprocate simultaneously, when the highway section of jolting, ground can promote the arc deflector and rise, prevent that the arc deflector from tightly pasting ground and leading to the slope on ground to influence the removal of arc deflector.

(3) This bear frame based on construction management construction usefulness, push away the strip through setting up L shape, control strip and supplementary break away from reciprocating when mechanism can utilize the arc loading board to acutely jolt comes to strike a slider center department, the kinetic energy that should strike can transmit the center department to the arc deflector, the stone of arc deflector center department can break away from the arc deflector under the effect of this kinetic energy, avoid the arc deflector to reciprocate when the highway section of jolting and lead to the stone to pass the gap between arc deflector and the ground, the protection effect of arc deflector to pulley pivoted has further been improved.

(4) This bear frame based on construction management usefulness, rotate the strip through setting up and can rotate when arc loading board and magnetism strip contact and the collision strip can break away from the arc loading board, rotate the strip extrusion elastic component this moment, when the arc loading board breaks away from the magnetism strip, it can reset under the effect of elastic component and the arc loading board can be strikeed to the collision strip to rotate the strip, so that impurity such as iron rust in the recess that flows removes to the center department of flowing the recess, be convenient for carry out centralized processing to adnexed impurity on the arc loading board.

(5) This bear frame based on construction management construction usefulness, through setting up the reinforcing commentaries on classics board can utilize to strike strip striking slider kinetic energy during one time and rotate to carry out the side direction to the stone and promote the stone and remove towards the direction of keeping away from the bottom plate, with the control effect that improves arc deflector to stone moving direction.

Drawings

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

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of a guide mechanism and an auxiliary release mechanism according to the present invention;

FIG. 4 is a schematic view of an L-shaped push bar structure according to the present invention;

FIG. 5 is a half sectional view of the arc-shaped carrier plate of the present invention;

FIG. 6 is an enlarged view of portion B of FIG. 5 according to the present invention;

fig. 7 is a partial cross-sectional view of an arcuate guide plate according to the present invention.

In the figure: 1. a base plate; 11. a longitudinal chute; 2. an elastic telescopic column; 3. an arc-shaped bearing plate; 31. auxiliary filling positioning strips; 32. a movable groove; 33. rotating the strip; 331. a bump bar; 34. a flow groove; 4. a pulley; 5. a magnetic strip; 6. a guide mechanism; 61. a first sliding block; 62. a central connecting strip; 63. an arc-shaped guide plate; 631. reinforcing the groove; 632. a reinforced rotating plate; 7. an L-shaped push bar; 71. a hinge strip; 72. a second sliding block; 8. a control bar; 9. an auxiliary disengaging mechanism; 91. a rotating plate; 92. knocking the strip; 93. a drive plate.

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.

Example 1:

referring to fig. 1-3, the present invention provides a technical solution: a bearing frame for building management construction comprises a bottom plate 1, wherein the top of the bottom plate 1 is fixed to the bottom end of an elastic telescopic column 2, the top of the elastic telescopic column 2 is fixed to the bottom of the center of an arc-shaped bearing plate 3, the arc-shaped bearing plate 3 protrudes downwards, a plurality of auxiliary filling positioning strips 31 are fixed to the inner concave surface of the arc-shaped bearing plate 3, two symmetrically-arranged pulleys 4 are mounted on the left side and the right side of the bottom plate 1, magnetic strips 5 are arranged at the bottom of the arc-shaped bearing plate 3, the radiuses of the magnetic strips 5 and the arc-shaped bearing plate 3 are the same, gaps are formed between the magnetic strips 5 and the arc-shaped bearing plate 3, the arc-shaped bearing plate 3 is made of one of iron, cobalt and nickel, the magnetic strips 5 are fixed to the side face of one end, connected with the bottom plate 1, of the elastic telescopic column 2, and guide mechanisms 6 for preventing stones from influencing rotation of the pulleys 4 are arranged on the front side and the rear side of the bottom plate 1; can carry out elastic support to arc loading board 3 through setting up flexible post 2, when the iron pipe has been deposited at 3 tops of arc loading board, arc loading board 3 can step down flexible post 2 of decompression elasticity, and finally adsorbed by magnetic strip 5, arc loading board 3 carries certain magnetism this moment, arc loading board 3 can produce decurrent adsorption affinity to the iron pipe at its top this moment, and the iron pipe is adsorbed back self and also can carry certain magnetism, make between many iron pipes adsorb each other, when should bearing the removal in-process and appear jolting, this adsorption affinity can reduce the removal of iron pipe, thereby reduce the influence of jolting the highway section to this bearing frame transportation iron pipe.

The guide mechanism 6 comprises a first sliding block 61, a central connecting strip 62 and an arc-shaped guide plate 63, the front side and the rear side of the bottom plate 1 are provided with a longitudinal sliding groove 11 at the position of the guide mechanism 6, two ends of the first sliding block 61 are respectively in sliding connection with two sides of the longitudinal sliding groove 11, two ends of the central connecting strip 62 are respectively fixed with the centers of the inner concave surfaces of the first sliding block 61 and the arc-shaped guide plate 63, and the inner concave surface of the arc-shaped guide plate 63 is one side close to the bottom plate 1; can play the effect of blockking to the stone in pulley 4 direction of operation the place ahead through setting up guiding mechanism 6, and this stone can lead to the direction of arc deflector 63 both sides, prevent that the stone from being located pulley 4 line of travel and influencing pulley 4's rotation, the setting up of slider 61 and central connecting strip 62 makes arc deflector 63 present the state that can reciprocate simultaneously, when the highway section of jolting, ground can promote arc deflector 63 and rise, prevent that arc deflector 63 from hugging closely ground and leading to the slope on ground to influence arc deflector 63's removal.

When the iron pipe positioning device is used, the iron pipes are placed at the top of the arc-shaped bearing plate 3, the auxiliary filling positioning strips 31 can be clamped into a gap between the two iron pipes, the stability of the iron pipes is improved, meanwhile, the iron pipes can press the arc-shaped bearing plate 3 to descend under the action of gravity and compress the elastic telescopic columns 2, finally, the arc-shaped bearing plate 3 is adsorbed and contacted by the magnetic strips 5, the magnetic force of the magnetic strips 5 on the arc-shaped bearing plate 3 enables the arc-shaped bearing plate 3 to also carry magnetism, the iron pipes on the arc-shaped bearing plate 3 also carry certain magnetism, each iron pipe and other adjacent iron pipes are mutually adsorbed by the magnetism, the overall stability of the iron pipes can be improved, at the moment, when the iron pipes bump on a road section, the iron pipes can counteract the upward lifting force of a part of the iron pipes under the action of downward magnetic adsorption force, and the stability of the iron pipes is improved; and this bear frame and remove the in-process, arc deflector 63 can block the stone on ground, and the inclined plane of arc deflector 63 can lead the stone for the stone removes to arc deflector 63 both sides, prevents that pulley 4 from rolling on the stone, removes when jolting the highway section as arc deflector 63 simultaneously, owing to jolt the highway section and be slope-like, so arc deflector 63 can rise and descend under the effect on ground, can not exert an influence to this removal that bears the frame.

Example 2:

referring to fig. 1 to 4, based on embodiment 1, in this embodiment, a side surface of one end of the elastic telescopic column 2 connected to the arc-shaped bearing plate 3 is fixed to an end point of a horizontal portion of the L-shaped push bar 7, two sides of an end point of a vertical portion of the L-shaped push bar 7 are respectively hinged to one ends of two symmetrically arranged hinge bars 71, the other ends of the two hinge bars 71 are respectively hinged to tops of two sliding blocks 72, the hinge bars 71 are in an inclined state, bottoms of the two sliding blocks 72 are slidably connected to the bottom plate 1, one sides of the two sliding blocks 72 far away from each other are fixed to one end of the control bar 8, and the other end of the control bar 8 is connected to the auxiliary separation mechanism 9.

The auxiliary separation mechanism 9 comprises a rotating plate 91, a knocking strip 92 and a driving plate 93, one side of the rotating plate 91 is hinged with the bottom plate 1, the other side of the rotating plate 91 is fixed with the knocking strip 92, the center of the first sliding block 61 is located in a rotating area of the knocking strip 92, the driving plate 93 is fixed to the top of the rotating plate 91 and is perpendicular to the rotating plate 91, and one side of the driving plate 93 is in contact with the control strip 8; push away strip 7 through setting up the L shape, reciprocating when control strip 8 and supplementary disengagement mechanism 9 can utilize arc loading board 3 to acutely jolt comes to strike 61 center departments of slider, the kinetic energy that should strike can transmit to the center department of arc deflector 63, the stone of arc deflector 63 center department can break away from arc deflector 63 under the effect of this kinetic energy, avoid arc deflector 63 to reciprocate when the highway section of jolting and lead to the stone to pass the gap between arc deflector 63 and the ground, further improved arc deflector 63 to pulley 4 pivoted protection effect.

When the iron pipe is stored on the arc bearing plate 3, the arc bearing plate 3 descends and compresses the elastic telescopic column 2, one end of the elastic telescopic column 2 connected with the arc bearing plate 3 drives the L-shaped push strip 7 to descend, the L-shaped push strip 7 pushes the top end of the hinge strip 71 to descend, the bottom end of the hinge strip 71 drives the second slider 72 to move towards the direction away from the L-shaped push strip 7, the control strip 8 pushes the driving plate 93 and the rotating plate 91 to rotate, the knocking strip 92 rotates along with the rotating plate 91 and knocks the center of the first slider 61, when the bearing plate runs on a bumpy road section, the lifting force applied to the iron pipe is possibly large, so that the arc bearing plate 3 can be separated from the magnetic strip 5 for a short time and then is contacted with the magnetic strip 5, at the moment, one end of the elastic telescopic column 2 connected with the arc bearing plate 3 drives the L-shaped push strip 7 to ascend and descend, the distance from the same, the knocking strip 92 can continuously knock the center of the first slider 61, according to the principle of conservation of energy associated with newton's pendulum, the kinetic energy of the impact is transferred through the center connecting bar 62 to the center of the arc guide plate 63 to urge the stone on the arc guide plate 63 to move to both sides of the arc guide plate 63.

Example 3:

referring to fig. 1, 5 and 6, based on embodiment 1, in this embodiment, a movable groove 32 is formed at the bottom of the arc-shaped bearing plate 3, a distance between front and rear sides of the movable groove 32 is smaller than a distance between front and rear sides of the magnetic strip 5, an inner wall of the movable groove 32 is hinged to a center of the rotating strip 33, an elastic member is disposed between the rotating strip 33 and the movable groove 32, a top end of the rotating strip 33 is located outside the movable groove 32, a collision strip 331 is fixed at a bottom end of the rotating strip 33, the collision strip 331 abuts against the arc-shaped bearing plate 3, a flow groove 34 is formed at the top of the arc-shaped bearing plate 3, and an auxiliary filling positioning strip 31 is erected at the top of the flow groove 34; rotate the strip 33 through the setting and can rotate and collision strip 331 can break away from arc loading board 3 when arc loading board 3 and magnetic strip 5 contact, rotate strip 33 extrusion elastic component this moment, when arc loading board 3 breaks away from magnetic strip 5, it can reset and collision strip 331 can strike arc loading board 3 under the effect of elastic component to rotate strip 33, so that impurity such as iron rust in the recess 34 that flows removes to the center department of recess 34 that flows, be convenient for carry out centralized processing to adnexed impurity on the arc loading board 3.

When the device is used, the arc bearing plate 3 drives the rotating strip 33 to descend in the descending process, after one end of the rotating strip 33, which is positioned outside the movable groove 32, is contacted with the magnetic strip 5, the magnetic strip 5 pushes the end of the rotating strip 33 to move, so that the rotating strip 33 rotates, the rotating strip 33 drives the collision strip 331 to separate from the arc bearing plate 3 and extrude the elastic piece, in the ascending process of the arc bearing plate 3, the magnetic strip 5 separates from the arc bearing plate 3, the arc bearing plate 3 drives the rotating strip 33 to ascend, the rotating strip 33 is not thrust by the magnetic strip 5, the rotating strip 33 resets under the action of the elastic piece, the collision strip 331 collides with the arc bearing plate 3 again, and the vibration generated by the collision can enable impurities such as iron and the like at the top of the arc bearing plate 3 to slide towards the center of the flowing groove 34; when arc loading board 3 and magnetic strip 5 contact, arc loading board 3 carries magnetism, because generally can carry certain iron in the rust, so the rust can be produced certain appeal by arc loading board 3, this appeal makes the rust adhere to inside flowing recess 34, prevent that the supplementary rust that fills the locating strip 31 and scrape from splashing everywhere, after arc loading board 3 breaks away from magnetic strip 5, arc loading board 3 magnetism disappears, the rust is only attracted by magnetic strip 5, and the distance between magnetic strip 5 and the rust is great, so magnetic strip 5 is less to the adsorption affinity of rust, and the strike that rotates between strip 33 and the arc loading board 3 at this moment makes the rust move inside flowing recess 34, the arc inclined plane of arc loading board 3 makes the rust move towards flowing recess 34 center department.

Example 4:

referring to fig. 1, fig. 3 and fig. 7, based on embodiment 1, in this embodiment, a reinforcing groove 631 is formed in a center of one side of the arc-shaped guide plate 63 away from the bottom plate 1, an inner wall of one end of the reinforcing groove 631 away from the center of the bottom plate 1 is hinged to a reinforcing rotating plate 632, a protrusion contacting with the center of the arc-shaped guide plate 63 is disposed on one side of the reinforcing rotating plate 632, and the other side forms a complete arc with the arc-shaped guide plate 63; through setting up the reinforcing and rotating the board 632 and can utilize the kinetic energy of knocking a strip 92 striking slider 61 to rotate to carry out the side direction promotion to the stone, make the stone remove towards the direction of keeping away from bottom plate 1, in order to improve the control effect of arc deflector 63 to stone moving direction.

When the utility model is used, the kinetic energy generated when the knocking bar 92 strikes the first slider 61 is transmitted to the center of the arc-shaped guide plate 63, and the reinforcing rotating plate 632 is attached to the center of the arc-shaped guide plate 63, so that the reinforcing rotating plate 632 can generate a certain rotating effect under the action of the kinetic energy, and the rotation can generate lateral pushing on the stone to promote the stone to leave from the side surface of the bottom plate 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A bear frame based on construction management construction usefulness, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is fixed with the bottom end of the elastic telescopic column (2), the top of the elastic telescopic column (2) is fixed with the bottom of the center of the arc-shaped bearing plate (3), the arc-shaped bearing plate (3) protrudes downwards, a plurality of auxiliary filling positioning strips (31) are fixed on the inner concave surface, the left side and the right side of the bottom plate (1) are both provided with two symmetrically arranged pulleys (4), the bottom of the arc-shaped bearing plate (3) is provided with a magnetic strip (5), the radius of the magnetic strip (5) is the same as that of the arc-shaped bearing plate (3), a gap is arranged between the magnetic strip (5) and the arc-shaped bearing plate (3), the arc-shaped bearing plate (3) is made of one of iron, cobalt and nickel, the magnetic strip (5) is fixed on the side surface of one end of the elastic telescopic column (2) connected with the bottom plate (1), bottom plate (1) front side and rear side all are provided with and are used for preventing that the stone from influencing pulley (4) pivoted guiding mechanism (6).

2. The loading frame for construction based on building management as claimed in claim 1, wherein: guiding mechanism (6) include slider (61), central connecting strip (62) and arc deflector (63), bottom plate (1) front side and rear side are located guiding mechanism (6) and have seted up vertical spout (11), slider (61) both ends respectively with vertical spout (11) both sides sliding connection, central connecting strip (62) both ends are fixed with slider (61) and arc deflector (63) concave surface center department respectively, and arc deflector (63) concave surface is for being close to one side of bottom plate (1).

3. The loading frame for construction based on building management as claimed in claim 2, wherein: one end side and the L shape that flexible post (2) and arc loading board (3) are connected push away strip (7) horizontal part termination department and fix, L shape pushes away strip (7) vertical part termination department both sides and articulates with articulated strip (71) one end that two symmetries set up respectively, two articulated strip (71) other end is articulated with two slider two (72) tops respectively, slider two (72) bottom and bottom plate (1) sliding connection, and two slider two (72) keep away from one side each other and control strip (8) one end fixed, control strip (8) other end and supplementary break away from mechanism (9) and be connected.

4. The loading frame for construction based on building management as claimed in claim 3, wherein: supplementary release mechanism (9) are including rotating plate (91), strike strip (92) and drive plate (93), rotating plate (91) one side is articulated with bottom plate (1), and the opposite side is fixed with striking strip (92), slider (61) center department is located strikes the rotation region inside of strip (92), drive plate (93) are fixed and are perpendicular setting at the top of rotating plate (91) and with rotating plate (91), drive plate (93) one side and control strip (8) contact.

5. The loading frame for construction based on building management as claimed in claim 1, wherein: movable groove (32) have been seted up to arc loading board (3) bottom, distance between the both sides is less than the distance between the both sides around magnetic strip (5) around activity recess (32), activity recess (32) inner wall is articulated with rotation strip (33) center department, and rotates and be provided with the elastic component between strip (33) and activity recess (32), it is outside that rotation strip (33) top is located activity recess (32), and the bottom mounting has collision strip (331), collision strip (331) are contradicted with arc loading board (3), flow recess (34) have been seted up at arc loading board (3) top, supplementary filling location strip (31) erect and flow recess (34) top.

6. The loading frame for construction based on building management as claimed in claim 2, wherein: arc deflector (63) are kept away from bottom plate (1) one side center department and have been seted up reinforcing recess (631), reinforcing recess (631) are kept away from the one end inner wall of bottom plate (1) center department and are changeed board (632) with the reinforcing and articulate, reinforcing changes board (632) one side and is equipped with the arch of locating the contact with arc deflector (63) center, and the opposite side forms complete cambered surface with arc deflector (63).

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