CN114572913A - Mounting bracket for architectural equipment with antidetonation function - Google Patents

Abstract

A mounting rack for construction equipment with an anti-seismic function belongs to the technical field of construction equipment mounting, and aims to solve the problems of the existing mounting rack for construction equipment, when workers work at high places, the mounting frame is easy to vibrate, the invention uses a first damping mechanism, a second damping mechanism, a third damping mechanism and a fourth damping mechanism, wherein both ends of the first damping mechanism and the second damping mechanism are respectively connected with a first movable connecting rod in a shaft way, both ends of the third damping mechanism and the fourth damping mechanism are respectively connected with a second movable connecting rod in a shaft way, one end of the first movable connecting rod, which is close to the second movable connecting rod, is connected with a middle rotating shaft in a sliding way, so that the safety of the workers when the workers vibrate is greatly improved, and the problem of the existing mounting frame for the construction equipment is solved, when the staff carries out eminence during operation, the problem of the phenomenon of vibrations appears very easily in the mounting bracket.

Description

Mounting bracket for architectural equipment with antidetonation function

Technical Field

The invention relates to the technical field of installation of construction equipment, in particular to an installation frame with an anti-seismic function for construction equipment.

Background

Building equipment is an important component of a building, and comprises facility equipment such as water supply, drainage, heating, ventilation, air conditioning, electricity, elevators, communication, building intelligence and the like, people always have no way to separate water, air and electricity in daily life and work in one building, and equipment for providing the necessary things is called building equipment, and comprises systems such as water supply and drainage, heating, ventilation, air conditioning, power electricity and the like. Due to the presence of these devices, a healthy and comfortable indoor environment is ensured. In the installation work of construction equipment, the staff need utilize the mounting bracket to assist, the work of the eminence of being convenient for.

However, current mounting bracket for architectural equipment carries out eminence during operation at the staff, and the phenomenon of vibrations appears very easily in the mounting bracket, makes the staff be difficult to stand steadily easily, and the security is lower, and current mounting bracket is for the convenience to remove, and the universal wheel can be installed to its lower extreme, so lead to the stability of steady during operation not good easily.

To solve the above problems. Therefore, the mounting rack for the building equipment with the earthquake-resistant function is provided.

Disclosure of Invention

The invention aims to provide an installation frame with an anti-seismic function for building equipment, which solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme that the mounting frame for the building equipment with the earthquake-proof function comprises a main frame and a standing frame which is connected to the outer wall of the main frame in a sliding mode, wherein a damping plate is arranged at the lower end of the standing frame, a bottom frame is arranged at the lower end of the damping plate, universal wheels are arranged at the lower end of the bottom frame, a buffer part is arranged on a bottom plate of the standing frame, a damping component which is arranged at the upper end of the damping plate is arranged at one end of the buffer part, a buffer groove is formed in the upper end of the damping plate, and the buffer part is arranged in an inner cavity of the buffer groove;

the damping assembly comprises a first damping mechanism, a second damping mechanism, a third damping mechanism and a fourth damping mechanism which are installed at the upper end of a damping plate, the first damping mechanism and the second damping mechanism are symmetrically distributed about the center of a buffer groove, the third damping mechanism and the fourth damping mechanism are symmetrically distributed about the center of the buffer groove, a first movable connecting rod is connected to the two ends of the first damping mechanism and the two ends of the second damping mechanism through shafts, a second movable connecting rod is connected to the two ends of the third damping mechanism and the two ends of the fourth damping mechanism through shafts, one end of the first movable connecting rod, which is close to the second movable connecting rod, is connected with a middle rotating shaft in a sliding mode, and the first damping mechanism, the second damping mechanism, the third damping mechanism and the fourth damping mechanism are identical in composition structure.

Furthermore, the shape of the buffer piece is a hemisphere, the shape of the inner cavity of the buffer groove is matched with the shape of the buffer piece, and the diameter of the inner cavity of the buffer groove is smaller than that of the buffer piece.

Further, first damper is including installing first installed part and the second installed part in the shock attenuation board upper end, the last end hub connection of first installed part has first depression bar, the last end hub connection of second installed part has the second depression bar, the one end hub connection that first installed part was kept away from to first depression bar has first movable mounting piece, the one end hub connection that second installed part was kept away from to the second depression bar has second movable mounting piece, first slider is installed to the one end that first depression bar was kept away from to first movable mounting piece, the second slider is installed to the one end that second depression bar was kept away from to second movable mounting piece, first slider and the equal sliding connection of second slider are at the lower extreme of standing the frame, fixedly connected with reset spring between first slider and the second slider.

Furthermore, detection control terminal is installed to the curb plate upper end of standing the frame, and detection control terminal includes working height detection module, and working height detection module electric connection data input module, data input module electric connection data analysis module, data analysis module electric connection singlechip, singlechip electric connection signal transceiver module, signal transceiver module electric connection two-way motor.

Further, the two-way motor is installed on the outer wall of the bottom frame, a height adjusting mechanism is arranged at one end of the two-way motor, and a support switching mechanism is arranged at the lower end of the height adjusting mechanism.

Further, height adjusting mechanism includes the output pole that one end and two-way motor output are connected, the output pole is kept away from the one end fixedly connected with first bevel gear of two-way motor, the meshing of first bevel gear's one end has second bevel gear, second bevel gear's upper end is provided with the extension rod, the upper end fixedly connected with action wheel of extension rod, the outer wall transmission of action wheel is connected with first drive belt, the one end transmission that the action wheel was kept away from in first drive belt is connected with the screw thread adjusting rod, the power main part is installed to the upper end of screw thread adjusting rod.

Furthermore, the threaded adjusting rod is movably connected to the inner cavity of the main frame, and one end of the damping plate is in threaded connection with the threaded adjusting rod.

Further, support the shifter and include the carriage of swing joint at the underframe inner wall, the steadiness support board is installed to the lower extreme of carriage, the connecting plate is installed to the inner wall of carriage, the interior wall threaded connection of connecting plate has the change-over bar, the first drive wheel of upper end fixedly connected with of change-over bar, the outer wall transmission of first drive wheel is connected with the second drive belt, the one end transmission that first drive wheel was kept away from to the second drive belt is connected with the second drive wheel, the second drive wheel rotates the upper end of connecting second bevel gear.

Furthermore, an auxiliary mechanism is arranged in an inner cavity of the middle connecting rod, the auxiliary mechanism is connected to a center connecting rod on the inner wall of the middle connecting rod in a sliding mode, a buckling mechanism is arranged in the inner cavity of the center connecting rod, a fixing groove formed in the inner wall of the middle connecting rod is formed in the side end of the buckling mechanism, and the center connecting rod is connected with the inner wall of the second driving wheel in a sliding mode.

Further, buckle mechanism includes supplementary handle, supplementary handle's one end fixedly connected with center pivot, and the inner wall of center pivot is provided with the coil spring, and the both sides of coil spring all are connected with the oblique pole, and the one end hub connection that the coil spring was kept away from to the oblique pole has the dead lever, fixedly connected with elasticity original paper between dead lever and the oblique pole.

Compared with the prior art, the invention has the beneficial effects that:

1. a mounting rack for construction equipment with anti-seismic function is characterized in that when a worker performs mounting work at a high place and generates vibration, a standing frame is driven to approach a damping plate through vibration force to enable a buffering member to move downwards in a buffering groove, the diameter of an inner cavity of the buffering groove is smaller than that of the buffering member, the buffering member is of a hollow structure and is a component made of rubber, so that the speed is gradually reduced in the process that the buffering member moves downwards, the buffering member can be slowly reset, the damping purpose is realized, meanwhile, a first sliding block and a second sliding block can approach each other under extrusion to extrude a reset spring, the vibration force is further reduced through the reaction of the reset spring, when the standing position of the worker is close to a first damping mechanism, a first movable connecting rod can be pulled through a first pressure rod and a second pressure rod can be pulled through the matching of a middle rotating shaft, thereby stimulate third damper and fourth damper's second depression bar, thereby stimulate third damper and fourth damper's reset spring, reset spring reaction force through third damper and fourth damper, make the vibrations power of the position of standing further alleviate, through first damper, second damper, cooperation organic between third damper and the fourth damper, staff's security when greatly improving the emergence vibrations, solve current mounting bracket for construction equipment, carry out eminence during operation at the staff, the problem of the phenomenon of vibrations appears very easily in the mounting bracket.

2. A mounting rack for construction equipment with anti-seismic function is disclosed, before working, firstly, infrared detection is carried out on a to-be-mounted position through a working height detection module, a worker inputs self height data through a data input module, mounting position information and height information are analyzed through a data analysis module, a signal is sent to a two-way motor through a singlechip trigger signal receiving and sending module, the two-way motor is started to drive an output rod to rotate, a middle connecting rod and a driving wheel rotate through the matching between a first bevel gear and a second bevel gear, and then a threaded adjusting rod is driven to rotate through the transmission of the middle connecting rod and the first driving belt, so that a damping plate is driven to push a standing frame to carry out height adjustment, the mounting rack is adjusted to the optimal position for working, the working comfort level of the worker is improved, the mounting rack is extremely convenient and fast, the mounting rack can be conveniently moved through a universal wheel, and during working, in second bevel gear pivoted, the second drive wheel can drive simultaneously and rotate down, the cooperation through the second drive belt this moment, can drive first drive wheel and rotate, utilize first drive wheel to drive the transfer lever and rotate, make the connecting plate drive the carriage along the inner wall downstream of underframe, make the stabilizer blade support ground, there is universal wheel to turn into the stabilizer blade with the supporting component, guarantee during operation stability, solve current mounting bracket for convenient the removal, the universal wheel can be installed to its lower extreme, so lead to the not good problem of stability of stationary during operation easily.

3. The utility model provides a mounting bracket for architectural equipment with antidetonation function, buckle mechanism is with when being close to the block of the fixed slot of extension bar lower extreme, the second drive wheel is connected to the central connecting rod, if need high adjustment mechanism and support shifter autonomous working, at first draw supplementary handle outward, utilize supplementary handle to drive oblique extension bar extrusion coil spring, make the dead lever break away from the block with the fixed slot, draw supplementary handle upward this moment, drive the central connecting rod and shift up, break away from being connected with the second drive wheel, shift up to when being close to the fixed slot original paper of extension bar upper end at the central connecting rod, the reaction force cooperation through coil spring and elasticity this moment, can drive the inner chamber of dead lever block at the fixed slot, high adjustment mechanism and support shifter autonomous working when can, and convenient for operation, make things convenient for the staff to adjust according to actual conditions.

Drawings

Fig. 1 is an overall perspective view of a mounting bracket for construction equipment with an earthquake-resistant function according to the present invention;

FIG. 2 is a schematic view of the overall plan structure of the mounting bracket for construction equipment with earthquake-resistant function according to the present invention;

FIG. 3 is a schematic structural view of a shock-absorbing assembly of the mounting bracket for construction equipment with earthquake-resistant function according to the present invention;

FIG. 4 is a schematic structural view of a first damping mechanism of the mounting rack for construction equipment with earthquake-resistant function according to the present invention;

fig. 5 is a schematic structural view of a detection control terminal of the mounting bracket for the anti-seismic building equipment according to the invention;

FIG. 6 is a schematic view of the internal structure of the bottom frame of the installation frame for construction equipment with earthquake-proof function of the present invention;

FIG. 7 is a schematic structural view of a height adjustment mechanism of the mounting rack for construction equipment with earthquake-resistant function according to the present invention;

FIG. 8 is a schematic structural view of a support conversion mechanism of the mounting bracket for construction equipment with earthquake-resistant function according to the present invention;

fig. 9 is an enlarged view of a portion a of fig. 8 of the mounting bracket for construction equipment having a seismic resistance function according to the present invention;

FIG. 10 is a schematic structural view of an auxiliary mechanism of the mounting rack for construction equipment with earthquake-resistant function according to the present invention;

FIG. 11 is a schematic structural view of a fastening mechanism of the mounting rack for construction equipment with earthquake-resistant function according to the present invention;

fig. 12 is an enlarged view of fig. 11B of the mounting bracket for construction equipment having a seismic resistance function according to the present invention.

In the figure: 1. a main frame; 2. standing the frame; 3. a damper plate; 4. a bottom frame; 5. a universal wheel; 6. a buffer member; 7. a shock absorbing assembly; 71. a first damper mechanism; 72. a second damper mechanism; 73. a third damper mechanism; 74. a fourth damping mechanism; 75. a first movable connecting rod; 76. a second movable connecting rod; 77. a middle rotating shaft; 711. a first mounting member; 712. a second mount; 713. a first pressure lever; 714. a second compression bar; 715. a first movable mounting block; 716. a second movable mounting block; 717. a first slider; 718. a second slider; 719. a return spring; 8. a buffer tank; 9. detecting a control terminal; 91. a height detection module; 92. a data input module; 93. a data analysis module; 94. a single chip microcomputer; 95. a signal transceiving module; 96. a bi-directional motor; 10. a height adjustment mechanism; 101. an output rod; 102. a first bevel gear; 103. a second bevel gear; 104. a middle connecting rod; 105. a driving wheel; 106. a first drive belt; 107. a threaded adjusting rod; 108. a power body; 11. a support conversion mechanism; 111. a carriage; 112. stabilizing the support plate; 113. a connecting plate; 114. a transfer lever; 115. a first drive pulley; 116. a second belt; 117. a second transmission wheel; 12. an auxiliary mechanism; 121. a central link; 122. a buckle mechanism; 1221. an auxiliary handle; 1222. a central rotating shaft; 1223. a coil spring; 1224. an oblique connecting rod; 1225. fixing the rod; 1226. an elastic element; 123. and fixing the grooves.

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.

In order to solve the problem that the existing mounting rack for the construction equipment is easy to vibrate when a worker works at a high place, the following preferred technical solutions are provided as shown in fig. 1 to 4:

an installation frame with an anti-seismic function for building equipment comprises a main frame 1 and a standing frame 2 which is connected to the outer wall of the main frame 1 in a sliding mode, wherein a damping plate 3 is arranged at the lower end of the standing frame 2, a bottom frame 4 is arranged at the lower end of the damping plate 3, universal wheels 5 are arranged at the lower end of the bottom frame 4, a buffer piece 6 is installed on the bottom plate of the standing frame 2, a damping component 7 which is installed at the upper end of the damping plate 3 is arranged at one end of the buffer piece 6, a buffer groove 8 is formed in the upper end of the damping plate 3, and the buffer piece 6 is installed in the inner cavity of the buffer groove 8;

the damping component 7 comprises a first damping mechanism 71, a second damping mechanism 72, a third damping mechanism 73 and a fourth damping mechanism 74 which are arranged at the upper end of the damping plate 3, the first damping mechanism 71 and the second damping mechanism 72 are symmetrically distributed around the center of the buffer groove 8, the third damping mechanism 73 and the fourth damping mechanism 74 are symmetrically distributed around the center of the buffer groove 8, both ends of the first damping mechanism 71 and the second damping mechanism 72 are respectively connected with a first movable connecting rod 75 in a shaft mode, both ends of the third damping mechanism 73 and the fourth damping mechanism 74 are respectively connected with a second movable connecting rod 76 in a shaft mode, one end, close to the first movable connecting rod 75 and the second movable connecting rod 76, of the first damping mechanism 71, the second damping mechanism 72, the third damping mechanism 73 and the fourth damping mechanism 74 are connected with a middle rotating shaft 77 in a sliding mode, the first damping mechanism 71, the second damping mechanism 72, the third damping mechanism 73 and the fourth damping mechanism 74 are identical in composition structure, the shape of the damping mechanism 6 is a hemisphere, the shape of the inner cavity of the buffer groove 8 is matched with the shape of the damping mechanism 6, and the diameter of the inner cavity of the buffer groove 8 is smaller than that of the buffer part 6, and the buffer part 6 is of a hollow structure and is a component made of rubber.

The first damping mechanism 71 comprises a first mounting part 711 and a second mounting part 712 which are mounted at the upper end of the damping plate 3, the upper end shaft of the first mounting part 711 is connected with a first pressure rod 713, the upper end shaft of the second mounting part 712 is connected with a second pressure rod 714, one end shaft of the first pressure rod 713, which is far away from the first mounting part 711, is connected with a first movable mounting block 715, one end shaft of the second pressure rod 714, which is far away from the second mounting part 712, is connected with a second movable mounting block 716, one end of the first movable mounting block 715, which is far away from the first pressure rod 713, is provided with a first sliding block 717, one end of the second movable mounting block 716, which is far away from the second pressure rod 714, is provided with a second sliding block 718, the first sliding block 717 and the second sliding block 718 are both connected at the lower end of the standing frame 2 in a sliding manner, and a return spring 719 is fixedly connected between the first sliding block 717 and the second sliding block 718.

Specifically, when a worker performs installation work at a high place and generates vibration, the worker drives the standing frame 2 to move close to the damping plate 3 through vibration force, so that the buffer member 6 moves downwards in the buffer groove 8, and because the diameter of the inner cavity of the buffer groove 8 is smaller than that of the buffer member 6, the buffer member 6 is of a hollow structure and is a member made of rubber, the speed is gradually reduced and the buffer member 6 can be slowly reset in the moving-down process, so that the damping purpose is realized, meanwhile, the first sliding block 717 and the second sliding block 718 can move close to each other under extrusion, so as to extrude the reset spring 719, through the reaction of the reset spring 719, so as to further reduce the vibration force, when the standing position of the worker approaches to the first damping mechanism 71, the first movable connecting rod 75 can be pulled through the first compression rod 713 and the second compression rod 714, and the second movable connecting rod 76 can be pulled through the matching of the middle rotating shaft 77, thereby pulling third damper 73 and fourth damper 74's second depression bar 714, thereby pulling third damper 73 and fourth damper 74's reset spring 719, reset spring 719 through third damper 73 and fourth damper 74, make the shaking force of position of standing further alleviate, through first damper 71, second damper 72, the organic cooperation between third damper 73 and the fourth damper 74, staff's security when vibrations take place is greatly improved, solve current mounting bracket for construction equipment, when the staff carries out eminence work, the problem of the phenomenon of vibrations appears very easily in the mounting bracket.

In order to improve the working comfort of the staff, as shown in fig. 5-7, the following preferred technical solutions are provided:

detection control terminal 9 is installed to stand frame 2's curb plate upper end, detection control terminal 9 includes working height detection module 91, working height detection module 91 electric connection data input module 92, data input module 92 electric connection data analysis module 93, data analysis module 93 electric connection singlechip 94, singlechip 94 electric connection signal transceiver module 95, signal transceiver module 95 electric connection two-way motor 96, two-way motor 96 installs the outer wall at underframe 4, two-way motor 96's one end is provided with height adjusting mechanism 10, height adjusting mechanism 10's lower extreme is provided with supports shifter 11.

The height adjusting mechanism 10 comprises an output rod 101 with one end connected with the output end of the two-way motor 96, a first bevel gear 102 fixedly connected with one end of the output rod 101 far away from the two-way motor 96, a second bevel gear 103 meshed with one end of the first bevel gear 102, a middle connecting rod 104 arranged at the upper end of the second bevel gear 103, a driving wheel 105 fixedly connected with the upper end of the middle connecting rod 104, a first driving belt 106 connected with the outer wall of the driving wheel 105 in a transmission manner, a threaded adjusting rod 107 connected with one end of the first driving belt 106 far away from the driving wheel 105 in a transmission manner, a power main body 108 installed at the upper end of the threaded adjusting rod 107, the threaded adjusting rod 107 movably connected with the inner cavity of the main frame 1, and one end of the damping plate 3 is in threaded connection with the threaded adjusting rod 107.

Specifically, before carrying out work, at first treat the mounted position through work height detection module 91 and carry out infrared detection, the staff passes through the height data of data input module 92 input self, carry out the analysis to mounted position information and height information through data analysis module 93, trigger signal transceiver module 95 through singlechip 94 sends out signals to two-way motor 96, make start two-way motor 96 and drive output pole 101 and rotate, cooperation through between first bevel gear 102 and the second bevel gear 103, make extension pole 104 and action wheel 105 rotate, again through driving threaded adjusting rod 107 with first drive belt 106 and rotate, thereby it carries out the regulation of height to drive damper plate 3 and impel standing frame 2, adjust to the optimum position of work, improve staff's work comfort level, it is extremely convenient.

In order to solve the problem that the universal wheel is installed at the lower end of the existing installation frame in order to move conveniently, so that the stability is poor easily during stable work, as shown in fig. 8, the following preferable technical scheme is provided:

the support conversion mechanism 11 comprises a sliding frame 111 movably connected to the inner wall of the bottom frame 4, a stable support plate 112 is mounted at the lower end of the sliding frame 111, a connecting plate 113 is mounted on the inner wall of the sliding frame 111, a conversion rod 114 is connected to the inner wall of the connecting plate 113 through threads, a first transmission wheel 115 is fixedly connected to the upper end of the conversion rod 114, a second transmission belt 116 is connected to the outer wall of the first transmission wheel 115 in a transmission manner, a second transmission wheel 117 is connected to one end, away from the first transmission wheel 115, of the second transmission belt 116 in a transmission manner, and the second transmission wheel 117 is rotatably connected to the upper end of the second bevel gear 103.

Specifically, can make things convenient for the mounting bracket to carry out the position through universal wheel 5 and remove, at the during operation, in second bevel gear 103 pivoted, second drive wheel 117 can rotate simultaneously under driving, pass through the cooperation of second drive belt 116 this moment, can drive first drive wheel 115 and rotate, utilize first drive wheel 115 to drive the change-over lever 114 and rotate, make connecting plate 113 drive carriage 111 move down along the inner wall of underframe 4, make the stabilizer support plate 112 support ground, have universal wheel 5 to turn into stabilizer support plate 112 with the supporting member, guarantee the stability of during operation, solve current mounting bracket and remove for convenience, universal wheel 5 can be installed to its lower extreme, so lead to the not good problem of stability of stationary work time easily.

In order to facilitate the operation of the staff, as shown in fig. 9-12, the following preferred technical solutions are provided:

an auxiliary mechanism 12 is arranged in an inner cavity of the middle connecting rod 104, the auxiliary mechanism 12 is slidably connected to a central connecting rod 121 on the inner wall of the middle connecting rod 104, a buckling mechanism 122 is arranged in the inner cavity of the central connecting rod 121, a fixing groove 123 formed in the inner wall of the middle connecting rod 104 is formed in the side end of the buckling mechanism 122, and the central connecting rod 121 is slidably connected with the inner wall of the second driving wheel 117.

The buckle mechanism 122 comprises an auxiliary handle 1221, a central rotating shaft 1222 is fixedly connected to one end of the auxiliary handle 1221, a coil spring 1223 is arranged on the inner wall of the central rotating shaft 1222, oblique rods 1224 are connected to two sides of the coil spring 1223, a fixing rod 1225 is connected to one end of each oblique rod 1224, which is far away from the coil spring 1223, in a shaft manner, and an elastic element 1226 is fixedly connected between the fixing rod 1225 and the oblique rods 1224.

Specifically, when the buckling mechanism 122 is clamped with the fixing groove 123 close to the lower end of the middle connecting rod 104, the center connecting rod 121 is connected with the second transmission wheel 117, if the height adjusting mechanism 10 and the support conversion mechanism 11 need to work independently, the auxiliary handle 1221 is firstly pulled outwards, the auxiliary handle 1221 is utilized to drive the oblique connecting rod 1224 to extrude the coil spring 1223, so that the fixing rod 1225 is separated from the clamping with the fixing groove 123, at the moment, the auxiliary handle 1221 is pulled upwards to drive the center connecting rod 121 to move upwards to be separated from the connection with the second transmission wheel 117, when the center connecting rod 121 moves upwards to the fixing groove 123 close to the upper end of the middle connecting rod 104, the coil spring 1223 is matched with the reaction force of the elastic element 1226, the fixing rod 1225 is driven to be clamped in the inner cavity of the fixing groove 123, the height adjusting mechanism 10 and the support conversion mechanism 11 can work independently, and the operation is convenient and convenient for workers to adjust according to actual conditions.

In summary, the following steps: when a worker shakes during mounting work at a high place, the standing frame 2 is driven to approach the damping plate 3 through vibration force, so that the buffer piece 6 moves downwards in the buffer groove 8, the diameter of the inner cavity of the buffer groove 8 is smaller than that of the buffer piece 6, the buffer piece 6 is of a hollow structure and is a component made of rubber, the speed is gradually reduced in the process that the buffer piece 6 moves downwards, the buffer piece is slowly reset, the damping purpose is achieved, meanwhile, the first sliding block 717 and the second sliding block 718 are squeezed to be close to each other under squeezing, the reset spring 719 is squeezed, the vibration force is further reduced through the reaction of the reset spring 719, when the standing position of the worker is close to the first damping mechanism 71, the first movable connecting rod 75 is pulled through the first pressure rod 713 and the second pressure rod 714, the second movable connecting rod 76 is pulled through the matching of the middle rotating shaft 77, and the second pressure rods 714 of the third damping mechanism 73 and the fourth damping mechanism 74 are pulled, thereby pulling the reset spring 719 of the third damping mechanism 73 and the fourth damping mechanism 74, further reducing the vibration force at the standing position by the reaction force of the reset spring 719 of the third damping mechanism 73 and the fourth damping mechanism 74, greatly improving the safety of the worker when the worker vibrates by the organic cooperation among the first damping mechanism 71, the second damping mechanism 72, the third damping mechanism 73 and the fourth damping mechanism 74, before the worker works, firstly performing infrared detection on the position to be installed by the working height detection module 91, inputting the height data of the worker by the data input module 92, analyzing the installation position information and the height information by the data analysis module 93, triggering the signal receiving and sending module 95 by the single chip microcomputer 94 to send a signal to the bidirectional motor 96, so that the bidirectional motor 96 is started to drive the output rod 101 to rotate, and through the cooperation between the first bevel gear 102 and the second bevel gear 103, the middle connecting rod 104 and the driving wheel 105 are rotated, and then the middle connecting rod and the first transmission belt 106 drive the threaded adjusting rod 107 to rotate, so as to drive the damping plate 3 to push the standing frame 2 to adjust the height to the optimal position for work, thereby improving the working comfort of workers, when the second bevel gear 103 rotates, the second transmission wheel 117 can simultaneously rotate under the drive of the second transmission belt, at the moment, the first transmission wheel 115 can be driven to rotate through the cooperation of the second transmission belt 116, the first transmission wheel 115 can drive the conversion rod 114 to rotate, so that the connecting plate 113 can drive the sliding frame 111 to move downwards along the inner wall of the bottom frame 4, so that the stable supporting plate 112 supports the ground, the supporting member with the universal wheel 5 is converted into the stable supporting plate 112, if the height adjusting mechanism 10 and the supporting conversion mechanism 11 need to work independently, the auxiliary handle 1221 is firstly pulled outwards, the auxiliary handle 1221 is used to drive the oblique connecting rod 1224 to extrude the coil spring 1223, make dead lever 1225 break away from with the block of fixed slot 123, pull-up auxiliary handle 1221 this moment, drive central connecting rod 121 and shift up, break away from being connected with second drive wheel 117, when central connecting rod 121 shifts up to fixed slot 123 near extension rod 104 upper end, through the reaction force cooperation of coil spring 1223 with elasticity original paper 1226 this moment, can drive the inner chamber of dead lever 1225 block at fixed slot 123, height control mechanism 10 and support switching mechanism 11 autonomous working during can, and the operation is convenient, make things convenient for the staff to adjust according to actual conditions.

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.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a mounting bracket for architectural equipment with antidetonation function, includes, main frame (1) to and sliding connection is at standing frame (2) of main frame (1) outer wall, and the lower extreme of standing frame (2) is provided with shock attenuation board (3), and the lower extreme of shock attenuation board (3) is provided with underframe (4), and the lower extreme of underframe (4) is provided with universal wheel (5), its characterized in that: a buffer piece (6) is installed on the bottom plate of the standing frame (2), a shock absorption assembly (7) installed at the upper end of the shock absorption plate (3) is arranged at one end of the buffer piece (6), a buffer groove (8) is formed in the upper end of the shock absorption plate (3), and the buffer piece (6) is installed in the inner cavity of the buffer groove (8);

the damping assembly (7) comprises a first damping mechanism (71), a second damping mechanism (72), a third damping mechanism (73) and a fourth damping mechanism (74) which are installed at the upper end of a damping plate (3), wherein the first damping mechanism (71) and the second damping mechanism (72) are symmetrically distributed about the center of a buffer groove (8), the third damping mechanism (73) and the fourth damping mechanism (74) are symmetrically distributed about the center of the buffer groove (8), the first damping mechanism (71) and the second damping mechanism (72) are connected with a first movable connecting rod (75) in a shaft mode, the third damping mechanism (73) and the fourth damping mechanism (74) are connected with a second movable connecting rod (76) in a shaft mode, one end, close to the first movable connecting rod (75) and the second movable connecting rod (76), of the first damping mechanism (71), the second damping mechanism (72) is connected with a rotating shaft (77) in a sliding mode, The third damping mechanism (73) and the fourth damping mechanism (74) have the same composition structure.

2. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 1, wherein: the shape of the buffer piece (6) is a hemisphere, the shape of the inner cavity of the buffer groove (8) is matched with the shape of the buffer piece (6), and the diameter of the inner cavity of the buffer groove (8) is smaller than that of the buffer piece (6).

3. The mounting bracket for construction equipment with earthquake-proof function as claimed in claim 2, wherein: first damper (71) are including installing first installed part (711) and second installed part (712) in the shock attenuation board (3) upper end, the last end hub connection of first installed part (711) has first depression bar (713), the last end hub connection of second installed part (712) has second depression bar (714), the one end hub connection of first installed part (711) is kept away from in first depression bar (713) has first movable mounting piece (715), the one end hub connection of second installed part (712) is kept away from in second depression bar (714) has second movable mounting piece (716), first movable mounting piece (715) is kept away from the one end of first depression bar (713) and is installed first slider (717), second movable mounting piece (716) are kept away from the one end of second depression bar (714) and are installed second slider (718), first slider (717) and the equal sliding connection in the lower extreme of standing frame 719 (2) of second slider (718), fixedly connected with reset spring (718) between first slider (717) and the second slider (718).

4. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 1, wherein: detection control terminal (9) are installed to the curb plate upper end of standing frame (2), and detection control terminal (9) are including working height detection module (91), working height detection module (91) electric connection data input module (92), data input module (92) electric connection data analysis module (93), data analysis module (93) electric connection singlechip (94), singlechip (94) electric connection signal transceiver module (95), signal transceiver module (95) electric connection two-way motor (96).

5. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 4, wherein: the bidirectional motor (96) is installed on the outer wall of the bottom frame (4), one end of the bidirectional motor (96) is provided with a height adjusting mechanism (10), and the lower end of the height adjusting mechanism (10) is provided with a support switching mechanism (11).

6. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 5, wherein: height adjusting mechanism (10) include output rod (101) that one end is connected with two-way motor (96) output, the one end fixedly connected with first bevel gear (102) of two-way motor (96) are kept away from in output rod (101), the one end meshing of first bevel gear (102) has second bevel gear (103), the upper end of second bevel gear (103) is provided with well pole (104), the upper end fixedly connected with action wheel (105) of well pole (104), the outer wall transmission of action wheel (105) is connected with first drive belt (106), the one end transmission that action wheel (105) were kept away from in first drive belt (106) is connected with threaded adjusting rod (107), power main part (108) are installed to the upper end of threaded adjusting rod (107).

7. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 6, wherein: the threaded adjusting rod (107) is movably connected to the inner cavity of the main frame (1), and one end of the damping plate (3) is in threaded connection with the threaded adjusting rod (107).

8. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 7, wherein: the support conversion mechanism (11) comprises a sliding frame (111) movably connected to the inner wall of the bottom frame (4), a stable support plate (112) is installed at the lower end of the sliding frame (111), a connecting plate (113) is installed on the inner wall of the sliding frame (111), a conversion rod (114) is connected to the inner wall of the connecting plate (113) in a threaded mode, a first transmission wheel (115) is fixedly connected to the upper end of the conversion rod (114), a second transmission belt (116) is connected to the outer wall of the first transmission wheel (115) in a transmission mode, a second transmission wheel (117) is connected to one end, far away from the first transmission wheel (115), of the second transmission belt (116) in a transmission mode, and the second transmission wheel (117) is rotatably connected to the upper end of the second bevel gear (103).

9. The mounting bracket for construction equipment with earthquake-proof function as set forth in claim 8, wherein: an auxiliary mechanism (12) is arranged in an inner cavity of the middle connecting rod (104), the auxiliary mechanism (12) is connected to a central connecting rod (121) in the inner wall of the middle connecting rod (104) in a sliding mode, a buckling mechanism (122) is arranged in the inner cavity of the central connecting rod (121), a fixing groove (123) formed in the inner wall of the middle connecting rod (104) is formed in the side end of the buckling mechanism (122), and the central connecting rod (121) is connected with the inner wall of the second driving wheel (117) in a sliding mode.

10. The mounting bracket for construction equipment with earthquake-proof function as claimed in claim 9, wherein: the buckle mechanism (122) comprises an auxiliary handle (1221), one end of the auxiliary handle (1221) is fixedly connected with a center rotating shaft (1222), the inner wall of the center rotating shaft (1222) is provided with a coil spring (1223), two sides of the coil spring (1223) are respectively connected with a diagonal rod (1224), one end of the diagonal rod (1224), far away from the coil spring (1223), is connected with a fixing rod (1225) in a shaft mode, and an elastic element (1226) is fixedly connected between the fixing rod (1225) and the diagonal rod (1224).

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