CN110757416A - Fixing device for interior decoration wall collision device - Google Patents

Abstract

The invention discloses a fixing device for an indoor decoration wall surface collision device, which comprises a bottom supporting substrate. The wall surface collision device can be fixed in the prior art, after the wall surface collision device is fixed, the vibration effect generated by the wall surface collision device can be effectively reduced and lost, so that the damage of the vibration effect generated by the wall surface collision device to a human body is minimized, the health of workers is protected, and the wall surface collision device is strong in practicability.

Description

Fixing device for interior decoration wall collision device

Technical Field

The invention relates to the technical field of fixing devices, in particular to a fixing device for an indoor decoration wall surface collision device.

Background

At present, take the house after the user, all can decorate indoor, people can destroy the wall body that does not need according to the wish of oneself after the fitment, form better living space, and current wall offend device all is hand-held type work, and at wall offend device during operation, at frequent vibrations in-process, can cause the damage to the bone, the damage degree is too high moreover.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide a fixing device for an indoor wall surface collision device.

In order to achieve the purpose, the invention provides the following technical scheme: a fixing device for an indoor decoration wall collision device comprises a bottom supporting substrate, wherein idler wheels are installed at the bottom of the bottom supporting substrate, a main hollow rod is installed on one side of the upper surface of the bottom supporting substrate, a main insertion space is arranged inside the main hollow rod, a main telescopic rod is inserted inside the main insertion space, the top end of the main telescopic rod is installed at the bottom of a top supporting substrate through a main connecting plate, a working space position height adjusting mechanism is installed between the bottom of the top supporting substrate and the upper surface of the bottom supporting substrate, a movable groove structure is arranged on one side of the upper surface of the top supporting substrate, a telescopic moving space is arranged on one side of the movable groove structure, a movable plate block is placed on the upper surface of the movable groove structure, and a wall collision device thread structure clamping type control mechanism is installed on the upper surface of the movable plate block, the utility model discloses a friction conversion energy dissipation mechanism for a friction conversion of annular steel plate, including removal plate, one side mid-mounting one of removal plate is one step by step and is reduced formula annular steel plate friction conversion energy dissipation mechanism, the one end installation pair connecting plate of step by step reduction formula annular steel plate friction conversion energy dissipation mechanism, the tip installation pair telescopic link of vice connecting plate, the side of top sprag base plate is through the cavity pole in the pair of third connecting plate installation, the center of the cavity pole in the pair is provided with vice insertion space, the inside in vice insertion space is inserted to the one end of vice telescopic link, just the main coil spring of the internally mounted compression in vice.

Further, the working space position height adjusting mechanism comprises a threaded sleeve for the working space position height adjusting mechanism, a threaded section for the working space position height adjusting mechanism, a threaded structure for the working space position height adjusting mechanism, a bottom threaded rod for the working space position height adjusting mechanism, a top threaded rod for the working space position height adjusting mechanism, a limiting hole for the working space position height adjusting mechanism, a limiting rod for the working space position height adjusting mechanism, a first connecting plate for the working space position height adjusting mechanism, a second connecting rod for the working space position height adjusting mechanism, a first bolt hole for the working space position height adjusting mechanism and a second bolt hole for the working space position height adjusting mechanism; the center in the threaded sleeve for the working space position height adjusting mechanism is provided with a threaded section for the working space position height adjusting mechanism, which is communicated with two end faces of the threaded sleeve for the working space position height adjusting mechanism, the threaded sleeve for the working space position height adjusting mechanism is provided with a threaded structure for the working space position height adjusting mechanism on the inner wall of the threaded section for the working space position height adjusting mechanism, the bottom and the top of the threaded section for the working space position height adjusting mechanism are respectively connected with a bottom threaded rod for the working space position height adjusting mechanism and a top threaded rod for the working space position height adjusting mechanism through the threaded structure for the working space position height adjusting mechanism, the bottom threaded rod for the working space position height adjusting mechanism and the top threaded rod for the working space position height adjusting mechanism are both provided with limiting holes for the working space position height adjusting mechanism in opposite ends, two a spacing rod for a work space position height adjusting mechanism is inserted into the inside of a spacing hole for a work space position height adjusting mechanism, a first connecting plate for a work space position height adjusting mechanism and a second connecting rod for a work space position height adjusting mechanism are respectively installed at the other two ends of a bottom threaded rod for the work space position height adjusting mechanism and a top threaded rod for the work space position height adjusting mechanism, and a first bolt hole for a work space position height adjusting mechanism and a second bolt hole for a work space position height adjusting mechanism are respectively arranged inside the first connecting plate for the work space position height adjusting mechanism and the second connecting rod for the work space position height adjusting mechanism.

Further, the thread structure for the height adjusting mechanism of the working space position comprises an internal thread structure arranged on the inner wall of the thread sleeve for the height adjusting mechanism of the working space position and an external thread structure arranged on the body of the bottom threaded rod for the height adjusting mechanism of the working space position and the body of the top threaded rod for the height adjusting mechanism of the working space position, and is located in the opposite direction of the thread structure on the body of the bottom threaded rod for the height adjusting mechanism of the working space position and the body of the top threaded rod for the height adjusting mechanism of the working space position.

Furthermore, the cross section of the limiting hole for the working space position height adjusting mechanism and the cross section of the limiting rod for the working space position height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole for the working space position height adjusting mechanism and the second bolt hole for the working space position height adjusting mechanism are respectively installed on the upper surface of the bottom supporting substrate and the lower surface of the top supporting substrate through bolts.

Further, the wall surface impacting device thread structure clamping control mechanism comprises a connecting plate for a wall surface impacting device thread structure clamping control mechanism, a bolt hole for a wall surface impacting device thread structure clamping control mechanism, a first vertical plate structure for the wall surface impacting device thread structure clamping control mechanism, a second vertical plate structure for the wall surface impacting device thread structure clamping control mechanism, a thread structure for the wall surface impacting device thread structure clamping control mechanism, a threaded rod for the wall surface impacting device thread structure clamping control mechanism, a rotating plate for the wall surface impacting device thread structure clamping control mechanism, a first clamping block for the wall surface impacting device thread structure clamping control mechanism, a bearing for the wall surface impacting device thread structure clamping control mechanism, a connecting rod for the wall surface impacting device thread structure clamping control mechanism, a second clamping block for the wall surface impacting device thread structure clamping control mechanism and a wall surface impacting device thread structure clamping clamp The holding type control mechanism is provided with a holding groove structure; the wall surface collision device is characterized in that a plurality of bolt holes for the wall surface collision device thread structure clamping control mechanism are arranged in a connecting plate for the wall surface collision device thread structure clamping control mechanism, two opposite first vertical plate structures for the wall surface collision device thread structure clamping control mechanism and second vertical plate structures for the wall surface collision device thread structure clamping control mechanism are arranged on the upper surface of the connecting plate for the wall surface collision device thread structure clamping control mechanism, the inside of the middle part of the first vertical plate structure for the thread structure clamping control mechanism is connected with a threaded rod for the wall surface collision device thread structure clamping control mechanism through the thread structure for the wall surface collision device thread structure clamping control mechanism, one end of the threaded rod for the wall surface collision device thread structure clamping control mechanism is provided with a rotating plate for the wall surface collision device thread structure clamping control mechanism, wall offend device bearing for screw thread structure centre gripping formula control mechanism is installed to the other end of wall offend device screw thread structure centre gripping formula threaded rod for control mechanism, the outer loop of wall offend device screw thread structure centre gripping formula control mechanism bearing is installed the inside of wall offend device screw thread structure centre gripping formula control mechanism with first grip block one end, wall offend device screw thread structure centre gripping for control mechanism second riser structure mid-mounting wall offend device screw thread structure centre gripping formula control mechanism connecting rod, wall offend device screw thread structure centre gripping for control mechanism end-mounting wall offend device screw thread structure centre gripping formula control mechanism second grip block, wall offend device screw thread structure centre gripping formula control mechanism for second grip block and wall offend device screw thread structure centre gripping formula control mechanism and all be provided with wall offend device screw thread structure centre gripping formula control mechanism at the center of opposition terminal surface with first grip block Formula control mechanism is with centre gripping groove structure.

Further, wall offend device helicitic texture centre gripping helicitic texture for control mechanism is including setting up the internal thread structure inside the first riser structure for the helicitic texture centre gripping control mechanism of wall offend device and the external screw thread structure of setting on the threaded rod body for the helicitic texture centre gripping control mechanism of wall offend device.

Further, the connecting plate for the screw structure holding type control mechanism of the wall surface collision device is mounted on the upper surface of the movable plate by a bolt inserted into the bolt hole for the screw structure holding type control mechanism of the wall surface collision device.

Further, the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism comprises a fixed block for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a mounting hole for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a first annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a second annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a third annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a transverse plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a moving groove structure for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a strip-shaped through hole structure for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism; the center of the inside of the fixed block for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism is sequentially provided with a first annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism, a second annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism and a third annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism, the center of the inside of the transverse plate for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism is provided with a moving groove structure for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism, the bottom of the moving groove structure for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism is provided with a strip-shaped through hole structure for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism, and two ends of the third annular steel plate for the step-, and the third annular steel plate for the annular steel plate superposed energy dissipation connecting mechanism is provided with a moving block for the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism at two ends inside the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism moving groove structure.

Furthermore, the first annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the second annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and the third annular steel plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism are all of annular structures, and the circumferences of the annular structures are increased in sequence.

Furthermore, the fixed block for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is arranged inside the auxiliary connecting plate, and the transverse plate for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is arranged on the side face of the movable plate.

Compared with the prior art, the invention has the beneficial effects that: the invention can fix the indoor decoration wall surface collision device in the prior art, after the fixing, the vibration effect generated by the indoor decoration wall surface collision device can be effectively reduced and lost, thereby the damage of the vibration effect generated by the indoor decoration wall surface collision device to human bodies is minimized, the body health of workers is protected, the practicability is strong, moreover, the device is provided with a working space position height adjusting mechanism, the height adjusting function can be realized by utilizing the function of reverse threads, so that the wall surfaces with different heights can be reassembled, in addition, the device is provided with a thread structure clamping type control mechanism of the wall surface collision device, the mobility of the thread structure can be utilized, so that the existing wall surface collision device can be effectively clamped, thereby the work is realized, in addition, the device is provided with a step-by-step reduction type annular steel plate friction conversion energy consumption mechanism, part of kinetic energy can be converted into heat energy, so that the direct energy consumption effect is realized.

Drawings

FIG. 1 is a schematic view of a full-section of a fixing device for an indoor wall surface collision device according to the present invention;

FIG. 2 is a schematic structural view of a mechanism for adjusting the height of a working space in a fixing device for an indoor wall surface collision device according to the present invention;

FIG. 3 is a schematic view of a screw-structured clamping type control mechanism of a wall surface collision device in a fixing device for an indoor wall surface collision device according to the present invention;

FIG. 4 is a schematic structural view of a stepwise decreasing type annular steel plate friction conversion energy dissipation mechanism in the fixing device for an interior decoration wall surface collision device according to the present invention;

in the figure: 1, a bottom support base plate, 2, a roller, 3, a top support base plate, 4, a main hollow rod, 5, a main insertion space, 6, a main telescopic rod, 7, a main connecting plate, 8, a working space position height adjusting mechanism, 81, a threaded sleeve for a working space position height adjusting mechanism, 82, a threaded section for a working space position height adjusting mechanism, 83, a threaded structure for a working space position height adjusting mechanism, 84, a bottom threaded rod for a working space position height adjusting mechanism, 85, a top threaded rod for a working space position height adjusting mechanism, 86, a limiting hole for a working space position height adjusting mechanism, 87, a limiting rod for a working space position height adjusting mechanism, 88, a first connecting plate for a working space position height adjusting mechanism, 89, a second connecting rod for a working space position height adjusting mechanism, 810, a first bolt hole for a working space position height adjusting mechanism, 811, a second bolt hole for a work space position height adjusting mechanism, 9, a moving groove structure, 10, a telescopic moving space, 11, a moving plate, 12, a wall surface collision device screw structure clamping type control mechanism, 121, a connecting plate for a wall surface collision device screw structure clamping type control mechanism, 122, a bolt hole for a wall surface collision device screw structure clamping type control mechanism, 123, a first vertical plate structure for a wall surface collision device screw structure clamping type control mechanism, 124, a second vertical plate structure for a wall surface collision device screw structure clamping type control mechanism, 125, a screw structure for a collision wall surface device screw structure clamping type control mechanism, 126, a threaded rod for a wall surface collision device screw structure clamping type control mechanism, 127, a rotating plate for a wall surface collision device screw structure clamping type control mechanism, 128, a first clamping block for a wall surface collision device screw structure clamping type control mechanism, 129, a bearing for a thread structure clamping type control mechanism of a wall surface collision device, 1210, a connecting rod for a thread structure clamping type control mechanism of a wall surface collision device, 1211, a second clamping block for a thread structure clamping type control mechanism of the wall surface collision device, 1212, a clamping groove structure for a thread structure clamping type control mechanism of the wall surface collision device, 13, a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 131, a fixed block for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 132, a mounting hole for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 133, a first annular steel plate for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 134, a second annular steel plate for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 135, a third annular steel plate for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 136, and, 137, a moving groove structure for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 138, a strip-shaped through hole structure for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 139, moving blocks for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, 14, auxiliary connecting plates, 15, auxiliary telescopic rods, 16, auxiliary hollow rods, 17, third connecting plates, 18, auxiliary insertion spaces, 19 and main spiral springs.

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.

Referring to fig. 1, an embodiment of the present invention: the device comprises a bottom supporting substrate 1, rollers 2 are installed at the bottom of the bottom supporting substrate 1, a main hollow rod 4 is installed on one side of the upper surface of the bottom supporting substrate 1, a main insertion space 5 is arranged inside the main hollow rod 4, a main telescopic rod 6 is inserted inside the main insertion space 5, the top end of the main telescopic rod 6 is installed at the bottom of a top supporting substrate 3 through a main connecting plate 7, a working space position height adjusting mechanism 8 is installed between the bottom of the top supporting substrate 3 and the upper surface of the bottom supporting substrate 1, a movable groove structure 9 is arranged on one side of the upper surface of the top supporting substrate 3, a telescopic moving space 10 is arranged on one side of the movable groove structure 9, a movable plate 11 is placed on the upper surface of the movable groove structure 9, and a wall surface collision device thread structure clamping type control mechanism 12 is installed on the upper surface of the movable plate 11, remove one side mid-mounting of plate 11 and step by step decrement formula annular steel sheet friction conversion power consumption mechanism 13, the one end installation pair connecting plate 14 of the formula annular steel sheet friction conversion power consumption mechanism 13 that steps by step, a pair telescopic link 15 of tip installation of vice connecting plate 14, the side of top sprag base plate 3 passes through a pair of hollow rod 16 of third connecting plate 17 installation, the center of vice hollow rod 16 is provided with vice insertion space 18, the inside of vice insertion space 18 is inserted to the one end of vice telescopic link 15, just vice main coil spring 19 of the internally mounted compression that inserts space 18.

Referring to fig. 2, the working space position and height adjusting mechanism 8 includes a threaded sleeve 81 for a working space position and height adjusting mechanism, a threaded section 82 for a working space position and height adjusting mechanism, a threaded structure 83 for a working space position and height adjusting mechanism, a bottom threaded rod 84 for a working space position and height adjusting mechanism, a top threaded rod 85 for a working space position and height adjusting mechanism, a limiting hole 86 for a working space position and height adjusting mechanism, a limiting rod 87 for a working space position and height adjusting mechanism, a first connecting plate 88 for a working space position and height adjusting mechanism, a second connecting plate 89 for a working space position and height adjusting mechanism, a first bolt hole 810 for a working space position and height adjusting mechanism, and a second bolt hole 811 for a working space position and height adjusting mechanism; the inside center of thread bush 81 for the high guiding mechanism of workspace position is provided with the thread interval 82 for the high guiding mechanism of workspace position of work space position of intercommunication thread bush 81 both ends face for the high guiding mechanism of workspace position, the thread bush 81 for the high guiding mechanism of workspace position is lieing in the inner wall of thread interval 82 for the high guiding mechanism of workspace position is provided with the thread structure 83 for the high guiding mechanism of workspace position, the bottom and the top of thread interval 82 for the high guiding mechanism of workspace position are connected with bottom threaded rod 84 for the high guiding mechanism of workspace position and top threaded rod 85 for the high guiding mechanism of workspace position through the thread structure 83 for the high guiding mechanism of workspace position respectively, bottom threaded rod 84 for the high guiding mechanism of workspace position and top threaded rod 85 for the high guiding mechanism of workspace position are all provided with the high height of workspace position inside the opposition end with bottom threaded rod 84 and top threaded rod 85 for the high guiding A working space position height adjusting mechanism limit hole 86, into which two working space position height adjusting mechanism limit holes 86 are inserted, a working space position height adjusting mechanism limit rod 87, wherein the other two ends of the working space position height adjusting mechanism bottom threaded rod 84 and the working space position height adjusting mechanism top threaded rod 85 are respectively provided with a working space position height adjusting mechanism first connecting rod 88 and a working space position height adjusting mechanism second connecting rod 89, and the insides of the working space position height adjusting mechanism first connecting rod 88 and the working space position height adjusting mechanism second connecting rod 89 are respectively provided with a working space position height adjusting mechanism first bolt hole 810 and a working space position height adjusting mechanism second bolt hole 811; the thread structure 83 for the working space position height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 81 for the working space position height adjusting mechanism and external thread structures arranged on the rod bodies of the bottom threaded rod 84 for the working space position height adjusting mechanism and the top threaded rod 85 for the working space position height adjusting mechanism, and the thread directions of the thread structures on the rod bodies of the bottom threaded rod 84 for the working space position height adjusting mechanism and the top threaded rod 85 for the working space position height adjusting mechanism are opposite; the structure appearance of the cross section of the limiting hole 86 for the working space position height adjusting mechanism and the structure appearance of the cross section of the limiting rod 87 for the working space position height adjusting mechanism are both triangular structures, the end parts of the first bolt hole 810 for the working space position height adjusting mechanism and the second bolt hole 811 for the working space position height adjusting mechanism are respectively installed on the upper surface of the bottom support substrate 1 and the lower surface of the top support substrate 3 through bolts, and the main functions of the utility model are as follows: by using the principle of the reverse thread structure, when the threaded sleeve 81 for a work space position height adjusting mechanism is rotated, a spatial position change of the height can be achieved.

Referring to FIG. 3, the wall surface collision device screw structure holding type control mechanism 12 includes a connecting plate 121 for a wall surface collision device screw structure holding type control mechanism, a bolt hole 122 for a wall surface collision device screw structure holding type control mechanism, a first vertical plate structure 123 for a wall surface collision device screw structure holding type control mechanism, a second vertical plate structure 124 for a wall surface collision device screw structure holding type control mechanism, a screw structure 125 for a wall surface collision device screw structure holding type control mechanism, a screw rod 126 for a wall surface collision device screw structure holding type control mechanism, a rotating plate 127 for a wall surface collision device screw structure holding type control mechanism, a first holding block 128 for a wall surface collision device screw structure holding type control mechanism, a bearing 129 for a wall surface collision device screw structure holding type control mechanism, a connecting rod 1210, A second clamping block 1211 for a thread structure clamping control mechanism of the wall surface collision device and a clamping groove structure 1212 for the thread structure clamping control mechanism of the wall surface collision device; a plurality of bolt holes 122 for the wall surface collision device thread structure clamping control mechanism are arranged inside the connecting plate 121 for the wall surface collision device thread structure clamping control mechanism, two opposite first vertical plate structures 123 for the wall surface collision device thread structure clamping control mechanism and second vertical plate structures 124 for the wall surface collision device thread structure clamping control mechanism are arranged on the upper surface of the connecting plate 121 for the wall surface collision device thread structure clamping control mechanism, a threaded rod 126 for the wall surface collision device thread structure clamping control mechanism is connected with the inside in the middle of the first vertical plate structures 123 for the thread structure clamping control mechanism through a thread structure 125 for the wall surface collision device thread structure clamping control mechanism, one end of the threaded rod 126 for the wall surface collision device thread structure clamping control mechanism is provided with a rotating plate 127 for the wall surface collision device thread structure clamping control mechanism, the other end of the threaded rod 126 for the threaded structure clamping control mechanism of the wall surface collision device is provided with a bearing 129 for the threaded structure clamping control mechanism of the wall surface collision device, the outer ring of the bearing 129 for the threaded structure clamping control mechanism of the wall surface collision device is arranged inside one end of a first clamping block 128 for the threaded structure clamping control mechanism of the wall surface collision device, the middle part of a second vertical plate structure 124 for the threaded structure clamping control mechanism of the wall surface collision device is provided with a connecting rod 1210 for the threaded structure clamping control mechanism of the wall surface collision device, the end part of the connecting rod 1210 for the threaded structure clamping control mechanism of the wall surface collision device is provided with a second clamping block 1211 for the threaded structure clamping control mechanism of the wall surface collision device, and the first clamping block 128 for the threaded structure clamping control mechanism of the wall surface collision device is provided with a second clamping block 1211 for the threaded structure clamping control mechanism of the wall surface collision device and the first clamping block 1211 for the threaded A bump device thread structure clamp control mechanism clamp groove structure 1212; the thread structure 125 for the thread structure clamping control mechanism of the wall surface collision device comprises an internal thread structure arranged inside a first vertical plate structure 123 for the thread structure clamping control mechanism of the wall surface collision device and an external thread structure arranged on a threaded rod 126 for the thread structure clamping control mechanism of the wall surface collision device; wall offend device helicitic texture centre gripping formula connecting plate 121 for control mechanism installs the upper surface at removal plate 11 through inserting the inside bolt in wall offend device helicitic texture centre gripping formula bolt hole 122 for control mechanism, and its main function is: by rotating the threaded rod 126 for the wall surface collision device screw structure clamping control mechanism under the action of the screw structure, the wall surface collision device can be clamped and fixed inside the clamping groove structure 1212 for the wall surface collision device screw structure clamping control mechanism.

Referring to fig. 4, the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism 13 includes a fixed block 131 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a mounting hole 132 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a first annular steel plate 133 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a second annular steel plate 134 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a transverse plate 136 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a moving groove structure 138 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a bar-shaped through hole structure 138 for the step-by-step decreasing type annular steel plate friction conversion energy; the center inside the fixed block 131 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is sequentially provided with a first annular steel plate 133 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a second annular steel plate 134 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and a third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the center inside the transverse plate 136 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is provided with a moving groove structure 138 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the bottom of the moving groove structure 138 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is provided with a strip through hole structure 138 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, and both ends of the third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion, the third annular steel plate 135 for the annular steel plate superposed energy dissipation connecting mechanism is provided with a moving block 139 for the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism at both ends inside the moving groove structure 138 for the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism; the first annular steel plate 133 for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism, the second annular steel plate 134 for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism and the third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism are all annular structures, and the circumferences of the annular structures are increased in sequence; the fixed block 131 for the gradual reduction type annular steel plate friction conversion energy dissipation mechanism is arranged in the auxiliary connecting plate 14, the transverse plate 136 for the gradual reduction type annular steel plate friction conversion energy dissipation mechanism is arranged on the side face of the movable plate 11, and the main functions of the mechanism are as follows: because the first annular steel plate 133 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the second annular steel plate 134 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and the third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism are all annular structures, and the circumferences of the annular steel plates are sequentially increased, when bending occurs, deformation friction can occur between the first annular steel plate 133 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the second annular steel plate 134 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and the third annular steel plate 135 for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, and part of kinetic energy can be lost through friction, so that the impact force on.

The specific use mode is as follows: during work, the middle part of the conventional wall surface collision device is arranged inside the clamping control mechanism 12 of the threaded structure of the wall surface collision device, then the height adjusting mechanism 8 of the working space position is adjusted, so that the wall surface collision device reaches the consistent height, when the wall surface collision device is opened, the wall surface collision device can generate a vibration effect during work, the vibration effect is firstly consumed by the energy consumption mechanism 13 through the friction conversion of the annular steel plates which are gradually reduced, a part of energy is consumed, and the rest impact force plays a role of buffering under the action of the main spiral spring 19, so that the injury of the impact force to personnel is reduced.

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

Claims (10)

1. The utility model provides an interior decoration wall clashes fixing device for device, includes bottom sprag base plate (1), its characterized in that: the bottom of the bottom supporting substrate (1) is provided with rollers (2), one side of the upper surface of the bottom supporting substrate (1) is provided with a main hollow rod (4), the inside of the main hollow rod (4) is provided with a main insertion space (5), the inside of the main insertion space (5) is inserted into a main telescopic rod (6), the top end of the main telescopic rod (6) is installed at the bottom of a top supporting substrate (3) through a main connecting plate (7), a working space position height adjusting mechanism (8) is installed between the bottom of the top supporting substrate (3) and the upper surface of the bottom supporting substrate (1), one side of the upper surface of the top supporting substrate (3) is provided with a movable groove structure (9), one side of the movable groove structure (9) is provided with a telescopic movable space (10), and the upper surface of the movable groove structure (9) is provided with a movable plate block (11), remove an upper surface mounting wall offend device helicitic texture centre gripping formula control mechanism (12) of plate (11), one side mid-mounting of removing plate (11) is one and is reduced formula annular steel sheet friction conversion power consumption mechanism (13) step by step, the one end installation pair connecting plate (14) of formula annular steel sheet friction conversion power consumption mechanism (13) that reduces step by step, a pair telescopic link (15) of tip installation of vice connecting plate (14), the side of top sprag base plate (3) is through a third connecting plate (17) installation pair cavity pole (16), the center of vice cavity pole (16) is provided with vice insertion space (18), the inside of vice insertion space (18) is inserted to the one end of vice telescopic link (15), just a main coil spring (19) of compression of the internally mounted of vice insertion space (18).

2. The fixing device for an indoor wall collision device as claimed in claim 1, wherein: the working space position height adjusting mechanism (8) comprises a threaded sleeve (81) for the working space position height adjusting mechanism, a threaded section (82) for the working space position height adjusting mechanism, a threaded structure (83) for the working space position height adjusting mechanism, a bottom threaded rod (84) for the working space position height adjusting mechanism, a top threaded rod (85) for the working space position height adjusting mechanism, a limiting hole (86) for the working space position height adjusting mechanism, a limiting rod (87) for the working space position height adjusting mechanism, a first connecting plate (88) for the working space position height adjusting mechanism, a second connecting rod (89) for the working space position height adjusting mechanism, a first bolt hole (810) for the working space position height adjusting mechanism and a second bolt hole (811) for the working space position height adjusting mechanism; the center of the interior of the threaded sleeve (81) for the height adjusting mechanism of the working space position is provided with a threaded interval (82) for the height adjusting mechanism of the working space position communicating with the two end faces of the threaded sleeve (81) for the height adjusting mechanism of the working space position, the threaded sleeve (81) for the height adjusting mechanism of the working space position is located on the inner wall of the threaded interval (82) for the height adjusting mechanism of the working space position is provided with a threaded structure (83) for the height adjusting mechanism of the working space position, the bottom and the top of the threaded interval (82) for the height adjusting mechanism of the working space position are respectively connected with a bottom threaded rod (84) for the height adjusting mechanism of the working space position and a top threaded rod (85) for the height adjusting mechanism of the working space position through the threaded structure (83) for the height adjusting mechanism of the working space position, the bottom threaded rod (84) for the height adjusting mechanism of the working The threaded rod (85) is provided with limiting holes (86) for the working space position height adjusting mechanisms in the opposite ends, a limiting rod (87) for the working space position height adjusting mechanisms is inserted into the limiting holes (86) for the working space position height adjusting mechanisms, the other two ends of the bottom threaded rod (84) for the working space position height adjusting mechanism and the top threaded rod (85) for the working space position height adjusting mechanism are respectively provided with a first connecting plate (88) for the working space position height adjusting mechanism and a second connecting rod (89) for the working space position height adjusting mechanism, a first bolt hole (810) for a working space position height adjusting mechanism and a second bolt hole (811) for a working space position height adjusting mechanism are respectively arranged in the first connecting rod (88) for a working space position height adjusting mechanism and the second connecting rod (89) for a working space position height adjusting mechanism.

3. A fixing device for an indoor wall collision device according to claim 2, wherein: the thread structure (83) for the height adjusting mechanism of the working space position comprises an internal thread structure arranged on the inner wall of a thread sleeve (81) for the height adjusting mechanism of the working space position and an external thread structure arranged on a bottom threaded rod (84) for the height adjusting mechanism of the working space position and a top threaded rod (85) for the height adjusting mechanism of the working space position, and is located in the opposite thread directions of the thread structures on the rod body of the bottom threaded rod (84) for the height adjusting mechanism of the working space position and the top threaded rod (85) for the height adjusting mechanism of the working space position.

4. A fixing device for an indoor wall collision device according to claim 2, wherein: the cross section structure appearance of the limiting hole (86) for the working space position height adjusting mechanism and the cross section structure appearance of the limiting rod (87) for the working space position height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole (810) for the working space position height adjusting mechanism and the second bolt hole (811) for the working space position height adjusting mechanism are respectively installed on the upper surface of the bottom supporting substrate (1) and the lower surface of the top supporting substrate (3) through bolts.

5. The fixing device for an indoor wall collision device as claimed in claim 1, wherein: the wall surface collision device thread structure clamping type control mechanism (12) comprises a connecting plate (121) for a wall surface collision device thread structure clamping type control mechanism, a bolt hole (122) for the wall surface collision device thread structure clamping type control mechanism, a first vertical plate structure (123) for the wall surface collision device thread structure clamping type control mechanism, a second vertical plate structure (124) for the wall surface collision device thread structure clamping type control mechanism, a thread structure (125) for the wall surface collision device thread structure clamping type control mechanism, a threaded rod (126) for the wall surface collision device thread structure clamping type control mechanism, a rotating plate (127) for the wall surface collision device thread structure clamping type control mechanism, a first clamping block (128) for the wall surface collision device thread structure clamping type control mechanism, a bearing (129) for the wall surface collision device thread structure clamping type control mechanism, A connecting rod (1210) for a threaded structure clamping type control mechanism of the wall surface collision device, a second clamping block (1211) for the threaded structure clamping type control mechanism of the wall surface collision device and a clamping groove structure (1212) for the threaded structure clamping type control mechanism of the wall surface collision device; the wall surface collision device is characterized in that a plurality of bolt holes (122) for the wall surface collision device thread structure clamping control mechanism are arranged in a connecting plate (121) for the wall surface collision device thread structure clamping control mechanism, two opposite first vertical plate structures (123) for the wall surface collision device thread structure clamping control mechanism and two opposite second vertical plate structures (124) for the wall surface collision device thread structure clamping control mechanism are arranged on the upper surface of the connecting plate (121) for the wall surface collision device thread structure clamping control mechanism, the inside of the middle part of the first vertical plate structures (123) for the thread structure clamping control mechanism is connected with a threaded rod (126) for the wall surface collision device thread structure clamping control mechanism through a thread structure (125) for the wall surface collision device thread structure clamping control mechanism, and one end of the threaded rod (126) for the wall surface collision device thread structure clamping control mechanism is provided with a rotating plate (for the wall surface collision device thread structure clamping control mechanism) (122) 127) The other end of threaded rod (126) for wall collision device thread structure clamping control mechanism installs a bearing (129) for wall collision device thread structure clamping control mechanism, the outer ring of bearing (129) for wall collision device thread structure clamping control mechanism is installed inside of first grip block (128) one end for wall collision device thread structure clamping control mechanism, second vertical plate structure (124) for wall collision device thread structure clamping control mechanism mid-mounting wall collision device thread structure clamping control mechanism connecting rod (1210), end mounting wall collision device thread structure clamping control mechanism connecting rod (1210) for wall collision device thread structure clamping control mechanism second grip block (1211) for wall collision device thread structure clamping control mechanism, second grip block (1211) for wall collision device thread structure clamping control mechanism and collision device thread structure clamping control mechanism The center of the opposite end surface of the first clamping block (128) is provided with a clamping groove structure (1212) for a wall surface collision device thread structure clamping type control mechanism.

6. The fixing device for an indoor wall collision device as claimed in claim 5, wherein: wall offend device helicitic texture centre gripping formula helicitic texture (125) are including setting up at the inside internal thread structure of wall offend device helicitic texture centre gripping formula first riser structure (123) for control mechanism and setting up the external screw thread structure on the threaded rod (126) body of rod for wall offend device helicitic texture centre gripping formula control mechanism.

7. The fixing device for an indoor wall collision device as claimed in claim 5, wherein: the connecting plate (121) for the thread structure clamping control mechanism of the wall surface collision device is installed on the upper surface of the movable plate (11) through bolts inserted into bolt holes (122) for the thread structure clamping control mechanism of the wall surface collision device.

8. The fixing device for an indoor wall collision device as claimed in claim 1, wherein: the step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism (13) comprises a step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism fixing block (131), a step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism mounting hole (132), a step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism first annular steel plate (133) and a step-by-step decreasing type annular steel plate friction conversion energy consumption mechanism second annular steel plate (134), a third annular steel plate (135) for a step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a transverse plate (136) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a moving groove structure (138) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, a strip-shaped through hole structure (138) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and a moving block (139) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism; the friction conversion energy dissipation mechanism is characterized in that a first annular steel plate (133) for the friction conversion energy dissipation mechanism, a second annular steel plate (134) for the friction conversion energy dissipation mechanism and a third annular steel plate (135) for the friction conversion energy dissipation mechanism are sequentially installed at the center inside a fixed block (131) for the friction conversion energy dissipation mechanism of the annular steel plates in a step-by-step decreasing mode, a moving groove structure (138) for the friction conversion energy dissipation mechanism of the annular steel plates in a step-by-step decreasing mode is arranged at the center inside a transverse plate (136) for the friction conversion energy dissipation mechanism of the annular steel plates in a step-by-step decreasing mode, a strip-shaped through hole structure (138) for the friction conversion energy dissipation mechanism of the annular steel plates in a step-by-step decreasing mode is arranged at the bottom of the moving groove structure (138) for the friction conversion energy dissipation mechanism of the annular steel plates in a step-by-step decreasing mode, and two ends of the third annular steel plate (135 And the third annular steel plate (135) for the annular steel plate superposed energy dissipation connecting mechanism is provided with a moving block (139) for the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism at two ends inside the moving groove structure (138) for the step-by-step decreasing annular steel plate friction conversion energy dissipation mechanism.

9. The fixing device for an indoor wall collision device as claimed in claim 8, wherein: the first annular steel plate (133) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism, the second annular steel plate (134) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism and the third annular steel plate (135) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism are all of annular structures, and the circumferences of the annular structures are increased in sequence.

10. The fixing device for an indoor wall collision device as claimed in claim 8, wherein: the fixed block (131) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is arranged inside the auxiliary connecting plate (14), and the transverse plate (136) for the step-by-step decreasing type annular steel plate friction conversion energy dissipation mechanism is arranged on the side face of the movable plate (11).

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