阅读说明：本技术 一种地板砖维护用板体拆卸吸附装置 (Floor tile is maintained and is dismantled adsorption equipment with plate body ) 是由 朱蕾 杨树盛 闫国艳 于 2020-06-18 设计创作，主要内容包括：本发明公开了一种地板砖维护用板体拆卸吸附装置,包括主体外壳。本发明配合一种地板砖维护用吸附机构支撑式驱动装置使用,能够对地板进行可控制的吸附式掀开功能,在掀开时,能够对地板进行保护,降低损伤率,同时,该装置,利用空气的吸附性,能够对地板进行吸附,从而实现保护和接触,利用曲杆拉伸原理,实现吸附距离的调整,实现不同地板的吸附控制,而且,该装置具有螺旋弹簧式最大压强控制机构,能够控制内部的最大压强差控制,防止牵引力度过大对地板造成破裂现象的发生,此外,该装置具有螺纹结构旋转式部件套接机构,既能够实现螺纹连接,形成旋转移动,又能够在连接其它部件后,不影响其它部件的正常运行。(The invention discloses a plate body dismounting and adsorbing device for floor tile maintenance, which comprises a main body shell. The invention is used in cooperation with an adsorption mechanism supporting type driving device for floor tile maintenance, can perform a controllable adsorption type lifting function on a floor, can protect the floor when lifted, reduces the damage rate, and simultaneously, the device can adsorb the floor by utilizing the adsorption of air so as to realize protection and contact, and can realize the adjustment of adsorption distance and the adsorption control of different floors by utilizing the principle of curved bar stretching, the device is provided with a coil spring type maximum pressure control mechanism, can control the maximum pressure difference control inside, prevents the floor from cracking caused by overlarge traction force, and in addition, the device has a thread structure rotary part sleeving mechanism, can realize threaded connection to form rotary movement, and can not influence the normal operation of other parts after being connected with other parts.)

1. The utility model provides a floor tile is maintained and is dismantled adsorption equipment with panel body, includes main body cover (1), its characterized in that: the main body shell (1) is provided with a main telescopic space (2) at the top center, an air adsorption space (3) is arranged at the bottom center of the main telescopic space (2), a main piston (4) is arranged inside the main telescopic space (2), a main connecting rod (5) is arranged at the upper surface center of the main piston (4), a main first connecting plate (6) is arranged at the top of the main connecting rod (5), a main vent hole (7) and an auxiliary vent hole (8) which are communicated with the external space and the air adsorption space (3) are arranged inside the main body shell (1), a main valve core (9) and a spiral spring type maximum pressure control mechanism (11) are arranged inside the main vent hole (7) and the auxiliary vent hole (8), a main threaded rod (13) is arranged at the bottom center of the main body shell (1), and a main external thread structure (14) is arranged on the side surface of the main threaded rod (13), a threaded structure rotary part sleeving mechanism (22) is installed on a rod body of the main threaded rod (13), annular array type sliding groove structures (10) are arranged inside the side face of the bottom of the main body shell (1), limiting groove structures (12) are arranged at the bottom of the sliding groove structures (10), a sliding block (15) is installed inside each sliding groove structure (10), an auxiliary connecting rod (16) is installed at the bottom of each sliding block (15), the rod body of each auxiliary connecting rod (16) penetrates through each limiting groove structure (12), the bottom end of each auxiliary connecting rod (16) is connected with a main hollow rod (18) through a main second connecting plate (17), a collision structure (19) of an integrated structure is arranged at the bottom of the main hollow rod (18), a main hollow structure (20) and an adsorption hollow structure (21) are respectively arranged at the centers inside the main hollow rod (18) and the collision plate structure (19), the middle part of each auxiliary connecting rod (16) is connected with the side surface of the threaded structure rotary part sleeving mechanism (22) through a hinge and a curved rod (23), and the side surface of the main hollow rod (18) is provided with an annular array hollow air adsorption mechanism (24) of an integrated structure.

2. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 1, wherein: the coil spring type maximum pressure control mechanism (11) comprises a hollow shell (111) for the coil spring type maximum pressure control mechanism, an air sealing ring (112) for the coil spring type maximum pressure control mechanism, a hollow structure (113) for the coil spring type maximum pressure control mechanism, an exhaust hole (114) for the coil spring type maximum pressure control mechanism, a valve plate insertion space (115) for the coil spring type maximum pressure control mechanism, an air inlet hole (116) for the coil spring type maximum pressure control mechanism, a moving plate (117) for the coil spring type maximum pressure control mechanism, a valve plate (118) for the coil spring type maximum pressure control mechanism, an air vent (119) for the coil spring type maximum pressure control mechanism and a coil spring (1110) for the coil spring type maximum pressure control mechanism; the side surface of the hollow shell (111) for the coil spring type maximum pressure control mechanism is sleeved with an air sealing ring (112) for the coil spring type maximum pressure control mechanism, the center inside the hollow shell (111) for the coil spring type maximum pressure control mechanism is provided with a hollow structure (113) for the coil spring type maximum pressure control mechanism, one side of the hollow shell (111) for the coil spring type maximum pressure control mechanism, which is positioned in the hollow structure (113) for the coil spring type maximum pressure control mechanism, is provided with a vent hole (114) for the coil spring type maximum pressure control mechanism, one end of the vent hole (114) for the coil spring type maximum pressure control mechanism is communicated with one end of the hollow shell (111) for the coil spring type maximum pressure control mechanism, and the other side of the hollow shell (111) for the coil spring type maximum pressure control mechanism is provided with an air sealing ring (112) for the coil spring type maximum pressure control A valve plate insertion space (115) for a coil spring type maximum pressure control mechanism, a coil spring type air inlet hole (116) for the maximum pressure control mechanism is arranged at one side of the valve plate insertion space (115) for the coil spring type maximum pressure control mechanism on a hollow shell (111) for the coil spring type maximum pressure control mechanism, the coil spring type air inlet hole (116) for the maximum pressure control mechanism is communicated with the other side of the coil spring type maximum pressure control mechanism hollow shell (111), a coil spring type moving plate (117) for the maximum pressure control mechanism is arranged inside a coil spring type hollow structure (113) for the maximum pressure control mechanism on the hollow shell (111), and the coil spring type moving plate (117) for the maximum pressure control mechanism is arranged at the center of the end surface at one side of the valve plate insertion space (115) for the coil spring type moving plate for the maximum pressure control mechanism The valve plate (118) is integrated with the coil spring type maximum pressure control mechanism, a side surface of the moving plate (117) for the coil spring type maximum pressure control mechanism is provided with a vent hole (119) for the coil spring type maximum pressure control mechanism communicating with two end surfaces of the moving plate, and the other end surface of the moving plate (117) for the coil spring type maximum pressure control mechanism is provided with a coil spring (1110) for the coil spring type maximum pressure control mechanism.

3. The floor tile maintenance plate detachment and adsorption device of claim 2, wherein: the air sealing ring (112) for the coil spring type maximum pressure control mechanism is clamped in the main vent hole (7) and the auxiliary vent hole (8), and one end of the air inlet hole (116) for the coil spring type maximum pressure control mechanism is communicated with the air adsorption space (3).

4. The floor tile maintenance plate detachment and adsorption device of claim 2, wherein: the initial length of the coil spring type maximum pressure control mechanism coil spring (1110) is greater than the transverse length of the coil spring type maximum pressure control mechanism hollow structure (113).

5. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 1, wherein: the thread structure rotary part socket joint mechanism (22) comprises a thread sleeve (221) for the thread structure rotary part socket joint mechanism, a thread section (222) for the thread structure rotary part socket joint mechanism, an internal thread structure (223) for the thread structure rotary part socket joint mechanism, a bearing (224) for the thread structure rotary part socket joint mechanism and a shaft sleeve (225) for the thread structure rotary part socket joint mechanism; the thread structure rotation type part is screw sleeve for the socket joint mechanism (221) inside center is provided with for the socket joint mechanism screw thread section (222), for the socket joint mechanism screw thread structure rotation type part screw sleeve (221) lieing in for the socket joint mechanism screw thread section for the screw thread structure (222) the side form for the socket joint mechanism screw thread structure rotation type part internal thread structure (223), the outside at for the socket joint mechanism screw thread structure rotation type part screw sleeve for the socket joint mechanism screw thread sleeve (221) is installed through for the socket joint mechanism bearing (224) of screw thread structure rotation type part in the inside of for the socket joint mechanism screw thread structure rotation type part.

6. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 5, wherein: and a hinge is arranged in the middle of the outer side of the shaft sleeve (225) for the threaded structure rotary part socket mechanism.

7. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 5, wherein: the screw structure rotary type part socket mechanism is engaged with the main external screw structure (14) by an internal screw structure (223).

8. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 1, wherein: the annular array hollow type air adsorption mechanism (24) comprises an annular hollow shell (241) for the annular array hollow type air adsorption mechanism, an annular hollow structure (242) for the annular array hollow type air adsorption mechanism, a ventilation pipeline (243) for the annular array hollow type air adsorption mechanism, a valve core (244) for the annular array hollow type air adsorption mechanism, a hollow rod (245) for the annular array hollow type air adsorption mechanism, a hollow shell (246) for the annular array hollow type air adsorption mechanism, a telescopic space (247) for the annular array hollow type air adsorption mechanism, a through hole structure (248) for the annular array hollow type air adsorption mechanism, a piston plate (249) for the annular array hollow type air adsorption mechanism and an air flowing hole (2410) for the annular array hollow type air adsorption mechanism; the utility model discloses a hollow air adsorption mechanism of annular array is with annular hollow shell (241) inside annular hollow structure (242) for the hollow air adsorption mechanism of annular array that is provided with annular hollow structure (242) for the hollow air adsorption mechanism of annular array, the inboard of the hollow air adsorption mechanism of annular hollow shell (241) of annular array is provided with the hollow air adsorption mechanism of annular array (243) that communicates external space and hollow air adsorption mechanism of annular hollow structure (242) of annular array, the hollow air adsorption mechanism of annular array is with air valve core (244) for the hollow air adsorption mechanism of annular array of internally mounted of air valve (243), the hollow air adsorption mechanism of annular array is with the outside of annular hollow shell (241) and is provided with the hollow pole (245) for the hollow air adsorption mechanism of annular array's hollow annular array, the hollow air adsorption mechanism of annular array is with the inside of hollow shell (246) and is provided with the hollow air adsorption mechanism of annular array Construct and use flexible space (247), the terminal surface center of the hollow formula air adsorption mechanism of annular array with flexible space (247) is provided with the hollow formula air adsorption mechanism of annular array with through-hole structure (248), the hollow formula air adsorption mechanism of annular array runs through with the body of rod of hollow pole (245) the hollow formula air adsorption mechanism of annular array with hollow shell (246) other end center, just the hollow formula air adsorption mechanism of annular array is provided with the hollow formula air adsorption mechanism of annular array with piston slab (249) of integral type structure with the tip of hollow pole (245), the hollow formula air adsorption mechanism of annular array is provided with the hollow formula air adsorption mechanism of annular array with hollow pole (245) and the hollow formula air adsorption mechanism of annular array with the inside center of piston slab (249) and is provided with the hollow formula air flow hole (2410) for the air adsorption mechanism of annular array.

9. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 8, wherein: the end part of the annular array hollow type air adsorption mechanism facing to the outside of the hollow shell (246) is arranged on the rod body of the main hollow rod (18).

10. The tile removal/adsorption apparatus for floor tile maintenance as set forth in claim 8, wherein: the annular array hollow type air adsorption mechanism is communicated with the main hollow structure (20) through a through hole structure (248).

Technical Field

The invention relates to the technical field of ground decoration, in particular to a plate body dismounting and adsorbing device for floor tile maintenance.

Background

At present, when ground decoration is carried out, the floor decoration or the floor maintenance is inevitably carried out on the floor, and when the floor is maintained, the floor which is not installed in place needs to be lifted, but the existing lifting mode is time-consuming and labor-consuming, and the floor is easy to damage.

Disclosure of Invention

The invention aims to provide a plate body dismounting and adsorbing device for floor tile maintenance, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a plate body dismounting and adsorbing device for floor tile maintenance comprises a main body shell, wherein a main telescopic space is arranged at the center of the top of the main body shell, an air adsorbing space is arranged at the center of the bottom of the main telescopic space, a main piston is arranged in the main telescopic space, a main connecting rod is arranged at the center of the upper surface of the main piston, a main first connecting plate is arranged at the top of the main connecting rod, a main vent hole and an auxiliary vent hole which are communicated with an external space and the air adsorbing space are arranged in the main body shell, a main valve core and a spiral spring type maximum pressure control mechanism are arranged in the main vent hole and the auxiliary vent hole, a main threaded rod is arranged at the center of the bottom of the main body shell, a main external thread structure is arranged on the side surface of the main threaded rod, a thread structure rotary part sleeving mechanism is arranged on the rod body of the main threaded rod, and an annular array, the bottom of slip groove structure is provided with spacing groove structure, every a slider is all installed to the inside of slip groove structure, and a pair connecting rod is all installed to the bottom of every slider, the body of rod of vice connecting rod runs through spacing groove structure, and every the bottom of vice connecting rod all connects a main hollow pole through main second connecting plate, the bottom of main hollow pole is provided with the conflict plate structure of integral type structure, main hollow pole and conflict plate structure inside center are provided with main hollow structure respectively and adsorb hollow structure, every connect through hinge and curved bar between the middle part of vice connecting rod and the side of screw thread structure rotation type part cup jointing mechanism, the side of main hollow pole is provided with the hollow formula air adsorption apparatus of ring array of integral type structure and constructs.

Further, the coil spring type maximum pressure control mechanism comprises a hollow shell for the coil spring type maximum pressure control mechanism, an air seal ring for the coil spring type maximum pressure control mechanism, a hollow structure for the coil spring type maximum pressure control mechanism, an exhaust hole for the coil spring type maximum pressure control mechanism, a valve plate insertion space for the coil spring type maximum pressure control mechanism, an air inlet hole for the coil spring type maximum pressure control mechanism, a movable plate for the coil spring type maximum pressure control mechanism, a valve plate for the coil spring type maximum pressure control mechanism, an air vent for the coil spring type maximum pressure control mechanism and a coil spring for the coil spring type maximum pressure control mechanism; an air seal ring for a coil spring type maximum pressure control mechanism is sleeved on the side surface of the hollow shell for the coil spring type maximum pressure control mechanism, a hollow structure for the coil spring type maximum pressure control mechanism is arranged at the center inside the hollow shell for the coil spring type maximum pressure control mechanism, an exhaust hole for the coil spring type maximum pressure control mechanism is arranged on one side of the hollow structure for the coil spring type maximum pressure control mechanism, one end of the exhaust hole for the coil spring type maximum pressure control mechanism is communicated with one end of the hollow shell for the coil spring type maximum pressure control mechanism, and a valve plate insertion space for the coil spring type maximum pressure control mechanism is arranged on the other side of the hollow structure for the coil spring type maximum pressure control mechanism, the hollow shell for the coil spring type maximum pressure control mechanism is provided with an air inlet hole for the coil spring type maximum pressure control mechanism at one side of an insertion space of the valve plate for the coil spring type maximum pressure control mechanism, the air inlet hole for the coil spring type maximum pressure control mechanism is communicated with the other side of the hollow shell for the coil spring type maximum pressure control mechanism, a movable plate for the coil spring type maximum pressure control mechanism is arranged in the hollow structure for the coil spring type maximum pressure control mechanism by the hollow shell for the coil spring type maximum pressure control mechanism, the end surface center of the movable plate for the coil spring type maximum pressure control mechanism at one side of the insertion space of the valve plate for the coil spring type maximum pressure control mechanism is provided with the valve plate for the coil spring type maximum pressure control mechanism, and the valve plate for the coil spring type, the side surface of the movable plate for the coil spring type maximum pressure control mechanism is provided with a vent hole for the coil spring type maximum pressure control mechanism, the vent hole is communicated with two end surfaces of the movable plate, and the other end surface of the movable plate for the coil spring type maximum pressure control mechanism is provided with a coil spring for the coil spring type maximum pressure control mechanism.

Furthermore, the coil spring type air sealing ring for the maximum pressure control mechanism is clamped in the main vent and the auxiliary vent, and one end of an air inlet hole for the coil spring type maximum pressure control mechanism is communicated with the air adsorption space.

Further, the initial length of the coil spring type maximum pressure control mechanism is larger than the transverse length of the coil spring type maximum pressure control mechanism hollow structure.

Further, the thread structure rotary part sleeve mechanism comprises a thread sleeve for the thread structure rotary part sleeve mechanism, a thread section for the thread structure rotary part sleeve mechanism, an internal thread structure for the thread structure rotary part sleeve mechanism, a bearing for the thread structure rotary part sleeve mechanism and a shaft sleeve for the thread structure rotary part sleeve mechanism; the thread structure rotation type part for the socket joint mechanism screw thread sleeve inside center is provided with the screw thread section for the socket joint mechanism screw thread structure rotation type part, the screw thread sleeve for the screw thread structure rotation type part for the socket joint mechanism screw thread section's side forms the internal thread structure for the socket joint mechanism screw thread structure rotation type part, the inside of the screw thread structure rotation type part for the socket joint mechanism shaft sleeve is installed in the screw thread structure rotation type part for the socket joint mechanism screw thread sleeve's outside through the bearing for the socket joint mechanism screw thread structure rotation type part.

Furthermore, the middle part of the outer side of the shaft sleeve for the threaded structure rotary part sleeving mechanism is provided with a hinge.

Furthermore, the thread structure rotary component sleeving mechanism is meshed with the main external thread structure through an internal thread structure.

Further, the annular array hollow type air adsorption mechanism comprises an annular hollow shell for the annular array hollow type air adsorption mechanism, an annular hollow structure for the annular array hollow type air adsorption mechanism, an air vent pipeline for the annular array hollow type air adsorption mechanism, a valve core for the annular array hollow type air adsorption mechanism, a hollow rod for the annular array hollow type air adsorption mechanism, a hollow shell for the annular array hollow type air adsorption mechanism, a telescopic space for the annular array hollow type air adsorption mechanism, a through hole structure for the annular array hollow type air adsorption mechanism, a piston plate for the annular array hollow type air adsorption mechanism and an air flow hole for the annular array hollow type air adsorption mechanism; the annular hollow shell for the annular array hollow air adsorption mechanism is internally provided with an annular hollow structure for the annular array hollow air adsorption mechanism, the inner side of the annular hollow shell for the annular array hollow air adsorption mechanism is provided with an air duct for the annular array hollow air adsorption mechanism, which is communicated with the external space and is of the annular hollow structure for the annular array hollow air adsorption mechanism, the inner part of the air duct for the annular array hollow air adsorption mechanism is provided with an annular array hollow air adsorption mechanism valve core, the outer side of the annular hollow shell for the annular array hollow air adsorption mechanism is provided with a plurality of annular array hollow rods for the annular array hollow air adsorption mechanism, and the inner part of the annular array hollow air adsorption mechanism hollow shell is provided with a telescopic space for the annular array hollow air adsorption mechanism, the utility model discloses a hollow air adsorption mechanism of ring array is provided with hollow formula air adsorption mechanism of ring array and is used through-hole structure with the flexible space's of ring array terminal surface center, the hollow formula air adsorption mechanism of ring array runs through with the body of rod of hollow pole the hollow formula air adsorption mechanism of ring array uses hollow shell other end center, just the hollow formula air adsorption mechanism of ring array is provided with the hollow formula air adsorption mechanism of ring array of integral type structure and is used the piston slab with the hollow pole of ring array, the hollow formula air adsorption mechanism of ring array is provided with the hollow formula air adsorption mechanism of ring array and is used the air flow hole with the piston slab with the hollow formula air adsorption mechanism of ring array at the inside center.

Furthermore, the end part of the hollow shell facing to the outside for the annular array hollow type air adsorption mechanism is arranged on the rod body of the main hollow rod.

Furthermore, the annular array hollow type air adsorption mechanism is communicated with the main hollow structure through a through hole structure.

Compared with the prior art, the invention has the beneficial effects that: the invention is used with an adsorption mechanism supporting driving device for floor tile maintenance, which can perform a controllable adsorption lifting function on the floor, protect the floor when lifting, reduce the damage rate, meanwhile, the device can adsorb the floor by utilizing the adsorption of air, thereby realizing protection and contact, realize the adjustment of adsorption distance by utilizing the principle of curved bar stretching, realize the adsorption control of different floors, and the device is provided with a helical spring type maximum pressure control mechanism, can control the maximum pressure difference control inside, prevent the floor from cracking caused by overlarge traction force, in addition, the device is provided with a thread structure rotary component sleeve mechanism, can realize thread connection, form rotary movement, and can not influence the normal operation of other components after connecting other components, in addition, the device has the hollow formula air adsorption mechanism of annular array, can realize adsorbing under the effect of part of bleeding.

Drawings

FIG. 1 is a schematic view of a full-section structure of a plate detaching and adsorbing device for floor tile maintenance according to the present invention;

FIG. 2 is a schematic structural view of a coil spring type maximum pressure control mechanism in a panel removal absorption device for floor tile maintenance according to the present invention;

FIG. 3 is a schematic structural view of a rotary component socket mechanism with a threaded structure in a dismounting and absorbing device of a floor tile maintenance plate according to the present invention;

FIG. 4 is a schematic structural view of a ring array air adsorption mechanism in a panel removal adsorption apparatus for floor tile maintenance of the present invention;

in the figure: 1, a main body housing, 2, a main expansion space, 3, an air adsorption space, 4, a main piston, 5, a main connecting rod, 6, a main first connecting plate, 7, a main vent hole, 8, an auxiliary vent hole, 9, a main valve core, 10, a ring array type sliding groove structure, 11, a coil spring type maximum pressure control mechanism, 111, a hollow housing for the coil spring type maximum pressure control mechanism, 112, an air seal ring for the coil spring type maximum pressure control mechanism, 113, a hollow structure for the coil spring type maximum pressure control mechanism, 114, an exhaust hole for the coil spring type maximum pressure control mechanism, 115, a valve plate insertion space for the coil spring type maximum pressure control mechanism, 116, an air inlet hole for the coil spring type maximum pressure control mechanism, 117, a moving plate for the coil spring type maximum pressure control mechanism, 118, a valve plate for the coil spring type maximum pressure control mechanism, 119, a vent hole for a coil spring type maximum pressure control mechanism, 1110, a coil spring for a coil spring type maximum pressure control mechanism, 12, a limit groove structure, 13, a main threaded rod, 14, a main external thread structure, 15, a slider, 16, an auxiliary connecting rod, 17, a main second connecting plate, 18, a main hollow rod, 19, an abutting plate structure, 20, a main hollow structure, 21, an adsorption hollow structure, 22, a thread structure rotary component socket mechanism, 221, a thread sleeve for a thread structure rotary component socket mechanism, 222, a thread section for a thread structure rotary component socket mechanism, 223, an internal thread structure for a thread structure rotary component socket mechanism, 224, a bearing for a thread structure rotary component socket mechanism, 225, a shaft sleeve for a thread structure rotary component socket mechanism, 23, a curved rod, 24, a ring array hollow type air adsorption mechanism, a bearing for a ring array rotary component socket mechanism, a bearing for a, 241, annular hollow shell for annular array hollow type air adsorption mechanism, 242, annular hollow structure for annular array hollow type air adsorption mechanism, 243, vent pipe for annular array hollow type air adsorption mechanism, 244, valve core for annular array hollow type air adsorption mechanism, 245, hollow rod for annular array hollow type air adsorption mechanism, 246, hollow shell for annular array hollow type air adsorption mechanism, 247, telescopic space for annular array hollow type air adsorption mechanism, 248, through hole structure for annular array hollow type air adsorption mechanism, 249, piston plate for annular array hollow type air adsorption mechanism, 2410, air flow hole for annular array hollow type air adsorption mechanism.

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 pressure regulator comprises a main body shell 1, wherein a main telescopic space 2 is arranged at the center of the top of the main body shell 1, an air adsorption space 3 is arranged at the center of the bottom of the main telescopic space 2, a main piston 4 is arranged inside the main telescopic space 2, a main connecting rod 5 is arranged at the center of the upper surface of the main piston 4, a main first connecting plate 6 is arranged at the top of the main connecting rod 5, a main vent hole 7 and an auxiliary vent hole 8 which are communicated with an external space and the air adsorption space 3 are arranged inside the main body shell 1, a main valve core 9 and a spiral spring type maximum pressure control mechanism 11 are arranged inside the main vent hole 7 and the auxiliary vent hole 8, a main threaded rod 13 is arranged at the center of the bottom of the main body shell 1, a main external thread structure 14 is arranged on the side surface of the main threaded rod 13, and a thread structure rotary part sleeving, the side surface of the bottom of the main body shell 1 is internally provided with an annular array type sliding groove structure 10, the bottom of the sliding groove structure 10 is provided with a limiting groove structure 12, a sliding block 15 is arranged inside each sliding groove structure 10, the bottom of each sliding block 15 is provided with a pair of connecting rods 16, the rod body of each pair of connecting rods 16 penetrates through the limiting groove structure 12, and the bottom end of each secondary connecting rod 16 is connected with a main hollow rod 18 through a main second connecting plate 17, the bottom of the main hollow rod 18 is provided with an integrated structure of the collision plate structure 19, the centers of the inside of the main hollow rod 18 and the collision plate structure 19 are respectively provided with a main hollow structure 20 and an absorption hollow structure 21, the middle part of each auxiliary connecting rod 16 is connected with the side surface of the screw structure rotary part sleeve mechanism 22 through a hinge and a curved bar 23, the side of the main hollow rod 18 is provided with an annular array hollow type air adsorption mechanism 24 of an integrated structure.

Referring to fig. 2, the coil spring type maximum pressure control mechanism 11 includes a hollow housing 111 for the coil spring type maximum pressure control mechanism, an air seal ring 112 for the coil spring type maximum pressure control mechanism, a hollow structure 113 for the coil spring type maximum pressure control mechanism, an exhaust hole 114 for the coil spring type maximum pressure control mechanism, a valve plate insertion space 115 for the coil spring type maximum pressure control mechanism, an intake hole 116 for the coil spring type maximum pressure control mechanism, a moving plate 117 for the coil spring type maximum pressure control mechanism, a valve plate 118 for the coil spring type maximum pressure control mechanism, a vent hole 119 for the coil spring type maximum pressure control mechanism, and a coil spring 1110 for the coil spring type maximum pressure control mechanism; an air seal ring 112 for a coil spring type maximum pressure control mechanism is sleeved on the side surface of a hollow shell 111 for the coil spring type maximum pressure control mechanism, a hollow structure 113 for the coil spring type maximum pressure control mechanism is arranged at the center inside the hollow shell 111 for the coil spring type maximum pressure control mechanism, a vent hole 114 for the coil spring type maximum pressure control mechanism is arranged on one side of the hollow structure 113 for the coil spring type maximum pressure control mechanism on the hollow shell 111 for the coil spring type maximum pressure control mechanism, one end of the vent hole 114 for the coil spring type maximum pressure control mechanism is communicated with one end of the hollow shell 111 for the coil spring type maximum pressure control mechanism, a valve plate insertion space 115 for the coil spring type maximum pressure control mechanism is arranged on the other side of the hollow structure 113 for the coil spring type maximum pressure control mechanism on the hollow shell 111 for the coil spring type maximum pressure control mechanism, a coil spring type maximum pressure control mechanism air inlet hole 116 is formed in one side of the coil spring type maximum pressure control mechanism hollow housing 111, which is located in the coil spring type maximum pressure control mechanism valve plate insertion space 115, the coil spring type maximum pressure control mechanism air inlet hole 116 is communicated with the other side of the coil spring type maximum pressure control mechanism hollow housing 111, a coil spring type maximum pressure control mechanism moving plate 117 is installed in the coil spring type maximum pressure control mechanism hollow structure 113 of the coil spring type maximum pressure control mechanism hollow housing 111, the coil spring type maximum pressure control mechanism moving plate 117 is provided with a coil spring type maximum pressure control mechanism valve plate 118 of an integrated structure with the coil spring type maximum pressure control mechanism moving plate in the center of the end face located in one side of the coil spring type maximum pressure control mechanism valve plate insertion space 115, a coil spring type vent hole 119 for the maximum pressure control mechanism communicating two end surfaces of the coil spring type moving plate 117 for the maximum pressure control mechanism is arranged on the side surface of the coil spring type moving plate 117 for the maximum pressure control mechanism, and a coil spring 1110 for the maximum pressure control mechanism is arranged on the other end surface of the coil spring type moving plate 117 for the maximum pressure control mechanism; the air sealing ring 112 for the coil spring type maximum pressure control mechanism is clamped in the main vent hole 7 and the auxiliary vent hole 8, and one end of the air inlet hole 116 for the coil spring type maximum pressure control mechanism is communicated with the air adsorption space 3; the initial length of the coil spring type maximum pressure control mechanism coil spring 1110 is greater than the lateral length of the coil spring type maximum pressure control mechanism hollow structure 113.

Referring to fig. 3, the screw-structured rotary member engaging mechanism 22 includes a screw sleeve 221 for a screw-structured rotary member engaging mechanism, a screw section 222 for a screw-structured rotary member engaging mechanism, an internal thread structure 223 for a screw-structured rotary member engaging mechanism, a bearing 224 for a screw-structured rotary member engaging mechanism, and a sleeve 225 for a screw-structured rotary member engaging mechanism; a thread section 222 for a thread structure rotary type part socket joint mechanism is provided in the center of the inside of the thread sleeve 221 for a thread structure rotary type part socket joint mechanism, an internal thread structure 223 for a thread structure rotary type part socket joint mechanism is formed on the side surface of the thread section 222 for a thread structure rotary type part socket joint mechanism by the thread sleeve 221 for a thread structure rotary type part socket joint mechanism, and the inside of the shaft sleeve 225 for a thread structure rotary type part socket joint mechanism is installed on the outside of the thread sleeve 221 for a thread structure rotary type part socket joint mechanism by a bearing 224 for a thread structure rotary type part socket joint mechanism; a hinge is arranged in the middle of the outer side of the shaft sleeve 225 for the threaded structure rotary part sleeving mechanism; the thread structure rotary type component socket joint mechanism is meshed with the main external thread structure 14 through the internal thread structure 223, and the main functions are as follows: when manual operation is required, the threaded sleeve 221 for the threaded-structure rotary-member socket is rotated.

Referring to fig. 4, the annular array hollow air adsorption mechanism 24 includes an annular hollow housing 241 for the annular array hollow air adsorption mechanism, an annular hollow structure 242 for the annular array hollow air adsorption mechanism, an air duct 243 for the annular array hollow air adsorption mechanism, a valve core 244 for the annular array hollow air adsorption mechanism, a hollow rod 245 for the annular array hollow air adsorption mechanism, a hollow housing 246 for the annular array hollow air adsorption mechanism, a telescopic space 247 for the annular array hollow air adsorption mechanism, a through hole structure 248 for the annular array hollow air adsorption mechanism, a piston plate 249 for the annular array hollow air adsorption mechanism, and an air flow 241hole 0 for the annular array hollow air adsorption mechanism; the annular hollow shell 241 for the annular array hollow type air adsorption mechanism is internally provided with an annular hollow structure 242 for the annular array hollow type air adsorption mechanism, the inner side of the annular hollow shell 241 for the annular array hollow type air adsorption mechanism is provided with an annular array hollow type air adsorption mechanism ventilation pipeline 243 for communicating an external space with the annular hollow structure 242 for the annular array hollow type air adsorption mechanism, the inner part of the annular array hollow type air adsorption mechanism ventilation pipeline 243 is provided with an annular array hollow type air adsorption mechanism air valve core 244, the outer side of the annular hollow type air adsorption mechanism 241 for the annular hollow type air adsorption mechanism is provided with a plurality of annular array hollow type rod 245 for the annular array hollow type air adsorption mechanism 247, the inner part of the annular array hollow type air adsorption mechanism hollow shell 246 is provided with an annular array hollow type air adsorption mechanism telescopic space, a through hole structure 248 for the annular array hollow air adsorption mechanism is arranged at the center of one end face of the telescopic space 247 for the annular array hollow air adsorption mechanism, a rod body of the hollow rod 245 for the annular array hollow air adsorption mechanism penetrates through the center of the other end of the hollow shell 246 for the annular array hollow air adsorption mechanism, a piston plate 249 for the annular array hollow air adsorption mechanism is arranged at the end part of the hollow rod 245 for the annular array hollow air adsorption mechanism, and air flowing 2410 for the annular array hollow air adsorption mechanism is arranged at the centers of the interiors of the hollow rod 245 for the annular array hollow air adsorption mechanism and the piston plate 249 for the annular array hollow air adsorption mechanism; the end part of the hollow shell 246 facing to the outside for the annular array hollow type air adsorption mechanism is arranged on the rod body of the main hollow rod 18; the annular array hollow type air adsorption mechanism is communicated with the main hollow structure 20 through the through hole structure 248, and when the annular array hollow type air adsorption mechanism works, an air extractor is used for connecting an air extraction port with a valve core part and extracting air, so that the air adsorption effect can be realized.

The specific use mode is as follows: in the work of the invention, the main third connecting plate in the adsorption mechanism supporting type driving device for floor tile maintenance is fixedly connected with the main first connecting plate 6 through a bolt, when the adsorption hollow structure 21 is placed on the upper surface of a floor to be lifted, and then an air extractor is used for realizing air adsorption on the annular array hollow type air adsorption mechanism 24.

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.