CN117722994A - Floor thickness check out test set for building - Google Patents

Abstract

The invention relates to the technical field of detection equipment, in particular to floor thickness detection equipment for a building, which comprises an electromagnetic wave emitter and a receiver, wherein one side of the electromagnetic wave emitter is fixedly provided with a mounting support plate, the upper end of the mounting support plate is fixedly provided with a loudspeaker, the lower side of the mounting support plate is fixedly provided with a push switch, the mounting support plates at the two ends of the push switch are symmetrically and fixedly provided with support supporting rods, the fixed connection between the support extending rods and the electromagnetic wave emitter is realized through movable columns, the electromagnetic wave emitter is conveniently pushed to a working position, the electromagnetic wave emitter is attached to a floor, then a movable ring sleeve is pushed upwards to enable the electromagnetic wave emitter to be fixed on the floor without manual support, meanwhile, the support extending rods and the electromagnetic wave emitter are in an unlocking state, the support extending rods are conveniently taken down, the detection work of the floor thickness can be completed by one person, and the manpower is saved.

Description

Floor thickness check out test set for building

Technical Field

The invention relates to the technical field of detection equipment, in particular to floor thickness detection equipment for a building.

Background

After the construction of the floor is finished, the thickness of the floor needs to be detected, the thickness of the floor is detected through a floor thickness detector, the receiver and the transmitter are required to be respectively positioned at the upper surface and the lower surface of the floor for detection in the using process of the floor thickness detector, two persons are required to operate in the detecting process, more manpower is required to be consumed, namely one person operates the receiver on the floor, the other person operates the transmitter on the floor, and the working strength of the workers positioned on the floor is relatively high, because the transmitter needs to be closely attached to the floor in the detecting process, so that the transmitter needs to be propped against the floor by using an extension rod in order to ensure the detecting accuracy, more physical strength needs to be consumed, and because the generator is controlled manually, the transmitter is unstable due to the physical strength consumption in the detecting process, the detecting accuracy is influenced.

Disclosure of Invention

The invention aims to provide a floor thickness detection device for a building, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a floor thickness check out test set for building, includes electromagnetic wave transmitter and receiver, one side of electromagnetic wave transmitter is fixed and is provided with the installation carrier plate, the fixed speaker that has of upper end of installation carrier plate, and the downside fixed mounting of installation carrier plate has press the switch, the fixed support die-pin that is provided with of symmetry on the installation carrier plate at press switch both ends, the both ends downside symmetry of electromagnetic wave transmitter is fixed and is provided with the bracing piece, the fixed spacing dead lever that is provided with on the bracing piece, locking groove has been seted up to the lower extreme of bracing piece, and the fixed installation carrier bar that is provided with of upper end of bracing piece, the fixed absorption cover body that is provided with on the installation carrier bar, the fixed cover body bottom plate that is provided with of lower extreme of absorption cover body, the intercommunication jack runs through in the absorption cover body, the fixed spacing inserted bar that is provided with in lower extreme both sides symmetry of electromagnetic wave transmitter, the rectangle even post that is provided with on the lower extreme central point of rectangle even post symmetry, the rectangle even is connected with the rectangle jack and is provided with the fixed connection jack, the electromagnetic wave transmitter is in the fixed taper-shaped when setting up the electromagnetic wave transmitter on the fixed position of the floor thickness of the transmitter is in the fixed position of the transmitter.

Preferably, the push type transmitter fixing mechanism comprises a connecting sleeve plate, a first connecting spring, a pressing movable plate, a plug plate, a driving ring body, a second connecting spring, a movable ring sleeve, a supporting extension rod, a third connecting spring and a movable ring sleeve, wherein the connecting sleeve plate is sleeved on a limiting fixing rod, the limiting fixing rod is sleeved with the first connecting spring, one side of the connecting sleeve plate is fixedly provided with a side supporting plate, and an inclined frame body is fixedly arranged on the side supporting plate.

Preferably, the inclined frame body is connected with a pressing movable plate, the pressing movable plate is provided with a matched guide hole, a supporting rod is inserted in the matched guide hole, two ends of the pressing movable plate are symmetrically and fixedly provided with bearing bars, the lower ends of the bearing bars are fixedly provided with linkage inserting rods, the linkage inserting rods are inserted in the inclined frame body, and the upper end and the lower end of the connecting sleeve plate are symmetrically hinged with hinged connecting rods.

Preferably, the upper end of the hinged connecting rod at the upper end of the connecting sleeve plate is hinged with a plug board, the plug board is plugged in the adsorption sleeve body, the lower end of the plug board is fixedly provided with a movable connecting column, the movable connecting column is plugged in the communicating jack, and the movable connecting column is hinged with the hinged connecting rod at the upper end of the connecting sleeve plate.

Preferably, the lower extreme of the articulated connecting rod of connection sleeve plate lower extreme articulates there is the drive ring body, the intra-annular recess has been seted up to the inside both ends symmetry of drive ring body, fixedly provided with cooperation in the intra-annular recess holds the post, the cooperation holds fixedly on the post and is provided with spacing disk body, and has cup jointed second coupling spring and movable lock plate on the cooperation holds the post.

Preferably, the movable locking plate is fixedly provided with a splicing locking block, the outer sides of the two ends of the driving ring body are symmetrically and fixedly provided with protruding hinge plates, the protruding hinge plates are hinged with a hinged connecting rod connected with the lower end of the sleeve plate, two sides of the driving ring body are symmetrically provided with limiting through holes, and limiting inserted rods are spliced in the limiting through holes.

Preferably, the movable ring sleeve is sleeved on the adsorption sleeve body, the upper end of the movable ring sleeve is stuck with a rubber reinforcing ring, the lower end of the movable ring sleeve is welded with an elastic connecting sheet, and the lower end of the elastic connecting sheet is welded on the bottom plate of the sleeve body.

Preferably, the lower extreme of supporting the extension rod is fixedly provided with the pole support, and the upper end is fixedly provided with the support sleeve body, the installation through-hole has been seted up to the bilateral symmetry of the support sleeve body, it has movable cylinder to peg graft in the installation through-hole, movable cylinder is fixed to be set up in the upper end of movable plate, and has cup jointed the third connecting spring on the movable cylinder, the downside both ends symmetry of movable plate is fixedly provided with the cooperation member, the removal ring cover cup joints on supporting the extension rod.

Preferably, the two sides of the movable ring sleeve are symmetrically and fixedly provided with an extension top plate, two ends of the upper side of the extension top plate are symmetrically and fixedly provided with an inclined plane top frame, the extension top plate is fixedly provided with a bearing frame body, and two ends of the bearing frame body are symmetrically and fixedly provided with guide upright rods.

Preferably, the both ends symmetry of removal ring cover is fixed and is provided with the dead lever, the movable interlocking board has been cup jointed on the dead lever, the support mating hole has been seted up to the lower extreme of movable interlocking board, peg graft in the support mating hole has the dead lever, and the cooperation inner chamber has been seted up to the upper end of movable interlocking board, and articulated on the movable interlocking board have the linkage hinge, the upper end of linkage hinge articulates has the counter weight strip that resets, the slip guide hole has been seted up on the counter weight strip that resets, peg graft in the slip guide hole has the direction pole setting.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality and has the following advantages:

1. the fixed connection between the support extension rod and the electromagnetic wave emitter is realized through the movable column body, the electromagnetic wave emitter is pushed to the working position conveniently, the electromagnetic wave emitter is attached to the floor, then the electromagnetic wave emitter can be fixed on the floor by pushing the movable loop upwards, manual support is not needed, meanwhile, the support extension rod and the electromagnetic wave emitter are in an unlocking state, the support extension rod is convenient to take down, the detection work of the thickness of the floor can be completed by only one person, the manpower is saved, the position can be distinguished through hearing under the action of the loudspeaker, the alignment range is reduced, the electromagnetic wave emitter and the receiver can be aligned more quickly by staff, and the detection time is saved.

2. Make the absorption cover body laminate with the floor in the time of laminating with electromagnetic wave transmitter and floor, and guaranteed the leakproofness of laminating department through the rubber stiffener, then upwards promote the removal ring cover and can drive the plug board and move down and form the negative pressure in the absorption cover body, fix the firm absorption of electromagnetic wave transmitter on the floor, also make movable column body take place to remove simultaneously under the effect of inclined plane roof-rack, just so make between electromagnetic wave transmitter and the support extension rod be in the unblock state, be convenient for take off the support extension rod.

3. In addition, remove the ring cover and remove the in-process that it can promote the drive ring body, and then the drive ring body will drive the connection sleeve board and remove, will drive under the effect of connecting the sleeve board like this and press the fly leaf and remove for press the fly leaf and press down the switch, can make the speaker be in operating condition like this and make the sound, the staff can follow the building through listening and distinguish the position and further reduce the mobility range that aligns between electromagnetic wave transmitter and the receiver, and then realize quick alignment.

Drawings

Fig. 1 is a schematic diagram of the cooperation of an electromagnetic wave transmitter and a receiver during operation.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is an assembly schematic diagram of an electromagnetic wave emitter and a support extension rod.

Fig. 4 is an enlarged schematic view at B in fig. 3.

Fig. 5 is an assembly schematic diagram of an electromagnetic wave emitter.

Fig. 6 is an exploded view of the assembly of the connection sleeve plate, the pressing movable plate, the plug plate and the drive ring.

Fig. 7 is an assembled schematic view of the support extension rod.

Fig. 8 is an enlarged schematic view at C in fig. 7.

In the figure: 1. an electromagnetic wave emitter; 11. mounting a bearing plate; 111. a speaker; 112. pressing the switch; 113. supporting the supporting rods; 12. a support bar; 13. a limit fixing rod; 14. a locking groove; 15. mounting a bearing rod; 16. an adsorption sleeve body; 17. a sleeve bottom plate; 171. a communication jack; 18. a limit inserted link; 19. rectangular connecting columns; 191. a connection jack; 192. a tapered portion; 2. a receiver; 3. connecting sleeve plates; 31. a first connecting spring; 32. a side support plate; 33. a tilting frame; 34. a hinged connecting rod; 4. pressing the movable plate; 41. matching the guide holes; 42. a carrier strip; 43. a linkage inserted link; 5. a plug board; 51. a movable connecting column; 6. a drive ring body; 61. an annular recess; 62. matching with a bearing column; 63. a limiting disc body; 64. a second connecting spring; 65. a movable lock plate; 66. inserting a locking block; 67. protruding a hinge plate; 68. limiting through holes; 7. a movable collar; 71. a rubber reinforcing ring; 72. an elastic connecting piece; 8. supporting the extension rod; 81. a bar support; 82. a support sleeve body; 83. mounting through holes; 84. a movable plate; 85. a movable column; 86. a third connecting spring; 87. matching the rod pieces; 9. moving the ring sleeve; 91. an extension top plate; 92. an inclined plane top frame; 93. a carrying frame; 94. a guide upright rod; 95. a fixed rod piece; 96. a movable interlocking plate; 961. a support mating hole; 97. matching with the inner cavity; 98. a linkage hinge rod; 99. a counterweight resetting bar; 991. sliding guide holes.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 8, the present invention provides a technical solution:

the utility model provides a floor thickness check out test set for building, including electromagnetic wave transmitter 1 and receiver 2, one side of electromagnetic wave transmitter 1 is fixed to be provided with installation carrier plate 11, the upper end fixed mounting of installation carrier plate 11 has speaker 111, and the downside fixed mounting of installation carrier plate 11 has push switch 112, the symmetry is fixed to be provided with the support die-pin 113 on the installation carrier plate 11 of push switch 112 both ends, the both ends downside symmetry of electromagnetic wave transmitter 1 is fixed to be provided with the supporting bar piece 12, fixedly on the supporting bar piece 12 be provided with spacing dead lever 13, locking groove 14 has been seted up to the lower extreme of supporting bar piece 12, and fixedly on the installation carrier rod 15 be provided with absorption cover body 16, the lower extreme fixed being provided with of absorption cover body 16 cover body bottom plate 17, set up on the cover body bottom plate 17 and communicate jack 171, the intercommunication jack 171 runs through in the absorption cover body 16, the lower extreme both sides symmetry of electromagnetic wave transmitter 1 is provided with spacing inserted bar 18, and fixedly on the lower extreme central point of electromagnetic wave transmitter 1 is put and is provided with rectangle even post 19, the fixed on the lower extreme central point of rectangular even post 19, the upper end of the square post 19 is connected with the jack 191 when the fixed on the square post 19 is connected, the square post 19 is fixed to be provided with the electromagnetic wave transmitter 1, the positive-receiving device is fixed on the square emitter 1, the jack is fixed on the side of the square emitter is arranged on the side of the square emitter is connected with the electromagnetic wave detector.

The push type emitter fixing mechanism comprises a connecting sleeve plate 3, a first connecting spring 31, a pressing movable plate 4, a plug plate 5, a driving ring body 6, a second connecting spring 64, a movable ring sleeve 7, a supporting extension rod 8, a third connecting spring 86 and a movable ring sleeve 9, wherein the connecting sleeve plate 3 is sleeved on a limiting fixing rod 13, the limiting fixing rod 13 is sleeved with the first connecting spring 31, one side of the connecting sleeve plate 3 is fixedly provided with a side supporting plate 32, the side supporting plate 32 is fixedly provided with an inclined frame body 33, and two ends of the first connecting spring 31 are respectively welded on a supporting strip block 12 and the connecting sleeve plate 3.

The inclined frame body 33 is connected with a pressing movable plate 4, the pressing movable plate 4 is provided with a matched guide hole 41, a supporting rod 113 is inserted into the matched guide hole 41, two ends of the pressing movable plate 4 are symmetrically and fixedly provided with bearing bars 42, the lower ends of the bearing bars 42 are fixedly provided with linkage inserting rods 43, the linkage inserting rods 43 are inserted into the inclined frame body 33, the upper end and the lower end of the connecting sleeve plate 3 are symmetrically hinged with hinge connecting rods 34, and the linkage inserting rods 43 are in contact with the inner surface of the inclined frame body 33.

The upper end of the hinged connecting rod 34 at the upper end of the connecting sleeve plate 3 is hinged with a plug plate 5, the plug plate 5 is inserted into the adsorption sleeve body 16, the lower end of the plug plate 5 is fixedly provided with a movable connecting column 51, the movable connecting column 51 is inserted into the communication jack 171, the movable connecting column 51 is hinged with the hinged connecting rod 34 at the upper end of the connecting sleeve plate 3, and when the plug plate 5 does not fix the electromagnetic wave emitter 1, the upper end face of the plug plate 5 is flush with the upper end face of the adsorption sleeve body 16.

The lower extreme of the articulated connecting rod 34 of connection sleeve board 3 lower extreme articulates has drive ring body 6, and drive ring body 6's inside both ends symmetry has seted up intra-annular recess 61, fixedly in the intra-annular recess 61 be provided with the cooperation and hold post 62, fixedly on the cooperation holds post 62 be provided with spacing disk body 63, and cup jointed second connecting spring 64 and movable lock plate 65 on the cooperation holds post 62, the both ends of second connecting spring 64 weld respectively on spacing disk body 63 and movable lock plate 65.

The movable locking plate 65 is fixedly provided with a splicing locking block 66, the outer sides of the two ends of the driving ring body 6 are symmetrically and fixedly provided with a protruding hinge plate 67, the protruding hinge plate 67 is hinged with the hinge connecting rod 34 connected with the lower end of the sleeve plate 3, two sides of the driving ring body 6 are symmetrically provided with limiting through holes 68, and limiting inserted rods 18 are spliced in the limiting through holes 68.

The movable ring sleeve 7 is sleeved on the adsorption sleeve body 16, a rubber reinforcing ring 71 is stuck to the upper end of the movable ring sleeve 7, an elastic connecting sheet 72 is welded to the lower end of the movable ring sleeve 7, and the lower end of the elastic connecting sheet 72 is welded to the sleeve body bottom plate 17.

The lower extreme of supporting extension rod 8 is fixed and is provided with the pole and holds in the palm 81, the fixed support sleeve body 82 that is provided with in upper end, installation through-hole 83 has been seted up to the both sides symmetry of support sleeve body 82, peg graft in the installation through-hole 83 and have movable cylinder 85, movable cylinder 85 is fixed to be set up in the upper end of movable plate 84, and cup joint third connecting spring 86 on the movable cylinder 85, the fixed cooperation member 87 that is provided with in downside both ends symmetry of movable plate 84, remove ring cover 9 cup joint on supporting extension rod 8, in addition, the both ends of third connecting spring 86 weld respectively on movable plate 84 and on support sleeve body 82.

The movable ring sleeve 9 is symmetrically and fixedly provided with an extension top plate 91, two ends of the upper side of the extension top plate 91 are symmetrically and fixedly provided with an inclined plane top frame 92, the extension top plate 91 is fixedly provided with a bearing frame body 93, and two ends of the bearing frame body 93 are symmetrically and fixedly provided with guide upright rods 94.

The both ends symmetry fixed pole piece 95 that is provided with of movable ring cover 9, movable interlocking plate 96 has been cup jointed on the fixed pole piece 95, support mating hole 961 has been seted up to movable interlocking plate 96's lower extreme, peg graft in the support mating hole 961 and have fixed pole piece 95, and the mating inner chamber 97 has been seted up to movable interlocking plate 96's upper end, and articulated on movable interlocking plate 96 have a linkage hinge 98, the upper end of linkage hinge 98 articulates has the counter weight strip that resets 99, has seted up slip guide hole 991 on the counter weight strip that resets 99, peg graft in the slip guide hole 991 and have the direction pole setting 94.

When the thickness of the floor slab is detected, a worker inserts the rectangular connecting column 19 into the supporting sleeve body 82, pushes the movable column 85 to move under the action of the conical part 192 in the inserting process until the movable column 85 is aligned with the connecting jack 191, inserts the movable column 85 into the connecting jack 191 under the action of the third connecting spring 86 to realize the fixed connection between the electromagnetic wave emitter 1 and the supporting extension rod 8, the movable locking plate 65 is inserted into the matching cavity 97 at the moment, the lower end face of the driving ring body 6 is contacted with the upper end face of the movable interlocking plate 96, then the driving ring body 6 can be pushed to the lower end face of the floor slab through the supporting extension rod 8 to be contacted with the floor slab, the rubber reinforcing ring 71 is firstly contacted with the floor slab in the pushing process, then the elastic connecting sheet 72 is compressed along with the upward movement of the electromagnetic wave emitter 1, the rubber reinforcing ring 71 is further compressed to a certain extent, the upper end face of the adsorption sleeve body 16 contacts with the floor slab, the rubber reinforcing ring 71 is sleeved at the sleeve opening of the adsorption sleeve body 16, the tightness between the adsorption sleeve body 16 and the floor slab is fully ensured, the electromagnetic wave emitter 1 contacts with the floor slab at the moment, then the two movable interlocking plates 96 are pulled in opposite directions to drive the movable locking plates 65 to move, the counterweight resetting bar 99 is enabled to move upwards under the action of the interlocking hinge rod 98 at the moment, then the movable ring 9 is pushed upwards, the inclined plane top frame 92 contacts with the matched rod piece 87, the movable plate 84 is pushed to move under the action of the inclined plane top frame 92, the movable column body 85 is enabled to withdraw from the connecting jack 191, the electromagnetic wave emitter 1 and the supporting extension rod 8 are in an unlocking state, and along with the upward movement of the movable ring 9, the driving ring body 6 is pushed upwards under the action of the movable interlocking plate 96, so that the connecting sleeve plate 3 is driven to move away from the electromagnetic wave emitter 1 under the action of the hinged connecting rod 34 at the lower end of the connecting sleeve plate 3, meanwhile, the plug plate 5 is driven to move downwards under the action of the hinged connecting rod 34 at the upper end of the connecting sleeve plate 3, negative pressure can be formed in the adsorption sleeve body 16, the electromagnetic wave emitter 1 is tightly adsorbed and fixed on a floor slab, then the movable interlocking plate 96 is released, the movable interlocking plate 96 can be driven to reset under the action of the counterweight resetting strip 99 and the second connecting spring 64, meanwhile, the movable interlocking plate 65 is reset, along with the resetting of the movable interlocking plate 65, the plug locking block 66 is plugged into the locking groove 14, the fixation of the driving ring body 6 is realized, the stability of the plug plate 5 can be ensured, furthermore, the firmness of the electromagnetic wave emitter 1 fixed on the floor slab is ensured, in addition, along with the movement of the connecting sleeve plate 3, the pressing movable plate 4 is driven to move towards the direction of the pressing switch 112 to press the pressing switch 112 under the action of the inclined frame body 33, so that the loudspeaker 111 can work, after the electromagnetic wave emitter 1 is fixed, the supporting extension rod 8 can be taken down, then a worker can go upstairs, the aligned movement range is further narrowed through the sound emitted by the loudspeaker 111, thus the alignment efficiency of the receiver 2 and the electromagnetic wave emitter 1 can be further improved, the practicability is high, the work of floor slab thickness detection can be completed by one person, the labor is saved, after the detection is completed, the supporting sleeve body 82 is sleeved on the rectangular connecting post 19, and then the two movable interlocking plates 96 are pulled in opposite directions to drive the movable locking plate 65 to move, the plugging locking block 66 is led to exit the locking groove 14, so that the driving ring body 6 is in an unlocking state, the movable ring sleeve 9 is pulled downwards, the connecting sleeve plate 3 resets along with the downward movement of the driving ring body 6, and meanwhile, the plugging plate 5 also resets, so that negative pressure disappears, and the electromagnetic wave transmitter 1 can be taken down very conveniently.

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

Claims (10)

1. Floor thickness check out test set for building, including electromagnetic wave transmitter (1) and receiver (2), its characterized in that: one side of the electromagnetic wave emitter (1) is fixedly provided with a mounting support plate (11), the upper end of the mounting support plate (11) is fixedly provided with a loudspeaker (111), the lower side of the mounting support plate (11) is fixedly provided with a pressing switch (112), the mounting support plate (11) at two ends of the pressing switch (112) is fixedly provided with a supporting support rod (113), the lower sides of the two ends of the electromagnetic wave emitter (1) are symmetrically and fixedly provided with supporting strip blocks (12), the supporting strip blocks (12) are fixedly provided with limiting fixing rods (13), the lower ends of the supporting strip blocks (12) are provided with locking grooves (14), the upper ends of the supporting strip blocks (12) are fixedly provided with mounting support rods (15), the mounting support rods (15) are fixedly provided with an adsorption sleeve body (16), the lower ends of the adsorption sleeve body (16) are fixedly provided with sleeve body bottom plates (17), the sleeve body bottom plates (17) are provided with communication jacks (171), the communication jacks (171) penetrate through the adsorption sleeve body (16), the lower ends of the electromagnetic wave emitter (1) are fixedly provided with rectangular inserting rods (19), the two sides of the electromagnetic wave emitter (19) are fixedly provided with rectangular inserting rods (19), the rectangular connecting column (19) at the lower side of the connecting jack (191) is fixedly provided with a conical part (192), when floor thickness detection work is carried out, the receiver (2) is positioned right above the electromagnetic wave emitter (1), and the electromagnetic wave emitter (1) is provided with a push type emitter fixing mechanism.

2. A floor thickness detection apparatus for construction according to claim 1, wherein: push type transmitter fixed establishment is including connecting sleeve board (3), first connecting spring (31), pressing fly leaf (4), grafting cock plate (5), drive ring body (6), second connecting spring (64), expansion ring cover (7), support extension rod (8), third connecting spring (86) and removal ring cover (9), connect sleeve board (3) to cup joint on spacing dead lever (13), first connecting spring (31) have been cup jointed on spacing dead lever (13), and connect one side of sleeve board (3) fixedly provided with side layer board (32), fixedly on side layer board (32) be provided with slope framework (33).

3. A floor thickness detection apparatus for construction according to claim 2, wherein: the movable plate (4) is pressed to be connected with on the slope framework (33), the cooperation guide hole (41) has been seted up on pressing movable plate (4), peg graft in cooperation guide hole (41) have support riding-bar (113), and press the both ends symmetry of movable plate (4) fixedly to be provided with bear strip (42), the lower extreme of bearing strip (42) is fixedly provided with linkage inserted bar (43), linkage inserted bar (43) peg graft in slope framework (33), the upper and lower both ends symmetry of connecting sleeve board (3) articulates there is articulated connecting rod (34).

4. A floor thickness detection apparatus for construction according to claim 3, wherein: the upper end of the hinged connecting rod (34) at the upper end of the connecting sleeve plate (3) is hinged with a plug board (5), the plug board (5) is plugged in the adsorption sleeve body (16), the lower end of the plug board (5) is fixedly provided with a movable connecting column (51), the movable connecting column (51) is plugged in the communicating jack (171), and the movable connecting column (51) is hinged with the hinged connecting rod (34) at the upper end of the connecting sleeve plate (3).

5. A floor thickness detection apparatus for construction according to claim 4, wherein: the lower extreme of articulated connecting rod (34) of connection sleeve board (3) lower extreme articulates there is drive ring body (6), annular recess (61) have been seted up to the inside both ends symmetry of drive ring body (6), fixedly provided with in annular recess (61) and hold post (62), fixedly provided with spacing disk body (63) on the cooperation holds post (62), and cup jointed second connecting spring (64) and movable lock plate (65) on the cooperation holds post (62).

6. A floor thickness detection apparatus for construction according to claim 5, wherein: the movable lock plate (65) is fixedly provided with a splicing lock block (66), protruding hinge plates (67) are symmetrically and fixedly arranged at the outer sides of two ends of the driving ring body (6), the protruding hinge plates (67) are hinged with a hinge connecting rod (34) connected with the lower end of the sleeve plate (3), limiting through holes (68) are symmetrically formed in two sides of the driving ring body (6), and limiting inserted rods (18) are spliced in the limiting through holes (68).

7. A floor thickness detection apparatus for construction according to claim 6, wherein: the movable ring sleeve (7) is sleeved on the adsorption sleeve body (16), the rubber reinforcing ring (71) is stuck to the upper end of the movable ring sleeve (7), the elastic connecting sheet (72) is welded to the lower end of the movable ring sleeve, and the lower end of the elastic connecting sheet (72) is welded to the sleeve body bottom plate (17).

8. A floor thickness detection apparatus for construction according to claim 7, wherein: the support extension rod is characterized in that a rod support (81) is fixedly arranged at the lower end of the support extension rod (8), a support sleeve body (82) is fixedly arranged at the upper end of the support extension rod, mounting through holes (83) are symmetrically formed in two sides of the support sleeve body (82), movable columns (85) are inserted into the mounting through holes (83), the movable columns (85) are fixedly arranged at the upper ends of the movable plates (84), third connecting springs (86) are sleeved on the movable columns (85), matching rod pieces (87) are symmetrically and fixedly arranged at two ends of the lower side of the movable plates (84), and movable ring sleeves (9) are sleeved on the support extension rod (8).

9. A floor thickness detection apparatus for construction according to claim 8, wherein: the movable ring sleeve is characterized in that extension top plates (91) are symmetrically and fixedly arranged on two sides of the movable ring sleeve (9), inclined plane top frames (92) are symmetrically and fixedly arranged at two ends of the upper side of the extension top plates (91), bearing frame bodies (93) are fixedly arranged on the extension top plates (91), and guide upright rods (94) are symmetrically and fixedly arranged at two ends of the bearing frame bodies (93).

10. A floor thickness detection apparatus for construction according to claim 9, wherein: the movable ring sleeve is characterized in that fixing rods (95) are symmetrically and fixedly arranged at two ends of the movable ring sleeve (9), movable interlocking plates (96) are sleeved on the fixing rods (95), supporting matching holes (961) are formed in the lower ends of the movable interlocking plates (96), the fixing rods (95) are inserted into the supporting matching holes (961), matching inner cavities (97) are formed in the upper ends of the movable interlocking plates (96), linkage hinge rods (98) are hinged to the movable interlocking plates (96), counterweight resetting bars (99) are hinged to the upper ends of the linkage hinge rods (98), sliding guide holes (991) are formed in the counterweight resetting bars (99), and guide vertical rods (94) are inserted into the sliding guide holes (991).