阅读说明：本技术 一种建筑物楼板防护装置 (Building floor protection device ) 是由 张宇 闫婷婷 于 2021-10-13 设计创作，主要内容包括：本发明公开了一种建筑物楼板防护装置,其包括支撑部件,所述支撑部件包括连接杆、第一顶撑件和第二顶撑件,第一顶撑件和第二顶撑件结构相同并且对称设置在连接杆的两端,连接杆一端伸入第一顶撑件内滑动连接,连接杆另一端伸入第二顶撑件内滑动连接；以及,调节部件,所述调节部件包括转柱、齿轮和操作杆,所述转柱嵌于连接杆外壁上,操作杆依次穿过齿轮和转柱进行连接,所述齿轮分别与第一顶撑件和第二顶撑件配合；本发明通过设计一种支撑装置,可以用于在建筑物中支撑巩固楼面与地面,可以在工人施工时起到很好的防护作用,避免楼面不稳定而坍塌,可以自适应调节各种楼面与地面间的距离,具有很好的支撑作用。(The invention discloses a building floor protection device, which comprises a support part, wherein the support part comprises a connecting rod, a first top support part and a second top support part, the first top support part and the second top support part are identical in structure and are symmetrically arranged at two ends of the connecting rod, one end of the connecting rod extends into the first top support part to be in sliding connection, and the other end of the connecting rod extends into the second top support part to be in sliding connection; the adjusting part comprises a rotary column, a gear and an operating rod, the rotary column is embedded on the outer wall of the connecting rod, the operating rod sequentially penetrates through the gear and the rotary column to be connected, and the gear is respectively matched with the first supporting piece and the second supporting piece; the supporting device can be used for supporting and consolidating floors and ground in a building, can play a good role in protection when workers construct, avoids the floors from being unstable and collapsing, can adjust the distance between various floors and the ground in a self-adaptive mode, and has a good supporting effect.)

1. A building floor protector which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the supporting component (100) comprises a connecting rod (101), a first top supporting piece (102) and a second top supporting piece (103), the first top supporting piece (102) and the second top supporting piece (103) are identical in structure and symmetrically arranged at two ends of the connecting rod (101), one end of the connecting rod (101) extends into the first top supporting piece (102) to be in sliding connection, and the other end of the connecting rod (101) extends into the second top supporting piece (103) to be in sliding connection; and the number of the first and second groups,

the adjusting part (200) comprises a rotating column (201), a gear (202) and an operating rod (203), the rotating column (201) is embedded on the outer wall of the connecting rod (101), the operating rod (203) sequentially penetrates through the gear (202) and the rotating column (201) to be connected, and the gear (202) is respectively matched with the first supporting piece (102) and the second supporting piece (103).

2. A building floor guard as claimed in claim 1, wherein: the first top support piece (102) comprises a pressure cover (102 a), a through pipe (102 b) and a piston rod (102 c), two ends in the through pipe (102 b) are communicated in a penetrating mode, one end of the through pipe (102 b) is sleeved on the connecting rod (101) and the other end of the through pipe is provided with the pressure cover (102 a), the piston rod (102 c) is located in the through pipe (102 b), the pressure cover (102 a) stretches into the through pipe (102 b), one end of the piston rod (102 c) stretches into the pressure cover (102 a) and the other end of the piston rod stretches into the connecting rod (101).

3. A building floor guard according to claim 2 wherein: the pressure pipe (102 a-1) is arranged on the pressure cover (102 a), a ring plate (102 b-1) is arranged on the outer wall of one end, close to the pressure cover (102 a), of the through pipe (102 b), a round hole (102 b-2) is formed in the ring plate (102 b-1), a piston block (102 c-1) is arranged at one end of the piston rod (102 c), a round block (102 c-2) is arranged at the other end of the piston rod (102 c), the piston block (102 c-1) extends into the pressure pipe (102 a-1), and the round block (102 c-2) extends into the connecting rod (101).

4. A building floor guard according to claim 2 or 3 wherein: the outer wall of the through pipe (102 b) is provided with a rack (102 b-3), the rack (102 b-3) in the first supporting piece (102) and the rack (102 b-3) in the second supporting piece (103) are arranged oppositely, the gear (202) is positioned between the two racks (102 b-3) and the gear (202) is meshed with the racks (102 b-3).

5. A building floor guard according to claim 3 wherein: through grooves (101 a) are formed in two ends of the connecting rod (101), an elongated groove (101 b) is formed in the outer wall of the connecting rod (101), the elongated groove (101 b) is communicated with the through grooves (101 a), an embedding groove (101 c) is formed in the elongated groove (101 b), a round block (102 c-2) extends into the through groove (101 a), and a rotary column (201) is embedded in the embedding groove (101 c) and is connected in a rotating mode.

6. The building floor guard of claim 5, wherein: the adjusting component (200) further comprises a traction rope (204), the traction rope (204) is wound on the rotating column (201), and two ends of the traction rope (204) extend towards two ends of the connecting rod (101).

7. The building floor guard of claim 6, wherein: wiring grooves (101 d) are formed in two sides of the long groove (101 b), the traction rope (204) is arranged along the wiring grooves (101 d), and the traction rope (204) is connected with piston rods (102 c) at two ends;

the round block (102 c-2) is provided with a fixed handle (102 c-4), and the traction rope (204) is fixedly connected with the fixed handle (102 c-4).

8. A building floor guard according to claim 6 or 7, wherein: the top of the rotary column (201) is provided with a limiting pipe (201 a), the top of the limiting pipe (201 a) is rotatably connected with the gear (202), the center of the rotary column (201) is provided with a first circular groove (201 b), the gear (202) is provided with a second circular groove (202 a), and the operating rod (203) penetrates through the second circular groove (202 a) and the first circular groove (201 b).

9. The building floor guard of claim 8, wherein: the circumference sets up first spacing groove (201 c) on first circular slot (201 b) inner wall, the circumference sets up second spacing groove (202 b) on second circular slot (202 a) inner wall, sets up first stopper (203 a), second stopper (203 b) and third stopper (203 c) on action bars (203), first stopper (203 a) and first spacing groove (201 c) cooperation, second stopper (203 b) and third stopper (203 c) cooperate with second spacing groove (202 b) respectively.

10. The building floor guard of claim 4, wherein: the supporting part (100) further comprises a clamping strip (104), a plurality of clamping holes (102 b-5) are formed in the rack (102 b-3), and the clamping strip (104) can pass through the clamping holes (102 b-5) in the racks (102 b-3) in the first supporting piece (102) and the second supporting piece (103).

Technical Field

The invention relates to the technical field of building protection, in particular to a building floor protection device.

Background

On the building site, the security of building is especially important, constructor can adopt earlier to make the ground when building usually, then one deck up covers, wherein the construction of each deck all need use a lot of steel construction to consolidate, prevent to collapse when the construction, in order to strengthen the protection, guarantee staff's security, it is stable to all need to support it with the support of steel construction after every floor or wall body shaping, prevent to cause serious accident after the sun insolate or the rainwater corrodes, consequently, need design a instrument that can support floor or wall body.

Disclosure of Invention

The invention aims to solve the technical problem that on a building site, when workers are in construction, a floor slab or a floor surface is unstable when just constructed and is easy to collapse, so that the floor slab or the floor surface needs to be supported and consolidated by using a steel structure supporting tube.

In order to solve the technical problems, the invention provides the following technical scheme: a building floor protection device comprises a support part, wherein the support part comprises a connecting rod, a first top support part and a second top support part, the first top support part and the second top support part are identical in structure and are symmetrically arranged at two ends of the connecting rod, one end of the connecting rod extends into the first top support part to be in sliding connection, and the other end of the connecting rod extends into the second top support part to be in sliding connection; and the adjusting part comprises a rotary column, a gear and an operating rod, the rotary column is embedded on the outer wall of the connecting rod, the operating rod sequentially penetrates through the gear and the rotary column to be connected, and the gear is respectively matched with the first supporting piece and the second supporting piece.

As a preferable aspect of the building floor guard of the present invention, wherein: first piece of top support includes pressure cap, siphunculus and piston rod, the intercommunication runs through at the inside both ends of siphunculus, and siphunculus pot head is established on the connecting rod and the other end sets up the pressure cap, and the piston rod is located the siphunculus, and the pressure cap stretches into in the siphunculus, and piston rod one end stretches into in the pressure cap and the other end stretches into the connecting rod.

As a preferable aspect of the building floor guard of the present invention, wherein: set up the manometer pipe on the pressure shield, set up the crown plate on the siphunculus is close to the one end outer wall of pressure shield, set up the round hole on the crown plate, piston rod one end sets up the piston piece, and the piston rod other end sets up the disk, and the piston piece stretches into in the pressure shield, the disk stretches into in the connecting rod.

As a preferable aspect of the building floor guard of the present invention, wherein: the outer wall of the through pipe is provided with racks, the racks in the first supporting piece and the racks in the second supporting piece are arranged oppositely, and the gear is located between the two racks and is meshed with the racks.

As a preferable aspect of the building floor guard of the present invention, wherein: the connecting rod is characterized in that through grooves are formed in two ends of the connecting rod, elongated grooves are formed in the outer wall of the connecting rod and communicated with the through grooves, embedded grooves are formed in the elongated grooves, limiting blocks extend into the through grooves, and rotating columns are embedded in the embedded grooves and are connected in a rotating mode.

As a preferable aspect of the building floor guard of the present invention, wherein: the adjusting component further comprises a traction rope, the traction rope is wound on the rotary column, and two ends of the traction rope extend to two ends of the connecting rod.

As a preferable aspect of the building floor guard of the present invention, wherein: wiring grooves are formed in two sides of the long groove, the traction rope is arranged along the wiring grooves and connected with piston rods at two ends; the limiting block is provided with a fixed handle, and the traction rope is fixedly connected with the fixed handle.

As a preferable aspect of the building floor guard of the present invention, wherein: the top of the rotary column is provided with a limiting pipe, the top of the limiting pipe is rotatably connected with a gear, the center of the rotary column is provided with a first circular groove, the gear is provided with a second circular groove, and the operating rod penetrates through the second circular groove and the first circular groove.

As a preferable aspect of the building floor guard of the present invention, wherein: the circumference sets up first spacing groove on the first circular slot inner wall, the circumference sets up the second spacing groove on the second circular slot inner wall, sets up first stopper, second stopper and third stopper on the action bars, first stopper and first spacing groove cooperation, second stopper and third stopper cooperate with the second spacing groove respectively.

As a preferable aspect of the building floor guard of the present invention, wherein: the supporting component further comprises a clamping strip, a plurality of clamping holes are formed in the rack, and the clamping strip can penetrate through the clamping holes in the rack in the first supporting piece and the second supporting piece.

The invention has the beneficial effects that: the supporting device can be used for supporting and consolidating floors and ground in a building, can play a good role in protection when workers construct, avoids the floors from being unstable and collapsing, can adjust the distance between various floors and the ground in a self-adaptive mode, and has a good supporting effect.

Drawings

Fig. 1 is a structural view of a support member and an adjustment member in the first embodiment.

Fig. 2 is an exploded view of the support member in the first embodiment.

Fig. 3 is a view showing a structure of a connection structure of the support member and an exploded view of the regulating member in the first and second embodiments.

Fig. 4 is a view showing an internal structure of a connection pipe in the second embodiment.

Fig. 5 is an exploded view of the adjustment member attachment in the second embodiment.

Reference numerals: a support member 100; a connecting rod 101; a through groove 101 a; long grooves 101 b; a caulking groove 101 c; a wiring duct 101 d; a first top support 102; a pressure cover 102 a; the pressure tube 102 a-1; a through tube 102 b; ring plate 102 b-1; the circular hole 102 b-2; rack 102 b-3; a card hole 102 b-5; a piston rod 102 c; piston block 102 c-1; round block 102 c-2; fixed handle 102 c-4; a second top stay 103; a card strip 104; an adjustment member 200; a rotary column 201; a stopper tube 201 a; a first limit groove 201 c; a first circular groove 201 b; a gear 202; a second circular groove 202 a; a second limiting groove 202 b; an operation lever 203; a first stopper 203 a; a second stopper 203 b; a third stopper 203 c; a tether 204 is pulled.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 3, a first embodiment of the present invention provides a building floor guard, which includes a supporting member 100 and an adjusting member 200, wherein the supporting member 100 is divided into three sections, the two sections have the same structure, in the building field, the two ends of the supporting member 100 can support a floor and the ground to play a role in protection, and prevent the floor which is just built from collapsing due to instability, in the process of forming a door frame, the supporting member 100 can support the two ends of the door frame to be fixed, and the adjusting member 200 is mounted on the supporting member 100 and is used for adjusting the length of the supporting member 100 to adapt to floors with different heights.

The supporting part 100 comprises a connecting rod 101, a first top support piece 102 and a second top support piece 103, wherein one end of the connecting rod 101 is connected with the first top support piece 102, the other end of the connecting rod 101 is connected with the second top support piece 103, the first top support piece 102 can be supported on the ground, the second top support piece 103 can be supported on a floor, construction of construction workers can be assisted, a protection effect is achieved, and a supporting and consolidating effect is achieved on the floor which is just built. First top support piece 102 and second top support piece 103 structure is the same and the symmetry sets up at the both ends of connecting rod 101, and connecting rod 101 one end stretches into first top support piece 102 sliding connection, and the connecting rod 101 other end stretches into second top support piece 103 sliding connection, and flexible function can be realized in the slip of first top support piece 102 and second top support piece 103.

Further, the first support member 102 includes a pressure cover 102a, a through pipe 102b and a piston rod 102c, two ends inside the through pipe 102b are communicated with each other, the stopper rod 102c is located inside the through pipe 102b, a pressure pipe 102a-1 is arranged on the pressure cover 102a, two ends of the pressure pipe 102a-1 are communicated with each other, the pressure cover 102a is located at one end of the through pipe 102b far away from the connecting rod 101, the pressure pipe 102a-1 extends into the through pipe 102b from the end of the through pipe 102b, the pressure cover 102a is exposed out of the through pipe 102b, one end of the piston rod 102c extends into the pressure pipe 102a-1 on the pressure cover 102a and the other end extends into the connecting rod 101 from the end of the connecting rod 101.

Furthermore, one end of the piston rod 102c is provided with a piston block 102c-1, the other end of the piston rod 102c is provided with a round block 102c-2, the piston block 102c-1 extends into the pressure tube 102a-1, the round block 102c-2 extends into the connecting rod 101, the diameter of the piston block 102c-1 is larger than that of the piston rod 102c, the diameter of the end part of the pressure tube 102a-1 is smaller than the inner diameter in the tube, the piston block 102c-1 may engage the inner wall of the pressure tube 102a-1 after extending into the pressure tube 102a-1, the end of the pressure tube 102a-1 can limit the piston block 102c-1, the piston block 102c-1 can perform piston movement in the pressure tube 102a-1, the outer wall of the end of the through tube 102b close to the pressure cover 102a is provided with an annular plate 102b-1, and the annular plate 102b-1 is provided with a circular hole 102 b-2.

In use and operation, the pressure cover 102a is tightly attached to the ground or floor to squeeze out air in the pressure cover 102a, at this time, the piston block 102c-1 moves to draw out air in the pressure pipe 102a-1, and at this time, the external atmospheric pressure is higher than the air pressure in the pressure cover 102a, and the external atmospheric pressure can tightly press the pressure cover 102a through the circular hole 102b-2 in the annular plate 102b-1, so that the pressure cover 102a is firmly fixed on the ground or floor.

The adjusting component 200 comprises a rotary column 201, a gear 202 and an operating rod 203, specifically, the adjusting component 200 is mounted on the connecting rod 101 and connected with the first supporting member 102 and the second supporting member 103, the rotary column 201 is embedded on the outer wall of the connecting rod 101, the operating rod 203 sequentially passes through the gear 202 and the rotary column 201 to be connected, the gear 202 is matched with the first supporting member 102 and the second supporting member 103 respectively, where the matching refers to: the gear 202 is engaged with the outer wall of the through pipe 102b in the first top support 102 and the second top support 103 respectively; the gear 202 is rotated, and the through pipe 102b is engaged with the gear 202 to generate displacement, so that the through pipe 102b moves on the connecting rod 101.

Further, the rotary column 201 is installed in the connecting rod 101 and connected with the piston rod 102c in the two end through tubes 102b, and when the rotary column 201 rotates, the piston rod 102c can be pulled to displace, so that the piston block 102c-1 moves in the pressure tube 102a-1, and thus, the pumping is realized.

Example 2

Referring to fig. 3 to 5, in a second embodiment of the present invention, based on the previous embodiment, the operating rod 203 can be engaged with the rotary column 201 and the gear 202 respectively to drive the rotary column 201 and the gear 202 to rotate.

Through grooves 101a are formed in two ends of the connecting rod 101, an elongated groove 101b is formed in the outer wall of the connecting rod 101, the elongated groove 101b is communicated with the through grooves 101a, an embedding groove 101c is formed in the elongated groove 101b, the round block 102c-2 extends into the through groove 101a, and the rotating column 201 is embedded in the embedding groove 101c to be rotatably connected.

The adjusting member 200 further includes a pulling rope 204, the pulling rope 204 is wound around the rotating column 201, the two sides of the elongated slot 101b are provided with the cabling slot 101d, the pulling rope 204 is disposed along the cabling slot 101d, and two ends of the pulling rope 204 extend to two ends of the connecting rod 101 and are connected to the piston rods 102c at the two ends.

Furthermore, a limiting pipe 201a is arranged at the top of the rotating column 201, the top of the limiting pipe 201a is rotatably connected with the gear 202, and specifically, a T-shaped groove can be arranged at the bottom of the gear 202, a T-shaped support structure is also arranged at the top of the limiting pipe 201a, then, the rotating column 201 is embedded in a T-shaped groove and is connected in a rotating mode, a first circular groove 201b is formed in the center of the rotating column 201, a second circular groove 202a is formed in the gear 202, the operating rod 203 penetrates through the second circular groove 202a and the first circular groove 201b, a first limiting groove 201c is formed in the inner wall of the first circular groove 201b in the circumferential mode, a second limiting groove 202b is formed in the inner wall of the second circular groove 202a in the circumferential mode, a first limiting block 203a, a second limiting block 203b and a third limiting block 203c are arranged on the operating rod 203, the first limiting block 203a is matched with the first limiting groove 201c, the second limiting block 203b and the third limiting block 203c are matched with the second limiting groove 202b respectively, and the clamping limiting is indicated in the matching mode.

Further, the first stopper 203a, the second stopper 203b and the third stopper 203c are vertically arranged along the axial line direction of the operating rod 203, a certain distance is left between the first stopper 203a, the second stopper 203b and the third stopper 203c, the first stopper 203a is located at the bottommost portion of the operating rod 203, the second stopper 203b is located between the first stopper 203a and the third stopper 203c, the first stopper 203a can be embedded into the first stopper groove 201c to be connected with the rotary column 201, and the second stopper 203b and the third stopper 203c can be respectively embedded into the second stopper groove 202b to be connected with the gear 202.

The round block 102c-2 is provided with a fixed handle 102c-4, and the pull rope 204 is fixedly connected with the fixed handle 102 c-4.

The supporting member 100 further comprises a clamping strip 104, the rack 102b-3 is provided with a plurality of clamping holes 102b-5, and the clamping strip 104 can pass through the clamping holes 102b-5 on the rack 102b-3 in the first supporting member 102 and the second supporting member 103 so that the two through pipes 102b are limited and fixed.

The specific operation is as follows: firstly, a second limit block 203b is embedded into a second limit groove 202b, an operating rod 203 is connected with a gear 202, the first limit block 203a is positioned above a first limit groove 201c, a third limit block 203c is positioned above the gear 202, the operating rod 203 is rotated, the gear 202 rotates together and is meshed with two racks 102b-3 to drive the through pipes 102b at two ends to move outwards to realize the effect of growth, then the pressure covers 102a at two ends respectively support the ground and the floor to support the floor for construction, then the operating rod 203 is pressed downwards, the first limit block 203a extends into the first limit groove 201c, the second limit block 203b moves to the lower part of the gear 202, the third limit block 203c is still positioned above the gear 202 at the moment, the operating rod 203 is rotated, the rotary column 201 rotates together, then the traction rope 204 can be pulled to be rolled on the rotary column 201, the traction rope 204 can pull the piston rod 102c to be pumped after being rolled, so that the internal pressure is reduced and the external pressure presses the pressure cover 102a tightly; the operating rod 203 can be further pressed, the first limiting block 203a is continuously clamped with the first limiting groove 201c, the third limiting block 203c falls into the second limiting groove 202b, the clamping strip 104 penetrates through the clamping holes 102b-5 in the two racks 102b-3 to fix the two through pipes 102b together, the through pipes 102b are fixed, the gear 202 is fixed, the operating rod 203 cannot rotate, the operating rod 203 limits the rotating column 201, the rotating column 201 cannot rotate, and the three reach a mutually stable state.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.