CN114790777A - Assembled steel structure device - Google Patents

Abstract

The invention discloses an assembly type steel structure device, which comprises an upper steel plate and a lower steel plate which are assembled by overlapping end parts, and also comprises a driven assembly which is connected between the upper steel plate and the lower steel plate; and when the upper steel plate and the lower steel plate generate relative movement due to thermal expansion and cold contraction to drive the driven assembly to move, the driven assembly drives the jacking assembly to jack the upper steel plate to generate a gap. When appearing high temperature or severe cold weather or temperature change great condition, can produce relative movement between the steel sheet under and the steel sheet by the influence of expend with heat and contract with cold effect to make driven component produce the action and change, this change drives the top and lifts the subassembly and upwards jack-up with last steel sheet, forms the gap between last steel sheet and lower steel sheet, makes the two can not contact when relative movement, avoids producing the frictional noise.

Description

Assembled steel construction device

Technical Field

The invention relates to the field of steel structure buildings, in particular to an assembled steel structure device.

Background

The fabricated steel structure building is a building which is produced and installed with a part of steel structure frameworks in advance in a factory and then transported to a construction site to be connected by welding seams, bolts or rivets. Because the steel structure has light dead weight and low manufacturing cost, is easy to build and has simple and efficient assembly type, the assembly type steel structure is widely applied to the fields of factory buildings, venues, playgrounds and the like.

Chinese patent application No. CN110359611B proposes a composite floor slab for steel structure building, which has a buffer effect of a first floor slab body increased by a buffer structure, has a certain damping effect on the first floor slab body, reduces abrasion between the first floor slab body and a second floor slab body, and uses a buffer structure and a fixing structure cooperatively to slide the fixing structure into a sliding structure, so as to fix the first floor slab body and the second floor slab body, and further improve the buffer and damping effects of the first floor slab body through the sliding structure.

Like the assembly methods that above patent adopted, place two steel construction floor stacks and can produce some problems when in actual use. Because steel material is easily heated, and is better sound transmission medium, when two steel sheet stacks were placed, especially when as roof or outer wall etc. towards external structure, when high temperature or severe cold weather or the great condition of temperature variation appear, the steel sheet can produce expend with heat and contract with cold's effect, thereby two steel sheets can take place relative movement and send obvious friction noise, and this kind of sound is more harsh in transmitting people's ear.

Disclosure of Invention

The invention aims to provide an assembly type steel structure device which does not generate noise under high temperature or severe cold weather.

In order to achieve the above purpose, the invention provides the following technical scheme: an assembled steel construction installation, includes the last steel sheet and the lower steel sheet of tip stack assembly, still includes:

the driven assembly is connected between the upper steel plate and the lower steel plate;

and when the upper steel plate and the lower steel plate generate relative movement due to thermal expansion and cold contraction to drive the driven assembly to move, the driven assembly drives the jacking assembly to jack the upper steel plate, so that a gap is formed.

In the assembly type steel structure device, one end of the jacking assembly is connected to the lower steel plate, and the other end of the jacking assembly supports the upper steel plate.

In the above assembled steel structure device, the jacking assembly comprises a jacking block and a movable plate which are in wedge fit, the jacking block supports the upper steel plate, and the driven assembly drives the movable plate to reciprocate, so that the jacking block jacks the upper steel plate.

In the above assembled steel structure device, the jacking assembly further comprises a connecting plate fixed at the end of the lower steel plate, a fixed seat is arranged at the side part of the connecting plate, the top block is movably inserted on the upper surface of the fixed seat, and the movable plate is horizontally inserted on the connecting plate and extends to the bottom of the top block to be matched with the top block.

In the assembly type steel structure device, the upper surface of the movable plate is provided with the inverted trapezoidal groove matched with the bottom end of the top block, and the inverted trapezoidal groove is of an isosceles trapezoid structure.

In the assembly type steel structure device, the top end of the top block is provided with the ball.

In the assembly type steel structure device, the end part of the upper steel plate is also provided with the jacking assembly, and the two pairs of jacking assemblies are driven by the driven assembly together.

The driven assembly comprises the rotating plate, mounting holes are formed in the upper steel plate and the lower steel plate, the rotating plate is rotatably mounted in the mounting holes, and the rotating plate drives the movable plate to move when rotating.

In the assembled steel structure device, the end part of the movable plate is hinged on the rotating plate, and the rotating plate is provided with a sliding hole for the end part of the movable plate to slide.

In the assembly type steel structure device, the two mounting holes are internally provided with the supporting rods, the rotating plate is provided with the slender waist holes matched with the supporting rods, and the rotating plate is movably sleeved on the two supporting rods through the slender waist holes.

In the technical scheme, the invention has the beneficial effects that:

when appearing high temperature or severe cold weather or temperature change great condition, can produce relative movement between the steel sheet under and the steel sheet by the influence of expend with heat and contract with cold effect to make driven component produce the action and change, this change drives the top and lifts the subassembly and upwards jack-up with last steel sheet, forms the gap between last steel sheet and lower steel sheet, makes the two can not contact when relative movement, avoids producing the frictional noise.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a sectional elevation view of an embodiment of the present invention in its normal state;

FIG. 3 is an elevational cut-away view of an embodiment of the present invention in hot weather;

FIG. 4 is a schematic structural diagram of a lift-off assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a movable plate according to an embodiment of the present invention;

FIG. 6 is a bottom view of the lower steel plate according to an embodiment of the present invention;

fig. 7 is an enlarged view of the structure at a in fig. 2.

Description of the reference numerals:

1. steel plate mounting; 2. a steel plate is arranged; 3. mounting holes; 4. lifting the component; 401. a connecting plate; 402. a fixed seat; 403. a top block; 404. a ball bearing; 5. a movable plate; 501. an active segment; 502. a fixed section; 503. adjusting a rod; 6. rotating the plate; 7. a strut; 8. a cover plate; 9. a seal assembly; 901. sealing the balloon tube; 902. a gas storage cavity; 903. and (4) inflating the bags.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 7, the assembly type steel structure device provided by the present invention comprises an upper steel plate 1 and a lower steel plate 2 whose ends are overlapped and assembled, and further comprises a driven assembly connected between the upper steel plate 1 and the lower steel plate 2; and when the upper steel plate 1 and the lower steel plate 2 move relatively due to expansion caused by heat and contraction caused by cold, the driven component is driven to lift the upper steel plate 1 by the driven component 4, so that a gap is formed.

Specifically, go up steel sheet 1 and lower steel sheet 2 and have a part of laminating each other, when high temperature or severe cold weather or temperature change great condition appear, receive the influence of expend with heat and contract with cold effect, can produce relative movement between last steel sheet 1 and the lower steel sheet 2. Taking fig. 2 as an example, the left end of the upper steel plate 1 is fixed, the right end is a free end, the right end of the lower steel plate 2 is fixed, the left end is a free end, when the temperature rises, the whole steel plate is heated to slightly expand, the right end of the upper steel plate 1 slightly moves to the right, the left end of the lower steel plate 2 slightly moves to the left, so as to drive the driven component to generate motion change, the change drives the jacking component 4 to jack up the upper steel plate 1, so as to reduce or even completely eliminate the contact area between the upper steel plate 1 and the lower steel plate 2, a gap is formed between the upper steel plate 1 and the lower steel plate 2, the contact and even no contact between the two plates are reduced or even avoided when the two plates move relatively, and the generation of friction noise is reduced or even avoided.

Referring to fig. 2, wherein the driven assembly includes a rotating plate 6, the upper steel plate 1 and the lower steel plate 2 are both provided with a mounting hole 3, the rotating plate 6 is rotatably installed in the mounting hole 3, and the rotating plate 6 drives the movable plate 5 to move when rotating. The driven assembly is arranged in the mounting holes 3 formed in the two steel plates, the driven assembly cannot protrude out of the surfaces of the steel plates, the rotating plate 6 is driven to deflect when the two steel plates move relatively, and the rotating plate 6 can change actions to drive the movable plate 5 to move. The end of the movable plate 5 is hinged on the rotating plate 6, and the rotating plate 6 is provided with a sliding hole for the end of the movable plate 5 to slide. Because the movable plate 5 is hinged on the rotating plate 6, and the movable plate 5 is inserted on the jacking assembly 4 and can only horizontally move, the position of the connecting point of the movable plate 5 and the rotating plate 6 can be changed, and the sliding hole is arranged to prevent the movable plate 5 from being locked, so that the rotating plate 6 and the movable plate 5 can be flexibly driven.

Referring to fig. 2, the two mounting holes 3 are internally provided with a support rod 7, the rotating plate 6 is provided with a slender waist hole matched with the support rod 7, and the rotating plate 6 is movably sleeved on the two support rods 7 through the slender waist hole. When the rotating plate 6 deflects, the distance between the two support rods 7 is increased, so that the length of the slender waist hole is larger than the distance between the two support rods 7, a sufficient moving distance is provided for the two support rods 7, and the two steel plates are prevented from being blocked from moving relatively.

When the outdoor temperature rises, the upper steel plate 1 and the support rods 7 in the upper steel plate move rightwards, the lower steel plate 2 and the support rods 7 in the lower steel plate move leftwards, so that the rotating plate 6 deflects clockwise, the rotating plate 6 moves the lower movable rod 5 leftwards, and the upper movable rod 5 moves rightwards; when the air temperature is reduced, the upper side supporting rod 7 moves leftwards, the lower side supporting rod 7 moves rightwards, the rotating plate 6 deflects anticlockwise, the movable rod 5 below moves rightwards, and the movable rod 5 above moves leftwards, so that the transmission process of the driven mechanism to the action is realized, and the temperature change is converted into the action change of the two movable rods 5 through the driven assembly.

The jacking assemblies 4 are respectively arranged at the end part of the lower steel plate 2 and the end part of the upper steel plate 1. Taking the jacking assembly on the steel plate 2 as an example, the jacking assembly 4 comprises a top block 403 and a movable plate 5 which are matched in a wedge shape, the top block 403 supports the upper steel plate 1, and the driven assembly drives the movable plate 5 to reciprocate so that the top block 403 jacks the upper steel plate 1. The jacking assembly 4 further comprises a connecting plate 401 fixed at the end of the lower steel plate 2, a fixed seat 402 is arranged at the side of the connecting plate 401, a top block 403 is movably inserted on the upper surface of the fixed seat 402, and a movable plate 5 is horizontally inserted on the connecting plate 401 and extends to the bottom of the top block 403 to be matched with the top block 403. The upper surface of the movable plate 5 is provided with an inverted trapezoidal groove matched with the bottom end of the top block 403, and the inverted trapezoidal groove is of an isosceles trapezoid structure.

When the upper steel plate 1 and the lower steel plate 2 do not move relatively, the bottom end of the top block 403 sinks into the inverted trapezoidal groove, so that no jacking force is generated on the upper steel plate 1, and when the upper steel plate 1 and the lower steel plate 2 move relatively, the movable plate 5 is driven by the driven assembly to move horizontally, the two inclined surfaces of the inverted trapezoidal groove can press the top block 403 upwards until the top surface of the movable plate 5 is completely positioned below the top block 403, and at this time, the top block 403 cannot be continuously lifted even if the movable plate 5 continues to move. And the inverted trapezoidal groove enables the top block 403 to move upwards regardless of whether the movable plate 5 moves forwards or backwards, so as to lift the upper steel plate 1, and the lifting amplitude is the same, i.e. a gap can be formed between the upper steel plate 1 and the lower steel plate 2 regardless of temperature increase or temperature decrease.

In order to avoid overlarge gap between the two steel plates, the height difference between the bottom surface of the inverted trapezoidal groove and the opening is not more than 2mm, so that the gap between the two steel plates can only reach the size of 2mm at most, a large enough gap can be formed, and the house can be prevented from being damaged due to the fact that the steel plates are excessively bulged.

The jacking component 4 is connected with the lower steel plate 2 through a connecting plate 401 and can be flexibly disassembled and assembled. The top block 403 is movably inserted into the fixing base 402 to move up and down smoothly, and when the movable plate 5 moves, the top block 403 is pressed upwards from the bottom, so as to lift the upper steel plate 1. When the upper steel plate 1 and the lower steel plate 2 move relatively due to the thermal expansion and contraction effect, the driven assembly moves along with the upper steel plate 1 and the lower steel plate 2, the movable plate 5 moves horizontally, if the movable plate 5 moves relatively due to thermal expansion, the movable plate 5 moves outwards, if the movable plate 5 moves relatively due to cold contraction, the movable plate 5 moves in the opposite direction, and when the movable plate 5 moves, the jacking block 403 moves upwards, namely the upper steel plate 1 is jacked up, a gap is formed between the upper steel plate 1 and the lower steel plate 2, and friction noise generated by the relative movement of the upper steel plate 1 and the lower steel plate 2 is reduced or even completely eliminated.

Further, a ball 404 is mounted on the top end of the top block 403. When the top block 403 pushes up the upper steel plate 1, the top end of the top block 403 is in contact with the bottom surface of the upper steel plate 1, if the temperature continues to rise, slippage may continue to occur between the upper steel plate 1 and the lower steel plate 2, and therefore the balls 404 mounted on the top end of the top block 403 can reduce friction between the top block 403 and the upper steel plate 1, so that friction between the upper steel plate 1 and the top block 403 is reduced, and introduction of a new noise source is avoided.

The purpose of separating the two steel plates can be achieved primarily by arranging the jacking component 4 at the end part of the lower steel plate 2, but because the jacking component 4 at the end part of the lower steel plate 2 can only jack the two steel plates at one side, a contact point may still exist at the other side. Therefore, the jacking components are mounted at the end parts of the lower steel plate 2 and the upper steel plate 1, the two pairs of jacking components are driven by the driven component together, and when the driven component changes, the jacking component 4 at the end part of the upper steel plate 1 pushes the lower steel plate 2 downwards, so that the two steel plates are completely separated, and the noise reduction effect is further improved.

In order to prevent sundries or rainwater from entering the mounting hole 3, a cover plate 8 for sealing the mounting hole 3 is arranged at the outward end of the mounting hole 3, and meanwhile, the natural loss of internal elements can be delayed.

After long-term use, the deformation of the steel plates may not be completely recovered to the initial state, so that the two steel plates are always staggered, the top block 403 cannot fall back into the trapezoidal groove, and a gap is always reserved between the two steel plates. Therefore, the movable plate 5 is divided into a movable section 501 and a fixed section 502, the fixed section 502 is connected to the rotating plate 6, the inverted trapezoidal groove is formed in the movable section 501, the movable section 501 is provided with the adjusting rod 503 in a penetrating and inserting mode, the adjusting rod 503 and the movable section 501 move synchronously and the adjusting rod 503 can rotate on the movable section 501, one end of the adjusting rod 503 is connected to the fixed section 502 in a threaded and inserting mode, the distance between the movable section 501 and the fixed section 502 can be adjusted by rotating the adjusting rod 503, the inverted trapezoidal groove is readjusted to be right below the top block 403 when the top block 403 cannot fall back, the top block 403 falls into the inverted trapezoidal groove, the two steel plates are in contact again, and no gap exists all the time. The end of the adjusting rod 503 is connected with a hexagon bolt, so that the adjusting rod 503 can be rotated by a wrench conveniently, and the end of the fixing seat 402 is provided with a hole, so that the adjusting rod 503 can extend out and move freely.

In addition, referring to fig. 2 and 7, when a gap is generated between the upper steel plate 1 and the lower steel plate 2, a sealing assembly 9 is further provided on the lower steel plate 2 in order to ensure sealability therebetween. The sealing assembly 9 comprises a sealing bag tube 901 arranged on the upper surface of the lower steel plate 2, and the sealing bag tube 901 is of a closed rectangular structure, wherein three sides of the sealing bag tube are close to the edge of the lower steel plate 2. The sealing bag tube 901 surrounds the mounting hole 3 inside; the inside of lower steel sheet 2 is seted up and is had the gas storage chamber 902 with mounting hole 3 intercommunication, and the opening part of gas storage chamber 902 is connected with an air-blowing bag 903, and air-blowing bag 903 is located the inside of mounting hole 3.

Under the condition that the air temperature is proper, the air pressure inside the sealed bag pipe 901 is larger than the outside atmospheric pressure, the sealed bag pipe 901 tends to expand, but at the moment, the upper steel plate 1 and the lower steel plate 2 are in contact with each other, the sealed bag pipe 901 is pressed down, when the air temperature rises, dislocation can occur between the two steel plates, the air storage cavity 902 and the air blowing bag 903, including the fact that the air inside the sealed bag pipe 901 can also expand, the sealed bag pipe 901 can enter a gap between the two steel plates to seal the gap, so that outside sundries and rainwater cannot enter the gap, and the phenomenon that the outside sundries and the rainwater enter the room from the mounting hole 3 is avoided. When the air temperature is reduced, a gap can be generated between the two steel plates, but the air storage cavity 902 and the air in the air blowing bag 903 can shrink, the sealing effect of the sealing bag tube 901 on the gap is poor, but because the upper steel plate 1 contracts leftwards after being cooled, the lower steel plate 2 retreats rightwards, the rotating plate 6 rotates anticlockwise, the lower half portion of the rotating plate 6 extrudes the air blowing bag 903, a large amount of air is supplemented into the sealing bag tube 901, the sealing bag tube 901 continues to keep an expansion state, and the sealing performance when the air temperature becomes low is ensured.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The utility model provides an assembled steel construction equipment, includes the last steel sheet and the lower steel sheet of tip stack assembly, its characterized in that still includes:

the driven assembly is connected between the upper steel plate and the lower steel plate;

and when the upper steel plate and the lower steel plate generate relative movement due to thermal expansion and cold contraction to drive the driven assembly to move, the driven assembly drives the jacking assembly to jack the upper steel plate to generate a gap.

2. An assembled steel structural installation according to claim 1, wherein the jacking assembly has one end connected to the lower steel plate and the other end supporting the upper steel plate.

3. The assembled steel structure device as claimed in claim 2, wherein the jacking assembly comprises a wedge-fitted jacking block and a movable plate, the jacking block supports the upper steel plate, and the driven assembly drives the movable plate to reciprocate so that the jacking block jacks up the upper steel plate.

4. The assembled steel structure device as claimed in claim 3, wherein the jacking assembly further comprises a connecting plate fixed at the end of the lower steel plate, the connecting plate is provided at a side thereof with a fixed seat, the top block is movably inserted on the upper surface of the fixed seat, and the movable plate is horizontally inserted on the connecting plate and extends to the bottom of the top block to be engaged with the top block.

5. The assembled steel structural device as claimed in claim 4, wherein the movable plate has an inverted trapezoidal groove formed on an upper surface thereof to be engaged with the bottom end of the top block, and the inverted trapezoidal groove has an isosceles trapezoidal structure.

6. An assembled steel structural device according to claim 4, wherein balls are installed at the top end of the top block.

7. An assembled steel structural installation according to any one of claims 1 to 6, wherein the upper steel plate is similarly provided at its end with a jacking assembly, the two jacking assemblies being driven by a follower assembly.

8. The assembled steel structure device as claimed in any one of claims 1 to 4, wherein the driven assembly comprises a rotating plate, the upper steel plate and the lower steel plate are both provided with mounting holes, the rotating plate is rotatably mounted in the mounting holes, and the rotating plate drives the movable plate to move when rotating.

9. The assembled steel structure device as claimed in claim 8, wherein the end of the movable plate is hinged to a rotating plate, and the rotating plate is provided with a sliding hole for the end of the movable plate to slide.

10. The assembled steel structural device as claimed in claim 8, wherein two of the mounting holes are provided with a support rod, the rotating plate is provided with a slender waist hole adapted to the support rod, and the rotating plate is movably sleeved on the two support rods through the slender waist hole.

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