CN114033197A - Assembled braced system for medical treatment building - Google Patents

Abstract

The application relates to the field of supporting systems, in particular to an assembly type supporting system for a medical building, which comprises a plurality of bottom plates and a plurality of limiting assemblies clamped at the edges of floor slabs, wherein the bottom plates are rotatably connected with steering blocks, the steering blocks are hinged with supporting rods, the supporting rods are connected with telescopic rods in a sliding manner along the length direction of the supporting rods, the supporting rods are provided with fixing assemblies for fixing the positions of the telescopic rods, one ends of the telescopic rods, far away from the supporting rods, are provided with supporting rods, the telescopic rods are provided with first fine adjusting pieces, and the supporting rods are hinged with supporting blocks; the side of week of bracing piece is coaxial to be rotated and is connected with a plurality of go-between, and the go-between articulates there is the swinging arms, and the one end that the go-between was kept away from to the swinging arms is provided with the connecting rod, and the swinging arms is provided with the second fine setting, and the connecting rod articulates there is the connecting block, is provided with a plurality of coupling assembling between bottom plate and the connecting block. This application has the effect of the different inclination's of outrigger wallboard, does benefit to the application scope who improves braced system, improves the efficiency of construction.

Description

Assembled braced system for medical treatment building

Technical Field

The application relates to the field of support systems, in particular to an assembled support system for medical buildings.

Background

The fabricated building has the advantages of short construction period, better cost and better quality, so the fabricated building is applied to the building construction process of various industries, particularly, the scale of the medical building needs to be rapidly expanded to adapt to the living demands of people nowadays, and the fabricated medical building is widely adopted.

The fabricated building mainly comprises prefabricated upright posts, prefabricated wall boards, prefabricated roof trusses, prefabricated roof boards, a roof supporting system and the like. A large amount of field operation work in the traditional construction mode is transferred to a factory for carrying out, building components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) are processed and manufactured in the factory and are transported to a building construction site, and the building body is assembled and installed on the site in a reliable connection mode.

To the above-mentioned correlation technique, the inventor thinks there is following defect, in the process of installation prefabricated wallboard on the floor in the fabricated building, utilizes the hoist to remove prefabricated wallboard to the assigned position, then need utilize braced system to support the wallboard to follow-up installation wallboard, but current braced system is difficult to the firm wallboard that supports different inclination, and application scope is little.

Disclosure of Invention

In order to improve the problem that braced system is not convenient for support different inclination's wallboard, this application provides a fabricated braced system for medical building.

The application provides an assembled braced system for medical treatment building adopts following technical scheme:

an assembly type supporting system for medical buildings comprises a plurality of bottom plates and a plurality of limiting assemblies clamped at the edges of floor slabs, wherein the bottom plates are rotatably connected with steering blocks, the steering blocks are hinged with supporting rods, the supporting rods are slidably connected with telescopic rods along the length direction of the supporting rods, and the supporting rods are provided with fixing assemblies for fixing the positions of the telescopic rods;

a holding rod is arranged at one end, away from the supporting rod, of the telescopic rod, the telescopic rod is provided with a first fine adjustment piece used for adjusting the distance between the holding rod and the telescopic rod, and a holding block used for supporting a wallboard is hinged at one end, away from the telescopic rod, of the holding rod;

the coaxial rotation in week of bracing piece is connected with a plurality of go-between, the go-between articulates there is the orientation or deviates from bottom plate wobbling swinging arms, the swinging arms is kept away from the one end of go-between is provided with the connecting rod, the swinging arms is provided with and is used for adjusting the connecting rod with the second fine setting of distance between the swinging arms, the connecting rod articulates there is the connecting block, the bottom plate with be provided with a plurality of coupling assembling that are used for mutual fixation between the connecting block.

By adopting the technical scheme, the wallboard is prevented from moving towards the outer side of the floor slab by utilizing the plurality of limiting assemblies, the steering block is rotated and the supporting rod is swung towards the wallboard, the telescopic rod slides in the supporting groove, the distance between the supporting rod and the wallboard is preliminarily adjusted, when the supporting block is close to the wallboard, the telescopic rod and the supporting rod are fixed by utilizing the fixing assembly, and then the distance between the supporting rod and the telescopic rod is adjusted by utilizing the first fine adjustment piece, so that the supporting block moves to be abutted against the wallboard; rotate the go-between and make the swinging arms swing towards the bottom plate, utilize the second fine setting to adjust the distance between connecting rod and the swinging arms for connecting block on the connecting rod removes to being close to the bottom plate, utilize a plurality of coupling assembling to make connecting block and bottom plate fixed, even make the connecting rod, form triangle-shaped bearing structure between swinging arms and bracing piece and the bottom plate, be favorable to the bracing piece to support the telescopic link steadily and hold up the pole, realize the effect of the different inclination's of outrigger wallboard.

Optionally, spacing subassembly includes the first drive block of first fixed block and L type, first fixed block with first drive block fixed connection, first drive block orientation first fixed block sliding connection has first clamp splice, first screw rod is worn to be equipped with by first drive block screw thread, the axial orientation of first screw rod first fixed block sets up, first screw rod with first clamp splice rotates to be connected.

Through adopting above-mentioned technical scheme, first fixed block removes to the downside butt with the floor, rotates first screw rod for first clamp splice remove to the side butt of going up with the floor, make first clamp splice and first fixed block press from both sides the edge that is fixed in the floor tightly, utilize first clamp splice and first drive block to prevent that the wallboard from removing towards the floor outside.

Optionally, a plurality of clamping assemblies are arranged on the wall plate, each clamping assembly comprises a second fixed block and an L-shaped second driving block, the second fixed block is fixedly connected with the second driving block, the second driving block faces the second fixed block and is slidably connected with a second clamping block, a second screw rod is arranged in the second driving block in a threaded penetrating mode, the second screw rod faces the second fixed block in an axial direction, the second screw rod is rotatably connected with the second clamping block, and the supporting block is fixed with the second clamping block through a plurality of first bolts.

Through adopting above-mentioned technical scheme, the second fixed block removes to the lateral surface butt with the wallboard, rotates the second screw rod, makes the second clamp splice remove to the medial surface butt with the wallboard, makes second clamp splice and the tight upper end edge that is fixed in the wallboard of second fixed block clamp, utilizes a plurality of first bolts to make support piece and second clamp splice fixed, thereby makes support piece support the wallboard more firmly, has avoided punching on the wallboard and has reduced the intensity of wallboard.

Optionally, the fixed subassembly includes installation piece, rectangular inserted block and rectangular fixture block, the bracing piece is along deviating from the direction of turning to the piece has seted up and has supported the groove, the telescopic link is located support the inslot and with support the groove adaptation that slides, the inserted block with installation piece fixed connection, the fixture block with the inserted block rotates to be connected, the inserted block wears to locate the bracing piece with the telescopic link, the telescopic link has seted up a plurality of being used for the second square hole that the fixture block passed, the bracing piece is located the installation piece with between the fixture block.

Through adopting above-mentioned technical scheme, when the inserted block left the telescopic link, make the telescopic link roll-off or slide in and support the groove, thereby distance between quick adjustment holding rod and the bracing piece, insert first square hole and second square hole with fixture block and inserted block when fixture block and inserted block align, make dress piece and bracing piece butt, then twist and move the fixture block and make fixture block and inserted block stagger, prevent that the inserted block from leaving first square hole and second square hole, thereby make telescopic link and bracing piece fixed.

Optionally, the mounting block is provided with an adjusting assembly for adjusting the position of the fixture block, the adjusting assembly comprises an adjusting block and a calibration block, the rotating shaft penetrates through the mounting block and the inserting block, one end of the rotating shaft penetrating through the mounting block is fixedly connected with the adjusting block, the synchronous groove extends along the axial direction of the rotating shaft, both ends of the synchronous groove are closed, the synchronous block is matched with the synchronous groove in a sliding way along the axial direction of the rotating shaft, a spring is sleeved on the periphery of one end of the rotating shaft, which is positioned in the synchronous groove, and the spring is positioned between the synchronous block and the insert block, and the two ends of the spring are respectively abutted against the synchronous block and the clamping block when the spring is in a no-external-force state, the calibration block is fixedly connected with the mounting block, and a calibration groove used for splicing the calibration block is formed in one side, facing the mounting block, of the adjusting block.

Through adopting above-mentioned technical scheme, reset to with the installation piece butt when the regulating block, and make the calibration piece peg graft when the calibration groove, the axis of rotation drives the fixture block through synchronizing block and rotates to align with the inserted block, so that fixture block and inserted block insert first square hole and second square hole smoothly, when installation piece and bracing piece butt, the pulling regulating block makes the calibration piece leave the calibration groove, let out the regulating block after rotating the regulating block, make regulating block and installation piece butt and fixture block be located the regulating block outside, the fixture block staggers with the inserted block this moment, utilize the calibration block to prevent that the regulating block from removing to the calibration block along the installation piece and aligning with the calibration groove, make the fixture block steadily with the week side butt of bracing piece, realize the effect of firm fixed telescopic link, the simple operation is laborsaving, do benefit to improving installation and regulation efficiency.

Optionally, coupling assembling includes stopper and movable block, the stopper with bottom plate fixed connection, the movable block along the orientation or deviate from the stopper the direction with bottom plate sliding connection, a plurality of second bolts are worn to be equipped with by the connecting block screw thread, the screw thread end of second bolt is located the stopper with between the movable block, the stopper is provided with the multiunit and is used for adjusting the drive assembly of the position of movable block.

Through adopting above-mentioned technical scheme, when the swing arm swings all to be located between stopper and the movable block to the threaded end of a plurality of second bolts, do benefit to drive assembly and make the movable block move to supporting a plurality of second bolts towards the stopper to make a plurality of second bolt relatively the bottom plate fixed, do benefit to the connecting block that a plurality of swing arms of while fixed correspond, thereby improve the efficiency of construction, make the swing arm stably support the bracing piece fast conveniently.

Optionally, the driving assembly includes a plurality of third screws, the third screw with the stopper rotates to be connected and the axial sets up along the horizontal direction, the activity piece thread bush is located week side of third screw, it is a plurality of be provided with between the third screw and be used for driving a plurality of the synchronous pivoted synchronization assembly of third screw.

Through adopting above-mentioned technical scheme, rotate a plurality of third screw rods simultaneously for the movable block removes to supporting tightly the second bolt, realizes being convenient for adjust the effect of the position of movable block, utilizes a plurality of third screw rods to make movable block and stopper press from both sides tight fixed second bolt more tightly.

Optionally, synchronizing assembly includes a plurality of synchronizing wheels and hold-in range, and is a plurality of synchronizing wheels and a plurality of third screw rod one-to-one and coaxial fixed connection, hold-in range and two synchronizing wheels rotate the connection, the bottom plate is provided with and is used for the locking subassembly of synchronizing wheels.

Through adopting above-mentioned technical scheme, rotate the synchronizing wheel, utilize the hold-in range to make a plurality of synchronizing wheels drive a plurality of third screw rod synchronous rotations, utilize the locking subassembly to prevent that the synchronizing wheel from continuing to rotate, prevent promptly that the third screw rod from continuing to rotate for the second bolt is fixed firmly to movable block and stopper.

Optionally, the locking assembly includes a locking block and a fourth screw rod, the locking block is fixedly connected to the bottom plate, the fourth screw rod is threaded through the locking block, and an abutting block for abutting against one of the synchronizing wheels is arranged at an end of the fourth screw rod.

Through adopting above-mentioned technical scheme, twist and move the fourth screw rod and make the butt piece move towards or deviate from the synchronizing wheel, when the butt piece supports tight a synchronizing wheel, can prevent that the synchronizing wheel from continuing to drive the rotation of third screw thread.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the wallboard is supported outside the wallboard by the aid of the first clamping blocks and the supporting plates, and the connecting rods, the swinging rods and the triangular supporting structures formed between the supporting rods and the bottom plate enable the supporting rods, the telescopic rods and the supporting rods to stably support the inner sides of the wallboard, so that the effect of stably supporting wallboards with different inclination angles is achieved, the supporting rods can conveniently support wallboards at different positions through the steering blocks, the application range of a supporting system is favorably widened, and construction efficiency is favorably improved;

2. the first fixing block and the first driving block are detachably connected with the floor slab, so that the strength of the floor slab is prevented from being reduced due to punching on the floor slab, the supporting block is fixed by the second clamping block, the strength of the wall slab is prevented from being reduced due to punching on the wall slab, and the second fixing block and the second driving block are detachably connected with the floor slab, so that the wall slab is convenient to recycle in the later period and is more green and environment-friendly;

3. the telescopic link is located and supports the inslot and slide, is convenient for install the telescopic link fast and adjusts the position of telescopic link, utilizes fixture block and inserted block to peg graft in first square hole and second square hole, is convenient for fix the telescopic link, through regulating block, axis of rotation and synchronizing block be convenient for drive fixture block rotate to with the week side butt of bracing piece, utilize calibration block, calibration groove and spring to prevent that the fixture block from leaving first square hole to be convenient for prevent that the inserted block from leaving the telescopic link.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic overall structure diagram of another view angle according to the embodiment of the present application.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is a schematic view of a connection structure between a support rod and a telescopic rod in the embodiment of the present application.

Fig. 5 is a sectional view taken along line B-B in fig. 4.

Reference numerals: 1. a floor slab; 2. a wallboard; 3. a base plate; 4. a turning block; 5. a support bar; 6. a telescopic rod; 7. a holding rod; 8. a first trim piece; 9. a support block; 10. a connecting ring; 11. a swing lever; 12. a connecting rod; 13. a second trim piece; 14. connecting blocks; 15. a first fixed block; 16. a first driving block; 17. a first clamping block; 18. a first screw; 19. supporting the guard plate; 20. a second fixed block; 21. a second driving block; 22. a second clamp block; 23. a second screw; 24. a first bolt; 25. mounting blocks; 26. inserting a block; 27. a clamping block; 28. a rotating shaft; 29. a rotating groove; 30. a synchronization slot; 31. a synchronization block; 32. a first square hole; 33. a second square hole; 34. an adjusting block; 35. a calibration block; 36. a spring; 37. a calibration slot; 38. a limiting ring; 39. a screw; 40. a limiting block; 41. a movable block; 42. a second bolt; 43. a third screw; 44. a synchronizing wheel; 45. a synchronous belt; 46. a handle; 47. a locking block; 48. a fourth screw; 49. and a butt joint block.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses assembled braced system for medical treatment building.

Referring to fig. 1, the fabricated supporting system for medical construction includes a plurality of bottom plates 3 and a plurality of position limiting assemblies clamped at the edges of a floor slab 1. Bottom plate 3 rotates and is connected with the circular shape and turns to piece 4, turns to that the center department of piece 4 articulates have columniform bracing piece 5 and with the bracing piece 5 between articulated have the primary shaft, the axial of primary shaft sets up along the horizontal direction, bracing piece 5 has rectangular telescopic link 6 along the length direction sliding connection of bracing piece 5. The bracing piece 5 has seted up along the direction that deviates from to turn to piece 4 and has supported the groove (not shown in the figure), and telescopic link 6 is located and supports the inslot, and along the orientation of seting up of supporting the groove with support the groove adaptation that slides, bracing piece 5 is provided with the fixed subassembly of the position of fixed telescopic link 6. The one end that bracing piece 5 was kept away from to telescopic link 6 is provided with holds up pole 7, and telescopic link 6 is provided with and is used for adjusting the first fine setting 8 of holding up the distance between pole 7 and the telescopic link 6, and the one end that holds up pole 7 and keep away from telescopic link 6 articulates there is the piece 9 of holding up that is used for supporting wallboard 2.

Referring to fig. 1, a plurality of connecting rings 10 are coaxially and rotatably connected to the circumferential side of the support rod 5, the connecting rings 10 are hinged to a swing rod 11 which swings toward or away from the bottom plate 3, and a second shaft is hinged between the swing rod 11, and the axial direction of the second shaft is arranged along the horizontal direction and is perpendicular to the axial direction of the support rod 5. The end of the oscillating lever 11 remote from the connecting ring 10 is provided with a connecting rod 12, and the oscillating lever 11 is provided with a second trimmer 13 for adjusting the distance between the connecting rod 12 and the oscillating lever 11. Connecting rod 12 keeps away from that the one end of swinging arms 11 is articulated have connecting block 14 and with connecting block 14 between articulated have a third axle, the axial of third axle is parallel to each other with the axial of secondary shaft, be provided with between bottom plate 3 and the connecting block 14 and be used for a plurality of coupling assembling of reciprocal anchorage, coupling assembling sets up to four in this embodiment, four coupling assembling along turning to the equal interval distribution of circumference of piece 4.

Place the slope of wallboard 2 in the edge of floor 1, utilize a plurality of spacing subassemblies to prevent that wallboard 2 from moving towards the 1 outside of floor, rotate turning block 4 and towards 2 swing bracing pieces 5 of wallboard, slide in supporting the inslot through telescopic link 6, tentatively adjust the distance between holding rod 7 and holding piece 9 and wallboard 2. When the support piece 9 is close to the wallboard 2, utilize fixed subassembly to make telescopic link 6 and bracing piece 5 fixed, utilize first fine setting 8 to adjust the distance between support rod 7 and the telescopic link 6 afterwards for support piece 9 moves to the butt with wallboard 2. The positions of the telescopic rod 6 and the supporting rod 7 are respectively adjusted, so that the position of the supporting block 9 can be more efficiently and accurately adjusted.

Rotate the go-between 10 on the bracing piece 5 this moment, and make the swinging arms 11 swing towards bottom plate 3, utilize second fine setting piece 13 to adjust the distance between connecting rod 12 and the swinging arms 11, make connecting block 14 on the connecting rod 12 move to being close to bottom plate 3, utilize a plurality of coupling assembling to make connecting block 14 fixed with bottom plate 3, even make connecting rod 12, swinging arms 11 and bracing piece 5 and bottom plate 3 between form triangle-shaped bearing structure, be favorable to bracing piece 5 to support telescopic link 6 and support rod 7 steadily, realize the effect of the different inclination's of stable support wallboard 2.

Be convenient for bracing piece 5 towards the wallboard 2 swing of different positions through turning to piece 4, rotate with bracing piece 5 through go-between 10 and be connected, the rocking beam 11 of being convenient for turns to along bracing piece 5, it makes connecting block 14 and bottom plate 3 that a plurality of rocking beams 11 correspond fixed to utilize a plurality of coupling assembling in proper order, thereby be convenient for bracing piece 5 towards the not equidirectional slope and fixed, thereby need not to frequently transfer the direction of bottom plate 3 in order to support wallboard 2 to different positions on floor 1, do benefit to and improve the efficiency of construction.

Referring to fig. 1, in order to prevent the wall plate 2 from moving towards the outer side of the floor plate 1, the limiting component includes a first fixing block 15 and an L-shaped first driving block 16, the first fixing block 15 and the first driving block 16 are fixedly connected and form a concave shape, the first driving block 16 is connected with a rectangular first clamping block 17 towards the first fixing block 15 in a sliding manner, one side of the first clamping block 17 is abutted to one side of the first driving block 16, a first screw 18 penetrates through the first driving block 16 through threads, the first screw 18 is connected with the first clamping block 17 in a rotating manner, one end, far away from the first clamping block 17, of the first screw 18 in an axial direction is fixedly connected with a first handle towards the first fixing block 15, a projection of the first clamping block 17 in the axial direction of the first screw 18 is located on the first driving block 16, one side, close to the wall plate 2, of the first driving block 16 is fixedly connected with a supporting plate 19, and the length direction of the supporting plate 19 is parallel to the axial direction of the first screw 18.

The notch formed by the first fixing block 15 and the first driving block 16 is aligned with the edge of the floor slab 1, so that the first fixing block 15 is moved to abut against the lower side surface of the floor slab 1, and then the first screw 18 is rotated by using the first handle, so that the first clamping block 17 is moved to abut against the upper side surface of the floor slab 1, so that the first clamping block 17 and the first fixing block 15 are clamped and fixed at the edge of the floor slab 1. When installing wallboard 2 in the edge of floor 1, if wallboard 2 is vertical state, then utilize a backplate 19 to prevent that wallboard 2 from toppling over towards floor 1 outside, if wallboard 2 inclines towards floor 1 inside, then wallboard 2's bottom and first clamp splice 17 or a backplate 19 butt prevent that wallboard 2 from removing towards floor 1 outside, and through the butt position of adjusting first clamp splice 17 and floor 1, be convenient for adjust the position of wallboard 2 at floor 1 edge. First fixed block 15 and first drive block 16 and 1 releasable connection of floor have avoided punching and have reduced 1 intensity of floor on floor 1, and the later stage recycle of being convenient for, more green.

Referring to fig. 1, in order to support the wallboard 2 that the block 9 is more stable, a plurality of clamping components are arranged on the wallboard 2 in a clamping manner, each clamping component includes a second fixed block 20 and an L-shaped second driving block 21, the second fixed block 20 and the second driving block 21 are fixedly connected and form a concave shape, the second driving block 21 is connected with a second clamping block 22 towards the second fixed block 20 in a sliding manner, one side of the second clamping block 22 is abutted against one side of the second driving block 21, a second screw 23 is arranged on the second driving block 21 in a threaded manner, the second screw 23 is arranged towards the second fixed block 20 in an axial direction, the second screw 23 is connected with the second clamping block 22 in a rotating manner, the projection of the second driving block 21 towards the second fixed block 20 is located on the second clamping block 22, a second handle is fixedly connected to one end of the second screw 23 far away from the second clamping block 22, the block 9 is fixed with the second clamping block 22 through a plurality of first bolts 24, and the first bolts 24 are arranged on the supporting block 9 and are connected with the second clamping block 22 in a threaded manner.

The notch formed by the second fixing block 20 and the second driving block 21 is aligned with the edge of one end, far away from the floor plate 1, of the wall plate 2, so that the second fixing block 20 moves to abut against the outer side face of the wall plate 2, then the second screw 23 is rotated by using the second handle, so that the second clamping block 22 moves to abut against the inner side face of the wall plate 2, and the second clamping block 22 and the second fixing block 20 are clamped and fixed at the edge of the upper end of the wall plate 2. Swing to with second clamp splice 22 butt with support piece 9, utilize a plurality of first bolts 24 to make support piece 9 and second clamp splice 22 fixed, thereby make support piece 9 support wallboard 2 more firmly, utilize the fixed support piece 9 of second clamp splice 22, avoided punching on wallboard 2 and reduced wallboard 2's intensity, utilize second fixed block 20 and second drive block 21 and floor 1 releasable connection, the later stage recycle of being convenient for, more green.

Referring to fig. 2 and 3, in order to adjust the position and number of the connection ring 10, the connection ring 10 is coaxially sleeved on the periphery of the support rod 5 and adapted to the support rod 5, the support rod 5 is provided with limit rings 38 on both sides of the connection ring 10, the limit rings 38 are sleeved on the periphery of the support rod 5 and fixed to the support rod 5 through a plurality of screws 39, and the connection ring 10 abuts against the two limit rings 38. By adjusting the positions of the two limiting rings 38 along the axial direction of the support rod 5, the positions of the connecting rings 10 can be adjusted, and after the telescopic rod 6 is separated from the support rod 5, the screws 39 are removed, so that the limiting rings 38 and the connecting rings 10 can slide away from the support rod 5 along the axial direction of the support rod 5, and the number of the connecting rings 10 can be adjusted.

Referring to fig. 1 and 2, for the convenience of adjusting the distance between holding rod 7 and telescopic link 6, first fine setting 8 sets up to first sleeve, and the interior circumferencial side symmetry at first sleeve both ends is provided with the internal thread, and the one end that holding rod 7 and telescopic link 6 are close to holding rod 7 all sets up to cylindrical, and the both ends that holding rod 7 and telescopic link 6 are close to each other all are provided with the external screw thread, and holding rod 7 and telescopic link 6 respectively with first telescopic both ends threaded connection. Operating personnel holds and holds holding rod 7, twists first sleeve and can make holding rod 7 move towards or deviate from telescopic link 6, realizes being convenient for finely tune the effect of holding the distance between rod 7 and the telescopic link 6.

Referring to fig. 1 and 2, in order to facilitate the adjustment of the distance between the connecting rod 12 and the swing rod 11, the second fine-tuning element 13 is provided as a second sleeve, inner threads are symmetrically provided at the two ends of the second sleeve, the connecting rod 12 and the swing rod 11 are both provided with outer threads at the two ends which are cylindrical and close to each other, and the swing rod 11 and the connecting rod 12 are respectively in threaded connection with the two ends of the second sleeve. An operator holds the connecting rod 12 and can move the connecting rod 12 towards or away from the swing rod 11 by twisting the second sleeve, so that the effect of finely adjusting the distance between the connecting rod 12 and the swing rod 11 is achieved.

Refer to fig. 2 and fig. 3, for convenience of connecting block 14 is fixed with bottom plate 3, coupling assembling includes rectangular stopper 40 and rectangular movable block 41, stopper 40 and 3 fixed connection of bottom plate, movable block 41 is along orientation or the direction and the 3 sliding connection of bottom plate that deviate from stopper 40, stopper 40's length direction extends the setting along the direction that deviates from bracing piece 5, the length direction of movable block 41 and stopper 40's length direction set up and be parallel to each other along the horizontal direction, a plurality of second bolts 42 are worn to be equipped with by connecting block 14 screw thread, second bolt 42's screw thread end is located between stopper 40 and the movable block 41, stopper 40 is provided with the drive assembly that the position of multiunit is used for adjusting movable block 41.

When the swing lever 11 swings until the threaded ends of the second bolts 42 are located between the limiting block 40 and the movable block 41, the driving assembly is facilitated to move the movable block 41 toward the limiting block 40 until the movable block abuts against the second bolts 42, so that the second bolts 42 are fixed relative to the bottom plate 3. Do benefit to the connecting block 14 that a plurality of swinging arms 11 correspond of fixed simultaneously to improve the efficiency of construction, make swinging arms 11 stably support bracing piece 5 fast conveniently.

The second bolt 42 is in threaded connection with the connecting block 14, and screwing the second bolt 42 facilitates adjusting the distance between the connecting block 14 and the bottom plate 3, so that the swinging rod 11 is favorable for supporting the supporting rod 5 through different inclination angles. And the connecting block 14, the connecting rod 12 and the swinging rod 11 are conveniently positioned through the limiting block 40, so that one side of the supporting block 9, which is far away from the supporting rod 5, is parallel to the wallboard 2, and the supporting block 9 is favorable for supporting the wallboard 2 more stably.

Referring to fig. 3, in order to facilitate adjusting the position of the movable block 41, the driving assembly includes a plurality of third screws 43, in this embodiment, the number of the third screws 43 is two, the two third screws 43 are respectively located at two ends of the length direction of the limit block 40, the third screws 43 are rotatably connected with the limit block 40 and axially arranged along the horizontal direction, the axial direction of the third screws 43 is perpendicular to the length direction of the limit block 40, the movable block 41 is sleeved on the peripheral side of the third screws 43, and a synchronizing assembly for driving the two third screws 43 to synchronously rotate is disposed between the two third screws 43.

Referring to fig. 3, the synchronizing assembly includes two synchronizing wheels 44 and a synchronizing belt 45, the two synchronizing wheels 44 and two ends of the third screw 43 far away from the limiting block 40 are in one-to-one correspondence and coaxially fixed connection, the synchronizing belt 45 is rotatably connected with the two synchronizing wheels 44, and a handle 46 is fixedly connected to one synchronizing wheel 44.

Referring to fig. 3, the bottom plate 3 is provided with a locking assembly for locking the synchronizing wheel 44, the locking assembly includes a locking block 47 and a fourth screw 48, the locking block 47 is fixedly connected with the bottom plate 3 and is close to the synchronizing wheel 44 without the handle 46, the fourth screw 48 is threaded through the locking block 47, the end of the fourth screw 48 is rotatably connected with an abutting block 49 for abutting against the synchronizing wheel 44, the abutting block 49 faces one side of the synchronizing wheel 44 and is fixedly connected with a rubber layer, and one end of the fourth screw 48, which is far away from the abutting block 49, is fixedly connected with a fourth handle.

Move second bolt 42 to along vertical direction peg graft between stopper 40 and movable block 41, and the week side of second bolt 42 and stopper 40 butt, twist and move the fourth handle and make the rubber layer on the butt joint piece 49 leave synchronizing wheel 44, utilize handle 46 to rotate synchronizing wheel 44 afterwards, utilize hold-in range 45 to make two synchronizing wheels 44 drive two third screw rods 43 synchronous rotation, thereby make movable block 41 move to the butt joint second bolt 42, realize being convenient for to adjust the effect of the position of movable block 41. The two third screws 43 are used to make the movable block 41 and the stopper 40 clamp and fix the second bolt 42 more tightly, and then the fourth screw 48 is screwed to make the abutting block 49 abut against one of the synchronizing wheels 44, so as to prevent the third screws 43 from continuing to rotate, so that the movable block 41 and the stopper 40 firmly fix the second bolt 42.

Referring to fig. 4 and 5, in order to adjust the position of the telescopic rod 6 conveniently, the fixing component includes an installation block 25, a rectangular insertion block 26 and a rectangular fixture block 27, the insertion block 26 is fixedly connected with the installation block 25, the fixture block 27 is rotatably connected with one end of the insertion block 26 far from the installation block 25, one end of the insertion block 26 far from the installation block 25 is rotatably connected with a rotation shaft 28, the fixture block 27 is provided with a rotation groove 29 adapted to the rotation shaft 28, the fixture block 27 is provided with a polygonal synchronizing groove 30 at a groove wall of the rotation groove 29, the rotation shaft 28 is located at one end of the rotation groove 29 and is fixedly connected with a synchronizing block 31, the synchronizing block 31 is adapted to the synchronizing groove 30, and the synchronizing groove 30 and the synchronizing block 31 are both set to be rectangular in this embodiment.

Referring to fig. 5, the supporting rod 5 has a first square hole 32 along the horizontal direction, the telescopic rod 6 has a plurality of second square holes 33 along the horizontal direction, the plurality of second square holes 33 are distributed along the length direction of the telescopic rod 6 at equal intervals, and the inserting block 26 is arranged on the supporting rod 5 and the telescopic rod 6 in the first square hole 32 and the second square hole 33. The fixture block 27 passes through the first square hole 32 and the second square hole 33, the inserting block 26 and the fixture block 27 are matched with the first square hole 32 and the second square hole 33, and the support rod 5 is located between the mounting block 25 and the fixture block 27.

When the inserted block 26 leaves the telescopic rod 6, make the telescopic rod 6 roll-off or slide into the support groove, thereby the distance between holding pole 7 and the bracing piece 5 is held to quick adjustment, when the telescopic rod 6 moves to suitable position and first square hole 32 and second square hole 33 are aligned, rotate fixture block 27 and make fixture block 27 and inserted block 26 align, insert fixture block 27 and inserted block 26 in first square hole 32 and second square hole 33 subsequently, when installation piece 25 and bracing piece 5 butt, fixture block 27 just wears out bracing piece 5, twist fixture block 27 and inserted block 26 and stagger, fixture block 27 and the week side butt of bracing piece 5 this moment, thereby prevent that inserted block 26 from leaving first square hole 32 and second square hole 33, make telescopic rod 6 and bracing piece 5 fixed, realize being convenient for adjusting the effect of the position of telescopic rod 6.

Referring to fig. 5, in order to make the fixture block 27 stably abut against the peripheral side of the support rod 5, the mounting block 25 is provided with an adjusting assembly for adjusting the position of the fixture block 27, so that the fixture block 27 rotates to abut against the peripheral side of the support rod 5, the adjusting assembly includes an adjusting block 34 and a calibration block 35, the rotating shaft 28 penetrates through the insertion block 26 and the mounting block 25, and one end of the rotating shaft 28 penetrating through the mounting block 25 is fixedly connected with the adjusting block 34. Synchronous groove 30 sets up and both ends are closed setting along the axial extension of axis of rotation 28, and synchronous piece 31 slides the adaptation along the axial of axis of rotation 28 and synchronous groove 30, and the week side cover that axis of rotation 28 is located the one end in synchronous groove 30 is equipped with spring 36, and spring 36 is located between synchronous piece 31 and inserted block 26. The calibration block 35 is fixedly connected with the mounting block 25, and a calibration slot 37 for plugging the calibration block 35 is formed in one side of the adjusting block 34 facing the mounting block 25.

When the spring 36 is in a no-external-force state, two ends of the spring 36 are respectively abutted against the synchronous block 31 and the clamping block 27, the adjusting block 34 is abutted against the mounting block 25, and one side of the synchronous block 31, which is far away from the inserting block 26, is abutted against the clamping block 27. Before installing inserted block 26 and fixture block 27 on bracing piece 5, adjust block 34 is pulled towards the direction that deviates from installation block 25, make axis of rotation 28 drive synchronizing block 31 compression spring 36, rotate adjust block 34 and make calibration slot 37 aim at with calibration block 35 subsequently, axis of rotation 28 drives fixture block 27 through synchronizing block 31 and rotates to align with inserted block 26 this moment, release adjust block 34, the elasticity restoring force of spring 36 makes synchronizing block 31 restore to the throne, even make axis of rotation 28 drive adjust block 34 restore to and install the piece 25 butt, and make calibration block 35 peg graft in calibration slot 37, thereby prevent that adjust block 34 from rotating at will, even make fixture block 27 align with inserted block 26 steadily.

Then, the clamping block 27 and the inserting block 26 are smoothly inserted into the first square hole 32 and the second square hole 33, when the mounting block 25 abuts against the support rod 5, the adjusting block 34 is pulled to enable the adjusting block 35 to leave the adjusting groove 37, the adjusting block 34 is rotated to enable the adjusting block 34 to abut against the mounting block 25 and the clamping block 27 to be located outside the adjusting block 34, at the moment, the clamping block 27 is staggered with the inserting block 26, the adjusting block 34 is prevented from moving along the mounting block 25 to enable the adjusting block 35 to align with the adjusting groove 37, namely, the clamping block 27 is prevented from aligning with the inserting block 26, the clamping block 27 is stably abutted against the peripheral side of the support rod 5, the clamping block 27 and the inserting block 26 are prevented from leaving the first square hole 32 and the second square hole 33, the effect of stably fixing the telescopic rod 6 is achieved, the operation is convenient and labor-saving, and the mounting and adjusting efficiency is improved.

The implementation principle of the embodiment of the application is as follows:

the second clamping block 22 and the second fixing block 20 are clamped and fixed at the upper end edge of the wall plate 2 in advance, and the second clamping block 22 is positioned at one side of the wall plate 2 close to the inside of the floor slab 1, so that the first clamping block 17 and the first fixing block 15 are clamped and fixed at the edge of the floor slab 1. When installing wallboard 2, with wallboard 2 remove to the position of treating of the edge of floor 1, utilize a plurality of first clamp splice 17 and supporting plate 19 to strut wallboard 2 outside wallboard 2, place bottom plate 3 on floor 1 after that for turn to piece 4 and rotate to the support piece 9 on the bracing piece 5 and aim at second clamp splice 22.

The connecting ring 10 is utilized to drive the swinging rod 11 and the connecting rod 12 to rotate around the supporting rod 5, so that the second bolt 42 on the connecting block 14 is aligned between the limiting block 40 and the movable block 41 along the vertical direction, the second sleeve is screwed to adjust the distance between the connecting rod 12 and the supporting rod 5, and the second bolt 42 is screwed to enable the peripheral side of the second bolt to be abutted against the limiting block 40 along the vertical direction. Then, the two third threaded rods 43 are synchronously rotated by rotating the synchronizing wheel 44 by using the handle 46, so that the movable block 41 is moved to abut against the second bolt 42, that is, the connecting block 14 is fixed relative to the bottom plate 3, thereby the connecting rod 12 and the swing rod 11 stably support the supporting rod 5.

Then slide telescopic link 6 towards wallboard 2 for support block 9 is close to second clamp splice 22 and first square hole 32 and second square hole 33 align, then insert fixture block 27 and inserted block 26 in first square hole 32 and second square hole 33, when installation piece 25 and bracing piece 5 butt, the orientation deviates from the direction pulling regulating block 34 of installation piece 25, make calibration block 35 leave calibration groove 37, release regulating block 34, utilize spring 36 to make regulating block 34 and installation piece 25 butt, and fixture block 27 is located the outside of regulating block 34 this moment, thereby prevent fixture block 27 and inserted block 26 from aligning, prevent fixture block 27 and inserted block 26 from leaving first square hole 32 and second square hole 33, make telescopic link 6 and bracing piece 5 fixed firm. Then, the position of the holding rod 7 is adjusted by screwing the first sleeve, so that the holding block 9 is moved to abut against the second clamping plate, the first bolt 24 is utilized to fix the holding block 9 and the second clamping block 22, and the effect of stably supporting the wall plates 2 with different inclination angles is realized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a medical treatment is assembled braced system for building which characterized in that: the floor comprises a plurality of bottom plates (3) and a plurality of limiting assemblies clamped at the edge of a floor (1), wherein the bottom plates (3) are rotatably connected with steering blocks (4), the steering blocks (4) are hinged with supporting rods (5), the supporting rods (5) are slidably connected with telescopic rods (6) along the length direction of the supporting rods (5), and the supporting rods (5) are provided with fixing assemblies for fixing the positions of the telescopic rods (6);

a holding rod (7) is arranged at one end, away from the support rod (5), of the telescopic rod (6), a first fine adjustment piece (8) used for adjusting the distance between the holding rod (7) and the telescopic rod (6) is arranged on the telescopic rod (6), and a holding block (9) used for supporting a wallboard (2) is hinged to one end, away from the telescopic rod (6), of the holding rod (7);

the coaxial rotation in week of bracing piece (5) is connected with a plurality of go-between (10), go-between (10) articulate to have the orientation or deviate from bottom plate (3) wobbling swinging arms (11), swinging arms (11) are kept away from the one end of go-between (10) is provided with connecting rod (12), swinging arms (11) are provided with and are used for adjusting connecting rod (12) with second fine setting (13) of distance between swinging arms (11), connecting rod (12) articulate has connecting block (14), bottom plate (3) with be provided with between connecting block (14) and be used for a plurality of coupling assembling of reciprocal anchorage.

2. The fabricated support system for medical buildings according to claim 1, characterized in that: spacing subassembly includes first drive block (16) of first fixed block (15) and L type, first fixed block (15) with first drive block (16) fixed connection, first drive block (16) orientation first fixed block (15) sliding connection has first clamp splice (17), first screw rod (18) are worn to be equipped with by first drive block (16) screw thread, the axial orientation of first screw rod (18) first fixed block (15) set up, first screw rod (18) with first clamp splice (17) rotate to be connected.

3. The fabricated support system for medical buildings according to claim 1, characterized in that: be provided with a plurality of centre gripping subassemblies on wallboard (2), the centre gripping subassembly includes second fixed block (20) and second drive block (21) of L type, second fixed block (20) with second drive block (21) fixed connection, second drive block (21) orientation second fixed block (20) sliding connection has second clamp splice (22), second screw rod (23) are worn to be equipped with by second drive block (21) screw thread, the axial orientation of second screw rod (23) second fixed block (20) set up, second screw rod (23) with second clamp splice (22) rotate and are connected, support piece (9) through a plurality of first bolt (24) with second clamp splice (22) are fixed.

4. The fabricated support system for medical buildings according to claim 1, characterized in that: fixed subassembly includes installation piece (25), rectangular inserted block (26) and rectangular fixture block (27), bracing piece (5) are along deviating from turn to the direction of piece (4) and seted up the support groove, telescopic link (6) are located support inslot and with support the groove adaptation of sliding, inserted block (26) with installation piece (25) fixed connection, fixture block (27) with inserted block (26) rotate to be connected, inserted block (26) wear to locate bracing piece (5) with telescopic link (6), telescopic link (6) have been seted up a plurality of being used for second square hole (33) that fixture block (27) passed, bracing piece (5) are located installation piece (25) with between fixture block (27).

5. The fabricated support system for medical buildings according to claim 4, characterized in that: keep away from in inserted block (26) the one end of installation piece (25) is rotated and is connected with axis of rotation (28), fixture block (27) seted up with rotation groove (29) of axis of rotation (28) adaptation, fixture block (27) in polygonal synchronizing groove (30) have been seted up to the cell wall department of rotation groove (29), axis of rotation (28) are located one end fixedly connected with synchronizing block (31) in rotation groove (29), synchronizing block (31) with synchronizing groove (30) adaptation.

6. The fabricated support system for medical buildings according to claim 5, characterized in that: the installation piece (25) is provided with an adjusting component for adjusting the position of the fixture block (27), the adjusting component comprises an adjusting block (34) and a calibration block (35), the rotation shaft (28) is arranged in a penetrating way on the installation piece (25) and the insertion block (26), the rotation shaft (28) penetrates out one end of the installation piece (25) and the adjusting block (34) are fixedly connected, the synchronous groove (30) is arranged along the axial extension of the rotation shaft (28) and the two ends of the synchronous groove are closed, the synchronous block (31) is arranged along the axial direction of the rotation shaft (28) and the sliding adaptation of the synchronous groove (30), the rotation shaft (28) is arranged on the peripheral side of one end in the synchronous groove (30) and is sleeved with a spring (36), the spring (36) is arranged between the synchronous block (31) and the insertion block (26), and when the spring (36) is in an external force-free state, the two ends of the spring (36) are respectively abutted against the synchronous block (31) and the fixture block (27), the calibration block (35) is fixedly connected with the mounting block (25), and a calibration groove (37) for plugging the calibration block (35) is formed in one side, facing the mounting block (25), of the adjusting block (34).

7. The fabricated support system for medical buildings according to claim 1, characterized in that: coupling assembling includes stopper (40) and movable block (41), stopper (40) with bottom plate (3) fixed connection, movable block (41) along the orientation or deviate from the direction of stopper (40) with bottom plate (3) sliding connection, a plurality of second bolts (42) are worn to be equipped with by connecting block (14) screw thread, the screw thread end of second bolt (42) is located stopper (40) with between movable block (41), stopper (40) are provided with the multiunit and are used for adjusting the drive assembly of the position of movable block (41).

8. The fabricated support system for medical buildings according to claim 7, wherein: the drive assembly comprises a plurality of third screw rods (43), the third screw rods (43) are connected with the limiting blocks (40) in a rotating mode, the axial direction of the third screw rods is arranged along the horizontal direction, the movable blocks (41) are sleeved on the periphery of the third screw rods (43) in a threaded mode, and a plurality of synchronous assemblies used for driving the third screw rods (43) to rotate synchronously are arranged between the third screw rods (43).

9. The fabricated support system for medical buildings according to claim 8, characterized in that: synchronizing assembly includes a plurality of synchronizing wheel (44) and hold-in range (45), and is a plurality of synchronizing wheel (44) and a plurality of third screw rod (43) one-to-one and coaxial fixed connection, hold-in range (45) and two synchronizing wheel (44) rotate and are connected, bottom plate (3) are provided with and are used for the locking subassembly of synchronizing wheel (44).

10. The fabricated support system for medical buildings according to claim 9, characterized in that: the locking assembly comprises a locking block (47) and a fourth screw (48), the locking block (47) is fixedly connected with the bottom plate (3), the fourth screw (48) penetrates through the locking block (47) in a threaded mode, and an abutting block (49) used for abutting against one synchronizing wheel (44) is arranged at the end portion of the fourth screw (48).

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