CN214302220U - Energy-saving environment-friendly type glass fiber reinforced plastic supporting component for building - Google Patents

Abstract

The utility model relates to the technical field of buildings, and discloses an energy-saving and environment-friendly type glass fiber reinforced plastic supporting assembly for buildings, which comprises a base plate, wherein a double-end lead screw is rotatably connected on the base plate, a positive thread part and a negative thread part with opposite thread turning directions are arranged on the double-end lead screw, a positive sliding sleeve is sleeved and in threaded connection on the positive thread part, and a negative sliding sleeve is sleeved and in threaded connection on the negative thread part; the two sides of the double-end screw rod are respectively provided with a hinged handle, the hinged handles are respectively fixedly connected with a hoop, and driving rods are respectively hinged between the hinged handles and the front sliding sleeve and between the hinged handles and the reverse sliding sleeve. Through the utility model discloses can solve current glass steel bearing structure and only applicable in the joint support's of the glass steel of fixed distance problem.

Description

Energy-saving environment-friendly type glass fiber reinforced plastic supporting component for building

Technical Field

The utility model relates to a building technical field, concretely relates to energy-concerving and environment-protective type glass steel supporting component for building.

Background

In the field of energy-saving and environment-friendly buildings, glass fiber reinforced plastics are common building materials, and have good strength and mechanical properties, so that the glass fiber reinforced plastics are widely applied to bearing structures of buildings, such as columns, trusses, beams, foundations or bearing flaps of the buildings.

When the glass fiber reinforced plastic is used as a beam column or a truss of a building, in order to ensure the stability of the building, a support structure for supporting the glass fiber reinforced plastic is generally required to be connected between adjacent beam columns or trusses to reinforce the fixing effect on the glass fiber reinforced plastic, so as to achieve the purpose of reinforcing the building. The existing glass fiber reinforced plastic supporting structure is usually formed by rigid rib plates or hoops and the like, and the glass fiber reinforced plastic supporting structure is only suitable for the connection support of glass fiber reinforced plastic with fixed distance, cannot be suitable for the connection support of glass fiber reinforced plastic without distance, and is poor in practicability.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-concerving and environment-protective type for building glass steel supporting component to solve current glass steel bearing structure and only applicable in the joint support's of the glass steel of fixed distance problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the energy-saving and environment-friendly glass fiber reinforced plastic supporting assembly for the building comprises a base plate, wherein a double-head screw rod is rotatably connected to the base plate, a positive thread part and a negative thread part with opposite thread turning directions are arranged on the double-head screw rod, a positive sliding sleeve is sleeved and connected with the positive thread part in a threaded manner, and a negative sliding sleeve is sleeved and connected with the negative thread part in a threaded manner; the two sides of the double-end screw rod are respectively provided with a hinged handle, the hinged handles are respectively fixedly connected with a hoop, and driving rods are respectively hinged between the hinged handles and the front sliding sleeve and between the hinged handles and the reverse sliding sleeve.

The principle and the advantages of the scheme are as follows: in the scheme, the hoop is used for being sleeved on the glass fiber reinforced plastics, so that the supporting component is positioned between the adjacent glass fiber reinforced plastics to connect and support the adjacent glass fiber reinforced plastics. Through forward or reverse rotation double-end lead screw, can make positive sliding sleeve and anti-sliding sleeve move towards or deviate from to adjust the width of supporting component, make it adapt to the distance between the adjacent glass steel. When the forward sliding sleeve and the reverse sliding sleeve move in opposite directions, the distance between the forward sliding sleeve and the reverse sliding sleeve is reduced, the forward sliding sleeve and the reverse sliding sleeve push the hinged handles away from the double-headed screw rod through the driving rod, so that the distance between the two hinged handles is increased, namely the distance between the hoops on two sides of the double-headed screw rod is increased, and the supporting assembly can be used for supporting and connecting adjacent glass fiber reinforced plastics with larger distance; on the contrary, when positive sliding sleeve and anti-sliding sleeve deviate from the motion, the distance between the two increases, and positive sliding sleeve and anti-sliding sleeve pass through the actuating lever and will articulate the handle to the pulling of double-end lead screw side this moment to make the distance between two articulated handles reduce, namely the distance between the cuff of double-end lead screw both sides reduces, can be used for the support connection between the less adjacent glass steel of interval with supporting component this moment, make the subassembly can be applicable to the joint support of the glass steel of different distance sizes from this, and the practicality is better.

The scheme has the advantages that:

1. the support width of the assembly is adjustable, so that the assembly is suitable for connecting and supporting glass fiber reinforced plastics with different distances, powerful support can be performed on the glass fiber reinforced plastics, the application range is wider, and the practicability is better;

2. when the supporting width of the supporting component to the glass fiber reinforced plastic is required to be adjusted, only the double-head screw rod needs to be rotated, and the operation is simple and convenient.

Preferably, as an improvement, a connecting frame is fixedly connected between the hoop and the hinge handle, and the connecting frame is slidably connected to the base plate.

When the hinged handle moves, the hoop can be driven to synchronously move through the connecting frame, and the hoop and the hinged handle are not required to be arranged too close by the connecting frame, so that the structures can be reasonably distributed; the connecting frame is arranged on the substrate in a sliding mode, so that when the hoop drives the connecting frame to move, the connecting frame is guided, the purpose of enabling the hoop to move stably is achieved, and the glass fiber reinforced plastic is supported more stably.

Preferably, as an improvement, the base plate has two sets ofly, and the double-end lead screw is located between two sets of base plates, and the cuff of double-end lead screw both sides is equipped with two respectively, and two cuffs that are located the double-end lead screw homonymy connect jointly on a set of link, and link sliding connection is on two sets of base plates.

The hoops on the same side of the double-head screw are arranged into two hoops, so that the supporting component can form two action points for the glass fiber reinforced plastics, and the connection of the glass fiber reinforced plastics is more effective and stable. The connecting frame is simultaneously connected on the two groups of base plates in a sliding manner, so that the stability of the connecting frame driving the hoop to move can be further ensured.

Preferably, as an improvement, a telescopic shaft is fixedly connected to the base plate, and a lock catch is fixedly connected to one end, far away from the base plate, of the telescopic shaft.

So, through fixing the hasp on glass steel, can fix and install supporting component for it is more steady and effective when adjusting supporting component.

Preferably, as an improvement, the hoop comprises two first hoop strips parallel to each other and two second hoop strips parallel to each other, the second hoop strips are arranged perpendicular to the first hoop strips, and the first hoop strips and the second hoop strips enclose to form a rectangle; the first hoop strip is provided with a first sliding groove along the length direction of the first hoop strip, the second hoop strip is provided with a second sliding groove along the length direction of the second hoop strip, and the overlapping part of the first sliding groove and the second sliding groove is penetrated and detachably connected with a positioning piece.

Can be with relatively fixed between first strake and the second strake through the setting element to ensure the fixed effect of cuff to glass steel, when changing the position of setting element in first spout and second spout, can adjust the regional size of area of the rectangle that first strake and second strake enclose and close the formation, thereby make the cuff can fix the glass steel of different thickness degree sizes, make supporting component can be adapted to the joint support use of the glass steel of different diameters.

Preferably, as an improvement, a plurality of groups of first clamping grooves communicated with the first sliding grooves are formed in the first hoop strip, and the first clamping grooves are perpendicular to the extending direction of the first sliding grooves; a plurality of groups of second clamping grooves communicated with the second sliding grooves are formed in the second hoop strips, and the second clamping grooves are perpendicular to the extending direction of the second sliding grooves; the locating element is including wearing to establish the portion of wearing to establish in first spout and the second spout, and the both ends of wearing to establish the portion slide respectively and rotate be connected with can with one complex first torque arm in the first draw-in groove of multiunit and can with a complex second torque arm in a plurality of second draw-in grooves, first torque arm and wear to establish between the portion, second torque arm and wear to establish between the portion all be connected with the spring.

The position of the positioning piece can be fixed by clamping the first torsion arm in the first clamping groove and clamping the second torsion arm in the second clamping groove, so that the hoop is kept in a stable shape and can be stably sleeved on the glass fiber reinforced plastic, and the support assembly can be ensured to stably support the glass fiber reinforced plastic; through making first torque arm card in the first draw-in groove of difference and making second torque arm card in the second draw-in groove of difference, can adjust the length and the width of cuff, make its nimble fixed that is adapted to the glass steel of different diameters size, the practicality is better.

Drawings

Fig. 1 is a front view of an embodiment of the present invention.

Fig. 2 is a top view of the ferrule.

FIG. 3 is a bottom view of the second strake.

Fig. 4 is a structural view of the positioning member.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a base plate 1, a double-end screw rod 2, a forward sliding sleeve 3, a reverse sliding sleeve 4, a hinged handle 5, a driving rod 6, a connecting frame 7, a hoop 8, a first hoop strip 9, a first sliding groove 10, a first clamping groove 11, a second hoop strip 12, a second sliding groove 13, a second clamping groove 14, a positioning piece 15, a connecting plate 16, a first through shaft 17, a second through shaft 18, a first torsion arm 19, a second torsion arm 20 and glass fiber reinforced plastic 21.

Examples

The energy-saving environment-friendly glass fiber reinforced plastic supporting component for the building is structurally shown in figure 1 and comprises two groups of substrates 1, wherein the two groups of substrates 1 are horizontally arranged and are parallel to each other. Be equipped with double lead screw 2 between two sets of base plates 1, the vertical extension of double lead screw 2, and double lead screw 2's both ends rotate through the bearing respectively and connect on the base plate 1 of both sides about, in this embodiment, double lead screw 2's lower extreme passes base plate 1 of below so that to double lead screw 2's rotatory operation.

Be equipped with the screw thread on the double-end lead screw 2 and revolve to opposite normal thread portion and anti-thread portion, normal thread portion goes up the cover and establishes and threaded connection has positive sliding sleeve 3, anti-thread portion goes up the cover and establishes and threaded connection has anti-sliding sleeve 4. The left and right sides of double-end lead screw 2 all is equipped with articulated handle 5, between articulated handle 5 and the positive sliding sleeve 3, all articulated between articulated handle 5 and the reverse sliding sleeve 4 have actuating lever 6, all welded fastening has link 7 on the articulated handle 5, and link 7 in this embodiment is the U-shaped, and the middle part of link 7 is fixed with articulated handle 5, both ends all welded fastening has cuff 8, so make double-end lead screw 2's every side all have two cuffs 8. The upper end and the lower end of the connecting frame 7 are respectively connected to the base plates 1 on the two sides in a sliding mode, the sliding connection is realized in a mode that a conventional sliding groove is matched with a sliding block, namely, the base plate 1 is provided with a transverse sliding groove, the sliding block is fixedly welded on the connecting frame 7 and clamped in the sliding groove, so that the sliding block cannot be separated from the sliding groove and can slide along the sliding groove, and the sliding connection between the connecting frame 7 and the base plates 1 is realized.

In this embodiment, both ends still welded fastening has the telescopic shaft about two sides base plate 1, and the telescopic shaft is kept away from the equal welded fastening of one end of base plate 1 and is had the hasp. The telescopic shaft is a mature prior art and is not described in detail herein.

As shown in fig. 2, the cuff 8 includes two first straps 9 parallel to each other and two second straps 12 parallel to each other, the second straps 12 are disposed perpendicular to the first straps 9, the second straps 12 are located below the first straps 9, and the first straps 9 and the second straps 12 enclose to form a rectangle. The connecting frame 7 is connected to either the first strap 9 or the second strap 12. The first strap 9 is provided with two first sliding grooves 10 along the length direction of the first strap 9, and the two first sliding grooves 10 are respectively located at the left part and the right part of the first strap 9. The second straps 12 are provided with second sliding grooves 13 along the length direction of the second straps 12, and similarly, there are two sets of the second sliding grooves 13 in this embodiment, the two sets of the second sliding grooves 13 are respectively located at the upper part and the lower part (viewing angle in fig. 2) of the second straps 12, and there are two second sliding grooves 13 in each set.

The position that first spout 10 and second spout 13 overlap wears to establish and can dismantle and be connected with setting element 15, and is specific: a plurality of groups of first clamping grooves 11 communicated with the first sliding grooves 10 are formed in the upper surface of the first hoop strip 9, and the first clamping grooves 11 are perpendicular to the extending direction of the first sliding grooves 10; referring to fig. 3, a plurality of sets of second locking grooves 14 communicated with the second sliding grooves 13 are formed in the bottom surface of the second strap 12, and the second locking grooves 14 are perpendicular to the extending direction of the second sliding grooves 13.

The structure of the positioning member 15 in this embodiment is as shown in fig. 4, the positioning member 15 includes a connecting plate 16, a first penetrating shaft 17 is welded and fixed in the middle of the upper end of the connecting plate 16, a second penetrating shaft 18 is welded and fixed at both the left and right ends of the lower end of the connecting plate 16, the first penetrating shaft 17 and the second penetrating shaft 18 are combined to form a penetrating portion, the penetrating portion penetrates through the first sliding chute 10 and the second sliding chute 13, specifically, the connecting plate 16 is located between the first strap 9 and the second strap 12, the first penetrating shaft 17 penetrates the first sliding chute 10 upwards, the second penetrating shaft 18 penetrates the second sliding chute 13 downwards, one end of the first penetrating shaft 17 far away from the connecting plate 16 is slidably and rotatably connected with a first torsion arm 19 capable of being matched with one of the plurality of first slots 11, one end of the second penetrating shaft 18 far away from the connecting plate 16 is slidably and rotatably connected with a second torsion arm 20 capable of being matched with one of the plurality of second slots 14, in this embodiment, the sliding and rotating connections between the first torsion arm 19 and the first through shaft 17 and between the second torsion arm 20 and the second through shaft 18 are realized by using a sleeve connection manner, so that the first torsion arm 19 and the first through shaft 17 and the second torsion arm 20 and the second through shaft 18 can slide and rotate relatively. Meanwhile, springs are connected between the first torsion arm 19 and the first through shaft 17 and between the second torsion arm 20 and the second through shaft 18, the springs in the embodiment are tension springs which are sleeved on the first through shaft 17 and the second through shaft 18, one ends of the tension springs are welded and fixed on the first through shaft 17 or the second through shaft 18, and the other ends of the tension springs are welded and fixed on the first torsion arm 19 or the second torsion arm 20, so that the springs can deform when the first torsion arm 19 and the second torsion arm 20 are pulled or rotated, and when the first torsion arm 19 and the second torsion arm 20 are released, the first torsion arm 19 and the second torsion arm 20 can automatically reset under the potential energy action of the springs.

The specific implementation process of this embodiment is as follows:

when carrying out joint support to adjacent glass steel 21, earlier tentatively measure the distance between the adjacent glass steel 21, then rotatory double lead screw 2 makes double lead screw 2 drive positive sliding sleeve 3 and reverse sliding sleeve 4 move or deviate from in opposite directions, and then adjusts the distance between two articulated handles 5, and articulated handle 5 drives cuff 8 through link 7 and removes to adjust the distance between left side cuff 8 and the right side cuff 8. When in adjustment, when the distance between the left and the right side cuffs 8 is obviously smaller than the distance between the adjacent glass fiber reinforced plastics 21, the distance between the cuffs 8 at the two sides needs to be adjusted to be larger, at the moment, the double-head screw rod 2 is positively rotated, so that the positive sliding sleeve 3 and the reverse sliding sleeve 4 move oppositely along the axial direction of the double-head screw rod 2, at the moment, the positive sliding sleeve 3 and the reverse sliding sleeve 4 drive the two hinge handles 5 to move away from the double-head screw rod 2 through the driving rod 6, so that the articulated handle 5 drives the ferrules 8 on both sides away from each other by means of the link frame 7, so that the distance between the left ferrule 8 and the right ferrule 8 is increased, so as to adapt to the larger distance between the adjacent glass fiber reinforced plastics 21, on the contrary, the double-head screw 2 is rotated reversely, so that the distance between the left hoop 8 and the right hoop 8 is reduced, thereby accommodating the smaller distance between adjacent glass reinforced plastics 21 so that the support assembly can accommodate the connection support of glass reinforced plastics 21 of different distance sizes.

After the initial adjustment of the assembly is completed, the ferrule 8 is assembled and fixed to the glass fiber reinforced plastic 21. During the equipment, buckle on glass steel 21 with the hasp that base plate 1 is connected earlier (during practical application, can set up the hanging hole that matches with the hasp on glass steel 21) to install on glass steel 21 to the supporting component is preliminary. Referring to fig. 2, in fig. 2, the right second strap 12 and the connecting frame 7 are fixed, when assembling, the right second strap 12 and the upper first strap 9 are fixed, the first torsion arm 19 of the positioning member 15 located above and to the left is pulled forward, so that the first torsion arm 19 is released from the first slot 11, at this time, the connection between the first torsion arm 19 and the first strap 9 is released, then the first torsion arm 19 is rotated, so that the first torsion arm 19 is parallel to the first slot 10, and the second strap 12 is pulled backward, the second strap 12 drives the positioning member 15 to move, so that the first torsion arm 19 passes through the first slot 10 and moves to the rear of the first strap 9, at this time, the fixed relation between the first strap 9 and the second strap 12 is released, and the left lower positioning member 15 is also operated, thereby removing the second band 12 on the left from the two first bands 9. The ferrule 8 with the left second strake 12 removed is then inserted over the glass fiber reinforced plastic 21, the glass fiber reinforced plastic 21 is positioned in the ferrule 8 lacking the left second strake 12, a preliminary installation of the ferrule 8 is achieved, and the removed second strake 12 is then reinstalled onto the ferrule 8. When the second strap 12 is reinstalled, the first torsion arm 19 is rotated to make the first torsion arm 19 parallel to the first sliding groove 10, then the first torsion arm 19 passes through the first sliding groove 10 and is placed on the front side of the first strap 9, and then the first torsion arm 19 automatically resets under the action of the spring and is clamped into the first clamping groove 11 at the corresponding position for positioning, so that the installation of the second strap 12 is completed, and the installation of the positioning piece at the lower left is also completed. After installation, the glass fiber reinforced plastic 21 is located within the rectangular area of the ferrule 8. When the rectangular area of the hoop 8 is large and the glass fiber reinforced plastic 21 is not effectively fixed, the size of the rectangular area enclosed by the hoop 8 can be adjusted, so that the hoop 8 is tightly hooped on the glass fiber reinforced plastic 21, and the fixing effect on the glass fiber reinforced plastic 21 is ensured.

In the adjustment, in the view of fig. 2, the lower end of the glass fiber reinforced plastic 21 is first abutted against the lower first strap 9, and the right end of the glass fiber reinforced plastic 21 is simultaneously abutted against the right second strap 12. When the length of the rectangular area needs to be adjusted, the first torsion arms 19 of the two left positioning pieces 15 are rotated to release the positioning of the two left positioning pieces 15 on the first straps 9, then the second straps 12 on the left side are moved transversely, the second straps 12 abut against the left end of the glass fiber reinforced plastic 21, and then the second straps 12 are fixed on the two first straps 9 again. When the width of the rectangular area needs to be adjusted, similarly, the second torque arms 20 of the two upper positioning pieces 15 are rotated to make the second torque arms 20 of the two upper positioning pieces 15 disengage from the second slot 14, then the second torque arms 20 are rotated to make the second torque arms 20 parallel to the second slot 13, then the first hoop strip 9 above is moved forward to make the first hoop strip 9 drive the upper positioning pieces 15 to disengage from the second hoop strip 12, at this time, the positioning of the upper two positioning pieces 15 on the second hoop strip 12 is released, the position of the upper first hoop strip 9 is moved to make the first hoop strip 9 abut against the upper end of the glass fiber reinforced plastic 21, then the second torque arms 20 of the two upper positioning pieces 15 are rotated again to make the second torque arms 20 parallel to the second slot 13, then the second torque arms 20 pass through the second slot 13 and move to the rear of the second hoop strip 12, then the second torque arms 20 are reset under the action of the spring and are correspondingly clamped into the second slot 14, the upper first strap 9 and the two second straps 12 are thus fixed in a snap-fit manner, whereby the adjustment of the ferrule 8 is completed, and the ferrule 8 is stably sleeved on the outside of the glass fiber reinforced plastic 21.

The other three sets of ferrules 8 are mounted as such.

After the hoop 8 is installed, if the supporting force of the supporting component on the glass fiber reinforced plastic 21 is too large, the supporting component needs to be properly loosened, at this time, the distance between the left hoop 8 and the right hoop 8 needs to be increased to properly loosen the glass fiber reinforced plastic 21, under the condition, the double-head screw 2 only needs to be rotated in a forward small angle, the principle of the double-head screw is the same as that of the double-head screw 2, and the description is omitted; conversely, when the supporting force of the supporting assembly on the glass fiber reinforced plastic 21 is too small, which indicates that the distance between the left hoop 8 and the right hoop 8 needs to be reduced, the double-head screw 2 is rotated in a reverse small angle.

The above description is only an example of the present invention, and the detailed technical solutions and/or characteristics known in the solutions are not described too much here. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. Energy-concerving and environment-protective type glass steel supporting component for building, its characterized in that: the double-end screw rod is rotatably connected to the base plate, a positive thread part and a negative thread part with opposite thread turning directions are arranged on the double-end screw rod, a positive sliding sleeve is sleeved and connected with the positive thread part in a threaded manner, and a negative sliding sleeve is sleeved and connected with the negative thread part in a threaded manner; the two sides of the double-end screw rod are respectively provided with a hinged handle, the hinged handles are respectively fixedly connected with a hoop, and driving rods are respectively hinged between the hinged handles and the front sliding sleeve and between the hinged handles and the reverse sliding sleeve.

2. The energy-saving environment-friendly building glass fiber reinforced plastic support assembly according to claim 1, characterized in that: a connecting frame is fixedly connected between the hoop and the hinged handle, and the connecting frame is connected to the base plate in a sliding mode.

3. The energy-saving environment-friendly building glass fiber reinforced plastic support assembly according to claim 2, characterized in that: the base plate has two sets ofly, and the double-end lead screw is located between two sets of base plates, the cuff of double-end lead screw both sides is equipped with two respectively, and two cuffs that are located the double-end lead screw homonymy are connected jointly on a set of link, and link sliding connection is on two sets of base plates.

4. The energy-saving environment-friendly building glass fiber reinforced plastic support assembly according to claim 3, characterized in that: the base plate is fixedly connected with a telescopic shaft, and one end, far away from the base plate, of the telescopic shaft is fixedly connected with a lock catch.

5. The energy-saving environment-friendly building glass fiber reinforced plastic support assembly according to claim 4, characterized in that: the hoop comprises two first hoop strips which are parallel to each other and two second hoop strips which are parallel to each other, the second hoop strips are perpendicular to the first hoop strips, and the first hoop strips and the second hoop strips are enclosed to form a rectangle; the first hoop strip is provided with a first sliding groove along the length direction of the first hoop strip, the second hoop strip is provided with a second sliding groove along the length direction of the second hoop strip, and the overlapping part of the first sliding groove and the second sliding groove is penetrated and detachably connected with a positioning piece.

6. The energy-saving environment-friendly building glass fiber reinforced plastic supporting assembly according to claim 5, characterized in that: a plurality of groups of first clamping grooves communicated with the first sliding grooves are formed in the first hoop strips, and the first clamping grooves are perpendicular to the extending direction of the first sliding grooves; a plurality of groups of second clamping grooves communicated with the second sliding grooves are formed in the second hoop strips, and the second clamping grooves are perpendicular to the extending direction of the second sliding grooves; the setting element is including wearing to establish the portion of wearing to establish in first spout and the second spout, and the both ends of wearing to establish the portion slide respectively and rotate be connected with can with one complex first torque arm in the first draw-in groove of multiunit and can with a complex second torque arm in a plurality of second draw-in grooves, first torque arm and wear to establish between the portion, second torque arm and wear to establish all to be connected with the spring between the portion.

Images