JP7212820B2 - Insert lock type keel structure and its construction tool and construction method - Google Patents

Description

TECHNICAL FIELD The present invention relates to the technical field of curtain oar keel, and more particularly to an insertion locking keel structure and its construction tool and construction method.

Curtain wall keels are used as panels that are fixed to the outer wall and to which the curtain wall is attached. Since the keel of the closed housing structure is excellent in strength, in the prior art, a large number of lateral beams of the closed housing structure are used and connected to the standing pillars to form the keel. Since the keels of the sealed housing structure are connected by engaging the elastic pins provided on the lateral beams and the insertion holes provided on the vertical pillars, they can only be attached in order, and the lateral beams cannot be removed arbitrarily. Locality exists for attachment and detachment.

Chinese patent application 201210276982.8 discloses that a round hole is drilled in the tube wall of the transverse beam and the standing column in the curtain wall solves the above defects of mounting and dismounting by passing the toothed pin through the standing column through the gear structure. Although the connection points of crossbeams are disclosed, the following problems exist:
Drilling a circular hole in the front tube wall of the crossbeam complicates the operation and destroys the integrity and stability of the crossbeam.
When installing, it is necessary to screw the toothed pin one by one and pass it through the vertical pillar, and when removing it, it is necessary to remove the toothed pin from the vertical pillar one by one, which makes the construction troublesome.
The toothed pin can only be passed through the vertical pillar laterally and cannot be completely fixed with the vertical pillar, resulting in a low connection strength between the vertical pillar and the cross beam.
A common toothed tool can be used to screw in and remove the toothed pin, and it can be removed at will, and the safety is low.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an insertion locking keel structure and its construction tool and construction method in order to solve the above problems in the prior art. The insert lock type keel structure and its construction tool and construction method can avoid damage to the structure of the crossbeam, achieve insertion and locking, and are convenient to construct and structurally safe.

An insertion lock type keel structure, comprising a cross beam forming a structure of a closed housing and a rectangular tube, and an upright column, the side wall of the upright column is provided with a plurality of fixing holes, and the end of the cross beam is , a plurality of fixing parts fixed to the plurality of fixing holes are provided, and the fixing parts include an inner fixing sleeve having a rectangular tube structure and an outer fixing sleeve movably attached to the outer side of the inner fixing sleeve. , wherein the ends of the cross beams are fixedly armored to the external fixation sleeve, and internal fixation plates and external fixation plates are provided at the internal end of the internal fixation sleeve and the internal end of the external fixation sleeve, respectively. a first compression spring is provided between the inner fixing plate and the outer fixing plate; a positioning magnetic flock is fixed on the side of the inner fixing plate remote from the outer fixing plate; A circular sleeve-shaped inner insertion sleeve and a circular sleeve-shaped outer insertion sleeve are fixed to the inner wall of the inner fixing sleeve and the inner wall of the outer fixing sleeve, respectively. The opening directions of the insertion sleeves are all along the length direction of the cross beam, the insertion rod is provided to movably penetrate the inner insertion sleeve and the outer insertion sleeve, and the outer insertion rod is provided with an insertion rod. A lock flock is fixed to the end rod wall, and a baffle sleeve is fixed to the rod wall of the insertion rod between the inner insertion sleeve and the outer insertion sleeve, the baffle sleeve and the inner insertion sleeve A second compression spring is mounted between them, and a position regulating groove is formed in the inner wall of the inner insertion sleeve, and the position regulating groove has an arcuate open groove structure surrounding the axis of the inner insertion sleeve. , the inner and outer ends of the position regulating groove form an angle of 90 degrees in the circumferential direction of the inner insertion sleeve, and the rod wall of the insertion rod is provided with a position regulating flock, The flock is positioned in the position restricting groove and can slide in the position restricting groove, and the fixing hole includes a circular insertion hole and a center position of the insertion hole in the longitudinal direction. a rod-like locking hole therethrough, the insertion hole fitting the insertion rod, and the locking hole fitting the locking flock.

The end portion of the horizontal beam is provided in contact with the side wall of the vertical pillar, the insertion rod is inserted into the insertion hole, and the lock flock abuts against the inner wall of the vertical pillar while being displaced from the lock hole. The baffle sleeve is provided in contact with the inner end of the outer insertion sleeve, and the position regulating flock is positioned at the inner end of the position regulating groove.

A construction tool having magnetism can attract the positioning magnetic flock, and by moving the construction tool to move the inner fixing plate toward the outer fixing plate, the position regulating flock moves to the outer end of the position regulating groove, The internal fixation plate is moved so that the insertion rod rotates 90 degrees about its own axis, the lock flock is aligned with the lock hole, and the insertion rod and lock flock are separated from the insertion hole and lock hole, respectively, and away from the side wall of the vertical column. It can continue to move in the direction of the external fixation plate.

The keel of the present invention moves the insertion rod by moving the inner fixation sleeve relative to the outer fixation sleeve through the engagement of the magnetic installation tool and the positioning magnetic flock, thereby perforating the tube wall of the transverse beam. and avoid destroying the crossbeam structure. At the beginning of releasing the construction tool, the second compression spring is in a tensioned state, and the insertion rod and the locking block can be inserted into the insertion hole and the locking hole respectively through the first compression spring, and the blocking sleeve is contacts the inner end of the outer insertion sleeve, the first compression spring continues to move the inner insertion sleeve, the second compression spring is compressed, and the engagement of the position regulating flock and the position regulating groove causes the insertion rod to move by itself. Rotate 90 degrees about the axis of the lock flock and the lock hole to shift the position, thereby realizing an insertion connection and locking, and releasing the construction tool to quickly install the cross beam. The position of the lock flock and the lock hole can be shifted by inserting the insertion rod into the insertion hole, and conversely, by moving the construction tool, the cross beam can be quickly removed, which is convenient for construction, and The construction is safe because the construction tools are magnetically operated.

In the insertion lock type keel structure, a baffle flock is fixed to the inner end rod wall of the insertion rod, and when the position restriction flock is positioned at the outer end of the position restriction groove, the inner end of the inner insertion sleeve contacts the obstructing floc. This improves the accuracy and stability of the operation of the fixed part.

In the insertion locking keel structure, a magnetic alignment flock is fixedly provided on a side of the outer fixing plate away from the inner fixing plate, and the facing sides of the positioning magnetic flock and the alignment magnetic flock are , the magnetic poles are the same. The construction tool can be temporarily fixed through the alignment magnetic flock, so that the installation of the cross beam is convenient, and at the same time, the mutual attraction between the alignment flock and the alignment magnetic flock affects the operation. is avoided.

In the insertion locking keel structure, the rod wall of the insertion rod is formed with a bouncing groove, the bouncing groove is provided with a bouncing post and a third compression spring, and the third compression spring is provided with the bouncing rod. A post can be pushed out from within the bouncing channel to form a position limiting flock. This simplifies the manufacture of said fixed parts.

In the insertion lock type keel structure, the insertion rod is integral with the lock flock, the internal fixation sleeve and the internal fixation plate are integral, and the external fixation sleeve and the external fixation plate are integral. and the baffle sleeve and the baffle flock are removably secured to the insertion rod. This stabilizes the structure.

In the insertion locking keel structure, the rod diameter of the insertion rod between the baffle sleeve and the inner end of the insertion rod is equal to the rod diameter of the insertion rod between the baffle sleeve and the outer end of the insertion rod. less than This makes assembly of the insertion rod convenient.

In the insertion locking keel structure, the outer fixing sleeve, the outer fixing plate, the inner fixing sleeve and the inner fixing plate are all made of non-magnetic adsorptive material. This avoids any impact on the construction process.

In the insert locking keel structure, there are four fixing holes, each of which is adjacent to a square of the fixing part.

A construction tool with an insertion locking keel structure, wherein the construction tool has a channel steel structure, and a first attractive magnetic floc and a second magnetic floc are respectively fixed inside the construction tool, and The first attracting magnetic floc and the positioning magnetic floc can be magnetically attracted to each other by sandwiching the construction tool on the front side of the horizontal beam, and the positioning magnetic floc can be moved to the alignment magnetic floc by moving the construction tool. and attract the second attracting magnetic floc and the alignment magnetic flock to each other.

Construction is convenient and efficient with the construction tool.

A method of installing an insert locking keel structure, including a method of mounting and a method of removing.

In the mounting method, the construction tool is sandwiched between the front sides of the horizontal beams, and the construction tool is moved to magnetically position the first attraction magnetic flock and the second attraction magnetic floc and align the magnetic floc with the positioning magnetic flock. The end of the cross beam is brought into contact with the side wall of the vertical pillar, the construction tool is removed from the cross beam, the first compression spring moves the inner fixed sleeve, and the insertion rod and the A lock flock is inserted into the insertion hole and the lock hole, respectively, and when the obstructing sleeve abuts the inner end of the outer insertion sleeve, the position regulating flock moves to the inner end of the position regulating groove, and the insertion rod moves itself. , the lock flock and the lock hole are displaced, and the lock flock contacts the inner wall of the vertical column.

In the removal method, the first magnetic flock and the positioning magnetic flock are magnetically attracted to each other by sandwiching the construction tool between the front sides of the horizontal beams, and the positioning magnetic flock is moved by moving the construction tool. While moving to the alignment magnetic flock, the inner fixed plate is driven to move to the outer fixed plate, the position regulating flock moves to the outer end of the position regulating groove, and the insertion rod rotates around its own axis. Rotate 90 degrees, align the lock flock with the lock hole, continue to move the construction tool to attract the second attracting magnetic floc with the alignment magnetic floc, and the insertion rod and the lock floc are attracted to each other. After leaving the insertion hole and the lock hole respectively and away from the side wall of the standing column, the cross beam can be removed from the standing column.

The above method can be conveniently and efficiently performed.

The rotatable gear milling cutter according to the present invention has the following advantages over the prior art.

The keel of the present invention moves the insertion rod by moving the inner fixation sleeve relative to the outer fixation sleeve through the engagement of the magnetic construction tool and the positioning magnetic block, thereby piercing the tube wall of the transverse beam. and avoid destroying the crossbeam structure.

At the beginning of releasing the construction tool, the second compression spring is in a tension state, the insertion rod and the lock block can be inserted into the insertion hole and the lock hole respectively through the first compression spring, and the baffle sleeve is When contacting the inner end of the outer insertion sleeve, the first compression spring continues to move the inner insertion sleeve, the second compression spring is compressed, and the insertion rod moves to its own position due to the engagement between the position restriction block and the position restriction groove. Rotate 90 degrees about the axis, so that the lock block and the lock hole are out of position, and thus the insertion connection is realized and the lock is realized.

The cross beam can be quickly installed by releasing the construction tool, the cross beam can be quickly removed by inserting the insertion rod into the insertion hole, shifting the position of the lock block and the lock hole, and moving the construction tool. The construction is convenient, and the construction tools are operated according to the times, so the structure is safe.

Fig. 2 is a front view of the keel of the present invention, with the arrows in Fig. 1 indicating the direction of movement of the installation tool; FIG. 2 is a horizontal cross-sectional view of a dotted line frame portion in FIG. 1 ; 3 is a partially enlarged cross-sectional view of FIG. 2; FIG. 4 is a local enlarged view of FIG. 3; FIG. FIG. 10 is a lateral cross-sectional view of one type of construction tool after movement; 6 is a partially enlarged cross-sectional view of FIG. 5; FIG. FIG. 11 is a lateral cross-sectional view of another state of the construction tool after being moved; 8 is a partially enlarged cross-sectional view of FIG. 7; FIG. FIG. 2 is a vertical cross-sectional view of a dotted line frame portion in FIG. 1 ; It is a local view of a standing pillar. Fig. 3 is a schematic view of the end of a crossbeam;

The technical means of the present invention will be further described below with reference to the drawings. The present invention is not limited to the following examples.

As shown in FIGS. 1 to 11, the insertion locking keel structure includes a cross beam 1 forming a closed housing/rectangular tube structure and a vertical column 5, and the side wall of the vertical column 5 has a plurality of fixing holes. 51 are provided at the ends of the cross beam 1, and a plurality of fixing parts fixed to the plurality of fixing holes 51 are provided. an external fixation sleeve 3 operatively armored outwardly, the end of the cross beam 1 being fixedly armored to the external fixation sleeve 3 , the inner end of the internal fixation sleeve 2 and the inner end of the external fixation sleeve 3 . The inner fixed plate 21 and the outer fixed plate 31 are fixed respectively, and the first compression spring 22 is provided between the inner fixed plate 21 and the outer fixed plate 31, and the outer fixed plate of the inner fixed plate 21 is provided. A positioning magnetic block 23 is fixed on the side away from 31, and a circular sleeve-shaped inner insertion sleeve 24 and a circular sleeve-shaped outer insertion sleeve 24 are attached to the inner wall of the inner fixed sleeve 2 and the inner wall of the outer fixed sleeve 3, respectively. The insertion sleeve 32 is fixed, and the opening direction of the inner insertion sleeve 24 and the opening direction of the outer insertion sleeve 32 are both provided along the length direction of the cross beam 1, and the insertion rod 4 is connected to the inner insertion sleeve 24. A locking block 41 is fixed to the rod wall at the outer end of the insertion rod 4 , and the insertion rod 4 is positioned between the inner insertion sleeve 24 and the outer insertion sleeve 32 . A baffle sleeve 42 is fixed to the bar wall of the , a second compression spring 43 is fitted between the baffle sleeve 42 and the inner insertion sleeve 24, and a position regulating groove 25 is formed on the inner wall of the inner insertion sleeve 24 The position regulating groove 25 has an arc-shaped open groove structure surrounding the axis of the inner insertion sleeve 24, and the inner and outer ends of the position regulating groove 25 are arranged at 90 degrees in the circumferential direction of the inner insertion sleeve 24. Forming a corner, the rod wall of the insertion rod 4 is provided with a position regulating block 44, the position regulating block 44 is positioned in the position regulating groove 25 and can slide in the position regulating groove 25, The fixing hole 51 includes a circular hole-shaped insertion hole 52 and a rod-shaped lock hole 53 passing through the center position of the insertion hole 52 in the longitudinal direction, and the insertion hole 52 fits the insertion rod 4, Lock hole 53 fits with lock block 41 .

The end of the cross beam 1 is provided in contact with the side wall of the vertical column 5, the insertion rod 4 is inserted into the insertion hole 52, and the lock block 41 is displaced from the lock hole 53 and is in contact with the inner wall of the vertical column 5. The baffle sleeve 42 is provided in contact with the inner end of the outer insertion sleeve 32 , and the position regulating block 44 is positioned at the inner end of the position regulating groove 25 .

The construction tool 6 having magnetism can attract the positioning magnetic block 23 , and by moving the construction tool 6 to move the inner fixing plate 21 toward the outer fixing plate 31 , the position regulating block 44 is aligned with the position regulating groove 25 . , the insertion rod 4 is rotated 90 degrees about its own axis, the lock block 41 is aligned with the lock hole 53, and the insertion rod 4 and the lock block 41 are aligned with the insertion hole 52 and the lock hole 53, respectively. The inner fixing plate 21 can continue to be moved toward the outer fixing plate 31 so as to move away from the inside and away from the side wall of the upright column 5 .

Furthermore, a baffle block 45 is fixed to the rod wall at the inner end of the insertion rod 4 , and when the position regulating block 44 is positioned at the outer end of the position regulating groove 25 , the inner end of the inner insertion sleeve 24 is attached to the baffle block 45 . abut. A positioning magnetic block 33 is fixedly provided on the side of the outer fixing plate 31 away from the inner fixing plate 21, and the opposing sides of the positioning magnetic block 23 and the positioning magnetic block 33 have the same magnetic pole. A bouncing groove 46 is formed in the rod wall of the insertion rod 4 , and a bouncing post 47 and a third compression spring 48 are provided in the bouncing groove 46 . The position control block 44 can be formed by extruding from the inside. The insertion rod 4 is integral with the lock block 41, the internal fixing sleeve 2 and the internal fixing plate 21 are integral, the external fixing sleeve 3 and the external fixing plate 31 are integral, and the baffle sleeve 42 and the baffle are integral. Block 45 is detachably fixed to insertion rod 4 . The rod diameter of the insertion rod 4 between the baffle sleeve 42 and the inner end of the insertion rod 4 is smaller than the rod diameter of the insertion rod 4 between the baffle sleeve 42 and the outer end of the insertion rod 4 . The outer fixing sleeve 3, the outer fixing plate 31, the inner fixing sleeve 2, and the inner fixing plate 21 are all made of non-magnetic adsorptive material. There are four fixing holes 51, each provided close to a square of the fixing part.

The keel of the present invention moves the insertion rod 4 by moving the inner fixed sleeve 2 with respect to the outer fixed sleeve 3 through the engagement of the magnetic construction tool 6 and the positioning magnetic block 23, thereby moving the cross beam. It is not necessary to perforate the tube wall of 1, and to avoid destroying the structure of the cross beam 1. At the initial stage of releasing the construction tool 6, the second compression spring 43 is in a taut state, and the insertion rod 4 and the lock block 41 are inserted into the insertion hole 52 and the lock hole 53 through the first compression spring 22, respectively. , when the baffle sleeve 42 abuts the inner end of the outer insertion sleeve 32, the first compression spring 22 continues to move the inner insertion sleeve 24, the second compression spring 43 is compressed, and the position restriction block 44 and the position regulating groove 25, the insertion rod 4 rotates 90 degrees about its own axis, thereby shifting the positions of the lock block 41 and the lock hole 53, thereby achieving insertion connection. , the lock is realized, the cross beam 1 can be quickly installed by releasing the construction tool 6, the insertion rod 4 can be inserted into the insertion hole 52, the position of the lock block 41 and the lock hole 53 can be shifted, and the reverse If the construction tool 6 is moved to the right, the cross beam 1 can be removed quickly, construction is convenient, and the construction is safe because the construction tool 6 is operated by magnetism.

A construction tool with an insertion locking keel structure, the construction tool 6 has a channel steel structure, and a first attraction magnetic block 61 and a second attraction magnetic block 62 are fixed inside the construction tool 6, respectively. By sandwiching the construction tool 6 on the front side of the cross beam 1, the first attraction magnetic block 61 and the positioning magnetic block 23 can be magnetically attracted to each other. The block 33 can be moved and the second attraction magnetic block 62 and the alignment magnetic block 33 can be attracted to each other.

A method of installing an insert locking keel structure, including a method of mounting and a method of removing.

As for the mounting method, the construction tool 6 is sandwiched between the front sides of the horizontal beams 1, and by moving the construction tool 6, the first attraction magnetic block 61 and the second attraction magnetic block 62 are magnetically positioned and aligned with the magnetic block 23. 33, the end of the cross beam 1 is brought into contact with the side wall of the vertical column 5, the construction tool 6 is removed from the cross beam 1, the first compression spring 22 moves the inner fixed sleeve 2, the insertion rod 4 and the lock block. 41 are inserted into the insertion hole 52 and the lock hole 53 respectively, and when the baffle sleeve 42 contacts the inner end of the outer insertion sleeve 32, the position regulating block 44 moves to the inner end of the position regulating groove 25, and the insertion rod 4 rotates 90 degrees around its own axis, the positions of the lock block 41 and the lock hole 53 are shifted, and the lock block 41 contacts the inner wall of the vertical column 5 .

As for the removal method, by sandwiching the construction tool 6 on the front side of the horizontal beam 1, the first attraction magnetic block 61 and the positioning magnetic block 23 are magnetically attracted to each other, and by moving the construction tool 6, the positioning magnetic block 23 can be positioned. As it moves to the matching magnetic block 33, the inner fixed plate 21 is driven to move to the outer fixed plate 31, the position regulating block 44 moves to the outer end of the position regulating groove 25, and the insertion rod 4 rotates nine times around its own axis. Rotate ten degrees to align the lock block 41 with the lock hole 53 , and then move the construction tool 6 to attract the second attracting magnetic block 62 and the aligning magnetic block 33 , so that the insertion rod 4 and the lock block 41 are attracted to each other. are separated from the insertion hole 52 and the lock hole 53 and separated from the side wall of the vertical column 5 , the horizontal beam 1 can be removed from the vertical column 5 .

The specific embodiments described herein merely illustrate the spirit of the invention. Those skilled in the art to which the present invention pertains may make various modifications or additions to the specific embodiments described, or substitute them in similar ways, without departing from the spirit of the invention or not exceed the scope defined in the appended claims.

Part names in this application are provided for convenience in describing and interpreting the essence of the present invention, and these names themselves are not restrictive and may be replaced with other terms.

1 Cross beam 2 Inner fixing sleeve 21 Inner fixing plate 22 First compression spring 23 Positioning magnetic block 24 Inner insertion sleeve 25 Position regulation groove 3 Outer fixing sleeve 31 Outer fixing plate 32 Outer insertion sleeve 33 Positioning magnetic block 4 Insertion rod 41 Lock block 42 Baffle sleeve 43 Second compression spring 44 Position control block 45 Baffle block 46 Bouncing groove 47 Bouncing column 48 Third compression spring 5 Standing column 51 Fixing hole 52 Insertion hole 53 Lock hole 6 Construction tool 61 First adsorption magnetic block 62 Second adsorption magnetic block

Claims (1)

An insertion locking keel structure,
Including a horizontal beam and a standing pillar that form a structure of a closed housing/rectangular tube,
A plurality of fixing holes are provided in the side wall of the standing pillar,
A plurality of fixing parts fixed to the plurality of fixing holes are provided at the ends of the cross beams,
The fixing component includes an inner fixing sleeve having a rectangular tube structure and an outer fixing sleeve operably attached to the outer side of the inner fixing sleeve,
the ends of the cross beams are fixedly armored to the external fixation sleeves;
An internal fixation plate and an external fixation plate are fixed to the inner end of the internal fixation sleeve and the inner end of the external fixation sleeve, respectively,
A first compression spring is provided between the inner fixing plate and the outer fixing plate,
A positioning magnetic block is fixed to a side of the inner fixing plate away from the outer fixing plate,
A circular sleeve-shaped inner insertion sleeve and a circular sleeve-shaped outer insertion sleeve are fixed to the inner wall of the inner fixed sleeve and the inner wall of the outer fixed sleeve, respectively,
Both the opening direction of the inner insertion sleeve and the opening direction of the outer insertion sleeve are provided along the length direction of the lateral beam,
an insertion rod movably provided through the inner insertion sleeve and the outer insertion sleeve ;
A lock block is fixed to the rod wall at the outer end of the insertion rod,
A baffle sleeve is fixed to the rod wall of the insertion rod between the inner insertion sleeve and the outer insertion sleeve ,
A second compression spring is mounted between the baffle sleeve and the inner insertion sleeve,
A position regulating groove is formed on the inner wall of the inner insertion sleeve,
The position regulating groove has an arc-shaped open groove structure surrounding the axis of the inner insertion sleeve,
the inner and outer ends of the position regulating groove form an angle of 90 degrees with respect to the circumferential direction of the inner insertion sleeve,
A position control block is provided on the rod wall of the insertion rod,
The position regulation block is positioned within the position regulation groove and can slide within the position regulation groove,
The fixing hole includes a circular hole-shaped insertion hole and a rod-shaped lock hole extending through the center position of the insertion hole in the longitudinal direction,
the insertion hole fits the insertion rod,
the lock hole fits with the lock block;
The end of the horizontal beam is provided in contact with the side wall of the vertical pillar,
The insertion rod is inserted into the insertion hole,
The lock block is displaced from the lock hole and provided in contact with the inner wall of the vertical pillar,
The baffle sleeve is provided in contact with the inner end of the outer insertion sleeve ,
The position regulation block is positioned at an inner end of the position regulation groove,
A construction tool having magnetism can attract the positioning magnetic block, and by moving the construction tool to move the inner fixing plate toward the outer fixing plate, the position regulating block is positioned in the position regulating groove. moving to the outer end, rotating the insertion rod 90 degrees about its own axis, aligning the lock block with the lock hole, and inserting the insertion rod and the lock block into the insertion hole and the lock hole, respectively; the inner fixing plate can continue to be moved toward the outer fixing plate away from the side wall of the standing pillar,
An insertion locking keel structure characterized by:

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