CN114526886A - Arc-shaped glass curtain wall detection device and method applicable to different radians - Google Patents

Abstract

The invention relates to the technical field of building wall detection, in particular to a detection device and a detection method for an arc-shaped glass curtain wall applicable to different radians, wherein the detection device comprises a support guide table, a placing frame, an upper guide frame, a sliding plate and the like; a placing frame is fixedly installed below the supporting and guiding table, an upper guide frame is fixedly installed on the supporting and guiding table, two guide frames are fixedly installed on the supporting and guiding table, and a sliding plate is connected to the guide frames in a sliding mode. Strike glass curtain wall through the striking piece to this detects glass curtain wall impact strength, if glass curtain wall does not hit the piece to hit garrulous then qualified, if glass curtain wall is hit the piece by the striking piece and is smashed then unqualified, simultaneously through the effect of gib block, the gib block leads to elasticity strip and sliding block, makes the sliding block and striking piece strike glass curtain wall together, thereby increase glass curtain wall by the area of striking, makes the testing result more accurate.

Description

Arc-shaped glass curtain wall detection device and method applicable to different radians

Technical Field

The invention relates to the technical field of building wall detection, in particular to a detection device and a detection method for arc-shaped glass curtain walls suitable for different radians.

Background

The glass curtain wall is a modern beautiful and novel building wall decoration method, is a remarkable characteristic of modern meaning high-rise building times, adopts the combination of mirror glass and common glass, and has the greatest characteristic of organically unifying factors such as building aesthetics, building functions, building energy conservation, building structures and the like, so that the building presents different tones from different angles, and gives dynamic beauty to people along with the change of sunlight, moonlight and lamplight.

Glass curtain wall is as a building foreign object structure, can receive some foreign objects or artificial striking usually, so need detect glass curtain wall's compressive property when production to guarantee glass curtain wall's life, glass curtain wall need be the building physical properties and detect, and at present, glass curtain wall is bulky, is difficult to realize the measuring of manpower, and current check out test set detects the flow more loaded down with trivial details, is not suitable for and detects the glass curtain wall of different radians.

Disclosure of Invention

The invention aims to provide an arc-shaped glass curtain wall detection device and method which can detect glass curtain walls with different radians, can detect the impact strength of the glass curtain walls and can detect the compression resistance of the glass curtain walls and are suitable for different radians, so as to solve the problems that the glass curtain walls with larger volume are difficult to realize manual detection, the existing detection equipment has more complicated detection process and is not suitable for detecting the glass curtain walls with different radians in the background technology.

The utility model provides an arc glass curtain wall detection device and method suitable for different radians, including supporting the direction platform, including:

the glass curtain wall supporting device comprises a placing frame, a supporting guide table and a supporting frame, wherein the placing frame is fixedly arranged below the supporting guide table and used for placing a glass curtain wall, and an upper guide frame is fixedly arranged on the supporting guide table;

the guide frame supports the guide table and is fixedly provided with two guide frames;

the sliding plate is connected to the guide frame in a sliding manner, and the guide frame is used for guiding the sliding plate;

the soft plates are connected with the supporting guide table in a common rotating mode and are in sliding connection with the placing frame, the soft plates can be attached to glass curtain walls with different radians and are used for guiding the glass curtain walls with different radians;

the hard blocks are fixedly connected in the soft board in a uniformly arranged mode, and the hard blocks are used for blocking the glass curtain wall and facilitating testing;

the sliding plate is provided with a rotating mechanism which is used for transmitting power for striking the glass curtain wall;

the impact testing mechanism is arranged on one side of the two sliding plates together, and is used for testing the impact resistance of the glass curtain wall under the operation of the rotating mechanism;

the clamping mechanisms are symmetrically arranged on the upper guide frame and are used for clamping and fixing the glass curtain wall.

Further, the rotating mechanism comprises a fixed guide table, an air cylinder, a fixed strip, a first rotating wheel, a sliding block, a second rotating wheel, a telescopic belt, a gear, a rack and a guide wheel, the top surface of an upper sliding plate is fixedly connected with the fixed guide table, the bottom surface of a lower sliding plate is also fixedly connected with the fixed guide table, the air cylinder is fixedly arranged on the impact testing mechanism, one end of a telescopic shaft of the air cylinder is welded with the fixed strip, the center of the fixed guide table is rotatably connected with the first rotating wheel, the fixed guide table is symmetrically and slidably connected with the sliding block, the top of the sliding block is rotatably connected with the second rotating wheel, the telescopic belt is in transmission connection between the two second rotating wheels on the same side, the inner side of the telescopic belt bypasses the two guide wheels, the two guide wheels extrude the telescopic belt, the telescopic belt is in contact with the first rotating wheel, the bottom end of the lower first rotating wheel is welded with the gear, the top end of the upper first rotating wheel is also fixedly connected with the gear, two racks are fixedly connected to the fixing strip, and the racks on the same level are meshed with the gear.

Further, the impact testing mechanism comprises a first fixing frame, a fixed rod, a guide block, a second fixing frame, a first sliding rod, an impact block, a first reset spring, an H-shaped frame, a blocking piece, a rotating strip, a torsion spring and a round rod, wherein the first fixing frame is welded on one side of the two sliding plates together, an air cylinder is fixedly arranged in the middle of the first fixing frame, the fixed rod is fixedly connected to a second rotating wheel, the fixed rod is fixedly connected to the first rotating wheel in the same way, one end of the fixed rod is fixedly connected with the guide block, the front side of the hard block is welded with the second fixing frame, the second fixing frame is connected with the first sliding rod in a sliding way, the first fixing frame is also connected with the two first sliding rods in a sliding way, the rear end of the first sliding rod is welded with the impact block, one side of the impact block is fixedly connected with the first reset spring, one ends of three pairs of the first reset springs are connected with the second fixing frame, and one ends of the other two first reset springs are connected with the first fixing frame, one end of the middle two first sliding rods is fixedly connected with a round rod, the two round rods are in limit connection with the middle two guide blocks, one end of the same side of the three first sliding rods is jointly connected with an H-shaped frame, the H-shaped frame is in limit connection with the rest guide blocks, the guide blocks are internally and fixedly connected with separation blades, the rotating strip is connected in the guide blocks in a rotating mode, the rotating strip is in contact with the separation blades, and a pair of torsion springs is connected between the rotating strip and the guide blocks.

Further, the guide block is provided with an arc-shaped sliding groove, and the arc-shaped sliding groove is used for guiding the long rod and the round rod, so that the long rod and the round rod can move along a set track in the arc-shaped sliding groove of the guide block.

Further explaining, the clamping mechanism comprises an L-shaped frame, a wedge block and an extension spring, the L-shaped frame is symmetrically and fixedly connected to the upper guide frame, the wedge block is connected to the L-shaped frame in a sliding mode and is in contact with the supporting guide table, and the extension spring is connected between the wedge block and the L-shaped frame.

The first fixing frame is fixedly provided with a guide strip, a sliding block, a second reset spring and an elastic strip, the first fixing frame is fixedly provided with the guide strip, the first fixing frame is fixedly connected with three guide strips, the impact block is connected with the sliding block in a sliding manner, the first fixing frame is fixedly connected with three sliding blocks, the sliding block is connected with two second reset springs, one ends of the three pairs of second reset springs are connected with the first fixing frame, one ends of the other second reset springs are connected with the second fixing frame, the first sliding block penetrates through the sliding block, the first reset spring penetrates through the sliding block, the sliding block is fixedly connected with the elastic strip, and the elastic strip is in limit connection with the guide strip.

Further, the guide strip is provided with a V-shaped sliding groove, and the V-shaped sliding groove is used for guiding the elastic strip, so that the elastic strip can move on a set V-shaped track.

Further explaining, still including pressure test mechanism, the slidingly is connected with two pressure test mechanisms on the fixed strip, pressure test mechanism is including the second slide bar, the expansion bracket, first reset spring, first carriage, the second carriage, first expanding spring and second expanding spring, slidingly be connected with two second slide bars on the fixed strip, the welding of second slide bar rear end has the expansion bracket, be connected with first reset spring between expansion bracket and the fixed strip, slidingly be connected with first carriage on the expansion bracket, slidingly be connected with the second carriage on the expansion bracket, second carriage and first carriage slidingly be connected with a pair of first expanding spring between expansion bracket and the first carriage, be connected with a pair of second expanding spring between second carriage and the expansion bracket.

The second conversion mechanism comprises a wedge-shaped frame, a V-shaped frame, a second return spring and a connecting frame, wherein the two wedge-shaped frames are fixedly connected to an upper sliding block and a lower sliding block in the middle of the second conversion mechanism, the two wedge-shaped frames are slidably connected to the first fixing frame, the second return spring is fixedly connected to the V-shaped frame, one end of the second return spring is fixedly connected with the first fixing frame, the connecting frame is welded to one end of the V-shaped frame, and the connecting frame is in contact with the wedge-shaped frames.

Further, the detection method of the arc-shaped glass curtain wall detection device suitable for different radians further comprises the following working steps of:

s1: fixing the glass curtain wall: the glass curtain wall to be detected is pushed by a worker towards the direction close to the fixing strip, the wedge-shaped blocks are pushed to move relatively by the glass curtain wall, and then the wedge-shaped blocks move oppositely to clamp and fix the glass curtain wall through the reset action of the extension spring;

s2: and (3) impact resistance detection of the glass curtain wall: the cylinder is controlled to contract, the cylinder contracts to drive the fixing strip and the rack to move towards the direction close to the upper guide frame, the rack transmits power to each part, the impact block impacts the glass curtain wall to detect the impact strength of the glass curtain wall, if the glass curtain wall is not crushed by the impact block, the glass curtain wall is qualified, and if the glass curtain wall is crushed by the impact block, the glass curtain wall is unqualified;

s3: increasing the impact surface: when the impact block moves towards the direction close to the upper guide frame to impact the glass curtain wall, the compressed second return spring resets to drive the sliding block to move towards the direction close to the upper guide frame, so that the sliding block and the impact block impact the glass curtain wall together, and the impacted area of the glass curtain wall is increased;

s4: and (3) detecting the compressive capacity: the cylinder continues to contract, the second sliding rod and the upper device of the second sliding rod continue to move towards the direction close to the upper guide frame, the first sliding frame and the second sliding frame exert pressure on the glass curtain wall under the action of the first return spring, and the first sliding frame and the second sliding frame detect the pressure resistance of the glass curtain wall;

s5: increasing the pressurizing range: the sliding block can drive the wedge-shaped frame to move towards the direction close to the upper guide frame, the wedge-shaped frame can push the connecting frame and the V-shaped frame to move oppositely, so that the V-shaped frame can push the first sliding frame and the second sliding frame to move oppositely, and the pressure range of the first sliding frame and the second sliding frame applied to the glass curtain wall can be enlarged;

s6: and (3) secondary detection: if glass curtain wall does not hit the bits of broken glass by the striking piece, control cylinder extension back and control its shrink again, repeated above-mentioned operation, the striking piece carries out the secondary striking to glass curtain wall to this carries out the secondary to glass impact strength and detects, and the gib block can block the elasticity strip, and when the striking piece moved towards being close to the upper guide frame direction once more, the sliding block can not be strikeed glass curtain wall with the striking piece together.

The invention has the beneficial effects that:

through the soft board that sets up, the soft board can be crooked when glass curtain wall radian is great, and fixed direction platform can promote slider and second and rotate a round relative motion, makes flexible belt stretched for this equipment can detect the glass curtain wall of different radians.

Strike glass curtain wall through the striking piece to this detects glass curtain wall impact strength, if glass curtain wall does not hit the piece to hit garrulous then qualified, if glass curtain wall is hit the piece by the striking piece and is smashed then unqualified, simultaneously through the effect of gib block, the gib block leads to elasticity strip and sliding block, makes the sliding block and striking piece strike glass curtain wall together, thereby increase glass curtain wall by the area of striking, makes the testing result more accurate.

Through the effect of first return spring, pressure is exerted to glass curtain wall to first carriage and second carriage, and first carriage and second carriage detect glass curtain wall compressive capacity, and through the effect of V-arrangement frame, make first carriage and second carriage can exert pressure scope grow to glass curtain wall simultaneously for first carriage and second carriage can be on a large scale carry out compressive capacity to glass curtain wall and detect.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a schematic view of a first partial structure of the rotating mechanism of the present invention.

Fig. 6 is a schematic view of a second partial structure of the rotating mechanism of the present invention.

Fig. 7 is a perspective view of a third part of the rotating mechanism of the present invention.

Fig. 8 is a schematic view of a first partial body structure of the impact testing mechanism of the present invention.

Fig. 9 is a schematic view of a second partial body structure of the impact testing mechanism of the present invention.

Fig. 10 is a perspective view of a third portion of the impact testing mechanism of the present invention.

Fig. 11 is a perspective view of a fourth portion of the impact testing mechanism of the present invention.

Fig. 12 is a schematic view of a partially cut-away perspective structure of an impact testing mechanism according to the present invention.

Fig. 13 is a schematic view of a fifth partial body configuration of the impact testing mechanism of the present invention.

FIG. 14 is a schematic view of a sixth partial body configuration of an impact testing mechanism according to the present invention.

Fig. 15 is a schematic perspective view of a first conversion mechanism according to the present invention.

Fig. 16 is a schematic perspective view of the guide strip and the elastic strip of the present invention.

Fig. 17 is a schematic partial perspective view of a pressure testing mechanism according to the present invention.

Fig. 18 is a schematic disassembled three-dimensional structure of the pressure testing mechanism of the present invention.

Fig. 19 is a perspective view of a third embodiment of the present invention.

FIG. 20 is a schematic view of a first partially assembled body structure of a second conversion mechanism according to the present invention.

FIG. 21 is a second partial body structure diagram of the second conversion mechanism of the present invention.

Fig. 22 is a perspective view of a fourth embodiment of the present invention.

Fig. 23 is a schematic perspective view of the locking mechanism of the present invention.

FIG. 24 is a flow chart illustrating the operation steps of the present invention.

In the above drawings: 1: support guide table, 2: rack, 21: upper guide frame, 3: guide frame, 4: sliding plate, 5: soft board, 6: hard block, 7: turning mechanism, 71: fixed guide table, 72: cylinder, 73: fixing strip, 74: first rotating wheel, 75: slider, 76: second rotating wheel, 77: telescopic belt, 78: gear, 79: rack, 710: guide wheel, 8: impact test mechanism, 81: first mount, 82: fixing rod, 83: guide block, 84: second mount, 85: first slide bar, 86: impact block, 87: first return spring, 88: long rod, 89: a baffle plate, 811: rotating bar, 812: torsion spring, 813: round bar, 12: screens mechanism, 121: l-shaped frame, 122: wedge block, 123: tension spring, 9: first changing mechanism, 91: guide strip, 92: sliding block, 93: second return spring, 94: elastic strip, 10: pressure test mechanism, 101: second slide bar, 102: expansion bracket, 103: first return spring, 104: first carriage, 105: second carriage, 106: first extension spring, 107: second extension spring, 11: second conversion mechanism, 111: wedge frame, 112: v-shaped frame, 113: second return spring, 114: and a connecting frame.

Detailed Description

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

A detection device and a method for arc glass curtain walls suitable for different radians are disclosed, as shown in figures 1 to 14, 15, 17, 22 and 23, the detection device comprises a support guide table 1, a placing frame 2, an upper guide frame 21, a guide frame 3, sliding plates 4, soft plates 5, hard blocks 6, a rotating mechanism 7, an impact testing mechanism 8 and a clamping mechanism 12, wherein the placing frame 2 for placing the glass curtain walls is fixedly arranged below the support guide table 1, the upper guide frame 21 is fixedly arranged on the support guide table 1, the two guide frames 3 for guiding are fixedly arranged on the support guide table 1, the sliding plates 4 are connected on the guide frame 3 in a sliding manner, a pair of soft plates 5 are connected on the two sliding plates 4 in a common rotating manner, the soft plates 5 are connected with the support guide table 1 in a sliding manner, the soft plates 5 are contacted with the placing frame 2, three hard blocks 6 are fixedly connected in the soft plates 5 in a uniform arrangement manner, the rotating mechanism 7 is arranged on the sliding plates 4, an impact testing mechanism 8 is commonly arranged on one side of each of the two sliding plates 4, the impact testing mechanism 8 is used for performing impact detection on the glass curtain wall, clamping mechanisms 12 are symmetrically arranged on the upper guide frame 21, and the clamping mechanisms 12 are used for fixing the glass curtain wall.

The rotating mechanism 7 comprises a fixed guide table 71, an air cylinder 72, a fixed strip 73, a first rotating wheel 74, a sliding block 75, a second rotating wheel 76, a telescopic belt 77, a gear 78, a rack 79 and a guide wheel 710, wherein the top surface of an upper sliding plate 4 is fixedly connected with the fixed guide table 71, the bottom surface of a lower sliding plate 4 is also fixedly connected with the fixed guide table 71, the air cylinder 72 is fixedly arranged on the impact testing mechanism 8, one end of a telescopic shaft of the air cylinder 72 is welded with the fixed strip 73, the center of the fixed guide table 71 is rotatably connected with the first rotating wheel 74, the sliding blocks 75 are symmetrically and slidably connected on the fixed guide table 71, the top of the sliding block 75 is rotatably connected with the second rotating wheel 76, the fixed guide table 71 is used for pushing the sliding block 75 and the second rotating wheel 76 to move relatively, the telescopic belt 77 for transmitting power is in a transmission manner between the two second rotating wheels 76 on the same side, and the same horizontal telescopic belt 77 is in contact with the first rotating wheel 74, the gear 78 is welded at the bottom end of the lower first rotating wheel 74, the gear 78 is fixedly connected at the top end of the upper first rotating wheel 74, the two racks 79 are fixedly connected to the fixing strip 73, the rack 79 on the same level is meshed with the gear 78, the two guide wheels 710 are rotatably connected to the fixed guide table 71, and the two adjacent guide wheels 710 are in contact with the telescopic belt 77.

The impact testing mechanism 8 comprises a first fixing frame 81, a fixed rod 82, a guide block 83, a second fixing frame 84, a first sliding rod 85, an impact block 86, a first reset spring 87, a long rod 88, a blocking piece 89, a rotating strip 811, a torsion spring 812 and a round rod 813, wherein the first fixing frame 81 is welded on one side of the two sliding plates 4 together, an air cylinder 72 is fixedly arranged in the middle of the first fixing frame 81, the fixed rod 82 is fixedly connected to a second rotating wheel 76, the fixed rod 82 is fixedly connected to the first rotating wheel 74 in the same way, the guide block 83 for guiding is fixedly connected to one end of the fixed rod 82, the second fixing frame 84 is welded on the front side of the hard block 6, the first sliding rod 85 is connected to the second fixing frame 84 in a sliding way, the two first sliding rods 85 are also connected to the first fixing frame 81 in a sliding way, the impact block 86 is welded on the rear end of the first sliding rod 85, the impact block 86 is used for impacting the glass curtain wall, the first reset spring 87 is fixedly connected to one side of the impact block 86, wherein three pairs of first reset spring 87 one end are connected with second mount 84, two other first reset spring 87 one end are connected with first mount 81, two middle first slide bar 85 front end rigid coupling have round bar 813, two round bar 813 and two middle guide block 83 limit connection, three first slide bar 85 one end of homonymy are connected with stock 88 jointly, stock 88 is limit connection with remaining guide block 83, fixedly connected with separation blade 89 in the guide block 83, it connects in the guide block 83 to rotate the strip 811 rotary type, it is used for blocking stock 88 and round bar 813 to rotate the strip 811, it contacts with separation blade 89 to rotate strip 811, the separation blade 89 is used for blocking rotation strip 811, it is connected with a pair of torsion spring 812 to rotate between strip 811 and the guide block 83.

The clamping mechanism 12 comprises an L-shaped frame 121, a wedge block 122 and an extension spring 123, the L-shaped frame 121 is symmetrically and fixedly connected to the upper guide frame 21, the wedge block 122 is connected to the L-shaped frame 121 in a sliding mode, the wedge block 122 is in contact with the support guide table 1, the wedge block 122 is used for clamping the glass curtain wall, and the extension spring 123 is connected between the wedge block 122 and the L-shaped frame 121.

When the glass curtain wall of the different radians of the same specification is examined to needs, the staff places glass curtain wall on rack 2, the staff promotes the glass curtain wall on rack 2 and moves forward, make glass curtain wall and sliding plate 4 contact, make glass curtain wall and last guide 21 contact, glass curtain wall can promote sliding plate 4 and last device towards keeping away from the direction motion of last guide 21 along with, soft board 5 can be crooked when the glass curtain wall radian is great, fixed direction platform 71 can promote slider 75 and second and rotate wheel 76 relative motion, make telescopic belt 77 stretched. When glass curtain wall moved towards being close to fixed strip 73 direction, glass curtain wall can promote wedge 122 relative motion, through extension spring 123's reset action afterwards for wedge 122 moves in opposite directions and blocks glass curtain wall, avoids glass curtain wall to take place the displacement when detecting. Then the worker manually controls the cylinder 72 to contract, the cylinder 72 contracts to drive the fixed bar 73 and the rack 79 to move towards the direction close to the upper guide frame 21, the rack 79 drives the gear 78 and the first rotating wheel 74 to rotate clockwise, the first rotating wheel 74 drives the second rotating wheel 76 and the upper device thereof to rotate through the telescopic belt 77, the guide wheel 710 guides the telescopic belt 77, the rotating bar 811 is blocked by the blocking piece 89, the long bar 88 and the round bar 813 are blocked by the rotating bar 811, the long bar 88 and the round bar 813 are driven to move towards the direction away from the upper guide frame 21 through the action of the guide block 83, the long bar 88 and the round bar 813 drive the first sliding bar 85 and the striking block 86 to move towards the direction away from the upper guide frame 21, when the long bar 88 and the round bar 813 are positioned at the transverse sliding slot of the guide block 83, the compressed first return spring 87 is reset to drive the long bar 88 and the round bar 813 to move towards the direction close to the upper guide frame 21, so that the long bar 88 and the round bar 813 drive the first sliding bar 85 and the striking block 86 towards the direction close to the upper guide frame 21, the impact block 86 impacts the glass curtain wall, so that the glass impact strength is detected, if the glass curtain wall is not crushed by the impact block 86, the glass curtain wall is qualified, and if the glass curtain wall is crushed by the impact block 86, the glass curtain wall is unqualified.

Then, under the action of the guiding block 83, the long rod 88 and the round rod 813 push the rotation bar 811 to swing, and then the rotation bar 811 is separated from the long rod 88 and the round rod 813, and the compressed torsion spring 812 is reset to drive the rotation bar 811 to rotate and reset. If the glass curtain wall is not broken by the impact block 86, then the worker manually controls the cylinder 72 to extend, the cylinder 72 extends to drive the fixing strip 73 and the device thereon to move away from the upper guide frame 21, the rack 79 drives the gear 78 and the first rotating wheel 74 to rotate counterclockwise, and then all parts of the equipment are reset. Repeat above-mentioned operation, striking piece 86 carries out the secondary striking to glass curtain wall to this carries out the secondary to glass curtain wall intensity and detects, and the back that finishes detects, and the staff takes off qualified glass curtain wall from rack 2.

Example 2

In addition to the embodiment 1, as shown in fig. 14, 15, 16 and 20, the curtain wall protection device further includes a first conversion mechanism 9, the second fixing frame 84 is provided with the first conversion mechanism 9, the first conversion mechanism 9 is used for increasing the area of impacting the glass curtain wall, the first conversion mechanism 9 includes a guide strip 91, a sliding block 92, a second return spring 93 and an elastic strip 94, the second fixing frame 84 is fixedly provided with the guide strip 91, the first fixing frame 81 is also fixedly connected with three guide strips 91, the impacting block 86 is slidably connected with the sliding block 92, the first fixing frame 81 is also fixedly connected with three sliding blocks 92, the sliding block 92 is used for impacting the glass curtain wall, the sliding block 92 is connected with two second return springs 93, one end of the three pairs of second return springs 93 is connected with the first fixing frame 81, one end of the other second return springs 93 is connected with the second fixing frame 84, the first sliding block 85 passes through the sliding block 92, the first return spring 87 also penetrates through the sliding block 92, an elastic strip 94 is fixedly connected to the sliding block 92, the elastic strip 94 is in limit connection with the guide strip 91, and the guide strip 91 is used for clamping the elastic strip 94.

When the striking block 86 moves in the direction away from the upper guide frame 21, the striking block 86 pushes the sliding block 92 and the elastic strip 94 to move in the direction away from the upper guide frame 21, the elastic strip 94 is not clamped by the guide strip 91, and when the striking block 86 moves in the direction close to the upper guide frame 21, the compressed second return spring 93 is reset to drive the sliding block 92 to move in the direction close to the upper guide frame 21, so that the sliding block 92 and the striking block 86 strike the glass curtain wall together, and the area of the glass curtain wall struck is increased. When the impact block 86 moves away from the upper guide frame 21 again, the impact block 86 pushes the sliding block 92 and the elastic strip 94 to move away from the upper guide frame 21, then the guide strip 91 clamps the elastic strip 94 under the action of the second return spring 93, and when the impact block 86 moves close to the upper guide frame 21 again, the sliding block 92 and the impact block 86 do not impact the glass curtain wall together.

Example 3

In addition to the embodiment 2, as shown in fig. 17, 18 and 19, the pressure testing device 10 is further included, two pressure testing devices 10 are slidably connected to the fixing strip 73, the pressure testing devices 10 are used for testing the pressure resistance of the glass curtain wall, the pressure testing devices 10 include a second slide bar 101, an expansion bracket 102, a first return spring 103, a first sliding bracket 104, a second sliding bracket 105, a first expansion spring 106 and a second expansion spring 107, two second slide bars 101 are slidably connected to the fixing strip 73, the expansion bracket 102 is welded to the rear end of the second slide bar 101, the first return spring 103 is connected between the expansion bracket 102 and the fixing strip 73, the first sliding bracket 104 is slidably connected to the expansion bracket 102, the second sliding bracket 105 is slidably connected to the first sliding bracket 104, the first sliding bracket 104 and the second sliding bracket 105 are used for testing the pressure resistance of the glass curtain wall, a pair of first extension springs 106 are connected between the telescopic frame 102 and the first sliding frame 104, and a pair of second extension springs 107 are connected between the second sliding frame 105 and the telescopic frame 102.

When the cylinder 72 contracts, the fixing strip 73 drives the second sliding rod 101 and the upper device thereof to move towards the direction close to the upper guide frame 21, when the impact block 86 impacts the glass curtain wall, the first sliding frame 104 and the second sliding frame 105 can be in contact with the glass curtain wall, the cylinder 72 continues to contract, the second sliding rod 101 and the upper device thereof continue to move towards the direction close to the upper guide frame 21, through the rebound effect of the compressed first return spring 103, the first sliding frame 104 and the second sliding frame 105 can apply pressure to the glass curtain wall, and the pressure resistance of the glass curtain wall is detected by the first sliding frame 104 and the second sliding frame 105. Then, the cylinder 72 is controlled to extend, the fixing bar 73 drives the second sliding rod 101 and the device thereon to move away from the upper guide frame 21, so that the first sliding frame 104 and the second sliding frame 105 are separated from the glass curtain wall, and the compressed first return spring 103 is reset to drive the expansion frame 102 and the device thereon to reset. The staff observes whether glass curtain wall takes place deformation or cracked, does not take place deformation when glass curtain wall and shows that it is qualified promptly, takes place deformation or cracked promptly when glass curtain wall and shows that it is unqualified promptly.

Example 4

In addition to embodiment 3, as shown in fig. 19, 20 and 21, the glass curtain wall pressure testing device further comprises a second conversion mechanism 11, the first fixing frame 81 is provided with the second conversion mechanism 11, the second conversion mechanism 11 is used for testing the pressure resistance of the glass curtain wall in an expanded range, the second conversion mechanism 11 comprises a wedge-shaped frame 111, the sliding block 92 is fixedly connected with two wedge-shaped frames 111, the first fixing frame 81 is connected with two pairs of V-shaped frames 112 in a sliding mode, the V-shaped frames 112 are used for pushing the first sliding frame 104 and the second sliding frame 105 to move relatively, the V-shaped frames 112 are fixedly connected with second return springs 113, one ends of the second return springs 113 are fixedly connected with the first fixing frame 81, one end of each V-shaped frame 112 is welded with a connecting frame 114, the connecting frames 114 are in contact with the wedge-shaped frames 111, and the wedge-shaped frames 111 are used for pushing the connecting frames 114 and the V-shaped frames 112 to move oppositely.

When the sliding block 92 moves towards the direction close to the upper guide frame 21, the sliding block 92 drives the wedge frame 111 to move towards the direction close to the upper guide frame 21, the wedge frame 111 pushes the connecting frame 114 and the V-shaped frame 112 to move towards each other, the second sliding rod 101 and the device thereon continue to move towards the direction close to the upper guide frame 21, the V-shaped frame 112 pushes the first sliding frame 104 and the second sliding frame 105 to move towards each other, the first sliding frame 104 and the second sliding frame 105 can apply pressure to the glass curtain wall within a wide range, and the pressure resistance of the glass curtain wall can be detected by the first sliding frame 104 and the second sliding frame 105 within a wide range. When the sliding block 92 moves away from the upper guide frame 21, the sliding block 92 drives the wedge frame 111 to move away from the upper guide frame 21, the wedge frame 111 is separated from the connecting frame 114, and the stretched second return spring 113 returns to drive the V-shaped frame 112 to move and return relatively.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a be suitable for arc glass curtain wall detection device of different radians, including supporting direction platform (1), characterized by: comprises the following steps:

the glass curtain wall supporting device comprises a placing frame (2), wherein the placing frame (2) is fixedly arranged below a supporting guide table (1), the placing frame (2) is used for placing a glass curtain wall, and an upper guide frame (21) is fixedly arranged on the supporting guide table (1);

the guide frame (3) supports the guide table (1) and is fixedly provided with two guide frames (3);

the sliding plate (4), the sliding plate (4) is connected to the guide frame (3) in a sliding manner, and the guide frame (3) is used for guiding the sliding plate (4);

the soft plates (5) are connected with the two sliding plates (4) in a co-rotating mode, the soft plates (5) are connected with the supporting guide table (1) in a sliding mode, the soft plates (5) are in contact with the placing frame (2), the soft plates (5) can be attached to glass curtain walls with different radians, and the soft plates (5) are used for guiding the glass curtain walls with different radians;

the hard blocks (6) are fixedly connected with the three hard blocks (6) in the soft board (5) in a uniformly-arranged mode, and the hard blocks (6) are used for blocking the glass curtain wall so as to be convenient for testing;

the sliding plate (4) is provided with a rotating mechanism (7), and the rotating mechanism (7) is used for transmitting power for striking the glass curtain wall;

the impact testing mechanism (8) is arranged on one side of each of the two sliding plates (4) together, and the impact testing mechanism (8) is used for testing the impact resistance of the glass curtain wall under the operation of the rotating mechanism (7);

the clamping mechanisms (12) are symmetrically arranged on the upper guide frame (21), and the clamping mechanisms (12) are used for clamping and fixing the glass curtain wall.

2. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 1, wherein: the rotating mechanism (7) comprises a fixed guide table (71), an air cylinder (72), a fixed strip (73), a first rotating wheel (74), a sliding block (75), a second rotating wheel (76), a telescopic belt (77), a gear (78), a rack (79) and a guide wheel (710), the top surface of an upper sliding plate (4) is fixedly connected with the fixed guide table (71), the bottom surface of a lower sliding plate (4) is also fixedly connected with the fixed guide table (71), the air cylinder (72) is fixedly installed on the impact testing mechanism (8), the fixed strip (73) is welded at one end of a telescopic shaft of the air cylinder (72), the first rotating wheel (74) is rotatably connected with the center of the fixed guide table (71), the sliding block (75) is symmetrically and slidably connected on the fixed guide table (71), the top of the sliding block (75) is rotatably connected with the second rotating wheel (76), the telescopic belt (77) is wound between the two second rotating wheels (76) on the same side, two leading wheels (710) are walked around to flexible belt (77) inboard, and flexible belt (77) are extrudeed to two leading wheels (710), and flexible belt (77) and first runner (74) contact, and the welding of the first runner (74) bottom in below has gear (78), and the same rigid coupling in first runner (74) top in top has gear (78), and the rigid coupling has two racks (79) on fixed strip (73), and same horizontal rack (79) and gear (78) intermeshing.

3. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 2, wherein: the impact testing mechanism (8) comprises a first fixing frame (81), a fixing rod (82), a guide block (83), a second fixing frame (84), a first sliding rod (85), an impact block (86), a first reset spring (87), an H-shaped frame (88), a blocking piece (89), a rotating strip (811), a torsion spring (812) and a round rod (813), wherein the first fixing frame (81) is welded on one side of each of two sliding plates (4) together, an air cylinder (72) is fixedly installed in the middle of the first fixing frame (81), the fixing rod (82) is fixedly connected to a second rotating wheel (76), the fixing rod (82) is fixedly connected to the first rotating wheel (74) in the same way, one end of the fixing rod (82) is fixedly connected with the guide block (83), the second fixing frame (84) is welded on the front side of the hard block (6), the first sliding rod (85) is connected to the second fixing frame (84) in a sliding way, and the two first sliding rods (85) are connected to the first fixing frame (81) in the same way, the rear end of the first sliding rod (85) is welded with an impact block (86), one side of the impact block (86) is fixedly connected with a first return spring (87), one end of each of three pairs of first reset springs (87) is connected with the second fixing frame (84), one end of each of the other two first reset springs (87) is connected with the first fixing frame (81), one end of each of the middle two first sliding rods (85) is fixedly connected with a round rod (813), the two round rods (813) are in limit connection with the middle two guide blocks (83), one end of each of the three first sliding rods (85) on the same side is jointly connected with an H-shaped frame (88), the H-shaped frame (88) is in limit connection with the rest guide blocks (83), a blocking piece (89) is fixedly connected in each guide block (83), a rotating strip (811) is rotatably connected in each guide block (83), the rotating strip (811) is in mutual contact with the blocking piece (89), and a pair of torsion springs (812) is connected between the rotating strip (811) and the guide blocks (83).

4. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 3, wherein: an arc-shaped sliding groove is formed in the guide block (83), and the arc-shaped sliding groove is used for guiding the H-shaped frame (88) and the round rod (813), so that the H-shaped frame (88) and the round rod (813) can move along a set track in the arc-shaped sliding groove of the guide block (83).

5. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 3, wherein: the clamping mechanism (12) comprises an L-shaped frame (121), a wedge block (122) and an extension spring (123), the L-shaped frame (121) is symmetrically and fixedly connected to the upper guide frame (21), the wedge block (122) is connected to the L-shaped frame (121) in a sliding mode, the wedge block (122) is in contact with the supporting guide table (1), and the extension spring (123) is connected between the wedge block (122) and the L-shaped frame (121).

6. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 5, wherein: the device is characterized by further comprising a first conversion mechanism (9), a first conversion mechanism (9) is arranged on the second fixing frame (84), the first conversion mechanism (9) comprises a guide strip (91), a sliding block (92), a second reset spring (93) and an elastic strip (94), the guide strip (91) is fixedly arranged on the second fixing frame (84), three guide strips (91) are fixedly connected on the first fixing frame (81) in the same way, the sliding block (92) is slidably connected on the impact block (86), three sliding blocks (92) are fixedly connected on the first fixing frame (81), two second reset springs (93) are connected on the sliding block (92), one ends of three pairs of second reset springs (93) are connected with the first fixing frame (81), one ends of the other second reset springs (93) are connected with the second fixing frame (84), the first sliding rod (85) penetrates through the sliding block (92), and the first reset spring (87) also penetrates through the sliding block (92), the sliding block (92) is fixedly connected with an elastic strip (94), and the elastic strip (94) is in limit connection with the guide strip (91).

7. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 6, wherein: the guide strip (91) is provided with a V-shaped sliding groove which is used for guiding the elastic strip (94) and can enable the elastic strip (94) to move on a set V-shaped track.

8. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 6, wherein: the pressure testing device also comprises a pressure testing mechanism (10), the fixed strip (73) is connected with two pressure testing mechanisms (10) in a sliding manner, each pressure testing mechanism (10) comprises a second slide bar (101), an expansion bracket (102), a first return spring (103), a first sliding frame (104), a second sliding frame (105), a first expansion spring (106) and a second expansion spring (107), the fixed strip (73) is connected with two second slide bars (101) in a sliding manner, the rear end of each second slide bar (101) is welded with the expansion bracket (102), the first return spring (103) is connected between the expansion bracket (102) and the fixed strip (73), the expansion bracket (102) is connected with the first sliding frame (104) in a sliding manner, the expansion bracket (102) is connected with the second sliding frame (105) in a sliding manner, the second sliding frame (105) is connected with the first sliding frame (104) in a sliding manner, a pair of first expansion springs (106) is connected between the expansion bracket (102) and the first sliding frame (104), a pair of second expansion springs (107) is connected between the second sliding frame (105) and the expansion frame (102).

9. The arc-shaped glass curtain wall detection device suitable for different radians as claimed in claim 8, wherein: the device is characterized by further comprising a second conversion mechanism (11), wherein the second conversion mechanism (11) is arranged on the first fixing frame (81), the second conversion mechanism (11) comprises wedge-shaped frames (111), V-shaped frames (112), second return springs (113) and connecting frames (114), the two wedge-shaped frames (111) are fixedly connected to the upper sliding block (92) and the lower sliding block (92) in the middle of the first fixing frame (81), the two pairs of V-shaped frames (112) are connected to the first fixing frame (81) in a sliding mode, the second return springs (113) are fixedly connected to the V-shaped frames (112), one ends of the second return springs (113) are fixedly connected to the first fixing frame (81), the connecting frames (114) are welded to one end of the V-shaped frames (112), and the connecting frames (114) are in contact with the wedge-shaped frames (111).

10. The utility model provides a be suitable for detection method of arc glass curtain wall detection device of different radians, characterized by: the method also comprises the following working steps:

s1: fixing the glass curtain wall: the glass curtain wall to be detected is pushed by a worker towards the direction close to the fixing strip (73), the glass curtain wall can push the wedge block (122) to move relatively, and then the wedge block (122) moves oppositely to clamp and fix the glass curtain wall through the reset action of the extension spring (123);

s2: and (3) impact resistance detection of the glass curtain wall: by controlling the contraction of the air cylinder (72), the air cylinder (72) contracts to drive the fixing strip (73) and the rack (79) to move towards the direction close to the upper guide frame (21), the rack (79) transmits power to all parts, so that the impact block (86) impacts the glass curtain wall to detect the impact strength of the glass curtain wall, if the glass curtain wall is not crushed by the impact block (86), the glass curtain wall is qualified, and if the glass curtain wall is crushed by the impact block (86), the glass curtain wall is unqualified;

s3: increasing the impact surface: when the impact block (86) moves towards the direction close to the upper guide frame (21) to impact the glass curtain wall, the compressed second return spring (93) returns to drive the sliding block (92) to move towards the direction close to the upper guide frame (21), so that the sliding block (92) and the impact block (86) impact the glass curtain wall together, and the area of the glass curtain wall impacted is increased;

s4: and (3) detecting the compressive capacity: the cylinder (72) continues to contract, the second sliding rod (101) and the upper device thereof continue to move towards the direction close to the upper guide frame (21), the first sliding frame (104) and the second sliding frame (105) exert pressure on the glass curtain wall through the action of the first return spring (103), and the first sliding frame (104) and the second sliding frame (105) detect the pressure resistance of the glass curtain wall;

s5: increasing the pressurizing range: the sliding block (92) can drive the wedge-shaped frame (111) to move towards the direction close to the upper guide frame (21), the wedge-shaped frame (111) can push the connecting frame (114) and the V-shaped frame (112) to move oppositely, so that the V-shaped frame (112) can push the first sliding frame (104) and the second sliding frame (105) to move oppositely, and the first sliding frame (104) and the second sliding frame (105) can apply pressure to the glass curtain wall within a wider range;

s6: and (3) secondary detection: if the glass curtain wall is not broken by the impact block (86), the cylinder (72) is controlled to contract after being extended, the operation is repeated, the impact block (86) performs secondary impact on the glass curtain wall, so that the glass impact strength is secondarily detected, the elastic strip (94) can be clamped by the guide strip (91), and when the impact block (86) moves towards the direction close to the upper guide frame (21) again, the sliding block (92) cannot impact the glass curtain wall together with the impact block (86).

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