CN117538252A - Tensile check out test set of exterior wall insulation board - Google Patents

Abstract

The invention provides an external wall insulation board stretching detection device, and relates to the technical field of insulation board stretching detection. An exterior wall insulation board stretching detection device, comprising: the first support frame is erected on a horizontal plane; the clamping mechanism is used for vertically fixing the heat-insulating plate to be detected; the storage shell is used for storing the adhesive for detecting the heat insulation board, and a discharge hole for outputting the adhesive is formed in the side wall of the storage shell; the detection mechanism is used for driving the storage shell to move close to the heat-insulating plate, outputting the adhesive in the storage shell to the heat-insulating plate through the discharge hole, driving the clamping mechanism to loosen the heat-insulating plate, and stretching the heat-insulating plate along the thickness direction of the heat-insulating plate; and the driving mechanism is used for driving the detection mechanism to move along the thickness direction of the insulation board. The invention has the effects of reducing the steps required by detecting the heat insulation board and improving the detection precision of the tensile force of the heat insulation board.

Description

Tensile check out test set of exterior wall insulation board

Technical Field

The invention relates to the technical field of insulation board stretching detection, in particular to an outer wall insulation board stretching detection device.

Background

The external wall heat-insulating board is a material for external wall heat insulation, and is usually made of polystyrene, polyurethane or rock wool and other materials. The heat loss of the outer wall of the building can be effectively reduced, the heat insulation performance of the building is improved, the energy consumption is reduced, and the indoor comfort level is improved. The external wall heat insulation board also has the functions of water resistance, moisture resistance, fire resistance and the like, and can effectively prolong the service life of a building. The heated board needs to be connected a plurality of heated board through sticky mode when production, needs to use intensity detection device to detect the adhesion strength between two adjacent heated boards after the heated board adhesion.

If the bulletin number is CN217786865U, the subject name is a Chinese patent of building external wall insulation bonding strength detection device, an operator firstly smears an adhesive on a replacement board and then bonds the adhesive with the insulation board, then cuts out the insulation board with the same area as the replacement board along the edge of the replacement board, the cut insulation board is integrally separated from the insulation board, a rotating thread cylinder drives a monitoring main body to move close to the insulation board, a detection main body controls an output shaft of a servo motor to drive a gear to rotate, the gear drives a tension sensor through a toothed bar, and the separation bonding strength of the insulation board and a wall surface is displayed.

To above-mentioned related art, need manual the smearing adhesive when detecting the heated board, the cutting heated board, thereby then follow thickness direction pulling heated board detects the adhesion strength between two adjacent heated boards, this process operation is complicated, and manual the smearing adhesive is difficult to control the adhesive and evenly cover and change the board surface, be unfavorable for changing board and heated board to paste smoothly and abundant, when heated board local structure bonds infirm, local structure and check out can produce the tilting phenomenon when heated board is stretched, thereby cause adverse effect to the detection of heated board inside adhesion force.

Disclosure of Invention

In view of the above, the invention provides the external wall insulation board stretching detection equipment, which reduces the steps required for detecting the insulation board, utilizes a mechanical mechanism to replace manual work to coat the adhesive on the insulation board, is favorable for the insulation board to be pasted smoothly and sufficiently, and can improve the detection precision of the tensile force of the insulation board.

In order to solve the technical problems, the invention provides an external wall insulation board stretching detection device, which comprises a first support frame, a second support frame and a stretching detection device, wherein the first support frame is vertically arranged on a horizontal plane; the clamping mechanism is arranged on the top wall of the first support frame and is used for vertically fixing the heat-insulating plate to be detected; the storage shell is connected to the top wall of the first support frame in a sliding manner, is arranged on two sides of the thickness direction of the heat insulation plate and is used for storing and detecting the adhesive for the heat insulation plate, and a discharge hole for outputting the adhesive is formed in the side wall of the storage shell; the detection mechanism is arranged on one side of the storage shell and is used for driving the storage shell to move close to the heat-insulating plate, meanwhile, the adhesive in the storage shell is output to the heat-insulating plate through the discharge hole, the clamping mechanism can be driven to loosen the heat-insulating plate, and then the detection mechanism stretches the heat-insulating plate along the thickness direction of the heat-insulating plate; the driving mechanism is arranged below the first supporting frame and used for driving the detection mechanism to move along the thickness direction of the insulation board.

Through adopting above-mentioned technical scheme, erect the heated board on first support frame roof, fixture fixes the heated board. The driving mechanism is started, so that the detection mechanism drives the two storage shells to move along the mutual approaching direction to abut against the heat insulation board, and meanwhile, the detection mechanism extrudes the storage shells to output the adhesive through the discharge hole. The storage shell is close to the heat-insulating plate, the adhesive can contact the heat-insulating plate, and the storage shell drives the fixing mechanism to loosen the heat-insulating plate. After the adhesive bonds firmly the outer side wall of the heat-insulating plate, the detection mechanism drives the two storage shells to move along the mutual away direction, and stretches the heat-insulating plate along the thickness direction, so that the bonding strength of the inside of the heat-insulating plate is detected.

The clamping mechanism is used for fixing the heat-insulating plate, so that the movement of the heat-insulating plate relative to the detection mechanism is reduced, and the adhesive is smoothly distributed on the outer side wall of the heat-insulating plate. The detection mechanism can enable glue inside the storage shell to be output when the storage shell is driven to move close to the heat-insulating plate, the process of smearing the glue on the outer side wall of the heat-insulating plate is omitted, steps required for detecting the heat-insulating plate are reduced, the mechanical mechanism replaces manual work to coat the adhesive on the heat-insulating plate, the heat-insulating plate is smoothly and fully adhered, and accordingly detection accuracy of tensile force of the heat-insulating plate can be improved.

Optionally, the actuating mechanism includes the rotation source, rotation source fixed mounting is in on the first support frame diapire, rotation source fixedly connected with drive screw, the transmission screw of rotation source both sides revolves to opposite, the drive screw meshing has the drive plate, drive plate slip cap be equipped with first support frame level fixed connection's guide bar, drive plate lateral wall fixedly connected with drive the actuating lever that detection mechanism removed.

Optionally, fixture includes fixed connection be in the supporting seat of first support frame roof, the supporting seat is provided with two and perpendicular to heated board thickness direction sets up in the heated board both sides, every supporting seat lateral wall fixedly connected with bracing piece and gag lever post, the bracing piece with the common sliding connection of gag lever post has the clamping lever, the clamping lever slides and passes first support frame, the cover is equipped with on the gag lever post and is used for the drive the clamping spring that the clamping lever is close to the heated board and removes, supporting seat horizontal sliding connection has first connecting rod, first connecting rod with it has first transfer line to articulate between the clamping lever, first connecting rod is kept away from first transfer line one end articulates there is the second connecting rod, is located two between the second connecting rod of heated board both sides articulates jointly has the material board, material board with supporting seat sliding connection.

Optionally, the detection mechanism includes a second support frame, two second support frames are provided and arranged at two sides of the thickness direction of the heat insulation plate, each second support frame is slidably sleeved on one driving rod, the second support frames are slidably connected with the first support frame through the guide rods, an inductor for displaying stretching force is fixedly arranged on the inner side walls of the second support frames, a linear driver is fixedly arranged in the second support frames, the second support frames are fixedly connected with the storage shell, a limiting pipe is slidably connected in the second support frames, one end of the limiting pipe, which is close to the storage shell, is fixedly connected with a discharging plate, the discharging plate is close to the storage shell, glue can be output through the discharging hole, a plurality of limiting grooves are axially formed in the inner side walls of the limiting pipes, a second transmission rod is slidably arranged in the limiting pipe, limiting pins capable of being meshed with the limiting grooves are fixedly connected with the second transmission rod along the radial direction, two limiting pins are arranged, a limiting spring is fixedly connected between the two limiting pins, and the limiting pins are fixedly connected with the limiting pins, and the limiting pins can be driven by the driving springs to move under the driving of the storage shell;

the discharging plate top be provided with second support frame fixed connection's dead lever, a plurality of fixed slots have been seted up along the axial to the dead lever, the vertical sliding connection of discharging plate roof has first slide bar, first slide bar with the fixed slot cooperation can restrict the discharging plate is kept away from the storage casing removes, first slide bar cover is equipped with extrusion spring, extrusion spring can drive first slide bar removes the entering the fixed slot.

Optionally, the outside slip cap of storage casing is equipped with and supports the material frame, storage casing lateral wall sliding connection has the locking pin, the locking pin passes support the material frame restriction support the removal of material frame, the locking pin is kept away from support material frame one end fixedly connected with driving rope, the driving rope is kept away from locking pin one end fixedly connected with locking plate, the locking plate slip cap is established on the actuating lever, actuating lever lateral wall fixed cover is equipped with the locking ring, the locking ring with locking plate lateral wall butt, the actuating lever passes through the locking ring can drive the locking plate is kept away from the heated board and is removed.

Optionally, the storage casing is kept away from discharge plate one end lateral wall can dismantle and be connected with the change board, it is in to change the board setting support the material frame inside, change the board and seted up the defeated material hole that enables glue and pass through.

Optionally, the vertical fixedly connected with second slide bar of material board bottom wall is supported, the locking groove has been seted up to second slide bar lateral wall, the cover is equipped with second reset spring on the second slide bar, horizontal movement is connected with the locking lever in the locking groove, the locking lever is used for limiting the second slide bar upwards moves, locking lever lateral wall cover is equipped with and is used for limiting the second slide bar shifts out the locking spring of locking groove.

In summary, compared with the prior art, the invention has at least one of the following beneficial technical effects:

1. the clamping mechanism is used for fixing the heat-insulating plate, so that the movement of the heat-insulating plate relative to the detection mechanism is reduced, and the adhesive is smoothly distributed on the outer side wall of the heat-insulating plate. The detection mechanism can enable glue inside the storage shell to be output when the storage shell is driven to move close to the heat-insulating plate, the process of smearing the glue on the outer side wall of the heat-insulating plate is omitted, the steps required for detecting the heat-insulating plate are reduced, the detection efficiency of the heat-insulating plate is improved, the mechanical mechanism replaces manual operation to coat the adhesive on the heat-insulating plate, the heat-insulating plate is smooth and full to be adhered, and accordingly the detection precision of the tensile force of the heat-insulating plate can be improved.

2. The clamping rods can reduce the deflection of the insulation board relative to the storage shell before the storage shell is bonded with the insulation board, and the uniformity of the distribution of the adhesive on the outer surface of the insulation board is improved. The clamping rod clamps the heat-insulating plate, and simultaneously, the clamping rod drives the material-supporting plate to move upwards, so that the heat-insulating plate can move upwards when being fixed, and the material-supporting frame can support the heat-insulating plate. When the material supporting frame moves close to the heat insulation plate, the clamping rod and the material supporting plate can be driven by the first connecting rod to separate from the heat insulation plate, so that the interference of the clamping rod and the material supporting plate to the detection of the heat insulation plate is reduced.

3. When the limiting surface enables the second transmission rod to move close to the storage shell each time, the second transmission rod can drive the discharge plate to extrude the storage plate to output the adhesive, meanwhile, the discharge plate drives the first sliding rod to move, when the second transmission rod is far away from the storage shell, the discharge plate can keep static under the action of the fixing surface, when the amount of the adhesive in the storage shell changes due to use, the second transmission rod can output the same amount of adhesive every time when the second transmission rod moves, and therefore the amount of the adhesive coated on the insulation plate each time can be effectively controlled, and the full adhesion of the adhesive to the insulation plate is facilitated.

Drawings

FIG. 1 is an isometric view of an embodiment of the invention;

FIG. 2 is a cross-sectional view of an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of the area A of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram showing a structure of a clamping mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic diagram showing the structure of a second sliding rod according to the embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of region B of FIG. 2, showing an embodiment of the present invention;

FIG. 7 is a partial enlarged view showing region C of FIG. 2 in accordance with an embodiment of the present invention;

FIG. 8 is a cross-sectional view showing the internal structure of a paint housing according to an embodiment of the present invention;

FIG. 9 is a schematic diagram showing the mechanism of the locking ring and the locking plate according to the embodiment of the invention.

Reference numerals illustrate: 1. a first support frame; 2. a clamping mechanism; 21. a support base; 22. a support rod; 23. a limit rod; 24. a clamping rod; 25. a clamping spring; 26. a first link; 27. a first transmission rod; 28. a second link; 29. a material supporting plate; 3. a thermal insulation board; 4. a storage shell; 41. a discharge port; 42. replacing the plate; 421. a material conveying hole; 43. an adhesive plate; 44. a storage plate; 5. a detection mechanism; 51. a second support frame; 511. an inductor; 52. a linear driver; 53. a limiting tube; 531. a limit groove; 532. a limiting surface; 533. a first guide surface; 54. a discharge plate; 55. a second transmission rod; 56. a limiting pin; 561. a limit spring; 57. a fixed rod; 571. a fixing groove; 572. a fixing surface; 573. a second guide surface; 58. a first slide bar; 59. extruding a spring; 6. a driving mechanism; 61. a rotating source; 62. a drive screw; 63. a drive plate; 64. a guide rod; 65. a driving rod; 651. a locking ring; 7. a material supporting frame; 71. a locking pin; 72. a driving rope; 8. a locking plate; 9. a second slide bar; 91. a locking groove; 92. a second return spring; 93. a locking lever; 94. and a locking spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 9 of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the invention, fall within the scope of protection of the invention.

The embodiment provides an external wall insulation board stretching detection device, referring to fig. 1 and 2, an external wall insulation board 3 stretching detection device comprises a first support frame 1, wherein the first support frame 1 is erected on a horizontal plane. The top wall of the first support frame 1 is provided with a clamping mechanism 2, and the clamping mechanism 2 is used for vertically fixing an insulation board 3 to be detected. The top wall sliding connection of the first support frame 1 is provided with a storage shell 4, the storage shell 4 is provided with two, and the two storage shells 4 are arranged on two sides of the thickness direction of the heat insulation plate 3 and are used for storing and detecting adhesives for the heat insulation plate 3.

Referring to fig. 1 and 2, the storage housing 4 includes an adhesive plate 43 and a storage plate 44, the storage housing 4 is close to the adhesive plate 43 with hard material on one end side wall of the insulation board 3, the adhesive plate 43 is provided with a discharge hole 41 for discharging the adhesive, the storage housing 4 is perpendicular to the storage plate 44 with flexible material on the side wall of the adhesive plate 43, and the storage plate 44 is extruded to discharge the adhesive. The outside slip cap of storage casing 4 is equipped with and supports material frame 7, and when glue contacted heated board 3, support material frame 7 butt heated board 3 diapire supported heated board 3. The storage casing 4 is kept away from heated board 3 one side and is provided with detection mechanism 5, and detection mechanism 5 is used for driving storage casing 4 to be close to heated board 3 and removes, makes the adhesive in the storage casing 4 export to heated board 3 through discharge gate 41 simultaneously to can drive fixture 2 pine take off heated board 3, then detection mechanism 5 is along the tensile heated board 3 of heated board 3 thickness direction. A driving mechanism 6 is arranged below the first supporting frame 1, and the driving mechanism 6 is used for driving the detection mechanism 5 to move along the thickness direction of the heat insulation plate 3.

The heat-insulating plate 3 is erected on the top wall of the first supporting frame 1, and the heat-insulating plate 3 is fixed by the clamping mechanism 2. The driving mechanism 6 is started, so that the detecting mechanism 5 drives the two storage shells 4 to move along the mutual approaching direction to abut against the heat insulation board 3, and meanwhile, the detecting mechanism 5 extrudes the storage shells 4 and outputs the adhesive through the discharge hole 41. The storage shell 4 is close to the heat-insulating plate 3, the adhesive can contact the heat-insulating plate 3, and the storage shell 4 drives the fixing mechanism to loosen the heat-insulating plate 3. After the outer side walls of the heat-insulating plates 3 are firmly bonded by the adhesive, the detection mechanism 5 drives the two storage shells 4 to move along the mutual away direction, and the heat-insulating plates 3 are stretched along the thickness direction, so that the bonding strength of the inside of the heat-insulating plates 3 is detected.

The clamping mechanism 2 is used for fixing the heat-insulating plate 3, so that the movement of the heat-insulating plate 3 relative to the detection mechanism 5 is reduced, and the adhesive is smoothly distributed on the outer side wall of the heat-insulating plate 3. The detection mechanism 5 can make the inside glue of storage casing 4 be exported when the drive storage casing 4 is close to heated board 3 and removes, has omitted the process of scribbling glue to heated board 3 lateral wall, has reduced the required step of detection heated board 3, and mechanical mechanism replaces the manual work to coat the adhesive on heated board 3, is favorable to heated board 3 to be pasted smoothly and abundant to can improve the detection precision to heated board 3 tensile.

Referring to fig. 1 and 2, the driving mechanism 6 includes a rotation source 61, the rotation source 61 is fixedly mounted on the bottom wall of the first support frame 1, the rotation source 61 is fixedly connected with a transmission screw 62, the transmission screw 62 passes through the rotation source 61, and the rotation directions of threads on the transmission screws 62 on both sides of the rotation source 61 are opposite. The two ends of the screw threads with opposite rotation directions are respectively meshed with a transmission plate 63, the transmission plate 63 is sleeved with a guide rod 64 which is horizontally and fixedly connected with the first support frame 1 in a sliding manner, and the side wall of the transmission plate 63 is fixedly connected with a driving rod 65 which drives the detection mechanism 5 to move. The rotation source 61 rotates forward to move the two drive plates 63 in the approaching direction to each other by the drive screw 62, and the rotation source 61 rotates backward to move the two drive plates 63 in the separating direction to each other.

Referring to fig. 3 and 4, the clamping mechanism 2 includes a support seat 21 fixedly connected to the top wall of the first support frame 1, and two support seats 21 are provided and are disposed on two sides of the insulation board 3 in the length direction. Each supporting seat 21 is fixedly connected with a supporting rod 22 and a limiting rod 23, the supporting rods 22 and the limiting rods 23 are connected with clamping rods 24 in a sliding mode, two clamping rods 24 are arranged, and the two clamping rods 24 are perpendicular to the thickness direction of the heat insulation plate 3 and are arranged on two sides of the heat insulation plate 3. The clamping bar 24 slides through the first support frame 1. The limiting rod 23 is sleeved with a clamping spring 25 for driving the clamping rod 24 to move close to the heat insulation plate 3, the supporting seat 21 is horizontally and slidably connected with a first connecting rod 26, a first transmission rod 27 is hinged between the first connecting rod 26 and the clamping rod 24, one end, away from the first transmission rod 27, of the first connecting rod 26 is hinged with a second connecting rod 28, two second connecting rods 28 located on two sides of the heat insulation plate 3 are jointly hinged with a material supporting plate 29, and the material supporting plate 29 is slidably connected with the supporting seat 21.

The clamping springs 25 drive the clamping rods 24 to move along the support rods 22 close to the heat insulation plate 3, so that the two clamping rods 24 fix the heat insulation plate 3. Simultaneously, the clamping rod 24 moves close to the first connecting rod 26, the clamping rod 24 drives the first transmission rod 27 to rotate positively, the first transmission rod 27 drives the first connecting rod 26 to move positively, the first connecting rod 26 drives the second connecting rod 28 to rotate positively, the second connecting rod 28 drives the material supporting plate 29 to move upwards, the material supporting plate 29 is higher than the top wall of the first supporting frame 1, and then when the material supporting frame 7 moves along with the storage shell 4 close to the heat insulation plate 3, interference between the inner bottom wall of the material supporting frame 7 and the heat insulation plate 3 is avoided, and the heat insulation plate 3 can enter the material supporting frame 7. When the material supporting frame 7 moves close to the heat insulation plate 3, the material supporting frame 7 abuts against the first connecting rod 26 and drives the first connecting rod 26 to move, and the first connecting rod 26 drives the clamping rod 24 to be separated from the heat insulation plate 3 through the first transmission rod 27. In addition, the first connecting rod 26 drives the second connecting rod 28 to rotate reversely, so that the material supporting plate 29 moves downwards to be separated from the heat insulation plate 3, and the material supporting plate 29 moves downwards to be lower than the top wall of the first supporting frame 1, thereby preventing the material supporting frame 7 from interfering with the material supporting plate 29.

The clamping rods 24 can reduce the deflection of the insulation board 3 relative to the storage shell 4 before the storage shell 4 is adhered to the insulation board 3, and the uniformity of the distribution of the adhesive on the outer surface of the insulation board 3 is improved. The clamping rods 24 clamp the heat-insulating plate 3, and meanwhile, the clamping rods 24 drive the material-supporting plate 29 to move upwards, so that the heat-insulating plate 3 can be fixed and simultaneously move upwards, and the material-supporting frame 7 can support the heat-insulating plate 3. When the material supporting frame 7 moves close to the heat insulation plate 3, the clamping rod 24 and the material supporting plate 29 can be driven to be separated from the heat insulation plate 3 through the first connecting rod 26, so that interference of the clamping rod 24 and the material supporting plate 29 on detection of the heat insulation plate 3 is reduced.

Referring to fig. 5, the bottom wall of the material supporting plate 29 is vertically and fixedly connected with a second sliding rod 9, a locking groove 91 is formed in the side wall of the second sliding rod 9, a second reset spring 92 is sleeved on the second sliding rod 9, a locking rod 93 is horizontally and dynamically connected in the locking groove 91, the locking rod 93 is used for limiting the upward movement of the second sliding rod 9, and a locking spring 94 used for limiting the movement of the second sliding rod 9 out of the locking groove 91 is sleeved on the side wall of the locking rod 93.

When the material-supporting plate 29 is located below the top wall of the first supporting frame 1, the locking groove 91 is opposite to the locking rod 93, the locking spring 94 drives the locking rod 93 to enter the locking groove 91, so that the second sliding rod 9 can be limited to move upwards, the material-supporting plate 29 is further limited to move upwards, at the moment, the material-supporting plate 29 is limited to rotate forwards by the second connecting rod 28, the two clamping rods 24 can be limited to move close to each other, and the heat-insulating plate 3 can be placed on the material-supporting plate 29. Pulling the locking bar 93 causes the locking bar 93 to disengage from the locking groove 91, at which time the clamping bars 24 are unlocked, and the clamping springs 25 can drive the two clamping bars 24 toward each other to move the clamping heat insulation board 3.

Referring to fig. 2 and 6, the detecting mechanism 5 includes second supporting frames 51 disposed at two sides of the thickness direction of the thermal insulation board 3, each second supporting frame 51 is slidably sleeved on one driving rod 65, the second supporting frame 51 is slidably connected with the first supporting frame 1 through a guiding rod 64, an inductor 511 for displaying the stretching force is fixedly mounted on the inner side wall of the second supporting frame 51, and a linear driver 52 is fixedly mounted inside the second supporting frame 51. The second support frame 51 is fixedly connected with the bonding plate 43, a limiting pipe 53 is slidably connected inside the second support frame 51, a discharging plate 54 is fixedly connected to one end, close to the storage shell 4, of the limiting pipe 53, and the discharging plate 54 moves close to the storage shell 4 and can squeeze the storage plate 44.

Referring to fig. 2 and 6, a plurality of limiting grooves 531 are axially formed in the inner side wall of the limiting tube 53, and the side wall of the limiting groove 531 is a vertically disposed limiting surface 532 and a first obliquely disposed guiding surface 533. The second transmission rod 55 is slidably arranged in the limit pipe 53 of the limit groove 531, the second transmission rod 55 is radially slidably connected with two limit pins 56 which can be meshed with the limit groove 531, and a limit spring 561 is fixedly connected between the two limit pins 56. The second transmission rod 55 can drive the limiting pipe 53 to move close to the storage shell 4 under the driving of the linear driver 52.

Referring to fig. 2 and 7, a fixing rod 57 fixedly connected to the second support frame 51 is disposed above the discharging plate 54, and a plurality of fixing grooves 571 are axially formed in the fixing rod 57, and the side walls of the fixing grooves 571 are a fixing surface 572 vertically disposed and a second guide surface 573 obliquely disposed. The vertical sliding connection of ejection of compact board 54 roof has first slide bar 58, and first slide bar 58 and fixed slot 571 cooperation can restrict ejection of compact board 54 and keep away from storage casing 4 and remove, and first slide bar 58 cover is equipped with extrusion spring 59, and extrusion spring 59 can drive first slide bar 58 and remove into fixed slot 571.

When the adhesive plate 43 moves to the heat-insulating plate 3, the linear driver 52 drives the second transmission rod 55 to move close to the storage shell 4, the limiting pin 56 and the second transmission rod 55 synchronously move, the limiting pin 56 abuts against the limiting surface 532 to drive the limiting pipe 53 to move close to the storage shell 4, and the limiting pipe 53 drives the discharging plate 54 to move to squeeze the storage plate 44, so that the adhesive in the storage shell 4 is squeezed out. The discharging plate 54 drives the first slide bar 58 to move, the second guiding surface 573 does not limit the first slide bar 58 to move, and the fixing surface 572 limits the first slide bar 58 to move away from the insulation board 3. The linear driver 52 drives the second transmission rod 55 to move away from the storage shell 4 for resetting, and at this time, the second transmission rod 55 abuts against the first guide surface 533 which is obliquely arranged, so that the second transmission rod 55 does not drive the limiting pipe 53 and the discharging plate 54 to move.

The limiting surface 532 makes the second transfer line 55 be close to the storage casing 4 at every turn and removes, and the second transfer line 55 homoenergetic drives the flitch 54 and extrudes the storage board 44 and export the adhesive, and the flitch 54 drives first slide bar 58 simultaneously and removes, when making second transfer line 55 keep stationary under the effect of fixed surface 572 when keeping away from storage casing 4, makes the quantity of adhesive in the storage casing 4 when changing because of the use, and the equal distance of second transfer line 55 removal per time, storage casing 4 homoenergetic output equal quantity of adhesive, can effectively control the quantity of each time coated adhesive on the heated board 3 from this, be favorable to the abundant bonding of adhesive to the heated board 3.

Referring to fig. 8 and 9, a locking pin 71 is slidably connected to the side wall of the storage housing 4, and the locking pin 71 passes through the material supporting frame 7 to restrict movement of the material supporting frame 7. The locking pin 71 is kept away from and is supported material frame 7 one end fixedly connected with driving rope 72, and driving rope 72 is kept away from locking pin 71 one end fixedly connected with locking plate 8, and locking plate 8 slip cap is established on actuating lever 65, and actuating lever 65 lateral wall fixed cover is equipped with locking ring 651, locking ring 651 and locking plate 8 lateral wall butt, and actuating lever 65 can drive locking plate 8 and keep away from the heated board 3 through locking ring 651 and remove. The inductor 511 is arranged between the second support frame 51 and the locking plate 8, when the driving rod 65 moves away from the heat insulation plate 3, the driving rod 65 drives the second support frame 51 to move away from the heat insulation plate 3, the second support frame 51 pulls the heat insulation plate 3 through the adhesive plate 43, the adhesiveness of the inside of the heat insulation plate 3 is detected, and the locking plate 8 extrudes the inductor 511 to display stretching force. Meanwhile, the driving rod 65 drives the locking plate 8 to move away from the heat insulation plate 3 through the locking ring 651, the locking plate 8 drives the locking pin 71 to move towards the inside of the material supporting frame 7 through the driving rope 72, the locking pin 71 is separated from the material supporting frame 7, and at the moment, the material supporting frame 7 is unlocked, so that the material supporting frame 7 can be moved to be separated from the material storage shell 4.

Referring to fig. 2 and 8, a replacement plate 42 is detachably connected to a side wall of one end of the storage housing 4 away from the discharging plate 54, the replacement plate 42 is slidably connected to the bonding plate 43, and when the material supporting frame 7 is removed, the replacement plate 42 can be moved and replaced. The replacement plate 42 is arranged inside the material supporting frame 7, and the replacement plate 42 is provided with a material conveying hole 421 through which glue can pass.

The embodiment of the invention provides an implementation principle of stretching detection equipment for an outer wall insulation board 3, which comprises the following steps: the insulation board 3 is erected on the material supporting plate 29, and the clamping rods 24 fix the insulation board 3. The rotation source 61 is started, so that the second support frame 51 drives the two storage shells 4 to move along the mutual approaching direction to abut against the heat insulation board 3, and meanwhile, the discharging plate 54 extrudes the storage shells 4, and the adhesive is output through the discharging hole 41. The storage shell 4 is close to the heat-insulating plate 3, the adhesive can contact the heat-insulating plate 3, and the storage shell 4 drives the fixing mechanism to loosen the heat-insulating plate 3. After the outer side walls of the heat-insulating plate 3 are firmly bonded by the adhesive, the rotation source 61 drives the two storage shells 4 to move along the mutual away direction, and the heat-insulating plate 3 is stretched along the thickness direction, so that the bonding strength of the inside of the heat-insulating plate 3 is detected.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

The foregoing is a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention and are intended to be comprehended within the scope of the present invention.

Claims (7)

1. An exterior wall insulation board stretching detection device, characterized by comprising:

a first support (1) standing on a horizontal plane;

the clamping mechanism (2) is arranged on the top wall of the first support frame (1) and is used for vertically fixing the heat-insulating plate (3) to be detected;

the storage shell (4) is connected to the top wall of the first support frame (1) in a sliding manner, the storage shell (4) is arranged on two sides of the insulation board (3) in the thickness direction and is used for storing and detecting the adhesive for the insulation board (3), and a discharge hole (41) for outputting the adhesive is formed in the side wall of the storage shell (4);

the detection mechanism (5) is arranged on one side of the storage shell (4) and is used for driving the storage shell (4) to move close to the heat insulation plate (3), meanwhile, the adhesive in the storage shell (4) is output to the heat insulation plate (3) through the discharge hole (41), the clamping mechanism (2) can be driven to loosen the heat insulation plate (3), and then the detection mechanism (5) stretches the heat insulation plate (3) along the thickness direction of the heat insulation plate (3);

the driving mechanism (6) is arranged below the first supporting frame (1) and is used for driving the detection mechanism (5) to move along the thickness direction of the heat insulation plate (3).

2. The exterior wall insulation board stretching detection device according to claim 1, wherein: the driving mechanism (6) comprises a rotating source (61), the rotating source (61) is fixedly arranged on the bottom wall of the first supporting frame (1), the rotating source (61) is fixedly connected with a transmission screw (62), threads on two sides of the rotating source (61) are opposite in rotation direction, the transmission screw (62) is meshed with a transmission plate (63), the transmission plate (63) is slidably sleeved with a guide rod (64) which is fixedly connected with the first supporting frame (1) horizontally, and the side wall of the transmission plate (63) is fixedly connected with a driving rod (65) which drives the detection mechanism (5) to move.

3. The exterior wall insulation board stretching detection device according to claim 2, wherein: the clamping mechanism (2) comprises supporting seats (21) fixedly connected to the top wall of the first supporting frame (1), the supporting seats (21) are provided with two clamping springs (25) which are perpendicular to the thickness direction of the heat-insulating plate (3), each supporting seat is fixedly connected with supporting rods (22) and limiting rods (23) on the side walls of the supporting seats (21), the supporting rods (22) are connected with clamping rods (24) in a sliding mode jointly, the clamping rods (24) penetrate through the first supporting frame (1) in a sliding mode, the limiting rods (23) are sleeved with first connecting rods (26) which are used for driving the clamping rods (24) to move close to the heat-insulating plate (3), first connecting rods (26) are hinged to the two sides of the clamping rods (24), one ends of the first connecting rods (26) are hinged to second connecting rods (28), and two second connecting rods (28) located on the two sides of the heat-insulating plate (3) are hinged to the supporting seats (29) in a sliding mode.

4. The exterior wall insulation board stretching detection device according to claim 3, wherein: the detection mechanism (5) comprises second support frames (51), the second support frames (51) are provided with two guide rods (64) and are arranged on two sides of the thickness direction of the heat insulation plate (3), each second support frame (51) is slidably sleeved on one driving rod (65), the second support frames (51) are slidably connected with the first support frames (1) through the guide rods (64), an inductor (511) for displaying stretching force is fixedly arranged on the inner side walls of the second support frames (51), a linear driver (52) is fixedly arranged in each second support frame (51), each second support frame (51) is fixedly connected with the corresponding storage shell (4), a limiting pipe (53) is slidably connected in each second support frame (51), a discharging plate (54) is fixedly connected with one end of each limiting pipe (53) close to the corresponding storage shell (4), glue can be output through the corresponding discharging holes (41), a limiting pin (55) is axially arranged on each limiting pipe (53) and is slidably connected with the corresponding limiting pin (55) along the corresponding second limiting pin (55), a limiting spring (561) is fixedly connected between the two limiting pins (56), and the second transmission rod (55) can drive the limiting pipe (53) to move close to the storage shell (4) under the driving of the linear driver (52);

the utility model discloses a storage device, including ejection of compact board (54), second support frame (51) fixed connection, ejection of compact board (54) top be provided with dead lever (57) of second support frame (51) fixed connection, a plurality of fixed slots (571) have been seted up along the axial to dead lever (57), ejection of compact board (54) roof vertical sliding connection has first slide bar (58), first slide bar (58) with fixed slot (571) cooperation can restrict ejection of compact board (54) are kept away from storage casing (4) removal, first slide bar (58) cover is equipped with extrusion spring (59), extrusion spring (59) can drive first slide bar (58) removal get into fixed slot (571).

5. The exterior wall insulation board stretching detection device according to claim 4, wherein: the utility model discloses a thermal insulation plate (3) is characterized in that a material frame (7) is arranged on the outside sliding sleeve of a material storage shell (4), a locking pin (71) is connected to the side wall of the material storage shell (4) in a sliding manner, the locking pin (71) penetrates through the material frame (7) to limit the movement of the material frame (7), the locking pin (71) is far away from a transmission rope (72) fixedly connected with one end of the material frame (7), the transmission rope (72) is far away from a locking plate (8) fixedly connected with one end of the locking pin (71), the locking plate (8) is arranged on a driving rod (65) in a sliding manner, a locking ring (651) is fixedly sleeved on the side wall of the driving rod (65), the locking ring (651) is in butt with the side wall of the locking plate (8), and the driving rod (65) can drive the locking plate (8) to move far away from the thermal insulation plate (3).

6. The exterior wall insulation board stretching detection device according to claim 5, wherein: the storage shell (4) is far away from a side wall at one end of the discharging plate (54) and is detachably connected with a replacement plate (42), the replacement plate (42) is arranged inside the material supporting frame (7), and a material conveying hole (421) capable of enabling glue to pass through is formed in the replacement plate (42).

7. The exterior wall insulation board stretching detection device according to claim 3, wherein: the vertical fixedly connected with second slide bar (9) of material board (29) diapire, locking groove (91) have been seted up to second slide bar (9) lateral wall, the cover is equipped with second reset spring (92) on second slide bar (9), horizontal movement is connected with locking pole (93) in locking groove (91), locking pole (93) are used for the restriction second slide bar (9) upward movement, locking pole (93) lateral wall cover is equipped with and is used for the restriction second slide bar (9) are shifted out locking spring (94) of locking groove (91).