CN115077465A - Device and method for detecting flatness of external wall insulation board - Google Patents

Abstract

The invention relates to the technical field of flatness detection, in particular to a flatness detection device and a flatness detection method for an external wall insulation board, which comprise two fixed stations, wherein the opposite surfaces of the two fixed stations are respectively provided with lug plates which are arranged in a matrix manner, a conveying shaft is rotatably connected between the two lug plates which correspond to each other from top to bottom, the two conveying shafts along the length direction of the fixed stations are in transmission connection through conveying belts which are symmetrically arranged from top to bottom, and the outer ring surfaces of the two conveying belts are jointly hinged with connecting rods which are uniformly arranged along the side surfaces of the two conveying belts; when the flatness detection is carried out on the outer wall insulation board, the outer wall insulation board is fixed by adopting the clamping component to fix the side edge of the outer wall insulation board, so that two detection end surfaces of the outer wall insulation board are both in a suspended state, the problem that the flatness detection result of the other end surface is influenced because one end surface of the outer wall insulation board is in contact with the fixing structure in the detection process is solved, and the detection efficiency is improved.

Description

Device and method for detecting flatness of external wall insulation board

Technical Field

The invention relates to the technical field of flatness detection, in particular to a device and a method for detecting the flatness of an external wall insulation board.

Background

The outer wall insulation board is also called as a horizontal line building outer wall decoration integrated board, is formed by compounding polymer mortar, glass fiber gridding cloth, flame-retardant molded polystyrene foam board (EPS) or extruded sheet (XPS) and other materials, has the functions of fire prevention, heat insulation, oxidation resistance, light weight, heat insulation, sound insulation and the like, and is used for an outer wall body, so that the inspection of the surface flatness of the outer wall insulation board after production is an important index.

At present when carrying out the roughness to external wall insulation board and detecting, hug closely one of them terminal surface and fixed knot structure with external wall insulation board to fix it, then carry out the roughness to another terminal surface of external wall insulation board and detect, but such detection mode has following problem: 1. when carrying out the roughness when detecting to the outer wall heated board, the terminal surface unevenness that outer wall heated board and fixed knot structure hugged closely easily causes the influence to the roughness testing result of the detection terminal surface of outer wall heated board, leads to the unsafe problem of testing result.

2. The roughness of the terminal surface of being connected of external wall insulation board and wall body, the roughness that keeps away from the terminal surface of wall body with external wall insulation board all causes certain influence to external wall insulation board's use, consequently need all detect external wall insulation board's two-sided when detecting, and at present when detecting external wall insulation board, can only detect external wall insulation board's single face at every turn, has reduced external wall insulation board's detection efficiency.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme that the flatness detection device for the external wall insulation board comprises two fixed stations, wherein the two opposite surfaces of the two fixed stations are respectively provided with lug plates which are arranged in a matrix manner, conveying shafts are rotatably connected between the two lug plates which correspond to each other from top to bottom, the two conveying shafts along the length direction of the fixed stations are in transmission connection through conveying belts which are symmetrically arranged from top to bottom, the outer ring surfaces of the two conveying belts are jointly hinged with connecting rods which are uniformly arranged along the side surfaces of the two conveying belts, clamping components are arranged on the connecting rods, and an insulation board is arranged between the two corresponding clamping components.

The clamping component comprises a support frame arranged on the connecting rod and far away from the outer end face of the conveying belt, an extrusion groove is formed in the top of the support frame, a supporting plate is arranged in the extrusion groove through an extrusion spring, a rotating groove is formed in the bottom of the supporting plate, supporting rollers which are uniformly distributed along the length direction of the supporting plate are rotatably connected in the rotating groove, T-shaped plates for supporting the heat-insulating plate are arranged at the lower end of the support frame, the heat-insulating plate is placed on the two corresponding T-shaped plates, lug seats are respectively arranged at the two sides of the lower end of the support frame along the length direction of the lower end of the support frame, the two lug seats are respectively arranged at the two sides of the supporting plate, the end face, far away from the heat-insulating plate, of each lug seat is rotatably connected with a shifting shaft in a rotating mode, a pushing head is fixedly sleeved on each shifting shaft, a baffle plate is rotatably connected to the end face, close to the heat-insulating plate, the tops of the baffle plates and the top of the supporting plates are arc faces inclined towards the heat-insulating plate, and rotating grooves are formed in the baffle plates, the gear ring is installed in the rotating groove, a driven gear meshed with the gear ring is installed on the ear seat through a driving shaft fixedly connected, the poking shaft penetrates through the ear seat and then penetrates into the rotating groove, the main gear is fixedly sleeved and arranged in the rotating groove, the main gear is in meshed transmission with the driven gear, and a torsion spring is installed between the baffle and the rotating cylinder.

Two the opposite face of fixed station all sets up the last spout along its length direction symmetrical arrangement, go up and install L shape branch on the spout, two L shape branches of arranging along fixed station length direction are located the both sides of support frame, and lie in the heated board and install the roughness detector with the top of two L shape branches of one side jointly, the terminal surface that the heated board was kept away from to the roughness detector installs the alarm, pi shape pole is installed respectively at the both ends of roughness detector, pi shape pole's bottom horizontal segment is connected with L shape branch, pi shape pole's vertical section top is for with supporting pusher matched with arc structure.

One of them the mount table is close to the terminal surface of heated board and installs the installation pole along its length direction symmetrical arrangement, and two installation poles are located the both sides of one of them transport axle respectively, and the bottom of installation pole is located the top of propping solid board, and the installation pole is located one of them side of two roughness detectors, and the guide holder is installed to the one end bottom that the mount table was kept away from to the installation pole, and two guide holders cooperate and place the direction to the heated board.

The end surfaces of the two fixed tables close to the guide seat are both provided with a fixed plate, a rotating shaft is rotatably connected between the two fixed plates and between the two fixed tables, the two rotating shafts are in transmission connection through feeding belts which are uniformly distributed along the axial direction of the rotating shafts, the lower end of the end surface of the support frame far away from the insulation board is provided with an L-shaped frame, the L-shaped frame is connected with a T-shaped plate through a squeezing spring, the T-shaped plate is in sliding connection with the support frame, the T-shaped plate is provided with a squeezing seat along the end surface of the insulation board far away from the guide seat in the detection moving direction of the insulation board, the end surface of the squeezing seat near the insulation board is an inclined plane which is inclined downwards, the opposite surfaces of the two fixed tables are both provided with lower chutes, lower pressing plates are slidably connected on the lower chutes, the end surfaces of the lower pressing plates far away from the fixed tables are provided with connecting upright rods, the end surfaces of the connecting upright rods far away from the fixed tables are sequentially provided with a lower pressing frame and a T-shaped pressing plate from the top to the bottom of the vertical section of the T-shaped pressing plates, the ball is positioned above the inclined plane of the extruding and pushing seat, the lower pressing frame is of an L-shaped structure, and the bottom of the lower pressing frame is provided with a guard plate.

Two the common cover is equipped with the anti-falling plate of symmetrical arrangement between the rotation axis, and a plurality of pay-off areas all lie in two and prevent between the falling plate, prevent that falling plate and fixed station pass through fixed block fixed connection.

The axial length of the roller is larger than the thickness of the middle layer of the heat insulation plate.

Two the opposite face of fixed station all sets up the smooth groove that pushes away of longitudinal symmetry arrangement, slide and push away the one side that the guide holder was kept away from to the trench in the fixed station, slide and push away inslot sliding connection has the push rod, the bottom that is located the push rod of upside is located the top of supporting solid board top, the top that is located the push rod of downside is located the support frame below, the opposite face of two corresponding push rods on two fixed stations is rotated through the supporting seat and is connected with rotatory push pedal, be located and install the torsional spring between rotatory push pedal of downside and the supporting seat, it carries out spacing blend stop to install the pairing rotation push pedal on the supporting seat, the blend stop is located one side that the fixed station terminal surface was kept away from to rotatory push pedal, the fixed station is kept away from the terminal surface of fixed plate and is installed the accepting frame, all rotate between two accepting frames and be connected with the unloading axle between two fixed stations, connect through the unloading belt transmission between two unloading axles, the unloading area is located the below of heated board.

Sponge washers are arranged on the outer ring surfaces of the feeding belt and the discharging belt.

In addition, the invention also provides a method for detecting the flatness of the external wall insulation board, which comprises the following steps: s1, placing and conveying: insert the solid board of propping between the both sides conveyer belt with the heated board from the top down, it is tight to offset with the T shaped plate until the bottom of heated board, and the bottom lateral wall of baffle and heated board this moment is hugged closely, then carries the removal through conveyer belt drive heated board.

S2, movement detection: when the insulation board moves to a position between the two flatness detectors and stops intermittently, the external driving sliding block is started to drive the L-shaped supporting rod to move upwards, so that the flatness detectors detect the insulation board, the flatness values of the flatness detectors do not meet the standard, the alarm gives an alarm, and the conveying belt drives the insulation board to move continuously after detection is completed.

S3, pushing down waste materials: when the heated board removes the intermittent type and stops, unqualified heated board of roughness detected value is located down under the pressure frame, thereby it drives the T shaped plate to remove to the direction of keeping away from the heated board to make the extrusion seat drive T shaped plate through ball extrusion seat support when then T shape clamp plate downstream, until the T shaped plate no longer supports the heated board, this moment holding down frame and heated board contact, the heated board is along supporting the roller downstream under the condition of no holding power simultaneously, drop to the pay-off belt until the heated board, the pay-off belt carries the recovery with unqualified heated board of roughness detected value.

S4, taking materials: when the heated board intermittent type stopped, will start the outside mobile device (if remove electronic slider) that is connected with the push rod, outside mobile device drives the push rod and removes, and the push rod promotes rotatory push pedal extrusion heated board, and the baffle of the corresponding one side of heated board extrusion overturns, drops to the unloading area from the T shaped plate until the heated board.

The invention has the beneficial effects that: 1. according to the device and the method for detecting the flatness of the external wall insulation board, when the flatness of the external wall insulation board is detected, the external wall insulation board is fixed in a mode that the clamping and fixing assembly is used for fixing the side edge of the external wall insulation board, so that two detection end surfaces of the external wall insulation board are both in a suspended state, the problem that the flatness detection result of the other end surface is influenced due to the fact that one end surface of the external wall insulation board is in contact with a fixing structure in the detection process is solved, the detection accuracy of the external wall insulation board is improved, meanwhile, the two surfaces of the insulation board can be detected through fixing the side wall of the insulation board, the single surface of the external wall insulation board can be detected, the detection range of the external wall insulation board is enlarged, and the detection efficiency is improved.

2. The T-shaped plate moves to extrude the extruding and pushing spring to contract until the T-shaped plate does not support the heat-insulating plate any more, the lower pressing frame is in contact with the heat-insulating plate at the moment, the heat-insulating plate moves downwards along the supporting roller under the condition of no supporting force, and the baffle guides the heat-insulating plate at the moment, so that the heat-insulating plate vertically drops, and the heat-insulating plate is prevented from being inclined to influence the fixation of other heat-insulating plates when falling.

3. According to the invention, the axial length of the supporting roller is greater than the thickness of the middle layer of the heat-insulation board, so that the middle layer (sponge layer) of the heat-insulation board is prevented from being extruded and damaged when the supporting roller supports and fastens the heat-insulation board.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of a first perspective structure of the present invention (excluding a sponge gasket).

Fig. 2 is a schematic view of a second perspective structure of the present invention (excluding a sponge gasket).

Fig. 3 is a schematic view of the present invention in partial section and perspective (excluding sponge washers).

Fig. 4 is an enlarged view of the invention at a in fig. 3.

Fig. 5 is a schematic structural diagram of the baffle, the gear ring, the driving shaft, the driven gear and the main gear.

FIG. 6 is a schematic perspective view of the support frame, the support plate, the lower press plate, the connecting upright rod, the lower press frame and the T-shaped press plate of the present invention.

Fig. 7 is a top view of the present invention.

Fig. 8 is an enlarged view of a portion of the invention at B in fig. 7.

FIG. 9 is a schematic cross-sectional view of the clamping assembly of the present invention.

FIG. 10 is a schematic view of the structure of the rotary shaft, the feed belt and the sponge washer of the present invention.

In the figure: 1. a fixed table; 10. an upper chute; 11. an L-shaped strut; 12. a flatness detector; 13. an alarm; 14. an n-shaped lever; 2. a delivery shaft; 20. mounting a rod; 21. a guide seat; 3. a conveyor belt; 30. a fixing plate; 31. a rotating shaft; 32. a feed belt; 33. an L-shaped frame; 34. pushing the spring; 35. a pushing seat; 36. a lower chute; 37. a lower pressing plate; 38. connecting the vertical rods; 39. pressing down the frame; 301. a T-shaped pressure plate; 302. a guard plate; 310. a falling prevention plate; 4. a connecting rod; 5. a clamping component; 50. a support frame; 51. a support plate; 52. a compression spring; 53. a roller is abutted; 54. a T-shaped plate; 55. an ear mount; 56. a shifting shaft; 57. pushing the head; 58. a baffle plate; 59. a ring gear; 501. driving a shaft; 502. a driven gear; 503. a main gear; 6. a thermal insulation board; 60. sliding and pushing the groove; 61. a push rod; 62. rotating the push plate; 63. blocking strips; 64. a receiving frame; 65. and (5) discharging the material belt.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1, an outer wall insulation board roughness detection device, including two fixed stations 1, two the otic placode that is the matrix and arranges is all installed to the opposite face of fixed station 1, rotates between two upper and lower corresponding otic placodes and is connected with and carries axle 2, carry through the transmission of conveyer belt 3 of longitudinal symmetry arrangement between axle 2 along two of fixed station 1 length direction and connect, the outer anchor ring of two conveyer belts 3 articulates jointly has along its side connecting rod 4 of evenly arranging, install the solid subassembly 5 of card on connecting rod 4, heated board 6 has been placed between two corresponding solid subassemblies 5 of card.

Referring to fig. 2, 4, 5, 7 and 9, the clamping and fixing assembly 5 includes a support frame 50 installed on the connecting rod 4 far away from the outer end face of the conveying belt 3, an extrusion groove is formed in the top of the support frame 50, a fixing plate 51 is installed in the extrusion groove through an extrusion spring 52, a rotation groove is formed in the bottom of the fixing plate 51, the fixing roller 53 uniformly arranged along the length direction of the fixing plate 51 is rotatably connected in the rotation groove, a T-shaped plate 54 for supporting the heat-insulating plate 6 is installed at the lower end of the support frame 50, the heat-insulating plate 6 is placed on the two corresponding T-shaped plates 54, ear seats 55 are installed at both sides of the lower end of the support frame 50 along the length direction, the two ear seats 55 are respectively located at both sides of the fixing plate 51, a shifting shaft 56 is rotatably connected to the end face of the ear seat 55 far away from the heat-insulating plate 6, a pushing head 57 is fixedly installed on the shifting shaft 56, the end face of the ear seat 55 close to the heat-insulating plate 6 is rotatably connected with a baffle plate 58 through a rotation cylinder, the top of baffle 58 and the top of propping solid board 51 are the arcwall face to heated board 6 slope, have seted up the rotation groove on the baffle 58, rotate the inslot and install ring gear 59, install driven gear 502 with ring gear 59 looks meshing through fixed connection's drive axle 501 on the ear seat 55, dial axis 56 penetrates after ear seat 55 and penetrates the rotation inslot fixed cover and is equipped with main gear 503, main gear 503 and driven gear 502 meshing transmission, install the torsional spring between baffle 58 and the rotating cylinder.

The bottom of one conveying shaft 2 of the two conveying shafts 2 on each fixing table 1 is connected with an external driving device (such as a conveying motor) for driving the conveying shaft 2 to rotate intermittently, when the external driving device drives the conveying shaft 2 to stop intermittently, the heat insulation board 6 is inserted into the abutting plates 51 between the conveying belts 3 on the two sides from top to bottom, when the heat insulation board 6 is inserted downwards, the abutting plates 51 on the two sides are extruded to slide towards the moving groove, the abutting plates 51 push the extrusion springs 52 to contract, the abutting rollers 53 roll when the heat insulation board 6 is inserted downwards, so that the friction force between the heat insulation board 6 and the abutting plates 51 in the moving process is reduced, until the bottom of the heat insulation board 6 abuts against the T-shaped plate 54, at the moment, the baffle 58 is tightly attached to the side wall of the bottom of the heat insulation board 6, the heat insulation board 6 is fixed under the abutting limiting action of the abutting plates 51 on the two sides, and the side surface of the heat insulation board 6 is limited, prevent that heated board 6 from putting fixed in-process production slope inserting, lead to heated board 6's roughness to detect unsafe problem, fix through the lateral wall to heated board 6 simultaneously, can carry out the detection of two-sided or single face to heated board 6, when having avoided heated board 6 when detecting one of them terminal surface and fixed knot structure end face contaction, because of the roughness of its terminal surface is lower and influence the problem of the roughness testing result of heated board 6 another terminal surface.

Referring to fig. 3, the axial length of the roller 53 is greater than the thickness of the middle layer of the insulation board 6, so that the roller 53 is prevented from extruding and damaging the middle layer (sponge layer) of the insulation board 6 when the insulation board 6 is fastened.

Referring to fig. 3 and 4, two upper chutes 10 symmetrically arranged along the length direction are formed in opposite surfaces of the fixing table 1, the upper chutes 10 are provided with L-shaped supporting rods 11, the two L-shaped supporting rods 11 arranged along the length direction of the fixing table 1 are located on two sides of the supporting frame 50, the two L-shaped supporting rods 11 located on the same side of the heat insulation board 6 are provided with a flatness detector 12 at the top, an alarm 13 is installed on the end surface, away from the heat insulation board 6, of the flatness detector 12, pi-shaped rods 14 are installed at two ends of the flatness detector 12 respectively, a bottom horizontal segment of the pi-shaped rod 14 is connected with the L-shaped supporting rods 11, and the top of a vertical segment of the pi-shaped rod 14 is of an arc structure matched with the abutting pushing head 57.

An external driving slider (such as a detection electric slider) for driving the L-shaped supporting rod 11 to move is arranged between the L-shaped supporting rod 11 and the upper chute 10, after the heat insulation plate 6 is placed and fixed, the heat insulation plate 6 is driven by the conveying belt 3 to move towards the flatness detector 12, when the intermittent movement of the heat insulation plate 6 stops, the heat insulation plate 6 is just positioned between the two flatness detectors 12, then the external driving slider is started to drive the L-shaped supporting rod 11 to move upwards, the L-shaped supporting rod 11 drives the n-shaped rod 14 to move upwards in the upward movement process, when the n-shaped rod 14 moves upwards and is tightly abutted against the abutting head 57, the n-shaped rod 14 continues to move upwards to push the abutting head 57 and the shifting shaft 56 to rotate, the shifting shaft 56 drives the main gear 503 to rotate in the rotating process, the main gear 503 drives the driven gear 502 to rotate through the meshing with the driven gear 502, and the driven gear 502 drives the baffle 58 to rotate towards the shifting shaft 56 in the opposite rotating direction through the meshing with the gear ring 59 in the rotating process, thereby it stops not carrying on spacingly to heated board 6, later L shape branch 11 drives pi shape pole 14 and roughness detector 12 and continues the rebound, roughness detector 12 detects the roughness of heated board 6, if the roughness detected value of heated board 6 has surpassed normal range value in the in-process that detects, then alarm 13 sends out the police dispatch newspaper, the staff just knows and carries out corresponding processing after this heated board 6's the unqualified roughness value, do not carry out the roughness through heated board 6 side with the mode of other structure contact to heated board 6 and detect, make the roughness of heated board 6 detect more accurately.

Referring to fig. 2, the end face, close to the heat insulation board 6, of one of the fixed tables 1 is provided with mounting rods 20 symmetrically arranged along the length direction of the fixed table, the two mounting rods 20 are respectively located on two sides of one of the conveying shafts 2, the bottom of the mounting rod 20 is located above the abutting plate 51, the mounting rod 20 is located on one of the two flatness detectors 12, the bottom of one end, far away from the fixed table 1, of the mounting rod 20 is provided with a guide seat 21, and the two guide seats 21 are matched to guide the heat insulation board 6.

Guide holder 21 is close to one of them one end of conveyer belt 3, inserts heated board 6 from between two guide holders 21 and puts downwards, guarantees placing that heated board 6 can be accurate on T shaped plate 54, produces the skew when preventing that heated board 6 from placing.

Referring to fig. 6, 7 and 8, the fixing plates 30 are respectively installed on the end surfaces of the two fixing stations 1 close to the guide seat 21, the rotating shafts 31 are respectively rotatably connected between the two fixing plates 30 and between the two fixing stations 1, the two rotating shafts 31 are in transmission connection through the feeding belts 32 uniformly arranged along the axial direction of the rotating shafts, the lower end of the end surface of the supporting frame 50 far away from the insulation board 6 is provided with an L-shaped frame 33, the L-shaped frame 33 is connected with a T-shaped plate 54 through a pushing spring 34, the T-shaped plate 54 is in sliding connection with the supporting frame 50, the end surface of the T-shaped plate 54 far away from the guide seat 21 along the detection moving direction of the insulation board 6 is provided with a pushing seat 35, the end surface of the pushing seat 35 close to the insulation board 6 is an inclined surface inclined downwards, the opposite surfaces of the two fixing stations 1 are respectively provided with a lower chute 36, the lower pressing plate 37 is slidably connected on the lower pressing plate 37, and a connecting upright rod 38 is installed on the end surface of the lower pressing plate 37 far away from the fixing station 1, the end face of the connecting vertical rod 38 far away from the fixed table 1 is sequentially provided with a lower pressing frame 39 and a T-shaped pressing plate 301 from top to bottom, the bottom of the vertical section of the T-shaped pressing plate 301 is connected with a ball in a rolling manner, the ball is located above the inclined plane of the extrusion seat 35, the lower pressing frame 39 is of an L-shaped structure, and the bottom of the lower pressing frame 39 is provided with a guard plate 302.

The lower pressing frame 39 and the T-shaped pressing plate 301 are respectively located on one side of the back of the two conveying belts 3 to prevent the conveying belts 3 from influencing the normal conveying of the insulation board 6, after the alarm 13 gives an alarm, the flatness detector 12 is driven by the external driving slider to move downwards, then the conveying belts 3 drive the insulation board 6 to move intermittently in the direction away from the guide seat 21, when the movement of the insulation board 6 stops intermittently, the insulation board 6 with unqualified flatness detection value is located under the lower pressing frame 39, then the external electric slider connected with the lower pressing plate 37 is started, the external electric slider drives the T-shaped pressing plate 301 and the lower pressing frame 39 to move downwards, when the T-shaped pressing plate 301 moves downwards, the ball pushing seat 35 is pressed to enable the pushing seat 35 to drive the T-shaped plate 54 to move in the direction away from the insulation board 6, the T-shaped plate 54 pushes the pushing spring 34 to shrink until the T-shaped plate 54 no longer supports the insulation board 6, this time pushing down frame 39 pushes down heated board 6 downstream with heated board 6 contact, support tightly with 36 bottoms of gliding chute until pushing down board 37, heated board 6 moves down along supporting roller 53 under the circumstances of no holding power simultaneously, baffle 58 leads heated board 6 this moment, make heated board 6 drop perpendicularly downwards, take place the fixed of slope influence other heated boards 6 when preventing heated board 6 whereabouts, drop to pay-off area 32 until heated board 6, pay-off area 32 carries the recovery with the unqualified heated board 6 of roughness detected value, when being located heated board 6 roughness value under pushing down frame 39 qualified, the out-of-work of external drive electric sliding block, conveyer belt 3 continues to carry the qualified heated board 6 of roughness value.

Referring to fig. 7, two the common cover is equipped with falling prevention plate 310 of symmetrical arrangement between rotation axis 31, and a plurality of pay-off belts 32 all are located between two falling prevention plate 310, and falling prevention plate 310 passes through fixed block fixed connection with fixed station 1, and falling prevention plate 310 is used for preventing the problem that the unqualified heated board 6 of the roughness detected value of whereabouts drops at the marginal influence pay-off belt 32 of pay-off belt 32 and removes.

Referring to fig. 1 and 2, the opposite surfaces of the two fixing tables 1 are respectively provided with sliding push grooves 60 which are symmetrically arranged up and down, the sliding push grooves 60 are located on one side of the fixing tables 1 far away from the guide seat 21, push rods 61 are slidably connected in the sliding push grooves 60, the bottoms of the push rods 61 located on the upper side are located above the tops of the fixing support plates 51, the tops of the push rods 61 located on the lower side are located below the support frame 50, the opposite surfaces of the two corresponding push rods 61 on the two fixing tables 1 are rotatably connected with rotary push plates 62 through support seats, torsion springs are installed between the rotary push plates 62 located on the lower side and the support seats, retaining strips 63 for limiting the rotary push plates 62 are installed on the support seats, the retaining strips 63 are located on one side of the rotary push plates 62 far away from the end surfaces of the fixing tables 1, bearing frames 64 are installed on the end surfaces of the fixing tables 1 far away from the fixing plate 30, and blanking shafts are rotatably connected between the two bearing frames 64 and between the two fixing tables 1, two unloading axles are connected through unloading area 65 transmission, and unloading area 65 is located the below of heated board 6.

When the qualified heated board 6 of roughness value removes, heated board 6 promotes rotatory push pedal 62 and rotates, so that heated board 6 continues to remove, when heated board 6 intermittent type stops, the outside mobile device (if remove electronic slider) that is connected with push rod 61 will start, outside mobile device drives push rod 61 and removes, push rod 61 promotes rotatory push pedal 62 extrusion heated board 6, baffle 58 of heated board 6 extrusion corresponding one side overturns, drop to unloading area 65 on from T shaped plate 54 until heated board 6, unloading area 65 carries heated board 6, then baffle 58 resets under the effect of torsional spring.

Referring to fig. 10, sponge washers are mounted on the outer circumferential surfaces of the feeding belt 32 and the discharging belt 65, and protect the heat-insulating plate 6.

In addition, the invention also provides a method for detecting the flatness of the external wall insulation board, which comprises the following steps: s1, placing and conveying: insert the solid board 51 of support between the both sides conveyer belt 3 with heated board 6 from the top down, until the bottom of heated board 6 offsets tightly with T shaped plate 54, baffle 58 hugs closely with the bottom lateral wall of heated board 6 this moment, then drives heated board 6 through conveyer belt 3 and carries the removal.

S2, movement detection: when the insulation board 6 moves to a position between the two flatness detectors 12 and stops intermittently, the external driving sliding block is started to drive the L-shaped supporting rod 11 to move upwards, so that the flatness detectors 12 detect the insulation board 6, the flatness detectors 12 do not meet the standard, the alarm 13 gives an alarm, and the conveying belt 3 drives the insulation board 6 to move continuously after detection is completed.

S3, pushing down waste materials: when the insulation board 6 removes the intermittent type and stops, unqualified insulation board 6 of roughness measurement value is located under hold down 39, thereby it supports to press to make to push away seat 35 and drive T shaped plate 54 and remove to the direction of keeping away from insulation board 6 through ball extrusion seat 35 during T shape clamp plate 301 downstream, until T shaped plate 54 no longer supports insulation board 6, hold down 39 and insulation board 6 contact this moment, insulation board 6 moves down along supporting roller 53 under the condition of no holding power simultaneously, drop to pay-off area 32 until insulation board 6, pay-off area 32 carries the recovery with unqualified insulation board 6 of roughness measurement value.

S4, taking materials: when the insulation board 6 stops intermittently, the external mobile device (such as a mobile electric slider) connected with the push rod 61 is started, the external mobile device drives the push rod 61 to move, the push rod 61 pushes the rotary push plate 62 to extrude the insulation board 6, and the baffle 58 on the corresponding side extruded by the insulation board 6 overturns until the insulation board 6 drops to the blanking belt 65 from the T-shaped plate 54.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an outer wall insulation board roughness detection device which characterized in that: the heat-insulation plate fixing device comprises two fixing tables (1), wherein ear plates which are arranged in a matrix manner are arranged on opposite surfaces of the two fixing tables (1), conveying shafts (2) are rotatably connected between the two corresponding upper and lower ear plates, the two conveying shafts (2) along the length direction of the fixing tables (1) are in transmission connection through conveying belts (3) which are symmetrically arranged up and down, connecting rods (4) which are uniformly arranged along the side surfaces of the two conveying belts (3) are hinged to the outer ring surfaces of the two conveying belts (3) together, clamping components (5) are arranged on the connecting rods (4), and a heat-insulation plate (6) is arranged between the two corresponding clamping components (5);

the clamping and fixing component (5) comprises a support frame (50) which is arranged on a connecting rod (4) and is far away from the outer end face of the conveying belt (3), an extrusion groove is formed in the top of the support frame (50), a supporting plate (51) is installed in the extrusion groove through an extrusion spring (52), a rotating groove is formed in the bottom of the supporting plate (51), supporting rollers (53) which are uniformly distributed along the length direction of the supporting plate (51) are rotatably connected in the rotating groove, T-shaped plates (54) used for supporting the heat-insulating plate (6) are installed at the lower end of the support frame (50), the heat-insulating plate (6) is placed on the two corresponding T-shaped plates (54), lug seats (55) are installed at the lower end of the support frame (50) along the two sides of the length direction of the support frame, the two lug seats (55) are respectively located at the two sides of the supporting plate (51), and a shifting shaft (56) is rotatably connected to the end face, far away from the heat-insulating plate (6), of the lug seats (55), a pushing head (57) is fixedly sleeved on a shifting shaft (56), the end face, close to the heat insulation plate (6), of an ear seat (55) is rotatably connected with a baffle plate (58) through a rotating cylinder, the top of the baffle plate (58) and the top of a pushing plate (51) are arc-shaped faces inclined towards the heat insulation plate (6), a rotating groove is formed in the baffle plate (58), a gear ring (59) is installed in the rotating groove, a driven gear (502) meshed with the gear ring (59) is installed on the ear seat (55) through a fixedly connected driving shaft (501), the shifting shaft (56) penetrates through the ear seat (55) and then penetrates into the rotating groove, a main gear (503) is fixedly sleeved in the rotating groove, the main gear (503) is in meshing transmission with the driven gear (502), and a torsion spring is installed between the baffle plate (58) and the rotating cylinder;

two last spout (10) along its length direction symmetrical arrangement are all seted up to the opposite face of fixed station (1), install L shape branch (11) on going up spout (10), two L shape branch (11) of arranging along fixed station (1) length direction are located the both sides of support frame (50), and lie in heated board (6) and install roughness detector (12) jointly with the top of two L shape branch (11) of one side, the terminal surface that heated board (6) were kept away from in roughness detector (12) installs alarm (13), pi shape pole (14) are installed respectively to the both ends of roughness detector (12), the bottom horizontal segment of pi shape pole (14) is connected with L shape branch (11), the vertical section top of pi shape pole (14) is for with supporting and push away head (57) matched with arc structure.

2. The exterior wall insulation board flatness detection device of claim 1, characterized in that: one of them mount bar (20) of following its length direction symmetrical arrangement are installed to the terminal surface that fixed station (1) is close to heated board (6), and two mount bars (20) are located the both sides of one of them transport axle (2) respectively, and the bottom of mount bar (20) is located the top of propping solid board (51), and mount bar (20) are located one of them side of two roughness detectors (12), and guide holder (21) are installed to the one end bottom of fixed station (1) is kept away from in mount bar (20), and two guide holders (21) cooperate and place the direction to heated board (6).

3. The exterior wall insulation board flatness detection device of claim 2, characterized in that: the end faces, close to the guide seats (21), of the two fixing tables (1) are provided with fixing plates (30), the two fixing plates (30) are connected with each other in a rotating mode and the two fixing tables (1) in a rotating mode, the two rotating shafts (31) are connected with each other in a transmission mode through feeding belts (32) which are evenly distributed along the axial direction of the two rotating shafts, the lower end, far away from the heat insulation plate (6), of the end face of the support frame (50) is provided with an L-shaped frame (33), the L-shaped frame (33) is connected with a T-shaped plate (54) through a squeezing spring (34), the T-shaped plate (54) is connected with the support frame (50) in a sliding mode, the end face, far away from the guide seats (21), of the heat insulation plate (6) in the detection moving direction is provided with a squeezing seat (35), the end faces, close to the heat insulation plate (6), of the squeezing seat (35) are inclined faces which are inclined downward inclined faces, lower sliding grooves (36) are formed in opposite faces of the two fixing tables (1), sliding connection has holding down plate (37) on lower spout (36), holding down plate (37) are kept away from the terminal surface of fixed station (1) and are installed and connect pole setting (38), the terminal surface that fixed station (1) was kept away from in connection pole setting (38) is from the top down installed down pressure frame (39) and T shape clamp plate (301) in proper order, the vertical section bottom roll connection of T shape clamp plate (301) has the ball, the ball is located the top of pushing away seat (35) inclined plane, pressure frame (39) are L shape structure down, fender board (302) are installed to the bottom of pressure frame (39) down.

4. The exterior wall insulation board flatness detection device of claim 3, characterized in that: two the rotation axis (31) is overlapped jointly and is equipped with anti-falling plate (310) of symmetrical arrangement, and a plurality of pay-off area (32) all are located between two anti-falling plate (310), prevent falling plate (310) and fixed station (1) through fixed block fixed connection.

5. The exterior wall insulation board flatness detection device of claim 1, characterized in that: the axial length of the roller (53) is larger than the thickness of the middle layer of the heat insulation plate (6).

6. The exterior wall insulation board flatness detection device of claim 3, characterized in that: the opposite surfaces of the two fixed tables (1) are respectively provided with sliding push grooves (60) which are symmetrically arranged up and down, the sliding push grooves (60) are positioned on one side of the fixed tables (1) far away from the guide seat (21), push rods (61) are connected in the sliding push grooves (60) in a sliding manner, the bottoms of the push rods (61) positioned on the upper side are positioned above the tops of the abutting plates (51), the tops of the push rods (61) positioned on the lower side are positioned below the support frame (50), the opposite surfaces of the two corresponding push rods (61) on the two fixed tables (1) are rotatably connected with rotary push plates (62) through the support seats, torsion springs are arranged between the rotary push plates (62) positioned on the lower side and the support seats, the support seats are provided with stop strips (63) for limiting the rotary push plates (62), the stop strips (63) are positioned on one side of the rotary push plates (62) far away from the end surfaces of the fixed tables (1), and the end surfaces of the fixed tables (1) far away from the fixed plates (30) are provided with bearing frames (64), the two receiving frames (64) and the two fixing tables (1) are connected with the discharging shafts in a rotating mode, the two discharging shafts are connected through the discharging belt (65) in a transmission mode, and the discharging belt (65) is located below the heat insulation plate (6).

7. The exterior wall insulation board flatness detection device of claim 6, characterized in that: sponge washers are arranged on the outer ring surfaces of the feeding belt (32) and the discharging belt (65).

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