CN111632868A

CN111632868A - Sampling detection device is used in energy-conserving building's heat preservation surface course furring brick production

Info

Publication number: CN111632868A
Application number: CN202010465302.1A
Authority: CN
Inventors: 曹坚霞
Original assignee: Individual
Current assignee: Hebei Xiong'an Zhonghaoke Testing Service Co ltd
Priority date: 2020-05-28
Filing date: 2020-05-28
Publication date: 2020-09-08
Anticipated expiration: 2040-05-28
Also published as: CN111632868B

Abstract

The invention discloses a sampling detection device for producing a heat-preservation surface layer furring brick of an energy-saving building, which comprises a frame body, a first conveying belt and a fan, wherein the first conveying belt is arranged inside the frame body, a first conveying roller is attached inside the first conveying belt, the right end of the first conveying roller penetrates through a vertical plate and is connected with a left end screw of a second conveying roller, the frame body is fixed at the bottom end of the vertical plate through a screw, the right end of the first conveying roller and the left end of the second conveying roller are connected with the vertical plate through bearings, the second conveying belt is attached to the outer side of the second conveying roller, the right end of the second conveying roller is connected with the frame body through a bearing, and supporting transverse plates are attached to the inner side walls of the upper ends of the second conveying belt and the first conveying. This energy-conserving building's heat preservation surface course furring brick production is with sampling detection device is provided with the second conveyer belt, does not need staff's transport heat preservation surface course furring brick one by one to carry out the sampling and detects labour saving and time saving.

Description

Sampling detection device is used in energy-conserving building's heat preservation surface course furring brick production

Technical Field

The invention relates to the technical field of production of heat-insulating surface layer furring bricks of energy-saving buildings, in particular to a sampling detection device for production of heat-insulating surface layer furring bricks of energy-saving buildings.

Background

The production of the heat-insulating surface layer furring brick of the energy-saving building refers to the general name of a series of activities involved in the production of the heat-insulating surface layer furring brick applied to the energy-saving building, the heat-insulating surface layer furring brick of the energy-saving building needs to use a detection device to detect the impact resistance of the heat-insulating surface layer furring brick in the production process, although the types of the detection devices on the market are many, some shortages exist, such as:

1. when sampling detection is needed, a worker needs to manually sample the heat-insulating surface layer furring brick, and then the heat-insulating surface layer furring brick is placed on the detection device for detection, so that the workload of the worker is increased, the joint detection work cannot be well carried out, and time and labor are wasted;

2. unqualified heat-insulating surface layer furring bricks cannot be removed well in the detection process, so that the qualified heat-insulating surface layer furring bricks and the unqualified heat-insulating surface layer furring bricks are positioned at the same position, and the analysis work of a detection structure in the later period is influenced;

therefore, we propose a sampling detection device for the production of the heat-insulating surface layer furring brick of the energy-saving building so as to solve the problems proposed in the above.

Disclosure of Invention

The invention aims to provide a sampling detection device for producing a heat-insulating surface layer furring brick of an energy-saving building, which is used for solving the problems that the traditional detection device for producing the heat-insulating surface layer furring brick of the energy-saving building in the market needs workers to manually sample the heat-insulating surface layer furring brick when sampling detection is needed, time and labor are wasted, qualified products and unqualified products are in one place, and the analysis work of a detection structure in the later period is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a sampling detection device for producing a heat-insulating surface layer facing brick of an energy-saving building comprises a frame body, a first conveying belt and a fan, wherein the first conveying belt is arranged in the frame body, a first conveying roller is arranged in the first conveying belt in a laminating manner, the right end of the first conveying roller penetrates through a vertical plate and is in screw connection with the left end of a second conveying roller, the frame body is fixed at the bottom end of the vertical plate through screws, the right end of the first conveying roller and the left end of the second conveying roller are respectively in bearing connection with the vertical plate, a second conveying belt is arranged in an outer side laminating manner, the right end of the second conveying roller is in bearing connection with the frame body, a supporting transverse plate is arranged in a laminating manner on the inner side wall of the upper end of the second conveying belt and the inner side wall of the upper end of the first conveying belt, the outer end of the supporting transverse plate, the upper part of the first conveying belt is provided with a mounting plate, the left end and the right end of the mounting plate are both connected with a frame body through screws, the inner bearing of the bottom surface of the mounting plate is connected with a second threaded rod, the right end of the second threaded rod penetrates through the mounting plate and the frame body, the outer side of the right end of the second threaded rod is connected with a second connecting rod through screws, the bottom end of the second connecting rod is fixed with a push frame through screws, the upper surface of the left end of the mounting plate is fixed with an impurity storage chamber through screws, the right end of the impurity storage chamber is connected with a fan through a conveying hose, the right end of the fan is connected with the conveying hose through a flange plate, a pressing plate is arranged above the left side of the push frame, the top end of the pressing plate is fixed with a first connecting rod through screws, the inner thread of the top end of the first connecting rod is, the rear side of the first conveying roller is provided with an installation rod, the rear side of the installation rod is provided with a transmission rod, and the right ends of the installation rod and the transmission rod are connected with a frame body bearing.

Preferably, a first limit groove is formed in the inner side wall of the right end of the frame body, the frame body is of a structure shaped like a Chinese character 'kou', and the front side face and the rear side face of the frame body are both of the structure shaped like a Chinese character 'kou'.

Preferably, the left-end outside key of the first conveying roller is connected with a first transmission gear, and the transverse center line of the first conveying roller is overlapped with the transverse center line of the mounting rod.

Preferably, a connecting plate is fixed to the top end of the vertical plate through screws, the connecting plate and the vertical plate form a T-shaped structure, and the highest point of the connecting plate and the highest points of the first conveying belt and the second conveying belt are on the same horizontal line.

Preferably, a second limiting groove is formed in the bottom surface of the mounting plate, and the mounting plate is arranged in an inverted U-shaped structure.

Preferably, the right end of the conveying hose is connected with the air suction cover through a flange plate, a push frame is arranged on the outer side of the air suction cover, a filter plate is arranged below the air suction cover, and the outer end of the filter plate is connected with the push frame through screws.

Preferably, a first limiting block is mounted on the inner screw of the right end of the first connecting rod, and a first limiting groove is clamped and slidably connected to the outer side of the right end of the first limiting block.

Preferably, the outside key-type of first threaded rod has first wire winding dish, and the outside winding screw of first wire winding dish is fixed with the connection rope to the top outside nestification of first threaded rod is provided with torsion spring, and torsion spring's bottom and framework main part screw connection simultaneously, and torsion spring's top and first threaded rod screw connection.

Preferably, the top outside fix with screw of second connecting rod has the second stopper, and the top outside block of second stopper is connected with the second spacing groove, the outside key-type connection of installation pole has the semi-gear.

Preferably, the outside key-type of transfer line has second drive gear, and the rear side of second drive gear is provided with the second rope winding dish to the inside key-type of second rope winding dish has the transfer line, and the outside winding screw of second rope winding dish is fixed with the connection rope simultaneously.

Compared with the prior art, the invention has the beneficial effects that: this sampling detection device is used in energy-conserving building's heat preservation surface course furring brick production:

(1) the second conveying belt is arranged and can convey the heat-preservation surface layer furring brick, the first conveying gear is driven to intermittently rotate through the half gear in the conveying process, so that the first conveying gear drives the first conveying roller and the second conveying roller to intermittently rotate, the second conveying roller drives the second conveying belt to intermittently move, the heat-preservation surface layer furring brick on the second conveying belt can be detected when the second conveying belt intermittently stops moving, sampling detection is convenient for the heat-preservation surface layer furring brick conveyed on the second conveying belt, the operation is convenient, the connection performance is better, workers do not need to carry the heat-preservation surface layer furring brick one by one for sampling detection, and time and labor are saved;

(2) a pushing frame is fixed, when unqualified heat preservation surface layer furring bricks are encountered, a worker switches on a servo motor connected with the right end of the second threaded rod through a coupler, so that the servo motor drives the second threaded rod to rotate, the second threaded rod drives a second connecting rod in external threaded connection to rotate, the second connecting rod drives the pushing frame to move, unqualified products on the second conveying belt are pushed onto the first conveying belt through a connecting plate, qualified products and unqualified products are separated and collected conveniently, and the sampling detection result is analyzed conveniently at the later stage;

(3) the air suction hood and the filter plate are fixed, and through the arrangement of the air suction hood, the conveying hose and the fan, the pushing frame can adsorb and collect the dust on the surface of the heat-preservation surface layer furring brick when pushing the unqualified heat-preservation surface layer furring brick, so that the generation of larger dust on the periphery in the pushing process is avoided, and meanwhile, the larger heat-preservation surface layer furring brick is blocked through the filter plate, so that the pushing frame can push the larger heat-preservation surface layer furring brick onto the first conveying belt;

(4) be fixed with second drive gear, when the tooth piece in the half gear outside and first drive gear separation, the second conveyer belt stops to carry work, when the tooth piece in the second drive gear outside and second drive gear mesh, make second drive gear drive the transfer line and rotate, it rotates to drive first threaded rod under the design of connecting the rope, make first threaded rod drive outside threaded connection's head rod when rotatory and descend, make the head rod drive the clamp plate of bottom to carry out the striking detection to the heat preservation surface course furring brick on the second conveyer belt, from this through the setting up of second drive gear and half gear make whole device linkage better, reduce the use of power supply, energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic main sectional view of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 4 is a schematic top view of the push frame and the press plate of the present invention;

FIG. 5 is a schematic right-view structural view of a second connecting rod according to the present invention;

FIG. 6 is a left side view of the frame body according to the present invention;

fig. 7 is a schematic top view of the transmission rod of the present invention.

In the figure: 1. a frame body; 101. a first limit groove; 2. a first conveyor belt; 3. a first conveying roller; 31. a first drive gear; 4. a vertical plate; 41. a connector tile; 5. a second conveyor belt; 6. a second conveying roller; 7. supporting the transverse plate; 8. mounting a plate; 81. a second limit groove; 9. a second threaded rod; 10. pushing the frame; 11. a trash storage chamber; 12. a fan; 13. a delivery hose; 14. a first connecting rod; 141. a first stopper; 15. pressing a plate; 16. a first threaded rod; 161. connecting ropes; 162. a first rope winding disc; 163. a torsion spring; 17. an air suction hood; 18. a filter plate; 19. a second connecting rod; 191. a second limiting block; 20. mounting a rod; 201. a half gear; 21. a transmission rod; 211. a second transmission gear; 212. a second reel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a sampling detection device for producing heat-insulating surface layer furring bricks of an energy-saving building comprises a frame body 1, a first limiting groove 101, a first conveying belt 2, a first conveying roller 3, a first transmission gear 31, a vertical plate 4, a connecting plate 41, a second conveying belt 5, a second conveying roller 6, a supporting transverse plate 7, a mounting plate 8, a second limiting groove 81, a second threaded rod 9, a push frame 10, an impurity storage chamber 11, a fan 12, a conveying hose 13, a first connecting rod 14, a first limiting block 141, a pressing plate 15, a first threaded rod 16, a connecting rope 161, a first rope winding disc 162, a torsion spring 163, an air suction cover 17, a filtering plate 18, a second connecting rod 19, a second limiting block 191, a mounting rod 20, a half gear 201, a transmission rod 21, a second transmission gear 211 and a second rope winding disc 212, wherein the first conveying belt 2 is arranged inside the frame body 1, and the first conveying roller 3 is arranged inside the first conveying belt 2 in a laminating manner, the right end of the first conveying roller 3 penetrates through the vertical plate 4 and is connected with the left end of the second conveying roller 6 through a screw, the bottom end of the vertical plate 4 is fixed with a frame body 1 through a screw, the right end of the first conveying roller 3 and the left end of the second conveying roller 6 are connected with the vertical plate 4 through bearings, the outer side of the second conveying roller 6 is provided with a second conveying belt 5 in a laminating way, the right end of the second conveying roller 6 is connected with the frame body 1 through a bearing, the inner side walls of the upper ends of the second conveying belt 5 and the first conveying belt 2 are respectively provided with a supporting transverse plate 7 in a laminating way, the outer end of the supporting transverse plate 7 is connected with the frame body 1 through a screw, the left end of the first conveying roller 3 penetrates through the frame body 1, a mounting plate 8 is arranged above the first conveying belt 2, the left end and the right end of the mounting plate 8 are respectively connected with the frame body 1 through, a second connecting rod 19 is connected with the outer side of the right end of the second threaded rod 9 in a threaded manner, a push frame 10 is fixed at the bottom end of the second connecting rod 19 through a screw, an impurity storage chamber 11 is fixed on the upper surface of the left end of the mounting plate 8 through a screw, the right end of the impurity storage chamber 11 is connected with a fan 12 through a conveying hose 13, the right end of the fan 12 is connected with a conveying hose 13 through a flange plate, a pressure plate 15 is arranged above the left side of the push frame 10, and a first connecting rod 14 is fixed on the top end of the pressure plate 15 by a screw, a first threaded rod 16 is connected with the top end of the first connecting rod 14 by screw thread, the top end of the first threaded rod 16 is connected with the frame body 1 by a bearing, the tip of the first screw rod 16 penetrates the frame body 1, the mounting rod 20 is provided on the rear side of the first feed roller 3, a transmission rod 21 is arranged at the rear side of the installation rod 20, and the right ends of the installation rod 20 and the transmission rod 21 are connected with the frame body 1 through bearings;

a first limiting groove 101 is formed in the inner side wall of the right end of the frame body 1, the frame body 1 is of a structure shaped like a Chinese character 'kou', the front side surface and the rear side surface of the frame body 1 are both of an opening structure, and the first limiting groove 101 is connected with a first limiting block 141 in a clamping manner, so that the first connecting rod 14 can be lifted stably;

a first transmission gear 31 is connected to the outer side key at the left end of the first conveying roller 3, and the transverse center line of the first conveying roller 3 is overlapped with the transverse center line of the mounting rod 20, so that the first conveying roller 3 can be driven to rotate through the first transmission gear 31;

a connecting plate 41 is fixed at the top end of the vertical plate 4 through screws, the connecting plate 41 and the vertical plate 4 form a T-shaped structure, the highest point of the connecting plate 41 and the highest points of the first conveying belt 2 and the second conveying belt 5 are on the same horizontal line, and therefore materials on the second conveying belt 5 can be conveniently pushed onto the first conveying belt 2 through the arrangement of the connecting plate 41;

a second limiting groove 81 is formed in the bottom surface of the mounting plate 8, the mounting plate 8 is arranged in an inverted U-shaped structure, and the mounting plate 8 is arranged in the inverted U-shaped structure, so that the second threaded rod 9 can be conveniently mounted and the second connecting rod 19 can conveniently move;

the right end of the conveying hose 13 is connected with an air suction hood 17 through a flange plate, a push frame 10 is arranged on the outer side of the air suction hood 17, a filter plate 18 is arranged below the air suction hood 17, the outer end of the filter plate 18 is in screw connection with the push frame 10, and then the chips can be adsorbed and collected through the air suction hood 17;

a first limiting block 141 is screwed in the right end of the first connecting rod 14, and the outer side of the right end of the first limiting block 141 is connected with a first limiting groove 101 in a clamping and sliding manner, so that the first connecting rod 14 can be limited through the arrangement of the first limiting block 141, and the first connecting rod 14 can be conveniently and stably lifted;

the outer side of the first threaded rod 16 is connected with a first rope winding disc 162 in a key mode, a connecting rope 161 is fixed on the outer side of the first rope winding disc 162 in a winding mode through screws, a torsion spring 163 is arranged on the outer side of the top end of the first threaded rod 16 in a nested mode, the bottom end of the torsion spring 163 is connected with the frame body 1 in a screw mode, the top end of the torsion spring 163 is connected with the first threaded rod 16 in a screw mode, and the first threaded rod 16 can be driven to rotate through the matching of the connecting rope 161 and the first rope winding disc 162;

a second limiting block 191 is fixed on the outer side of the top end of the second connecting rod 19 through a screw, a second limiting groove 81 is connected to the outer side of the top end of the second limiting block 191 in a clamping mode, a half gear 201 is connected to the outer side key of the installation rod 20, and the second connecting rod 19 can be limited through the arrangement of the second limiting block 191, so that the second connecting rod 19 can stably move;

the outside key of transfer line 21 is connected with second drive gear 211, and the rear side of second drive gear 211 is provided with second rope winding disc 212, and the inside key of second rope winding disc 212 is connected with transfer line 21, and the outside winding screw of second rope winding disc 212 is fixed with connection rope 161 simultaneously, can drive transfer line 21 through the rotation of second drive gear 211 and rotate, makes transfer line 21 provide the power supply for first threaded rod 16 through connecting rope 161.

The working principle of the embodiment is as follows: when the sampling detection device for the production of the heat preservation surface layer furring brick of the energy-saving building is used, firstly, the whole device is moved into a working area as shown in figure 1, then, the left end of an installation rod 20 is connected with a motor through a coupler as shown in figure 6, the right end of a second threaded rod 9 is connected with an external servo motor through a coupler, then, the heat preservation surface layer furring bricks are placed on a second conveying belt 5 at equal intervals, then, the motor at the left end of the installation rod 20 is connected with an external power supply, the motor drives the installation rod 20 to rotate, the installation rod 20 drives a half gear 201 connected with an external key to rotate as shown in figure 6 when rotating, when a tooth block at the external side of the half gear 201 is meshed and connected with a first transmission gear 31 when rotating, the half gear 201 drives the first transmission gear 31 to rotate, the first transmission gear 31 drives a first conveying roller 3 connected with an internal key to rotate when rotating, therefore, as shown in the attached drawing 1, the first conveying roller 3 drives the first conveying belt 2 to rotate, move and convey, meanwhile, the right end of the first conveying roller 3 is in screw connection with the left end of the second conveying roller 6, so that the first conveying roller 3 drives the second conveying roller 6 to rotate together when rotating, the second conveying roller 6 drives the second conveying belt 5 on the outer side to convey when rotating, then the second conveying belt 5 conveys a plurality of heat preservation surface layer furring bricks to pass below the pressing plate 15, and meanwhile, a heat preservation surface layer furring brick is arranged under the pressing plate 15;

when the outside tooth block of the half gear 201 is separated from the first transmission gear 31 during rotation, the first conveying roller 3 and the second conveying belt 5 stop conveying, and simultaneously the outside tooth block of the half gear 201 is meshed with the second transmission gear 211, so that the half gear 201 drives the second transmission gear 211 to rotate, the second transmission gear 211 drives the transmission rod 21 with the inside key connection to rotate as shown in fig. 7, so that the transmission rod 21 drives the second rope winding disc 212 with the outside key connection to rotate, the second rope winding disc 212 pulls, winds and winds the connecting rope 161 during rotation, the top end of the connecting rope 161 drives the first rope winding disc 162 to rotate as shown in fig. 1-2, the first rope winding disc 162 drives the first threaded rod 16 with the inside key connection to rotate, the first threaded rod 16 stores the torque spring 163 during rotation, so that the first threaded rod 16 is driven to rotate reversely under the action of the power stored by the torsion spring 163 at the later stage, the first threaded rod 16 rotates to drive the first limit block 141 connected with the outer thread to descend, at the moment, the first limit block 141 at the right end of the first connecting rod 14 is clamped and slides downwards in the first limit groove 101, thereby ensuring that the first connecting rod 14 stably drives the pressure plate 15 fixed by the bottom screw to move downwards to impact the heat-insulating surface layer furring brick on the lower second conveying belt 5, at the moment, the supporting transverse plate 7 supports the second conveying belt 5, so that the heat-insulating surface layer furring brick on the second conveying belt 5 is well impacted, so that the heat-insulating surface layer furring brick can be well subjected to impact resistance detection, when the tooth block at the outer side of the half gear 201 is separated from the second transmission gear 211, the first threaded rod 16 is driven to rotate reversely under the action of the power, the pressing plate 15 is raised;

when the surface of the detected heat preservation surface layer furring brick is complete, waiting for the intermittent continuous conveying work of the second conveying belt 5, when the surface of the detected heat preservation surface layer furring brick is broken, connecting the servo motor at the right end of the second threaded rod 9 with an external power supply, driving the second threaded rod 9 to rotate by the servo motor, driving the second connecting rod 19 with external threaded connection to move leftwards when the second threaded rod 9 rotates, as shown in the attached drawings 1 and 3-5, at the moment, clamping and sliding connection are carried out on the second limiting block 191 at the top end of the second connecting rod 19 in the second limiting groove 81, so that the second connecting rod 19 stably drives the push frame 10 to move leftwards, simultaneously opening the fan 12, and at the moment, the push frame 10 pushes the broken heat preservation surface layer furring brick on the second conveying belt 5 to the first conveying belt 2 through the connecting plate 41 to separate qualified heat preservation surface layer furring brick from unqualified brick, simultaneously fan 12 will push away the less piece and the dust of frame 10 inside through conveying hose 13 and suction hood 17 and collect in storing up miscellaneous room 11 and collect, avoid pushing away frame 10 and produce great dust when promoting, simultaneously carry out the separation to the heat preservation surface course furring brick of great piece through filter 18, avoid the heat preservation surface course furring brick of great piece to enter into suction hood 17 in, when semi-gear 201 and first drive gear 31 meshing are connected after that, continue above-mentioned operation on the same principle, continue next sample detection work, thereby accomplish a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an energy-conserving building's heat preservation surface course furring brick production is with sampling detection device, includes framework main part (1), first conveyer belt (2) and fan (12), its characterized in that: the inner part of the frame body (1) is provided with a first conveying belt (2), the inner part of the first conveying belt (2) is laminated with a first conveying roller (3), the right end of the first conveying roller (3) penetrates through a vertical plate (4) to be connected with a left end screw of a second conveying roller (6), the bottom end screw of the vertical plate (4) is fixed with the frame body (1), the right end of the first conveying roller (3) and the left end of the second conveying roller (6) are both connected with the vertical plate (4) through bearings, the outer side of the second conveying roller (6) is laminated with a second conveying belt (5), the right end of the second conveying roller (6) is connected with the frame body (1) through a bearing, the inner side walls of the upper ends of the second conveying belt (5) and the first conveying belt (2) are both laminated with a supporting transverse plate (7), the outer end of the supporting transverse plate (7) is connected with the frame body (, the left end of the first conveying roller (3) penetrates through the frame body (1), the mounting plate (8) is arranged above the first conveying belt (2), the left end and the right end of the mounting plate (8) are in screwed connection with the frame body (1), the bottom surface of the mounting plate (8) is in bearing connection with the second threaded rod (9), the right end of the second threaded rod (9) penetrates through the mounting plate (8) and the frame body (1), the outer side of the right end of the second threaded rod (9) is in threaded connection with the second connecting rod (19), the bottom end of the second connecting rod (19) is in screwed connection with the push frame (10), the upper surface of the left end of the mounting plate (8) is in screwed connection with the impurity storage chamber (11), the right end of the impurity storage chamber (11) is connected with the fan (12) through the conveying hose (13), and the right end of the fan (12) is connected with the conveying hose (13) through, the utility model discloses a frame, including push away frame (10), push away the left side top of frame (10) and be provided with clamp plate (15), and the top fix with screw of clamp plate (15) has first connecting rod (14), the inside threaded connection in top of first connecting rod (14) has first threaded rod (16), and the top bearing of first threaded rod (16) is connected with framework body (1) to framework body (1) is run through on the top of first threaded rod (16), the rear side of first conveying roller (3) is provided with installation pole (20), and the rear side of installation pole (20) is provided with transfer line (21) to the right-hand member of installation pole (20) and transfer line (21) all is connected with framework body (1) bearing.

2. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: a first limiting groove (101) is formed in the inner side wall of the right end of the frame body (1), the frame body (1) is of a structure shaped like a Chinese character 'kou', and the front side face and the rear side face of the frame body (1) are both of an open structure.

3. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: the left end outside key of first conveying roller (3) is connected with first drive gear (31), and the horizontal central line of first conveying roller (3) and the horizontal central line of installation pole (20) coincide mutually.

4. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: the top end of the vertical plate (4) is fixed with a connecting plate (41) through screws, the connecting plate (41) and the vertical plate (4) form a T-shaped structure, and the highest point of the connecting plate (41) and the highest points of the first conveying belt (2) and the second conveying belt (5) are on the same horizontal line.

5. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: a second limiting groove (81) is formed in the bottom surface of the mounting plate (8), and the mounting plate (8) is arranged in an inverted U-shaped structure.

6. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: the right end of the conveying hose (13) is connected with an air suction cover (17) through a flange plate, a push frame (10) is arranged on the outer side of the air suction cover (17), a filter plate (18) is arranged below the air suction cover (17), and meanwhile, the outer end of the filter plate (18) is connected with the push frame (10) through screws.

7. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 2, characterized in that: a first limiting block (141) is installed on the right end of the first connecting rod (14) through a screw, and a first limiting groove (101) is connected to the outer side of the right end of the first limiting block (141) in a clamping and sliding mode.

8. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 1, characterized in that: the outside key-type of first threaded rod (16) has first wire winding dish (162), and the outside winding screw of first wire winding dish (162) is fixed with and connects rope (161) to the top outside nestification of first threaded rod (16) is provided with torsion spring (163), and the bottom and frame body (1) screw connection of torsion spring (163) simultaneously, and the top and the first threaded rod (16) screw connection of torsion spring (163).

9. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 5, characterized in that: the top outside fix with screw of second connecting rod (19) has second stopper (191), and the top outside block of second stopper (191) is connected with second spacing groove (81), the outside key-type connection of installation pole (20) has semi-gear (201).

10. The sampling detection device for producing the heat-insulating surface layer furring brick of the energy-saving building as claimed in claim 8, characterized in that: the outside key-type of transfer line (21) is connected with second drive gear (211), and the rear side of second drive gear (211) is provided with second rope winding dish (212), and the inside key-type of second rope winding dish (212) is connected with transfer line (21), and the outside winding screw of second rope winding dish (212) is fixed with connection rope (161) simultaneously.