CN220444443U

CN220444443U - Light refractory brick detection device

Info

Publication number: CN220444443U
Application number: CN202320802330.7U
Authority: CN
Inventors: 唐伟宏; 唐四新; 钟美艳
Original assignee: Lengshuijiang Leng Nai Refractory Materials Co ltd
Current assignee: Lengshuijiang Leng Nai Refractory Materials Co ltd
Priority date: 2023-04-12
Filing date: 2023-04-12
Publication date: 2024-02-06
Anticipated expiration: 2033-04-12

Abstract

The utility model discloses a light refractory brick detection device which comprises a conveying belt, a rotating mechanism, a detection mechanism and a collecting box. According to the utility model, through the rotating mechanism arranged at the right rear end of the conveying belt, at least four groups of receiving discs are arranged in the rotating mechanism, the light refractory bricks transported from the conveying belt can be received by rotating the rotating mechanism, the sizes of the light refractory bricks are detected through the detecting mechanisms arranged at the right end and the rear end of the rotating mechanism, the two groups of detecting mechanisms are respectively provided with the baffle plate I and the width measuring mechanism, the width and the height of the light refractory bricks can be detected respectively, the problems existing in the light refractory bricks can be recovered respectively, the subsequent processing and processing of the light refractory bricks are facilitated, the light refractory brick conveying belt has strong practicability, the working pressure of workers can be effectively reduced, the problems existing in the production process of the light refractory bricks can be reflected indirectly, and the improvement is facilitated.

Description

Light refractory brick detection device

Technical Field

The utility model relates to the field of light refractory bricks, in particular to a light refractory brick detection device.

Background

The refractory materials are generally divided into two types, namely an unshaped refractory material and a shaped refractory material, wherein the unshaped refractory material is also called castable, is a mixed powdery particle composed of various aggregates or aggregates and one or more bonding agents, and is required to be mixed with one or more liquids uniformly during use, so that the unshaped refractory material has stronger fluidity, and the shaped refractory material is generally a refractory brick, has standard regular shape and can also be temporarily processed during building and cutting according to the requirement;

the light refractory brick generally refers to a refractory brick with the density of less than 1.3x103kg/m < 3 >, and has the characteristics of small density, high porosity, low heat conductivity, good heat preservation, certain compressive strength and the like, and the light refractory brick forming mode comprises manual ramming forming, mechanical pressing forming, mud extrusion forming and the like, but in the actual production process, the production machine possibly is stained with raw materials in the extrusion process or is not compact enough to cause the situation of falling of the raw materials and the like, so that the formed shape of the light refractory brick can be deformed and cannot be used in production and life, and further, the produced light refractory brick needs to be detected, and an unqualified product in the filtration process is required.

Most of the existing detection devices are used for directly screening out unqualified products and uniformly recycling the unqualified products, and lack of classification treatment on unqualified light refractory bricks, so that subsequent workers are required to manually classify the unqualified products in the treatment process, the detection devices are complicated, and the detection devices are inconvenient to find out problems in the production process.

Disclosure of Invention

Therefore, in order to solve the defects, the utility model provides a light refractory brick detection device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a light refractory brick detection device, the right rear end of conveyer belt is equipped with the rotary mechanism that can drive the light refractory brick and rotate, rotary mechanism's right-hand member and rear end are equipped with a set of detection mechanism that can detect light refractory brick respectively to and locate the four collecting box that can collect light refractory brick of rotary mechanism.

Preferably, the rotary mechanism comprises a support column, a first motor, a rotary disk, a first connecting rod, a second motor and a receiving disk, wherein the rotary disk is arranged at the top end of the support column, at least four groups of first connecting rods are arranged at the outer side of the rotary disk and connected with the receiving disk through the first connecting rods, the first motor is arranged at the inner top end of the support column, and a driving shaft of the first motor upwards penetrates through the inner top end of the support column and is connected with the middle end of the bottom surface of the rotary disk.

Preferably, a cavity I is arranged in one end of the connecting rod I, which is close to the bearing disc, and the cavity I is arranged in the connecting rod I

The driving shaft of the second motor penetrates through the inner side of the first cavity and is connected with the bearing disc;

and the middle end of the top surface of the receiving disc is provided with a groove, the inner bottom end of the groove is provided with an induction module, the top end of the induction module is connected with a pressure plate, and one end of the top surface of the receiving disc, which is the same as the rotating direction of the rotating disc, is provided with a group of baffles.

Preferably, the detection mechanism comprises a base, a connecting cylinder, a connecting rod II and a connecting rod III, wherein the top surface of the base is provided with the connecting cylinder, the inner top end of the connecting cylinder is provided with the connecting rod II, and one side, close to the rotating mechanism, of the top end of the connecting rod II is provided with the connecting rod III;

wherein, the bottom of the left side of the connecting rod of the right end detection mechanism is connected with a baffle plate I, and the front end of the connecting rod of the rear end detection mechanism is provided with a width measuring mechanism.

Preferably, the inner end of the connecting cylinder is provided with a cavity II, one side of the connecting cylinder, far away from the rotating mechanism, is provided with a curved bar, one end of the curved bar, close to the connecting cylinder, penetrates through the connecting cylinder to be inserted into the cavity II, a group of gears are connected in the cavity II, the right end of each gear is provided with a group of racks meshed with each other, and the top ends of the racks are welded at the bottom end of the connecting rod II.

Preferably, the width measuring mechanism comprises an adjusting cabin and a motor cabin, and the right end of the adjusting cabin is provided with the motor cabin;

the regulating cabin is internally provided with a cavity III, the bottom end of the cavity III penetrates through the regulating cabin to be communicated with the outside, a group of double-head screws are arranged in the cavity III, the left end and the right end of each double-head screw are connected with the left end and the right end in the cavity III, the left end and the right end of each double-head screw are provided with a group of sliding blocks, the bottom ends of the two groups of sliding blocks are connected with a group of baffle plates II, and the bottom ends of the baffle plates II are exposed out of the bottom end of the regulating cabin;

and a third motor is arranged in the motor cabin, and a driving shaft of the third motor sequentially penetrates through the left end in the motor cabin and the right end in the adjusting cabin to be connected with the right end of the double-head screw rod.

Preferably, the right end of the conveying belt is provided with a group of guide grooves, the left end of each guide groove is positioned at the top end of the pressure plate, and the height of each baffle is smaller than the interval between each guide groove and the pressure plate.

Preferably, a protective layer is arranged at the top end of the pressure plate.

Preferably, the second connecting rod and the outer side of the adjusting cabin are coated with scales.

Preferably, the threads at the two ends of the double-ended screw rod are opposite.

The utility model has the beneficial effects that:

according to the utility model, through the rotating mechanism arranged at the right rear end of the conveying belt, at least four groups of receiving discs are arranged in the rotating mechanism, the light refractory bricks transported from the conveying belt can be received by rotating the rotating mechanism, the sizes of the light refractory bricks are detected through the detecting mechanisms arranged at the right end and the rear end of the rotating mechanism, the two groups of detecting mechanisms are respectively provided with the baffle plate I and the width measuring mechanism, the width and the height of the light refractory bricks can be detected respectively, the problems existing in the light refractory bricks can be recovered respectively, the subsequent processing and processing of the light refractory bricks are facilitated, the light refractory brick conveying belt has strong practicability, the working pressure of workers can be effectively reduced, the problems existing in the production process of the light refractory bricks can be reflected indirectly, and the improvement is facilitated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the rotary mechanism of the present utility model;

FIG. 3 is a schematic view of the structure of the connecting rod I and the receiving plate of the utility model;

FIG. 4 is a schematic diagram of a left end detection mechanism according to the present utility model;

FIG. 5 is a schematic view of the internal structure of the connecting cylinder of the present utility model;

FIG. 6 is a schematic diagram of the internal structure of the width measuring mechanism of the present utility model.

Wherein: the device comprises a conveying belt-1, a rotating mechanism-2, a detecting mechanism-3, a collecting box-4, a supporting column-21, a first motor-211, a rotating disc-22, a connecting rod-23, a second motor-231, a receiving disc-24, an induction module-241, a pressure plate-242, a baffle-243, a base-31, a connecting cylinder-32, a connecting rod-33, a connecting rod-34, a baffle-35, a width measuring mechanism-36, a curved rod-321, a gear-322, a rack-323, an adjusting cabin-361, a motor cabin-362, a double-head screw-3611, a sliding block-3612, a baffle-3613 and a third motor-3621.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1, the utility model provides a light refractory brick detection device, which comprises a conveyer belt 1 capable of conveying to-be-detected, wherein a rotating mechanism 2 capable of driving light refractory bricks to rotate is arranged at the right rear end of the conveyer belt 1, a group of guide grooves capable of conveying the light refractory bricks to a bearing disc are arranged at the right end of the conveyer belt 1, the left end of each guide groove is positioned at the top end of a pressure plate 242, the height of a baffle 243 is smaller than the interval between the guide groove and the pressure plate 242, the baffle 243 does not collide with the guide grooves when rotating, a group of detection mechanisms 3 capable of detecting the light refractory bricks are respectively arranged at the right end and the rear end of the rotating mechanism 2, and a collection box 4 capable of collecting the light refractory bricks is arranged at the four ends of the rotating mechanism 2.

Referring to fig. 2-3, the utility model provides a light refractory brick detecting device, the rotating mechanism 2 comprises a support column 21, a first motor 211, a rotating disc 22, a first connecting rod 23, a second motor 231 and a receiving disc 24, the rotating disc 22 is mounted at the top end of the support column 21, at least four groups of first connecting rods 23 are welded at the outer side of the rotating disc 22, the receiving disc 24 capable of receiving light refractory bricks is connected through the first connecting rods 23, the first motor 211 is mounted at the inner top end of the support column 21, a driving shaft of the first motor 211 upwards penetrates through the inner top end of the support column 21 and is connected with a middle end flange at the bottom surface of the rotating disc 22, and the rotating disc 22 can be driven to rotate by the driving shaft of the first motor 211;

a first cavity is formed in one end, close to the bearing disc 24, of the connecting rod I23, a second motor 231 is installed in the first cavity, a driving shaft of the second motor 231 penetrates through the inner side of the first cavity and is connected with the flange of the bearing disc 24, and the bearing disc 24 can be driven to overturn through rotation of the driving shaft of the second motor 231;

the middle end of the top surface of the receiving disc 24 is provided with a groove, the inner bottom end of the groove is provided with a sensing module 241 capable of sensing pressure, the top end of the sensing module 241 is connected with a pressure plate 242, the top end of the pressure plate 242 is provided with a protective layer made of rubber, collision of light refractory bricks and the pressure plate 242 in the moving process can be avoided, breakage can occur, when the light refractory bricks fall on the pressure plate 242, the sensing module 241 senses pressure through the pressure plate 242 and drives the receiving disc 24 to overturn according to the pressure, and one end of the top surface of the receiving disc 24, which is the same as the rotating direction of the rotating disc 22, is welded with a group of baffles 243, so that the light refractory bricks are prevented from falling from the receiving disc 24 in the moving process

Referring to fig. 4-5, the utility model provides a light refractory brick detection device, wherein a detection mechanism 3 comprises a base 31, a connecting cylinder 32, a connecting rod II 33 and a connecting rod III 34, the top surface of the base 31 is welded with the connecting cylinder 32, the inner top end of the connecting cylinder 32 is connected with the connecting rod II 33, one side of the top end of the connecting rod II 33, which is close to a rotating mechanism 2, is welded with the connecting rod III 34, wherein a baffle plate I35 capable of detecting the height of the light refractory brick is welded at the bottom end of the left side of the connecting rod III 34 of a right detection mechanism 3, and a width measuring mechanism 36 capable of detecting the width of the light refractory brick is welded at the front end of the connecting rod III 34 of a rear detection mechanism 3;

the cavity II has been seted up to the inner of connecting cylinder 32, and connecting cylinder 32 is kept away from one side of rotary mechanism 2 and is installed curved bar 321, curved bar 321 is close to connecting cylinder 32's one end and runs through connecting cylinder 32 and insert cavity II, and flange joint has a set of gear 322 in cavity II, the accessible rotates curved bar 321 and drives gear 322 rotation, and the right-hand member of gear 322 installs a set of intermeshing's rack 323, accessible gear 322 rotation drives rack 323 and reciprocates in cavity II, and the top welding of rack 323 is in connecting rod II 33 bottom, accessible rack 323 reciprocates, jack-up or retrieve connecting rod II 33, and then adjust baffle I35 and survey the height of wide mechanism 36, and the connecting rod II 33 outside scribbles the scale, be convenient for observe actual jack-up height.

Referring to fig. 6, the utility model provides a light refractory brick detecting device, a width measuring mechanism 36 comprises an adjusting cabin 361 and a motor cabin 362, wherein the motor cabin 362 is welded at the right end of the adjusting cabin 361;

the adjusting cabin 361 is internally provided with a cavity III, the bottom end of the cavity III penetrates through the adjusting cabin 361 and is communicated with the outside, a group of double-end screws 3611 are arranged in the cavity III, the left end and the right end of each double-end screw 3611 are connected with the left end and the right end of the cavity III, a group of sliding blocks 3612 are arranged at the left end and the right end of each double-end screw 3611, threads at the two ends of each double-end screw 3611 are opposite, the two groups of sliding blocks 3612 are driven to synchronously move inwards and outwards through rotation of the double-end screws 3611, the width of the light refractory bricks is adjusted and detected, the bottom ends of the two groups of sliding blocks 3612 are welded with a group of baffle II 3613, the bottom ends of the baffle II 3613 are exposed out of the bottom end of the adjusting cabin 361, the width of the light refractory bricks can be detected, scales are coated on the outer side of the adjusting cabin 361, the detected width is convenient to observe, a third motor 3621 is arranged in the motor cabin 362, a driving shaft of the third motor 3621 penetrates through the left end of the motor cabin 362 and the right end of the adjusting cabin and is connected with the right end flange of the double-end of each double-end screw 3611 in sequence, and the driving shaft of the third motor 3621 rotates to drive the driving shaft of the double-end 3611.

The working principle is as follows:

before the utility model is used, the gear 322 is driven to rotate by rotating the bent rod 321, the rack 323 is driven to move upwards in the cavity II by rotating the gear 322, the connecting rod II 33 is jacked, the heights of the baffle plate I35 and the width measuring mechanism 36 are adjusted, then the third motor 3621 is started, the driving shaft of the third motor 3621 rotates to drive the double-head screw 3611 to rotate, the two groups of sliding blocks 3612 are driven to synchronously move inwards and outwards, and the width between the two groups of baffle plates II 3613 is adjusted;

when the light refractory brick collecting box is used, the light refractory bricks are conveyed to the receiving tray 24 through the conveying belt 1, when the light refractory bricks fall on the receiving tray 24 through the guide grooves, the sensing module 241 senses the gravity of the light refractory bricks through the pressure plate 242, and if the gravity is heavier or lighter, the second motor 231 is driven to drive the receiving tray 24 to overturn, and the light refractory bricks are placed in the lower end collecting box 4 for collecting;

simultaneously, the first motor 211 is started, the driving shaft of the first motor 211 drives the rotary disk 22 to rotate, and the first baffle plate 35 can separate the light refractory bricks if the heights of the light refractory bricks are higher through detection of the first baffle plate 35 and finally separate from the top end of the receiving disk 24 along with rotation of the rotary disk 22 and fall into the right-end collecting box 4 to be collected;

if the height is proper, the light refractory bricks are continuously moved to the position of the width measuring mechanism 36 from the receiving tray 24, if the light refractory bricks are wider, the light refractory bricks are blocked by the two groups of blocking plates II 3613 and finally separated from the top end of the receiving tray 24 along with the rotation of the rotating disc 22, and fall into the rear-end collecting box 4 for collecting;

when the light refractory bricks are driven to move to the top end of the left collecting box 4 by the detecting rear receiving tray 24, the second motor 231 is started, the receiving tray 24 is driven to overturn, and the light refractory bricks are placed in the lower collecting box 4 for collecting.

The utility model provides a light refractory brick detection device, which is characterized in that a rotating mechanism arranged at the right rear end of a conveying belt is provided with at least four groups of receiving discs, the rotating mechanism can rotate to receive light refractory bricks conveyed from the conveying belt, the detecting mechanisms arranged at the right end and the rear end of the rotating mechanism are used for detecting the sizes of the light refractory bricks, and the two groups of detecting mechanisms are respectively provided with a baffle plate I and a width measuring mechanism, so that the width and the height of the light refractory bricks can be detected respectively, the problems existing in the light refractory bricks can be recovered respectively, the subsequent processing and the processing of the light refractory bricks are facilitated, the light refractory brick detection device has strong practicability, the working pressure of workers can be effectively lightened, the problems existing in the production process of the light refractory bricks can be reflected indirectly, and the improvement is facilitated.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. The utility model provides a light refractory brick detection device, includes conveyer belt (1) that can convey to wait to detect, the right rear end of conveyer belt (1) is equipped with rotary mechanism (2) that can drive the light refractory brick and rotate, the right-hand member and the rear end of rotary mechanism (2) are equipped with respectively a set of detection mechanism (3) that can detect light refractory brick to and locate collecting box (4) that can collect light refractory brick at four ends of rotary mechanism (2).

2. A lightweight refractory brick testing device as set forth in claim 1, wherein: rotary mechanism (2) are including support column (21), first motor (211), rotary disk (22), connecting rod one (23), second motor (231) and accept dish (24), the top of support column (21) is equipped with rotary disk (22), the outside of rotary disk (22) is equipped with one (23) of connecting rod that is not less than four sets of, and through connecting rod one (23) is connected with accepts dish (24), just the interior top of support column (21) is equipped with first motor (211), the interior top and rotary disk (22) bottom surface middle-end connection of upwards running through support column (21) of drive shaft of first motor (211).

3. A lightweight refractory brick testing device as set forth in claim 2, wherein: a first cavity is formed in one end, close to the bearing disc (24), of the first connecting rod (23), a second motor (231) is arranged in the first cavity, and a driving shaft of the second motor (231) penetrates through the inner side of the first cavity and is connected with the bearing disc (24);

and the middle end of the top surface of the bearing disc (24) is provided with a groove, the bottom end in the groove is provided with an induction module (241), the top end of the induction module (241) is connected with a pressure plate (242), and one end of the top surface of the bearing disc (24) with the rotation direction of the rotating disc (22) is provided with a group of baffles (243).

4. A lightweight refractory brick testing device as set forth in claim 1, wherein: the detection mechanism (3) comprises a base (31), a connecting cylinder (32), a second connecting rod (33) and a third connecting rod (34), wherein the top surface of the base (31) is provided with the connecting cylinder (32), the inner top end of the connecting cylinder (32) is provided with the second connecting rod (33), and the third connecting rod (34) is arranged at one side, close to the rotating mechanism (2), of the top end of the second connecting rod (33);

the bottom of the left side of a connecting rod III (34) of the right end detection mechanism (3) is connected with a baffle I (35), and the front end of the connecting rod III (34) of the rear end detection mechanism (3) is provided with a width measuring mechanism (36).

5. The light-weight refractory brick inspection device of claim 4, wherein: the inner of connecting cylinder (32) is equipped with cavity two, just one side that rotary mechanism (2) was kept away from to connecting cylinder (32) is equipped with curved bar (321), one end that curved bar (321) is close to connecting cylinder (32) runs through connecting cylinder (32) and inserts cavity two, and is connected with a set of gear (322) in cavity two, the right-hand member of gear (322) is equipped with a set of intermeshing's rack (323), the top welding of rack (323) is in connecting rod two (33) bottom.

6. The light-weight refractory brick inspection device of claim 4, wherein: the width measuring mechanism (36) comprises an adjusting cabin (361) and a motor cabin (362), and the right end of the adjusting cabin (361) is provided with the motor cabin (362);

a third cavity is formed in the adjusting cabin (361), the bottom end of the third cavity penetrates through the adjusting cabin (361) to be communicated with the outside, a group of double-head screws (3611) are arranged in the third cavity, the left end and the right end of each double-head screw (3611) are connected with the left end and the right end in the third cavity, a group of sliding blocks (3612) are arranged at the left end and the right end of each double-head screw (3611), a group of baffle plates II (3613) are connected to the bottom ends of the two groups of sliding blocks (3612), and the bottom ends of the baffle plates II (3613) are exposed out of the bottom end of the adjusting cabin (361);

and be equipped with third motor (3621) in motor cabinet (362), the drive shaft of third motor (3621) runs through left end in motor cabinet (362) and regulation in cabinet (361) right-hand member and the right-hand member of double-end screw rod (3611) in proper order and is connected.

7. A lightweight refractory brick testing device as set forth in claim 1, wherein: the right end of the conveying belt (1) is provided with a group of guide grooves, the left end of each guide groove is positioned at the top end of the pressure plate (242), and the height of each baffle plate (243) is smaller than the interval between each guide groove and the pressure plate (242).

8. The light-weight refractory brick inspection device of claim 7, wherein: the top end of the pressure plate (242) is provided with a protective layer.

9. The light-weight refractory brick inspection device of claim 6, wherein: the outer sides of the second connecting rod (33) and the adjusting cabin (361) are coated with scales.

10. The light-weight refractory brick inspection device of claim 6, wherein: threads at two ends of the double-end screw rod (3611) are opposite.