CN115108262B

CN115108262B - Conveying device for building stone machining

Info

Publication number: CN115108262B
Application number: CN202210864346.0A
Authority: CN
Inventors: 黄平; 袁涔杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-21
Filing date: 2022-07-21
Publication date: 2023-12-22
Anticipated expiration: 2042-07-21
Also published as: CN115108262A

Abstract

The invention discloses a conveying device for building stone processing, which belongs to the technical field of building engineering equipment and comprises a first conveying component, an adjusting component and a second conveying component, wherein the first conveying component is used for conveying stone through belt transmission, the second conveying component is slidably arranged in the conveying direction of the first conveying component, the second conveying component comprises a rotary table, a cover plate is arranged on the rotary table, the rotary table slides in the conveying direction of the first conveying component, meanwhile, the rotary table rotates around the axis direction of the rotary table, a second conveying belt is arranged on the rotary table, a control component is arranged inside the rotary table and is positioned between a driving wheel and the second conveying belt, the control component is used for unidirectionally driving the second conveying belt to move, and the adjusting component is used for realizing angle adjustment of stone on the second conveying component.

Description

Conveying device for building stone machining

Technical Field

The invention relates to the technical field of constructional engineering equipment, in particular to a conveying device for building stone machining.

Background

In the current construction market, marble floor tiles attract the consumer's eye with a luxury appearance and practical features. In order to meet different use demands, marble needs to be cut into specific size and shape, marble has high density and is not easy to carry manually in the processing process, so that the marble needs to be conveyed by means of alignment of a conveying device, the existing conveying device can not rotate freely although conveying the marble, meanwhile, the marble needs to be manually rotated to align the direction of a plate for cutting, the operation is inconvenient, and the Chinese patent publication No. CN209241935U discloses a conveying belt device for marble processing, which comprises a conveying belt and a height adjusting device, and the bottom end of the conveying belt is provided with the height adjusting device. In order to enable a user to easily adjust the length of a conveying belt and easily adjust the height of the conveying belt when facing marble stone materials of different specifications, the prior art provides a conveying belt support device for marble processing, which only solves the problems of conveying length and height and has a single function.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the conveying device capable of realizing length adjustment and butt joint of multiple groups of conveying components is provided, unidirectional driving is realized, and energy loss is reduced.

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a building stone material processing is with conveyor, includes first conveying component, adjustment subassembly and second conveying component, first conveying component be used for realizing the transport of stone material through belt drive, first conveying component pass through screw drive and realize the adjustment of conveying distance, be located first conveying component's direction of delivery the place ahead be provided with second conveying component, second conveying component slidable mounting on first conveying component's direction of delivery, first conveying component and second conveying component between be connected through the conveying frame, second conveying component include the revolving stage, the revolving stage on be provided with the apron, the revolving stage slide on first conveying component direction, the revolving stage rotates around self axis direction simultaneously, the revolving stage on be provided with the second conveyer belt, the upper surface and the apron upper surface parallel and level of second conveyer belt, the revolving stage circumference on be provided with a plurality of drive wheels, a plurality of the drive wheels drive the second conveyer belt and rotate under first conveying component's effect, inside be provided with control assembly, control assembly be located between the drive wheel and the second conveyer belt, control assembly be used for realizing the unidirectional motion to the second conveyer belt, the adjustment subassembly is used for realizing the unidirectional motion to the second conveyer belt.

Further, the first conveying component comprises a mounting seat for realizing the mounting and fixing of the first conveying component, a plurality of sliding rails are arranged on two sides of the mounting seat, two fixing rollers are arranged between the two mounting seats, the two fixing rollers are positioned on the same straight line in the vertical direction, the two fixing rollers are positioned at two ends of the height direction of the first conveying belt, driven rollers are arranged on the mounting seat which is positioned at the same horizontal height as the fixing rollers positioned below, driving rollers are arranged on the mounting seat which is positioned at the same horizontal height as the fixing rollers positioned above, a plurality of driven rollers are arranged between the two fixing rollers, every two adjacent driven rollers are arranged in a serpentine manner in the vertical direction, and the first conveying belt, the fixed rollers, the driven rollers and the driving rollers form belt transmission, and the driving rollers slide on the sliding rails to be used for adjusting the conveying distance of the first conveying component.

Further, the both ends of drive roll rotate respectively and install the first end at two mounting panels, two mounting panels slidable mounting is in the slide rail on the mount pad inside, be located the outside of drive roll sliding track on the mount pad and be provided with second fixing base and bearing frame, second fixing base and bearing frame fixed mounting on the mount pad, second fixing base and bearing frame between rotate and install the lead screw, lead screw and the second end of mounting panel form screw drive, the lead screw rotate under the drive of second motor, the both ends of the driven roll between two driven rolls of vertical direction or the driven roll between drive roll and the driven roll of vertical direction rotate and install on the slide bar, slide bar slidable mounting be provided with two first fixing bases on the mount pad at slide bar's both ends, slide bar slidable mounting be provided with between two first fixing bases on the slide bar, slide bar slidable mounting be provided with the spring with the slide bar between first fixing base, arbitrary motor fixed connection with first motor, first fixed mounting on the slide bar.

Further, the adjustment subassembly include the fixed bolster, the fixed bolster slide in the diameter direction of revolving stage, the fixed bolster on fixed mounting have the fixed plate, the top fixed mounting of fixed bolster have the cylinder body of pneumatic cylinder, the fixed plate on slidable mounting have the slide, slide and the expansion end of fixed bolster rotate and be connected.

Further, the second conveying assembly further comprises a support, a lifting column is coaxially and slidably arranged in the support, the turntable is coaxially and rotatably arranged on the lifting column, a driven gear is coaxially and fixedly arranged at the bottom of the turntable, the driven gear and a driving gear form gear transmission, the driving gear is coaxially and fixedly arranged on an output shaft of a third motor, and the third motor is fixedly arranged on the lifting column.

Further, the circumference of revolving stage on be provided with a plurality of fixed axles, a plurality of the fixed axle on rotate and install the drive wheel, the drive wheel include friction roller and drive gear, drive gear set up between two friction rollers, drive gear and two friction roller terminal surfaces are fixed, friction roller and first conveyer belt form friction transmission, drive gear and control assembly form gear transmission, the coaxial rotation of revolving stage top install the ring gear, ring gear inner circle and ring gear be close to control assembly's terminal surface on all be provided with tooth form structure, ring gear and control assembly form gear transmission, ring gear and third gear form gear transmission, third gear outer lane and third gear all be provided with tooth form structure on being close to the terminal surface of conveyer roller, third gear and second gear form gear transmission, the conveyer roller have two, two conveyer belts form belt transmission through the second conveyer belt, coaxial fixed mounting has first gear on the terminal surface that arbitrary conveyer roller is close to the second gear, first gear and second gear form gear transmission and second gear transmission and two control assembly on being used for driving the rotation of drive assembly, the unable control assembly is rotated to drive the ring gear.

Further, the control component comprises a shell, an input gear and an output gear, the shell is fixedly arranged in the rotary table, the input gear and the output gear are rotatably arranged in the shell, the input gear and the drive gear form gear transmission, the output gear and the gear ring form gear transmission, the input gear is coaxially and fixedly arranged on the input shaft, the input shaft is rotatably arranged in the shell, a first rotating shell and a second rotating shell are coaxially arranged on the input shaft, a first ratchet wheel is arranged in the first rotating shell and the second rotating shell, the two first ratchet wheels are coaxially and fixedly arranged on the input shaft, pawls matched with the ratchet wheels formed by the first ratchet wheels are arranged in the first rotating shell and the second rotating shell, the two first ratchet wheels arranged on the input shaft respectively drive the first rotating shell and the second rotating shell to rotate towards different directions, a guide post is coaxially and fixedly arranged at the end part of the input shaft, a sleeve is slidably arranged on the guide post, a turntable is coaxially and fixedly arranged at the end part of the sleeve, a plurality of stop blocks are arranged on the end surface of the turntable, a fifth gear is rotatably arranged inside the shell, a plurality of stop blocks are arranged on the fifth gear, the fifth gear is coaxial with the turntable, the fifth gear and the fourth gear form gear transmission, the fourth gear is rotatably arranged inside the shell, a tooth-shaped structure is arranged on the outer ring of the output gear and the end surface close to the fourth gear, and the fourth gear and the output gear form gear transmission.

Further, the sleeve on rotate the first end of installing the connecting rod, the second end slidable mounting of connecting rod on the screw rod, the second end inside of connecting rod be provided with the coaxial fourth ratchet of screw rod, fourth ratchet and screw rod form screw thread fit, the connecting rod inside be provided with fourth ratchet form ratchet pawl complex pawl, the connecting rod on be provided with the baffle ring that is used for realizing fourth ratchet and connecting rod fixed in the screw axis direction, the screw rod rotate and install inside the casing, the coaxial fixed mounting of tip of screw rod have the third ratchet, the third ratchet outside be provided with the coaxial tenth gear of third ratchet, tenth gear rotate and install inside the casing, tenth gear form ratchet pawl cooperation through pawl and third ratchet, tenth gear and first rotation casing form gear engagement, third ratchet drive tenth gear pivoted direction and first rotation casing the same, third ratchet and the opposite direction of fourth ratchet structure.

Further, the second rotating shell and the sixth gear form gear transmission, a second ratchet wheel coaxial with the sixth gear is arranged in the sixth gear, the second ratchet wheel is coaxially and fixedly arranged at the first end of the rotating shaft, the rotating shaft is rotatably arranged in the shell, a seventh gear is coaxially and fixedly arranged at the second end of the rotating shaft, the seventh gear and the eighth gear form gear transmission, the eighth gear and the ninth gear form gear transmission, an eleventh gear is coaxially and fixedly arranged on the screw rod, the direction of the rotation of the sixth gear driven by the second ratchet wheel is the same as the direction of the rotation of the second rotating shell driven by the first ratchet wheel, and the eighth gear and the ninth gear are rotatably arranged in the shell.

Further, a spring coaxial with the fifth gear is arranged between the fifth gear and the turntable.

Compared with the prior art, the invention has the beneficial effects that: (1) The second conveying component is driven by the first conveying component to move, and an additional power source is not required to be added; (2) The second conveying assembly provided by the invention can be matched with a plurality of groups of first conveying assemblies at the same time, so that the conveying and processing efficiency of stone materials is improved; (3) The first conveying component provided by the invention can realize adjustment of conveying length and can adapt to various use requirements; (4) The control assembly provided by the invention can realize unidirectional driving of the second conveying assembly, and ensures the conveying stability; (5) The control assembly provided by the invention can prevent the gear ring from driving other control assemblies which are not matched with the first conveying assembly, thereby reducing energy loss and lowering use cost.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a first conveying assembly according to the present invention.

Fig. 3 is a schematic view of the first conveyor assembly of the present invention with the mounting base removed.

Fig. 4 is a schematic structural view of the adjusting assembly and the second conveying assembly according to the present invention.

Fig. 5 is a schematic view (top view) of the second conveyor assembly of the present invention with the cover removed.

Fig. 6 is a schematic view (bottom view) of the second conveyor assembly of the present invention with the cover removed.

Fig. 7 is a schematic view of a second conveying assembly according to a partial structure of the present invention.

Fig. 8 is a schematic diagram showing a partial structure of a second conveying assembly according to the present invention.

Fig. 9 is a schematic diagram of a second conveying assembly according to the present invention.

FIG. 10 is a schematic diagram of a control assembly according to the present invention.

FIG. 11 is a schematic view of the control assembly of the present invention with the housing removed.

Fig. 12 is a schematic diagram of a partial structure of a control assembly according to the present invention.

Fig. 13 is a schematic diagram showing a partial structure of a control assembly according to the present invention.

Fig. 14 is a schematic diagram of a control assembly according to a third embodiment of the present invention.

Fig. 15 is a schematic diagram showing a partial structure of a control assembly according to the present invention.

Reference numerals: 1-a first conveying assembly; 101-a first conveyor belt; 102-a mounting base; 103-fixing rollers; 104-a passive roller; 105-a first motor; 106-sliding rails; 107-a first fixing seat; 108-a sliding seat; 109-slide bar; 110-a spring; 111-a second fixing seat; 112-lead screw; 113-a drive roll; 114-mounting plates; 115-bearing blocks; 116-a second motor; 2-an adjustment assembly; 201-a fixed plate; 202-a skateboard; 203-a hydraulic cylinder; 204-fixing the bracket; 3-a second transport assembly; 301-supporting seat; 302-a turntable; 303-cover plate; 304-a second conveyor belt; 305-conveying rollers; 306-a first gear; 307-a second gear; 308-a third gear; 309 ring gear; 310-driving wheels; 311-driven gear; 312-lifting columns; 313-a third motor; 314-a drive gear; 315-fixed shaft; 316-friction roller; 317-drive gear; 4-a control assembly; 401-a housing; 402

-an input gear; 403-output gear; 404-fourth gear; 405-fifth gear; 406-a stop; 407-a turntable; 408-a sleeve; 409-a connecting rod; 410-a guide post; 411-input shaft; 412-a first rotating housing; 413-a second rotating housing; 414-a first ratchet; 415-pawl; 416

-a sixth gear; 417-a spindle; 418-seventh gear; 419-eighth gear; 420-ninth gear; 421-tenth gear; 422-eleventh gear; 423-screw; 424-a second ratchet; 425-a third ratchet; 426-fourth ratchet; 427-retainer ring.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1, fig. 4 and fig. 5, the conveying device for building stone processing comprises a first conveying component 1, an adjusting component 2 and a second conveying component 3, wherein the first conveying component 1 is used for conveying stone through belt transmission, the first conveying component 1 is used for adjusting the conveying distance through screw transmission, the second conveying component 3 is arranged in front of the conveying direction of the first conveying component 1, the second conveying component 3 is slidably mounted on the conveying direction of the first conveying component 1, the first conveying component 1 and the second conveying component 3 are connected through a conveying frame, the conveying frame is used for ensuring that stone is transited from the first conveying component 1 to the second conveying component 3, the second conveying component 3 comprises a rotary table 302, a cover plate 303 is arranged on the rotary table 302, the rotary table 302 slides in the conveying direction of the first conveying component 1, meanwhile, the rotary table 302 rotates around the self axis direction, a second conveying belt 304 is arranged on the rotary table 302, the upper surface of the second conveying belt 304 is flush with the upper surface of the cover plate 303, a plurality of driving wheels 310 are arranged on the circumference of the rotary table 302, the driving wheels 304 are in the first conveying component 1, the second conveying component 1 is used for controlling the rotation of the second conveying component 4, and the second conveying component 3 is controlled to rotate, and the angle of the second conveying component 4 is controlled to be arranged between the driving wheels 304 and the second conveying component 4 is used for adjusting the second conveying component 4.

As shown in fig. 1, fig. 2 and fig. 3, the first conveying assembly 1 includes a first conveying belt 101, a mounting seat 102, a fixed roller 103, a driven roller 104, a first motor 105, a sliding rail 106, a first fixing seat 107, a sliding seat 108, a sliding rod 109, a spring 110, a second fixing seat 111, a screw rod 112, a driving roller 113, a mounting plate 114, a bearing seat 115 and a second motor 116, the mounting seat 102 is used for realizing the fixation of the first conveying assembly 1, a mounting and fixing foundation is provided for other parts in the first conveying assembly 1, a plurality of sliding rails 106 are arranged on two sides of the mounting seat 102, two fixed rollers 103 are arranged between the mounting seat 102, the two fixed rollers 103 are positioned on the same straight line in the vertical direction, the two fixed rollers 103 are positioned at two ends of the height direction of the first conveying belt 101, the driven roller 104 is arranged on the mounting seat 102 which is at the same horizontal height as the fixed roller 103 positioned below, a plurality of driven rollers 113 are arranged on the mounting seat 102 which is positioned at the same horizontal height as the fixed roller 103 positioned above, a plurality of driven rollers 104 are arranged between the two fixed rollers 103, each driven roller 104 is arranged on the two fixed rollers 103, the two adjacent driven rollers 104 are arranged on the vertical direction, the driving rollers 104 are arranged on the driving roller 1, and the driving roller 113 is used for adjusting the driving belt and the driving roller 1.

As shown in fig. 2 and 3, two ends of a driving roller 113 are respectively rotatably mounted at first ends of two mounting plates 114, the two mounting plates 114 are slidably mounted in a sliding rail 106 on a mounting seat 102, a second fixing seat 111 and a bearing seat 115 are arranged on the outer side of the sliding track of the driving roller 113 on the mounting seat 102, the second fixing seat 111 and the bearing seat 115 are fixedly mounted on the mounting seat 102, a screw rod 112 is rotatably mounted between the second fixing seat 111 and the bearing seat 115, the screw rod 112 and the second end of the mounting plate 114 form a threaded transmission, the screw rod 112 is driven by a second motor 116 to rotate, two ends of a driven roller 104 between two driven rollers 104 in the vertical direction or a driven roller 104 between the driving roller 113 and the driven roller 104 in the vertical direction are rotatably mounted on a sliding seat 108, the sliding seat 108 is slidably mounted on the sliding rail 106, two first fixing seats 107 are arranged on the mounting seat 102 at two ends of the sliding track of the sliding seat 108, a slide bar 109 is arranged between the two first fixing seats 107, the sliding seat 108 is slidably arranged on the slide bar 109, a spring 110 which is coaxial with the slide bar 109 is arranged between the sliding seat 108 and the first fixing seats 107, a first end of the spring 110 is fixedly arranged on the sliding seat 108, a second end of the spring 110 is fixedly arranged on the first fixing seats 107, any one of the fixed rollers 103 is fixedly connected with an output shaft of a first motor 105, the first motor 105 is fixedly arranged on the mounting seat 102, the fixed roller 103 is driven by the first motor 105 to rotate, the fixed roller 103 drives the first conveyor belt 101 to move on the driven roller 104 and the fixed roller 103, when the length of a stone transported on the first conveyor belt 101 needs to be adjusted, a second motor 116 is started, a lead screw 112 is driven by the second motor 116 to rotate, a lead screw 112 drives a mounting plate 114 to slide on the slide rail 106 to drive a driving roller 113 to slide, further, the length of the first conveyor belt 101 for conveying stone is adjusted, and the driven roller 104 is slidably mounted on the slide rod 109 through the sliding seat 108, so that the tension between the first conveyor belt 101 and the fixed roller 103, and between the driven roller 104 and the driving roller 113 is ensured by the restoring force of the spring 110.

As shown in fig. 1 and 4, the adjusting assembly 2 includes a fixed plate 201, a sliding plate 202, a hydraulic cylinder 203 and a fixed bracket 204, the fixed bracket 204 slides in the diameter direction of the turntable 302, the fixed plate 201 is fixedly mounted on the fixed bracket 204, the cylinder body of the hydraulic cylinder 203 is fixedly mounted above the fixed bracket 204, the sliding plate 202 is slidingly mounted on the fixed plate 201, the sliding plate 202 is rotationally connected with the movable ends of the fixed bracket 204, the fixed bracket 204 is provided with two, and the angle of the sliding plate 202 is adjusted by the extending distance between the movable ends of the two fixed brackets 204, so that the angle adjustment of cutting or placing of the stone on the second conveying belt 304 is performed.

As shown in fig. 1, 4, 5, 6, 7, 8, and 9, the second conveying assembly 3 includes a support 301, a turntable 302, a cover plate 303, a second conveying belt 304, a conveying roller 305, a first gear 306, a second gear 307, a third gear 308, a gear ring 309, a driving wheel 310, a driven gear 311, a lifting column 312, a third motor 313, a driving gear 314, a fixed shaft 315, a friction roller 316, and a driving gear 317, the lifting column 312 is coaxially and slidably mounted in the support 301, a cylinder for driving the lifting column 312 to lift is provided in the support 301, the turntable 302 is coaxially and rotatably mounted on the lifting column 312, the driven gear 311 is coaxially and fixedly mounted at the bottom of the turntable 302 to form a gear transmission with the driving gear 314, the driving gear 314 is coaxially and fixedly mounted on an output shaft of the third motor 313, the third motor 313 is fixedly mounted on the lifting column 312, a plurality of fixed shafts 315 are provided on the circumference of the turntable 302, the driving wheels 310 are rotatably arranged on the fixed shafts 315, the driving wheels 310 comprise friction rollers 316 and driving gears 317, the driving gears 317 are arranged between the two friction rollers 316, the driving gears 317 are fixed with the end surfaces of the two friction rollers 316, the friction rollers 316 form friction transmission with the first conveying belt 101, the driving gears 317 form gear transmission with the control assembly 4, a gear ring 309 is coaxially rotatably arranged above the turntable 302, tooth-shaped structures are arranged on the end surfaces of the inner ring of the gear ring 309 and the gear ring 309 close to the control assembly 4, the gear ring 309 forms gear transmission with the control assembly 4, the tooth-shaped structures are arranged on the outer ring of the third gear 308 and the end surface of the third gear 308 close to the conveying roller 305, the tooth-shaped structures are arranged on the end surfaces of the third gear 308 and the third gear 307 close to the conveying roller 305, the conveying rollers 305 form gear transmission with the second conveying belt 304, the end face, close to the second gear 307, of any conveying roller 305 is coaxially and fixedly provided with a first gear 306, the first gear 306 and the second gear 307 form gear transmission, the second gear 307 and the two conveying rollers 305 are rotatably arranged on the cover plate 303, the control assembly 4 is used for driving the gear ring 309 to rotate, and the gear ring 309 cannot drive the control assembly 4 to rotate.

As shown in fig. 7, 8, 9, 10, 11, 12, 13, 14, and 15, the control assembly 4 includes a housing 401, an input gear 402, an output gear 403, a fourth gear 404, a fifth gear 405, a stopper 406, a dial 407, a sleeve 408, a link 409, a guide post 410, an input shaft 411, a first rotating housing 412, a second rotating housing 413, a first ratchet 414, a pawl 415, a sixth gear 416, a rotating shaft 417, a seventh gear 418, an eighth gear 419, a ninth gear 420, a tenth gear 421, an eleventh gear 422, a screw 423, a second ratchet 424, a third ratchet 425, a fourth ratchet 426, and a retainer ring 427, the housing 401 is fixedly installed inside the turntable 302, the input gear 402 and the output gear 403 are rotatably installed inside the housing 401, the input gear 402 forms a gear transmission with the driving gear 317, the output gear 403 forms a gear transmission with the ring 309, the input gear 402 is fixedly installed coaxially on the input shaft 411, the input shaft 411 is rotatably mounted in the housing 401, a first rotating housing 412 and a second rotating housing 413 are coaxially arranged on the input shaft 411, a first ratchet wheel 414 is arranged in the first rotating housing 412 and the second rotating housing 413, two first ratchet wheels 414 are coaxially and fixedly mounted on the input shaft 411, pawls 415 which are matched with the first ratchet wheels 414 to form ratchet pawls are arranged in the first rotating housing 412 and the second rotating housing 413, the two first ratchet wheels 414 arranged on the input shaft 411 respectively drive the first rotating housing 412 and the second rotating housing 413 to rotate in different directions, a guide post 410 is coaxially and fixedly mounted at the end part of the input shaft 411, a sleeve 408 is slidably mounted on the guide post 410, a rotary table 407 is coaxially and fixedly mounted at the end part of the sleeve 408, a plurality of stop blocks 406 are arranged on the end face of the rotary table 407, a fifth gear 405 is rotatably mounted in the housing 401, a plurality of stoppers 406 are arranged on the fifth gear 405, the fifth gear 405 is coaxial with the turntable 407, a spring coaxial with the fifth gear 405 is arranged between the fifth gear 405 and the turntable 407, magnet blocks with the same magnetic poles and arranged oppositely can be arranged on the end faces of the fifth gear 405 and the turntable 407, which are close to each other, the fifth gear 405 and the fourth gear 404 form gear transmission, the fourth gear 404 is rotatably arranged inside the shell 401, tooth-shaped structures are arranged on the outer ring of the output gear 403 and the end face close to the fourth gear 404, and the fourth gear 404 and the output gear 403 form gear transmission.

As shown in fig. 10, 11, 12, 13, 14 and 15, a first end of a connecting rod 409 is rotatably mounted on a sleeve 408, a second end of the connecting rod 409 is slidably mounted on a screw 423, a fourth ratchet wheel 426 coaxial with the screw 423 is arranged inside the second end of the connecting rod 409, the fourth ratchet wheel 426 is in threaded engagement with the screw 423, a pawl 415 engaged with a ratchet wheel pawl formed by the fourth ratchet wheel 426 is arranged inside the connecting rod 409, a baffle ring 427 for fixing the fourth ratchet wheel 426 and the connecting rod 409 in the axis direction of the screw 423 is arranged on the connecting rod 409, the screw 423 is rotatably mounted inside the housing 401, a third ratchet wheel 425 is coaxially and fixedly mounted at the end of the screw 423, a tenth gear 421 coaxial with the third ratchet wheel 425 is arranged outside the third ratchet wheel 425, the tenth gear 421 is in gear engagement with the third ratchet wheel 425 through the pawl 415, the tenth gear 421 is in gear engagement with the first rotary housing 412, the direction in which the tenth gear 421 is driven by the third ratchet wheel 425 is the same as the direction in which the first ratchet wheel 414 is driven to rotate, the tenth gear 421 is rotatably mounted inside the housing 401, and a structure of the third ratchet wheel 425 is opposite to the ratchet wheel 425.

As shown in fig. 10, 11, 12, 13, 14 and 15, the second rotary housing 413 and the sixth gear 416 form a gear transmission, a second ratchet 424 coaxial with the sixth gear 416 is arranged in the sixth gear 416, the second ratchet 424 is coaxially and fixedly installed at a first end of the rotary shaft 417, the rotary shaft 417 is rotatably installed in the housing 401, a seventh gear 418 is coaxially and fixedly installed at a second end of the rotary shaft 417, the seventh gear 418 and the eighth gear 419 form a gear transmission, the eighth gear 419 and the ninth gear 420 form a gear transmission, an eleventh gear 422 is coaxially and fixedly installed on the screw 423, the ninth gear 420 and the eleventh gear 422 form a gear transmission, the direction in which the second ratchet 424 drives the sixth gear 416 to rotate is the same as the direction in which the first ratchet 414 drives the second rotary housing 413 to rotate, and both the eighth gear 419 and the ninth gear 420 are rotatably installed in the housing 401.

The invention discloses a conveying device for building stone processing, which comprises the following working principles: when the stone material conveying device is used, firstly, stone materials are placed on the first conveying belt 101, the first motor 105 is started, the first motor 105 drives one of the fixed rollers 103 to rotate, the fixed roller 103 drives the first conveying belt 101 to move on the driven roller 104 and the fixed roller 103, when the length of the stone materials conveyed on the first conveying belt 101 needs to be adjusted, the second motor 116 is started, the second motor 116 drives the screw rod 112 to rotate, the screw rod 112 drives the mounting plate 114 to slide on the sliding rail 106 to drive the driving roller 113 to slide, the length of the stone materials conveyed by the first conveying belt 101 is further adjusted, and the driven roller 104 is slidably mounted on the sliding rod 109 through the sliding seat 108, so that the tension force between the first conveying belt 101 and the fixed roller 103, the tension force between the driven roller 104 and the driving roller 113 are ensured through the restoring force of the spring 110.

The first conveying component 1 conveys stone materials to the second conveying component 3, the sliding plates 202 are connected with the movable ends of the two hydraulic cylinders 203 through spherical hinges or magnetism, the inclination degree of the sliding plates 202 is adjusted by adjusting the extending lengths of the movable ends of the two hydraulic cylinders 203, and then the posture of the stone materials on the second conveying component 3 is adjusted, so that cutting or placing operation is facilitated.

The third motor 313 on the lifting column 312 is started, the third motor 313 drives the driving gear 314 to rotate, the driving gear 314 drives the driven gear 311 to rotate through gear transmission, the driven gear 311 drives the turntable 302 to rotate, the turntable 302 adjusts the angle of the second conveying belt 304 through the cover plate 303, when stone is required to be conveyed on the second conveying belt 304, the driving wheel 310 is contacted with the first conveying belt 101, the first conveying belt 101 drives the friction roller 316 to rotate through friction force, the friction roller 316 drives the driving gear 317 to rotate simultaneously, the driving gear 317 drives the input gear 402 to rotate, the input gear 402 drives the input shaft 411 to rotate, and two first ratchet wheels 414 arranged on the input shaft 411 drive the first rotating housing 412 and the second rotating housing 413 to rotate in opposite directions respectively, and one first ratchet wheel 414 drives the first rotating housing 412 to rotate anticlockwise, and the other first ratchet wheel 414 drives the second rotating housing 413 to rotate clockwise.

When the input gear 402 drives the input shaft 411 to rotate anticlockwise, the input shaft 411 drives the first ratchet wheel 414 to rotate anticlockwise, at this time, one of the first ratchet wheels 414 drives the first rotating shell 412 to rotate anticlockwise, the other first ratchet wheel 414 does not drive the second rotating shell 413 to rotate, because the first rotating shell 412 and the tenth gear 421 form gear transmission, at this time, the first rotating shell 412 drives the tenth gear 421 to rotate clockwise, the tenth gear 421 drives the third ratchet wheel 425 to rotate clockwise through the pawl 415, the third ratchet wheel 425 drives the screw rod 423 to rotate clockwise, at this time, the screw rod 423 has a trend of driving the fourth ratchet wheel 426 to rotate clockwise, because the direction of a ratchet structure on the third ratchet wheel 425 and the fourth ratchet wheel 426 is opposite, the fourth ratchet wheel 426 cannot rotate clockwise, at this time, the pawl 415 inside the connecting rod 409 plays a guiding role, along with the rotation of the screw rod 423, the fourth ratchet wheel 426 slides on the screw rod 423, and then the sleeve 408 slides on the guide post 410, the sleeve 408 drives the rotary table 406 to rotate clockwise, the rotary table 403 is attached to the rotary table 406, at the same time, the guide post 403 drives the rotary table 403 to rotate, the fourth gear 309 drives the rotary table 408 to rotate clockwise, and the rotary table 308 rotates the rotary table 308 to rotate clockwise through the guide post 403, and the rotary table 308 rotates the rotary table 308 to rotate the rotary table 308, thereby drives the rotary table 404 to rotate the rotary table 404, and rotates the rotary table 404 to rotate clockwise, and rotates the rotary table 404 through the rotary table 404, and rotates the rotary table 404.

When the input gear 402 drives the input shaft 411 to rotate clockwise, the input shaft 411 drives the first ratchet gears 414 to rotate clockwise, at this time, one of the first ratchet gears 414 drives the second rotation housing 413 to rotate clockwise, the other first ratchet gear 414 does not drive the first rotation housing 412 to rotate, at this time, the second rotation housing 413 drives the sixth gear 416 to rotate counterclockwise because the second rotation housing 413 and the sixth gear 416 form gear transmission, the sixth gear 416 drives the rotation shaft 417 to rotate counterclockwise, the rotation shaft 417 drives the seventh gear 418 to rotate counterclockwise, the seventh gear 418 drives the eighth gear 419 to rotate clockwise, the eighth gear 419 drives the ninth gear 420 to rotate counterclockwise, the ninth gear 420 drives the eleventh gear 422 to rotate clockwise, the eleventh gear 422 drives the screw 423 to rotate clockwise, at this time, the screw 423 has a tendency to drive the fourth ratchet gear 426 to rotate clockwise, under the action of the pawl 415 in the connecting rod 409, the fourth ratchet 426 cannot rotate clockwise, at this time, the pawl 415 in the connecting rod 409 plays a guiding role, along with the rotation of the screw 423, the fourth ratchet 426 slides on the screw 423, the fourth ratchet 426 drives the sleeve 408 to slide on the guide post 410 through the connecting rod 409, the sleeve 408 drives the turntable 407 to be attached to the stop block 406, meanwhile, the input shaft 411 drives the sleeve 408 to rotate through the guide post 410, the sleeve 408 drives the turntable 407 to rotate, the turntable 407 drives the fifth gear 405 to rotate anticlockwise through the stop block 406, the fifth gear 405 drives the fourth gear 404 to rotate clockwise, the fourth gear 404 drives the output gear 403 to rotate, the output gear 403 drives the gear ring 309 to rotate, the gear ring 309 drives the third gear 308 to rotate, the third gear 308 drives the first gear 306 to rotate through the second gear 307, and the first gear 306 drives one of the conveying rollers 305 to rotate, and then drives the second conveying belt 304 to rotate, so that stone transportation is realized.

Therefore, no matter how the steering of the input power at the housing 401 is, the direction of the output power of the output gear 403 is consistent through the transmission of the control assembly 4, when no power is input at the input gear 402, under the action of the spring or the magnetic force with the same magnetic pole between the fifth gear 405 and the turntable 407, the connecting rod 409 slides reversely, at this time, the pawl 415 inside the connecting rod 409 does not block the rotation of the fourth ratchet 426 any more, the fourth ratchet 426 rotates reversely, the connecting rod 409 is driven to retract to the initial position, the fifth gear 405 and the turntable 407 are separated from contact, and at this time, the situation that the gear ring 309 drives the other control assemblies 4 which are not driven by the first conveying belt 101 reversely rotates is prevented.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims

1. The utility model provides a conveyor is used in processing of building stone material which characterized in that: comprises a first conveying component (1), an adjusting component (2) and a second conveying component (3), wherein the first conveying component (1) is used for realizing the conveying of stone materials through belt transmission, the first conveying component (1) is used for realizing the adjustment of conveying distance through screw transmission, the second conveying component (3) is arranged in front of the conveying direction of the first conveying component (1), the second conveying component (3) is slidably arranged on the conveying direction of the first conveying component (1), the first conveying component (1) and the second conveying component (3) are connected through a conveying frame, the second conveying component (3) comprises a rotary table (302), a cover plate (303) is arranged on the rotary table (302), the rotary table (302) slides in the conveying direction of the first conveying component (1), meanwhile, the rotary table (302) rotates around the axis direction of the rotary table (302) and is provided with a second conveying belt (304), the upper surface of the second conveying belt (304) is flush with the upper surface of the cover plate (303), a plurality of rotary table (302) are provided with a plurality of rotary table (310) which are provided with a plurality of rotary table driving wheels (310) and are used for controlling the rotation of the rotary table (1), the control assembly (4) is positioned between the driving wheel (310) and the second conveying belt (304), the control assembly (4) is used for driving the second conveying belt (304) to move unidirectionally, and the adjusting assembly (2) is used for adjusting the angle of stone on the second conveying assembly (3);

The second conveying assembly (3) further comprises a support (301), a lifting column (312) is coaxially and slidably arranged in the support (301), the rotary table (302) is coaxially and rotatably arranged on the lifting column (312), a driven gear (311) is coaxially and fixedly arranged at the bottom of the rotary table (302), the driven gear (311) and a driving gear (314) form gear transmission, the driving gear (314) is coaxially and fixedly arranged on an output shaft of a third motor (313), and the third motor (313) is fixedly arranged on the lifting column (312);

the circumference of the rotary table (302) is provided with a plurality of fixed shafts (315), the fixed shafts (315) are rotatably provided with driving wheels (310), the driving wheels (310) comprise friction rollers (316) and driving gears (317), the driving gears (317) are arranged between the two friction rollers (316), the driving gears (317) are fixed with the end faces of the two friction rollers (316), the friction rollers (316) and the first conveying belt (101) form friction transmission, the driving gears (317) and the control assembly (4) form gear transmission, the rotary table (302) is coaxially and rotatably provided with gear rings (309) above, the inner rings of the gear rings (309) and the gear rings (309) are close to the end faces of the control assembly (4) and form gear transmission with the control assembly (4), the outer rings of the third gears (308) and the third gears (308) form gear transmission, the outer rings of the third gears (308) and the end faces of the third gears (308) are close to the conveying belt (305) and form gear transmission structures of the second conveying belt (305) and the second conveying belt (305) are formed by the second conveying belt (305), the end face, close to the second gear (307), of any conveying roller (305) is coaxially and fixedly provided with a first gear (306), the first gear (306) and the second gear (307) form gear transmission, the second gear (307) and the two conveying rollers (305) are rotatably arranged on the cover plate (303), the control assembly (4) is used for driving the gear ring (309) to rotate, and the gear ring (309) cannot drive the control assembly (4) to rotate.

2. A conveyor for construction stone working according to claim 1, wherein: the first conveying assembly (1) comprises a mounting seat (102) for realizing the mounting and fixing of the first conveying assembly (1), a plurality of sliding rails (106) are arranged on two sides of the mounting seat (102), two fixing rollers (103) are arranged between the two mounting seats (102), the two fixing rollers (103) are positioned on the same straight line in the vertical direction, the two fixing rollers (103) are positioned at two ends of the first conveying belt (101) in the height direction, a plurality of driven rollers (104) and driving rollers (113) are arranged on the mounting seat (102), every two adjacent driven rollers (104) are arranged in a serpentine mode in the vertical direction, the driven roller (104) positioned at the lowest position is positioned at the same horizontal height with the fixing roller (103) positioned at the upper position, the first conveying belt (101), the driven rollers (104) and the driving rollers (113) are positioned at the same horizontal height, and the driving rollers (113) are used for forming the sliding distance of the driving rollers (106) on the first conveying assembly.

3. A conveyor for construction stone working according to claim 2, wherein: the two ends of the driving roller (113) are respectively rotatably arranged at the first ends of the two mounting plates (114), the two mounting plates (114) are slidably arranged in the sliding rail (106) on the mounting seat (102), a second fixing seat (111) and a bearing seat (115) are arranged on the outer side of a sliding track of the driving roller (113), the second fixing seat (111) and the bearing seat (115) are fixedly arranged on the mounting seat (102), a lead screw (112) is rotatably arranged between the second fixing seat (111) and the bearing seat (115), the lead screw (112) and the second end of the mounting plate (114) form a threaded transmission, the lead screw (112) is driven by a second motor (116) to rotate, the driven roller (104) between the two driven rollers (104) in the vertical direction or the two ends of the driven roller (104) between the driving roller (113) and the driven roller (104) are rotatably arranged on the sliding seat (108), the sliding seat (108) is slidably arranged on the sliding rail (102), the sliding seat (108) is slidably arranged on the sliding seat (106), the sliding seat (107) is slidably arranged between the two fixing seats (107) arranged on the sliding seat (107), a spring (110) coaxial with the sliding rod (109) is arranged between the sliding seat (108) and the first fixing seat (107), any one of the fixing rollers (103) is fixedly connected with an output shaft of the first motor (105), and the first motor (105) is fixedly arranged on the mounting seat (102).

4. A conveyor for construction stone working according to claim 1, wherein: the adjusting assembly (2) comprises a fixed support (204), the fixed support (204) slides in the diameter direction of the rotary table (302), a fixed plate (201) is fixedly installed on the fixed support (204), a cylinder body of a hydraulic cylinder (203) is fixedly installed above the fixed support (204), a sliding plate (202) is slidably installed on the fixed plate (201), and the sliding plate (202) is rotationally connected with the movable end of the fixed support (204).

5. A conveyor for construction stone working according to claim 1, wherein: the control assembly (4) comprises a shell (401), an input gear (402) and an output gear (403), wherein the shell (401) is fixedly arranged inside a rotary table (302), the input gear (402) and the output gear (403) are rotatably arranged inside the shell (401), the input gear (402) and a driving gear (317) form gear transmission, the output gear (403) and a gear ring (309) form gear transmission, the input gear (402) is coaxially and fixedly arranged on an input shaft (411), the input shaft (411) is rotatably arranged inside the shell (401), a first rotating shell (412) and a second rotating shell (413) are coaxially arranged on the input shaft (411), a first ratchet wheel (414) is arranged inside the first rotating shell (412) and the second rotating shell (413), the two first ratchet wheels (414) are coaxially and fixedly arranged on the input shaft (411), the first rotating shell (412) and the second ratchet wheels (413) are coaxially arranged inside the first ratchet wheels (414) and are in different directions, and the first ratchet wheels (415) are rotatably arranged inside the first rotating shell (411) and the second rotating shell (413), the end coaxial fixed mounting of input shaft (411) have guide post (410), guide post (410) on slidable mounting have sleeve (408), the coaxial fixed mounting of end of sleeve (408) have carousel (407), the terminal surface of carousel (407) on be provided with a plurality of dogs (406), still rotate inside fifth gear (405) of installing of casing (401), fifth gear (405) on be provided with a plurality of dogs (406), fifth gear (405) coaxial with carousel (407), fifth gear (405) and fourth gear (404) form gear drive, fourth gear (404) rotate and install inside casing (401), output gear (403) outer lane and be close to on the terminal surface of fourth gear (404) all be provided with tooth form structure, fourth gear (404) and output gear (403) form gear drive.

6. The conveyor for building stone machining according to claim 5, wherein: the sleeve (408) is rotatably provided with a first end of a connecting rod (409), a second end of the connecting rod (409) is slidably arranged on a screw (423), a fourth ratchet wheel (426) coaxial with the screw (423) is arranged inside the second end of the connecting rod (409), the fourth ratchet wheel (426) and the screw (423) form threaded fit, the connecting rod (409) is internally provided with a pawl (415) which is matched with the fourth ratchet wheel (426) to form a ratchet wheel pawl, the connecting rod (409) is provided with a baffle ring (427) for realizing the fixation of the fourth ratchet wheel (426) and the connecting rod (409) in the axis direction of the screw (423), the screw (423) is rotatably arranged inside the shell (401), the end part of the screw (423) is coaxially and fixedly provided with a third ratchet wheel (425), a tenth gear (421) coaxial with the third ratchet wheel (425) is arranged outside the third ratchet wheel (425), the tenth gear (421) is rotatably arranged inside the shell (401), the tenth gear (421) is matched with the tenth ratchet wheel (415) to form a ratchet wheel (412) through the tenth gear (421), the direction of the third ratchet wheel (425) driving the tenth gear (421) to rotate is the same as the direction of the first ratchet wheel (414) driving the first rotating shell (412), and the direction of the third ratchet wheel (425) and the direction of the ratchet structure of the fourth ratchet wheel (426) are opposite.

7. The conveyor for building stone machining according to claim 6, wherein: the second rotating shell (413) and the sixth gear (416) form gear transmission, a second ratchet wheel (424) coaxial with the sixth gear (416) is arranged in the sixth gear (416), the second ratchet wheel (424) is fixedly arranged at the first end of a rotating shaft (417), the rotating shaft (417) is rotatably arranged in the shell (401), a seventh gear (418) is fixedly arranged at the second end of the rotating shaft (417), the seventh gear (418) and an eighth gear (419) form gear transmission, an eleventh gear (422) is fixedly arranged on the screw (423) coaxially, the ninth gear (420) and the eleventh gear (422) form gear transmission, the direction in which the second ratchet wheel (424) drives the sixth gear (416) to rotate is the same as the direction in which the first ratchet wheel (414) drives the second rotating shell (413), and the eighth gear (419) and the ninth gear (420) form gear transmission, and the eighth gear (420) and the ninth gear (420) are both arranged in the shell (401) in an inner mode.

8. The conveyor for building stone processing according to claim 7, wherein: a spring coaxial with the fifth gear (405) is arranged between the fifth gear (405) and the turntable (407).