CN113232169A - Layered crushing type stone railing post cleaning device - Google Patents

Abstract

The invention relates to the field of processing of stone railings, in particular to a layered crushing type stone railing post cleaning device. The technical problem of the invention is as follows: provides a layered crushing type stone railing post cleaning device. The technical scheme is as follows: a layered crushing type stone railing post cleaning device comprises a supporting base, an operation control panel, a stone cleaning system and a stone cutting system; the supporting base is connected with the operation control panel. The invention achieves the effects of cleaning the cut parts while cutting, deeply cleaning the parts with different cutting depths, simultaneously preventing the parts required by the stone column from being damaged in the cutting process, greatly saving the processing time of the stone column and avoiding the damage caused by manual misoperation.

Description

Layered crushing type stone railing post cleaning device

Technical Field

The invention relates to the field of processing of stone railings, in particular to a layered crushing type stone railing post cleaning device.

Background

The stone railing is the most common component of the traditional buildings in China, is generally used for railing maintenance so as to avoid danger, is most indispensable particularly in garden buildings, can be used for railing maintenance, and cannot cut off the connection among all areas.

The cutting is one of them process of present cylindrical stone guardrail preparation, go to control the sawtooth dish by the manual work, then rotatory the stone pillar, come to carry out preliminary cutting to square stone pillar, its cutting mode is to whole stone pillar from top to bottom carry out the cutting of layering, after the cutting, just stop the rotation of stone pillar, then the manual work goes the discarded part of stone pillar after the clearance layering, time of polishing when reducing the stone pillar preparation, but manual cleaning speed is slow in this in-process, and because the pattern of required stone pillar is not identical in the cutting process, so that the degree of depth of cutting is different, the manual work is beaten the operation degree of difficulty and is destroyed required part easily.

Therefore, there is a need for a layered crushing type stone railing post cleaning device to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the cutting is one of the processes of manufacturing the existing cylindrical stone guardrail, a fluted disc is controlled manually, then a stone column is rotated to primarily cut the square stone column, the cutting mode is to cut the whole stone column in a layered mode from top to bottom, the rotation of the stone column is stopped after the cutting is finished, and then the waste part of the stone column after the layering is cleaned manually so as to reduce the grinding time during the manufacturing of the stone column, but the manual cleaning speed is slow in the process, and the required stone column patterns are not completely the same in the cutting process, so that the cutting depths are different, the manual beating operation difficulty is large, and the required part is easy to damage, the technical problem of the invention is as follows: provides a layered crushing type stone railing post cleaning device.

The technical scheme is as follows: a layered crushing type stone railing post cleaning device comprises a supporting base, an operation control panel, a stone cleaning system and a stone cutting system; the supporting base is connected with the operation control panel; the supporting base is connected with the stone removing system; the stone removal system is connected to the stone cutting system.

In a preferred embodiment of the present invention, the stone block removing system comprises a first power motor, a first shaft sleeve, a first flat gear, a first pushing plate, a first electric pushing rod, a first column gear, a first rotating shaft, a first driving wheel, a second driving wheel, a first lead screw, a first fixing plate, a first movable supporting frame, a second fixing plate, a second flat gear, a third flat gear, a first hexagonal rod, a first bevel gear, a second bevel gear, a third driving wheel, a fourth driving wheel, a first rotating disc, a first bidirectional pushing rod, a second pushing plate, a first removing unit, a second removing unit, a fifth driving wheel, a sixth driving wheel, a first rotating rod, a seventh driving wheel, a third fixing plate, an eighth driving wheel, a second rotating shaft, a ninth driving wheel, a tenth driving wheel, a first stone column fixing chassis, a first broken stone collector, a first limit rod, a second limit rod, The first auxiliary pushing plate, the second auxiliary pushing plate, the first fixing rod, the second fixing rod, the fourth fixing plate, the fifth fixing plate, the sixth fixing plate, the seventh fixing plate, the eighth fixing plate and the second shaft sleeve are arranged on the first shaft sleeve; the first power motor is connected with the support base through a bolt; an output shaft of the first power motor is in sliding connection with the first shaft sleeve; an output shaft of the first power motor is fixedly connected with a fifth driving wheel; the first shaft sleeve is fixedly connected with the first flat gear; the first shaft sleeve is rotatably connected with the first pushing plate; the first pushing plate is connected with the first electric push rod through a bolt; the first electric push rod is connected with the support base through a bolt; a first cylindrical gear is arranged on the side surface of the first flat gear; when the first flat gear is meshed with the first cylindrical gear, the first cylindrical gear rotates; when the first pinion is not engaged with the first spur gear, the first spur gear does not rotate; the inner axle center of the first column gear is fixedly connected with the first rotating shaft; the outer surface of the first rotating shaft is sequentially in rotating connection with the seventh fixing plate and the eighth fixing plate; the seventh fixing plate and the eighth fixing plate are fixedly connected with the supporting base; the outer surface of the first rotating shaft is fixedly connected with the first driving wheel; the outer surface of the first rotating shaft is fixedly connected with the second flat gear; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the inner axle center of the second driving wheel is fixedly connected with the first screw rod; the first screw rod is simultaneously in rotating connection with the first fixing plate and the second fixing plate; the first screw rod is connected with the first movable support frame in a rotating mode; the first fixing plate is fixedly connected with the supporting base; the first movable support frame is in sliding connection with the support base; the first hexagonal rod is in sliding connection with the first bevel gear, and the first movable support frame is in rotating connection with the first bevel gear; the second fixing plate is fixedly connected with the supporting base; the second flat gear is meshed with the third flat gear; the inner axis of the third horizontal gear is fixedly connected with the first hexagonal prism rod; the first hexagonal rod is in sliding connection with the first bevel gear; two ends of the first hexagonal rod are respectively and rotatably connected with the fifth fixing plate and the sixth fixing plate; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with a third transmission wheel through a rotating shaft; the second bevel gear is rotationally connected with the first movable support frame through a rotating shaft; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth driving wheel is fixedly connected with the first rotating disc through a rotating shaft; the first rotating disc is rotatably connected with the first movable supporting frame through a rotating shaft; the first turntable is in sliding connection with the first bidirectional push rod; two ends of the first bidirectional push rod are fixedly connected with a second push plate respectively; the second pushing plate close to one end of the first power motor is connected with the first cleaning unit; a first gravel collector is arranged below the first clearing unit; the second pushing plate far away from one end of the first power motor is connected with the second cleaning unit; the two second pushing plates are in sliding connection with the first movable supporting frame; the first cleaning unit is connected with the second shaft sleeve; the first cleaning unit is connected with the second auxiliary pushing plate; the second cleaning unit is connected with the first auxiliary pushing plate; the second cleaning unit is connected with the second shaft sleeve; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the first rotating rod through the inner axle center; the outer surface of the first rotating rod is fixedly connected with the seventh driving wheel; the outer surface of the first rotating rod is connected with the first cleaning unit and the second cleaning unit simultaneously; the outer surface of the first rotating rod is rotationally connected with the third fixing plate; the third fixing plate is fixedly connected with the supporting base; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the inner axle center of the eighth driving wheel is fixedly connected with the second rotating shaft; the outer surface of the second rotating shaft is fixedly connected with a ninth driving wheel; the second rotating shaft is rotatably connected with the supporting base; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the inner axis of the tenth transmission wheel is fixedly connected with the first stone pillar fixing underframe; the first stone pillar fixing underframe is rotatably connected with the supporting base; the first movable support frame is fixedly connected with one side of the first fixed rod; the first movable support frame is fixedly connected with one side of the second fixed rod; the other side of the second fixed rod is fixedly connected with one side of the first gravel collector; the other side of the first fixed rod is fixedly connected with the other side of the first broken stone collector; the first auxiliary pushing plate and the second auxiliary pushing plate are simultaneously in sliding connection with the first limiting rod and the second limiting rod; the two second pushing plates are simultaneously in sliding connection with the first limiting rod and the second limiting rod; the sixth fixing plate and the seventh fixing plate are fixedly connected with the supporting base at the same time; the first limiting rod and the second limiting rod are fixedly connected with the fourth fixing plate at the same time; the first limiting rod and the second limiting rod are fixedly connected with the first movable support frame at the same time.

In a preferred embodiment of the present invention, the first removing unit includes a first moving half ring, a second moving half ring, a first supporting rod, a second pushing rod, a third shaft sleeve, a third moving half ring, a fourth moving half ring, a first knocking rod, a first spring, an L-shaped first locking plate and a first sliding ball set; the first movable half ring is in contact with the second movable half ring to form a circular ring; one side of the first movable half ring is fixedly connected with one end of each of the two first supporting rods at an equal angle; the other side of the first movable semi-ring is rotationally connected with one end of one of the second push rods through a rotating shaft; the first movable half ring is in sliding connection with the third shaft sleeve; one side of the second movable semi-ring is fixedly connected with one end of the two second supporting rods at equal angles; the other side of the second movable half ring is rotationally connected with one end of the other second pushing rod; the second movable half ring is in sliding connection with the third shaft sleeve; the other ends of the two second push rods are rotatably connected with a second shaft sleeve through a rotating shaft; the other ends of the two first supporting rods are fixedly connected with one side of the third movable semi-ring; the other ends of the two second supporting rods are fixedly connected with the fourth movable semi-ring; the third movable half ring is in contact with the fourth movable half ring to form a circular ring; the other side of the third movable semi-ring is provided with two first knocking rods, two first springs, two L-shaped first clamping plates and two groups of first sliding ball groups at equal angles; the third movable semi-ring is fixedly connected with the first knocking rod; the first knocking rod is fixedly connected with one end of the first spring; the first knocking rod is in sliding connection with the L-shaped first clamping plate; the other end of the first spring is fixedly connected with the L-shaped first clamping plate; the bottom end of the L-shaped first clamping plate is rotationally connected with the first sliding ball group; the other side of the fourth movable semi-ring is provided with two first knocking rods, two first springs, two L-shaped first clamping plates and two groups of first sliding ball groups at equal angles; the fourth movable half ring is fixedly connected with the first knocking rod.

In a preferred embodiment of the present invention, the second removing unit includes a fifth moving half ring, a sixth moving half ring, a third support bar, a fourth support bar, a third pushing bar, a fourth shaft sleeve, a seventh moving half ring, an eighth moving half ring, a second knocking bar, a second spring, an L-shaped second position-locking plate and a second sliding ball set; the fifth movable half ring is in contact with the sixth movable half ring to form a circular ring; one side of the fifth movable half ring is fixedly connected with one end of each of the two third supporting rods at an equal angle; the other side of the fifth movable half ring is rotatably connected with one end of one third pushing rod through a rotating shaft; the fifth movable half ring is connected with the fourth shaft sleeve in a sliding manner; one side of the sixth movable half ring is fixedly connected with one end of each of the two fourth supporting rods at an equal angle; the other side of the sixth movable half ring is rotationally connected with one end of another third pushing rod; the sixth movable half ring is connected with the fourth shaft sleeve in a sliding manner; the other ends of the two third push rods are rotatably connected with the second shaft sleeve through a rotating shaft; the other ends of the two third supporting rods are fixedly connected with one side of the seventh movable semi-ring; the other ends of the two fourth supporting rods are fixedly connected with the eighth movable semi-ring; the seventh movable half ring and the eighth movable half ring form a circular ring through contact; the other side of the seventh movable semi-ring is provided with two second knocking rods, two second springs, two L-shaped second clamping plates and two groups of second sliding ball groups at equal angles; the seventh movable half ring is fixedly connected with the second knocking rod; the second knocking rod is fixedly connected with one end of the second spring; the second knocking rod is in sliding connection with the L-shaped second clamping plate; the other end of the second spring is fixedly connected with the L-shaped second clamping plate; the bottom end of the L-shaped second clamping plate is rotationally connected with the second sliding ball group; the other side of the eighth moving semi-ring is provided with two second knocking rods, two second springs, two L-shaped second clamping plates and two groups of second sliding ball groups at equal angles; the eighth movable half ring is fixedly connected with the second knocking rod.

In a preferred embodiment of the present invention, the stone cutting system comprises a second movable supporting frame, a first electric slide rail, a first supporting plate, a second electric slide rail, a second power motor, a third bevel gear, a fourth bevel gear, a saw-toothed disc and a third rotating shaft; the second movable support frame is fixedly connected with the first electric slide rail; the second movable support frame is fixedly connected with the second electric slide rail; the second movable support frame is in sliding connection with the first electric slide rail; the first electric slide rail is fixedly connected with the support base; the first supporting plate is connected with the second electric sliding rail in a sliding manner; the second support plate is in sliding connection with the second electric slide rail; the upper part of the first supporting plate is connected with a second power motor through a bolt; the upper part of the first supporting plate is rotationally connected with an output shaft of a second power motor; an output shaft of the second power motor is fixedly connected with the third bevel gear; the third bevel gear is meshed with the fourth bevel gear; the inner axis of the fourth bevel gear is fixedly connected with the third rotating shaft; the outer surface of the third rotating shaft is rotatably connected with the first supporting plate; the outer surface of the third rotating shaft is fixedly connected with the sawtooth disc; the outer surface of the third rotating shaft is rotatably connected with the second supporting plate.

In a preferred embodiment of the invention, the first stone collector is a round tube with hollow cubes on both sides and through which the cubes are passed.

Compared with the prior art, the invention has the beneficial effects that: the invention achieves the effects of cleaning the cut parts while cutting, deeply cleaning the parts with different cutting depths, simultaneously preventing the parts required by the stone column from being damaged in the cutting process, greatly saving the processing time of the stone column and avoiding the damage caused by manual misoperation; according to the invention, the stone column is rotated by operating the stone removing system, then the stone cutting system is started, the stone cutting system is moved to cut the stone column, when the stone is cut to a certain height, the cut part of the stone is cleaned by the stone removing system, and the cleaned stone is collected by the collector which is externally connected with the stone removing system.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of the stone removal system of the present invention;

FIG. 4 is a schematic view of a first partial perspective of the stone removal system of the present invention;

FIG. 5 is a schematic view of a second partial perspective of the stone removal system of the present invention;

FIG. 6 is a schematic view of a third partial perspective of the stone removal system of the present invention;

FIG. 7 is a schematic perspective view of a first cleaning unit according to the present invention;

FIG. 8 is a schematic perspective view of a second cleaning unit according to the present invention;

FIG. 9 is a perspective view of the first turntable and the first bi-directional pushing rod assembly of the present invention;

fig. 10 is a schematic view of a first three-dimensional structure of the stone cutting system according to the invention;

fig. 11 is a schematic view of a second three-dimensional structure of the stone cutting system of the invention.

In the figure: 1. a supporting base, 2, an operation control panel, 3, a stone block removing system, 4, a stone block cutting system, 301, a first power motor, 302, a first shaft sleeve, 303, a first flat gear, 304, a first push plate, 305, a first electric push rod, 306, a first column gear, 307, a first rotating shaft, 308, a first driving wheel, 309, a second driving wheel, 3010, a first screw rod, 3011, a first fixing plate, 3012, a first movable supporting frame, 3013, a second fixing plate, 3014, a second flat gear, 3015, a third flat gear, 3016, a first hexagonal rod, 3017, a first bevel gear, 3018, a second bevel gear, 3019, a third driving wheel, 3020, a fourth driving wheel, 3021, a first rotating disc, 3022, a first bidirectional push rod, 3023, a second push plate, 3024, a first removing unit, 3025, a second removing unit, 3026, a fifth driving rod, 3027, a sixth driving wheel, 3028, a first rotating wheel, 3029. a seventh driving wheel 3030, a third fixing plate 3031, an eighth driving wheel 3032, a second rotating shaft 3033, a ninth driving wheel 3034, a tenth driving wheel 3035, a first stone pillar fixing chassis 3036, a first gravel collector 3037, a first limit rod 3038, a second limit rod 3039, a first auxiliary pushing plate 3040, a second auxiliary pushing plate 3041, a first fixing rod 3042, a second fixing rod 3043, a fourth fixing plate 3044, a fifth fixing plate 3045, a sixth fixing plate 3046, a seventh fixing plate 3047, an eighth fixing plate 3048, a second shaft sleeve 304401, a first moving half ring 302401, a first moving half ring 302402, a second moving half ring 302403, a first supporting rod 302404, a second supporting rod, a 302405, a second pushing rod 302406, a third shaft sleeve, 302407, a third moving half ring 302408, a fourth moving half ring 302409, a knocking rod 302410, a first clamping spring 302411, a first L- shaped spring 302411, 302412, a first sliding ball group, 302501, a fifth moving half ring, 302502, a sixth moving half ring, 302503, a third support rod, 302504, a fourth support rod, 302505, a third push rod, 302506, a fourth shaft sleeve, 302507, a seventh moving half ring, 302508, an eighth moving half ring, 302509, a second knock rod, 302510, a second spring, 302511, an L-shaped second clamping plate, 302512, a second sliding ball group, 401, a second moving support frame, 402, a first electric slide rail, 403, a first support plate, 404, a second support plate, 405, a second electric slide rail, 406, a second power motor, 407, a third bevel gear, 408, a fourth bevel gear, 409, a sawtooth disc, 4010 and a third rotating shaft.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

A layered crushing type stone railing post cleaning device, as shown in fig. 1-11, comprising a supporting base 1, an operation control panel 2, a stone block cleaning system 3 and a stone block cutting system 4; the supporting base 1 is connected with the operation control panel 2; the supporting base 1 is connected with a stone removing system 3; the stone removal system 3 is connected to a stone cutting system 4.

When the device is used, the device is horizontally fixed at a position required to be used, then a stone column to be cut is placed in the stone removing system 3, the device is externally connected with a power supply, the device is regulated and controlled by the operation control panel 2, the stone removing system 3 is firstly operated to enable the stone column to rotate, then the stone cutting system 4 is started, the stone cutting system 4 is moved to cut the stone column, when the stone is cut to a certain height, the cut part of the stone is cleaned by the stone removing system 3, and the cleaned stone is collected by the collector externally connected with the stone removing system 3; this device has realized clearing up the part that has been cut in the cutting, and carries out degree of depth clearance to the part that the cutting depth is different, prevents the in-process of cutting simultaneously to the destruction of the required part of stone pillar, greatly saves the process time of stone pillar to avoid because of the destruction that artifical maloperation caused.

The stone block removing system 3 comprises a first power motor 301, a first shaft sleeve 302, a first flat gear 303, a first push plate 304, a first electric push rod 305, a first column gear 306, a first rotating shaft 307, a first driving wheel 308, a second driving wheel 309, a first screw rod 3010, a first fixed plate 3011, a first movable support 3012, a second fixed plate 3013, a second flat gear 3014, a third flat gear 3015, a first six-edge rod 3016, a first bevel gear 3017, a second bevel gear 3018, a third driving wheel 3019, a fourth driving wheel 3020, a first rotating disc 3021, a first bidirectional push rod 3022, a second push plate 3023, a first removing unit 3024, a second removing unit 3025, a fifth driving wheel 3026, a sixth driving wheel 3027, a first rotating rod 3028, a seventh driving wheel 3029, a third fixed plate 3030, an eighth driving wheel 3031, a second rotating shaft 3032, a ninth rotating shaft 3033, a tenth driving wheel 3034, a first fixed column pillar chassis 3035, a second fixed pillar 3035, a second movable support 3021, a second movable support 3024, a second movable support 3014, a second movable support and a second movable support, A first crushed stone collector 3036, a first limit rod 3037, a second limit rod 3038, a first auxiliary push plate 3039, a second auxiliary push plate 3040, a first fixed rod 3041, a second fixed rod 3042, a fourth fixed plate 3043, a fifth fixed plate 3044, a sixth fixed plate 3045, a seventh fixed plate 3046, an eighth fixed plate 3047 and a second shaft sleeve 3048; the first power motor 301 is connected with the support base 1 through bolts; an output shaft of the first power motor 301 is in sliding connection with the first shaft sleeve 302; an output shaft of the first power motor 301 is fixedly connected with a fifth driving wheel 3026; the first shaft sleeve 302 is fixedly connected with the first flat gear 303; the first shaft sleeve 302 is rotatably connected with the first pushing plate 304; the first pushing plate 304 is connected with a first electric push rod 305 through a bolt; the first electric push rod 305 is connected with the support base 1 through a bolt; a first cylindrical gear 306 is arranged on the side surface of the first flat gear 303; when first flat gear 303 meshes with first spur gear 306, first spur gear 306 rotates; when first pinion 303 is not engaged with first column gear 306, first column gear 306 does not rotate; the inner axis of the first cylindrical gear 306 is fixedly connected with the first rotating shaft 307; the outer surface of the first rotating shaft 307 is sequentially rotatably connected with a seventh fixing plate 3046 and an eighth fixing plate 3047; the seventh fixing plate 3046 and the eighth fixing plate 3047 are both fixedly connected to the support base 1; the outer surface of the first rotating shaft 307 is fixedly connected with the first driving wheel 308; the outer surface of the first rotating shaft 307 is fixedly connected with the second flat gear 3014; the outer ring surface of the first driving wheel 308 is in transmission connection with a second driving wheel 309 through a belt; the inner axis of the second driving wheel 309 is fixedly connected with the first screw rod 3010; the first lead screw 3010 is connected to the first fixing plate 3011 and the second fixing plate 3013 in a rotating manner; the first screw rod 3010 is screwed with the first movable support 3012; the first fixing plate 3011 is fixedly connected with the support base 1; the first movable support 3012 is connected with the support base 1 in a sliding manner; the first hexagonal rod 3016 is in sliding connection with the first bevel gear 3017, and the first movable support 3012 is in rotating connection with the first bevel gear 3017; the second fixing plate 3013 is fixedly connected to the support base 1; the second flat gear 3014 meshes with the third flat gear 3015; the axle center inside the third flat gear 3015 is fixedly connected with the first hexagonal rod 3016; the first hexagonal rod 3016 is in sliding connection with the first bevel gear 3017; two ends of the first hexagonal rod 3016 are respectively connected to the fifth fixing plate 3044 and the sixth fixing plate 3045 in a rotating manner; first bevel gear 3017 meshes with second bevel gear 3018; the second bevel gear 3018 is fixedly connected to the third driving wheel 3019 through a rotating shaft; the second bevel gear 3018 is rotatably connected to the first movable support 3012 through a rotating shaft; the outer ring surface of the third driving wheel 3019 is in transmission connection with a fourth driving wheel 3020 through a belt; the fourth driving wheel 3020 is fixedly connected with the first turntable 3021 through a rotating shaft; the first rotary disc 3021 is rotatably connected with the first movable support 3012 through a rotary shaft; the first rotary disc 3021 is slidably connected with the first bidirectional push rod 3022; two ends of the first bidirectional push rod 3022 are fixedly connected with a second push plate 3023 respectively; a second push plate 3023 near one end of the first power motor 301 is connected to a first purge unit 3024; a first crushed stone collector 3036 is arranged below the first cleaning unit 3024; a second push plate 3023, which is distal from one end of the first power motor 301, is connected to a second purge unit 3025; the two second pushing plates 3023 are both connected with the first movable support 3012 in a sliding manner; the first cleaning unit 3024 is connected to the second sleeve 3048; the first cleaning unit 3024 is connected to the second auxiliary push plate 3040; the second cleaning unit 3025 is connected to the first auxiliary push plate 3039; the second cleaning unit 3025 is connected to the second sleeve 3048; the outer annular surface of the fifth driving wheel 3026 is in driving connection with a sixth driving wheel 3027 through a belt; the sixth driving wheel 3027 is fixedly connected to the first rotating rod 3028 through the inner axis; the outer surface of the first rotating rod 3028 is fixedly connected with a seventh driving wheel 3029; the outer surface of the first rotating rod 3028 is simultaneously connected with the first and second cleaning units 3024 and 3025; the outer surface of the first rotating rod 3028 is rotatably connected with the third fixing plate 3030; the third fixing plate 3030 is fixedly connected with the support base 1; the outer ring surface of the seventh driving wheel 3029 is in transmission connection with the eighth driving wheel 3031 through a belt; the inner axle center of the eighth transmission wheel 3031 is fixedly connected with the second rotating shaft 3032; the outer surface of the second rotating shaft 3032 is fixedly connected with a ninth driving wheel 3033; the second rotating shaft 3032 is rotatably connected with the supporting base 1; the outer annular surface of the ninth transmission wheel 3033 is in transmission connection with a tenth transmission wheel 3034 through a belt; the inner axis of the tenth transmission wheel 3034 is fixedly connected with the first stone pillar fixing underframe 3035; the first stone column fixing underframe 3035 is rotatably connected with the support base 1; the first moving support 3012 is fixedly connected to one side of the first fixed link 3041; the first moving support 3012 is fixedly connected to one side of the second fixed link 3042; the other side of the second fixing rod 3042 is fixedly connected with one side of the first crushed stone collector 3036; the other side of the first fixing rod 3041 is fixedly connected with the other side of the first crushed stone collector 3036; the first auxiliary pushing plate 3039 and the second auxiliary pushing plate 3040 are simultaneously in sliding connection with the first limiting rod 3037 and the second limiting rod 3038; the two second pushing plates 3023 are simultaneously connected with the first limit rod 3037 and the second limit rod 3038 in a sliding manner; the sixth fixing plate 3045 and the seventh fixing plate 3046 are fixedly connected to the supporting base 1 at the same time; the first limit rod 3037 and the second limit rod 3038 are fixedly connected with the fourth fixing plate 3043 at the same time; the first limit rod 3037 and the second limit rod 3038 are fixedly connected with the first movable support 3012 at the same time.

Firstly, when a stone column is placed between the first stone column fixing underframe 3035 and the first rotating rod 3028, the first power motor 301 drives the fifth driving wheel 3026 to rotate, so that the fifth driving wheel 3026 drives the sixth driving wheel 3027 to rotate, at the same time, the sixth driving wheel 3027 drives the second limiting rod 3038 to rotate in the third fixing plate 3030, then the first rotating rod 3028 drives the seventh driving wheel 3029, the first cleaning unit 3024 and the second cleaning unit 3025 to rotate, so that the stone column, the first cleaning unit 3024 and the second cleaning unit 3025 keep a relatively static state, at the same time, the seventh driving wheel 3029 drives the eighth driving wheel 3031 to rotate, then the eighth driving wheel 3031 drives the second rotating shaft 3032 to rotate the ninth driving wheel 3033, then the ninth driving wheel 3033 drives the tenth driving wheel 3034 to rotate, so that the tenth driving wheel 3034 drives the first stone column fixing underframe 3035 to rotate, and then the stone column is clamped by the first rotating rod 3028 and the first stone column to fix the stone column to rotate 3035, at this time, the stone block cutting system 4 is started to cut the stone block by the stone block cutting system 4, when the stone block is cut to a designated depth by the stone block cutting system 4, the first electric push rod 305 pushes the first push plate 304 downward, so that the first shaft sleeve 302 and the first flat gear 303 move downward to the state that the first flat gear 303 and the first flat gear 306 are meshed with each other, that is, the first shaft sleeve 302 is driven to rotate by the first power motor 301, the first flat gear 303 is driven to transmit the first flat gear 306 by the first shaft sleeve 302, the first rotating shaft 307 is driven to rotate by the first flat gear 306, the first rotating shaft 307 drives the first driving wheel 308 to rotate, then the first driving wheel 308 drives the second driving wheel 309 to rotate, so that the second driving wheel 309 drives the first lead screw 3010 to rotate on the first fixing plate 3011, and then the first lead screw 3010 drives the first movable support 3012 to move downward, so that the first movable support 3012 drives the first bevel gear 3017, and the second bevel gear 3017, The second bevel gear 3018, the third bevel gear 3019, the fourth bevel gear 3020, the first rotary table 3021, the first bidirectional push rod 3022, the second push plate 3023, the first cleaning unit 3024, the second cleaning unit 3025, the first gravel collector 3036, the first stopper rod 3037, the second stopper rod 3038, the first fixing rod 3041, and the second fixing rod 3042 move together, and the second bushing 3048 also moves together due to the movement of the first cleaning unit 3024 and the second cleaning unit 3025, and at the same time, the first electric push rod 305 pushes the first push plate 304 to move, and the first push plate 304 pushes the first bushing 302 to move, so that the first bushing 302 pushes the first flat gear 303 to move, so that the first flat gear 303 drives the first cylindrical gear 306 to rotate, and then the first cylindrical gear 306 drives the first rotary shaft 307 to rotate, and at this time, the first rotary shaft 307 drives the second flat gear 3014 to rotate, so that the second flat gear 3014 drives the third flat gear 3015 to rotate, then the third spur gear 3015 drives the first hexagonal rod 3016 to rotate in the fifth fixing plate 3044 and the sixth fixing plate 3045, next the first hexagonal rod 3016 drives the first bevel gear 3017 to rotate, so that the first bevel gear 3017 drives the second bevel gear 3018 to rotate, then the second bevel gear 3018 drives the third driving wheel 3019 to rotate, then the third driving wheel 3019 drives the fourth driving wheel 3020 to rotate, at this time, the fourth driving wheel 3020 drives the first rotating disc 3021 to rotate, because the side surface of the first rotating disc 3021 is provided with a cylindrical block, and the middle position of the first bidirectional push rod 3022 is provided with a chute, when the first rotating disc 3021 rotates, the cylindrical block thereon is driven to make a circular trajectory movement, and at the same time, the cylindrical block on the first rotating disc 3021 slides in the chute of the first bidirectional push rod 3022 to drive the first bidirectional push rod 3022 to move, so that the first rotating disc 3021 drives the first bidirectional push rod 3022 to move up and down, at this time, both ends of the first bidirectional push rod 3022 respectively push the two second push plates 3023 to move up and down, then the second pushing plate 3023 near the end of the eighth fixing plate 3047 cooperates with the second auxiliary pushing plate 3040 to push the first cleaning unit 3024 to move simultaneously, the second pushing plate 3023 near the end of the second fixing plate 3013 cooperates with the first auxiliary pushing plate 3039 to push the second cleaning unit 3025 to move simultaneously, at this time, the first stopper rod 3037 and the second stopper rod 3038 simultaneously restrict the movement of the two second pushing plates 3023, the first auxiliary pushing plate 3039 and the second auxiliary pushing plate 3040, then the fourth fixing plate 3043 restricts the movement of the first stopper rod 3037 and the second stopper rod 3038, so that the first cleaning unit 3024 strikes four sides of the cut stone column first, after the striking, the first cleaning unit 3024 moves downwards, so that the second cleaning unit 3025 strikes four corners of the struck part, and at the same time, the two sides of the stone collector 3036 fixed by the first fixing rod 3041 and the second fixing rod 3042 are externally connected, to collect the knocked rubble; the system completes the cleaning of the cut part.

The first removing unit 3024 includes a first moving half ring 302401, a second moving half ring 302402, a first support bar 302403, a second support bar 302404, a second push bar 302405, a third shaft housing 302406, a third moving half ring 302407, a fourth moving half ring 302408, a first knocking bar 302409, a first spring 302410, an L-shaped first detent plate 302411, and a first sliding ball set 302412; the first moving half-ring 302401 and the second moving half-ring 302402 contact to form a circular ring; one side of the first movable half ring 302401 is fixedly connected to one end of the two first supporting rods 302403 at an equal angle; the other side of the first half moving ring 302401 is rotatably connected with one end of one of the second push levers 302405 through a rotating shaft; first half mobile ring 302401 is slidably coupled to third sleeve 302406; one side of the second movable half ring 302402 is fixedly connected with one end of the two second supporting rods 302404 at an equal angle; the other side of the second moving half ring 302402 is rotatably connected with one end of another second push rod 302405; the second moving half ring 302402 is slidably connected to the third shaft housing 302406; the other ends of the two second pushing rods 302405 are rotatably connected with a second shaft sleeve 3048 through a rotating shaft; the other ends of the two first supporting rods 302403 are fixedly connected with one side of the third movable half ring 302407; the other ends of the two second supporting rods 302404 are fixedly connected with the fourth movable half ring 302408; the third moving half ring 302407 forms a circular ring in contact with the fourth moving half ring 302408; the other side of the third moving half ring 302407 is provided with two first knocking rods 302409, two first springs 302410, two L-shaped first blocking plates 302411 and two groups of first sliding ball groups 302412 at equal angles; the third movable half ring 302407 is fixedly connected with the first knocking rod 302409; the first knocking rod 302409 is fixedly connected with one end of a first spring 302410; the first knocking rod 302409 is in sliding connection with the L-shaped first clamping plate 302411; the other end of the first spring 302410 is fixedly connected with the L-shaped first clamping plate 302411; the bottom end of the L-shaped first clamping plate 302411 is rotatably connected with the first sliding ball group 302412; the other side of the fourth moving half ring 302408 is provided with two first knocking rods 302409, two first springs 302410, two L-shaped first blocking plates 302411 and two groups of first sliding ball groups 302412 at equal angles; the fourth moving half ring 302408 is fixedly connected to the first tapping rod 302409.

When the first removing unit 3024 moves downward, the four first sliding ball sets 302412 slide on the stone pillar, and at this time, the four L-shaped first locking plates 302411 are bent during the sliding process, so that the L-shaped first locking plates 302411 compress the first springs 302410, so that the L-shaped first locking plates 302411 move outward, and at the same time, due to the difference in size of the stone pillar, two adjacent sets of L-shaped first locking plates 302411 drive the fourth moving half ring 302408, the first moving half ring 302401 and the two first supporting rods 302403 to move away from the second moving half ring 302402 through the third shaft sleeve 302406, and at the same time, two other sets of L-shaped first locking plates 302411 drive the third moving half ring 302407, the second moving half ring 302402 and the two second supporting rods 302404 to move away from the first moving half ring 302401 through the third shaft sleeve 302406, and when the first removing unit 3024 moves downward to the next layer of the cut stone pillar, the bent four sets of L-shaped first locking plates 302411 do not have the weight of the stone pillar and the half ring 302401, so as to restore the original shape, and at the same time, the four sets of the first springs 302410 and the springs inside the third shaft housing 302406 cooperate with the rotation of the second push rod 302405, so that the originally separated third movable half ring 302407, second movable half ring 302402, two second support rods 302404, fourth movable half ring 302408, first movable half ring 302401 and two first support rods 302403 move relatively, so that the first removing unit 3024 just wraps the stone pillar, and at the same time, the second push plate 3023 cooperates with the second auxiliary push plate 3040 to move the first removing unit 3024 downwards, so that the four sets of the first knocking rods 302409 remove the four sides of the cut part; this section completes the removal of the four edges of the cut section of the stone pillar.

The second removing unit 3025 includes a fifth moving half ring 302501, a sixth moving half ring 302502, a third support bar 302503, a fourth support bar 302504, a third push rod 302505, a fourth shaft sleeve 302506, a seventh moving half ring 302507, an eighth moving half ring 302508, a second tapping rod 302509, a second spring 302510, an L-shaped second detent plate 302511, and a second sliding ball set 302512; the fifth moving half ring 302501 forms a circular ring in contact with the sixth moving half ring 302502; one side of the fifth movable half ring 302501 is fixedly connected with one end of the two third supporting rods 302503 at an equal angle; the other side of the fifth moving half ring 302501 is rotatably connected to one end of one of the third push rods 302505 through a rotating shaft; the fifth moving half ring 302501 is slidably connected to the fourth shaft sleeve 302506; one side of the sixth movable half ring 302502 is fixedly connected with one end of the two fourth supporting rods 302504 at an equal angle; the other side of the sixth moving half ring 302502 is rotatably connected with one end of another third push rod 302505; the sixth moving half ring 302502 is slidably connected to the fourth shaft sleeve 302506; the other ends of the two third push rods 302505 are rotatably connected with a second shaft sleeve 3048 through a rotating shaft; the other ends of the two third supporting rods 302503 are fixedly connected with one side of the seventh movable half ring 302507; the other ends of the two fourth supporting rods 302504 are fixedly connected with the eighth movable half ring 302508; the seventh moving half ring 302507 forms a circular ring by contacting the eighth moving half ring 302508; the other side of the seventh moving half ring 302507 is provided with two second knocking levers 302509, two second springs 302510, two L-shaped second blocking plates 302511 and two second sliding ball sets 302512 at equal angles; the seventh movable half ring 302507 is fixedly connected with the second knocking rod 302509; the second knocking rod 302509 is fixedly connected with one end of a second spring 302510; the second knocking rod 302509 is in sliding connection with the L-shaped second clamping plate 302511; the other end of the second spring 302510 is fixedly connected with an L-shaped second clamping plate 302511; the bottom end of the L-shaped second clamping plate 302511 is rotatably connected with the second sliding ball group 302512; the other side of the eighth moving half ring 302508 is provided with two second knocking levers 302509, two second springs 302510, two L-shaped second blocking plates 302511 and two second sliding ball sets 302512 at equal angles; the eighth moving half ring 302508 is fixedly connected to the second tapping rod 302509.

When the second removing unit 3025 moves downward, the four second sliding ball groups 302512 slide on the stone pillar, and during the sliding, the four L-shaped second locking plates 302511 bend, so that the L-shaped second locking plates 302511 compress the second springs 302510, so that the L-shaped second locking plates 302511 move outward, and at the same time, due to the size of the stone pillar, two adjacent sets of L-shaped second locking plates 302511 move the eighth moving half ring 302508, the fifth moving half ring 302501, and the two third supporting rods 302503 to the side away from the sixth moving half ring 302502 through the fourth shaft sleeve 302506, and the other two sets of L-shaped second locking plates 302511 move the seventh moving half ring 302507, the sixth moving half ring 302502, and the two fourth supporting rods 302504 to the side away from the fifth moving half ring 302501 through the fourth shaft sleeve 302506, and when the second removing unit 3025 moves downward to the next layer of the cut stone pillar, the bent four sets of L-shaped second locking plates 8932 do not have the weight of the stone pillar 302511, so that the original shape is restored, and at the same time, the four sets of second springs 302510 and the springs inside the fourth shaft sleeve 302506 cooperate with the rotation of the third push rod 302505, so that the seventh movable half ring 302507, the sixth movable half ring 302502 and the two fourth support rods 302504, and the eighth movable half ring 302508, the fifth movable half ring 302501 and the two third support rods 302503, which are originally separated, are relatively moved, so that the second removing unit 3025 just wraps the stone pillar, and at the same time, the second push plate 3023 cooperates with the second auxiliary push plate 3040 to move the second removing unit 3025 downwards, so that the four sets of second knocking rods 302509 remove the four sides of the cut part; this section completes the removal of the four corners of the cut portion of the stone pillar.

The stone cutting system 4 comprises a second movable support frame 401, a first electric slide rail 402, a first support plate 403, a second support plate 404, a second electric slide rail 405, a second power motor 406, a third bevel gear 407, a fourth bevel gear 408, a sawtooth disc 409 and a third rotating shaft 4010; the second movable support frame 401 is fixedly connected with the first electric slide rail 402; the second movable support frame 401 is fixedly connected with a second electric slide rail 405; the second movable support frame 401 is connected with the first electric slide rail 402 in a sliding manner; the first electric slide rail 402 is fixedly connected with the support base 1; the first support plate 403 is connected with the second electric slide rail 405 in a sliding manner; the second support plate 404 is slidably connected to the second electric slide rail 405; the upper part of the first supporting plate 403 is connected with a second power motor 406 through bolts; the upper part of the first supporting plate 403 is rotationally connected with an output shaft of a second power motor 406; an output shaft of the second power motor 406 is fixedly connected with a third bevel gear 407; the third bevel gear 407 meshes with the fourth bevel gear 408; the inner axis of the fourth bevel gear 408 is fixedly connected with the third rotating shaft 4010; the outer surface of the third rotating shaft 4010 is rotatably connected with the first supporting plate 403; the outer surface of the third rotating shaft 4010 is fixedly connected with the sawtooth disc 409; the outer surface of the third rotating shaft 4010 is rotatably connected to the second support plate 404.

When the stone pillar rotates, the second electric slide rail 405 is started to control the first support plate 403 and the second support plate 404 to move, so that the first support plate 403 and the second support plate 404 drive the second power motor 406, the third bevel gear 407, the fourth bevel gear 408, the saw-toothed disc 409 and the third rotating shaft 4010 to move upwards, so that the saw-toothed disc 409 has the same height as the stone pillar, at this time, the second power motor 406 is started, the first electric slide rail 402 is controlled to control the second movable support frame 401 to drive the first support plate 403, the second support plate 404, the second electric slide rail 405, the second power motor 406, the third bevel gear 407, the fourth bevel gear 408, the saw-toothed disc 409 and the third rotating shaft 4010 to move towards the stone pillar, so that the saw-toothed disc 409 cuts the waste part of the stone pillar, and after the cutting is completed, the first electric slide rail 402 is controlled to drive the second movable support frame 401 to drive the first support plate 403, the second support plate 404, the first support plate 404, the second support plate 4010, the saw-toothed disc 402, the saw-toothed disc 409 and the third rotating shaft 4010 to move upwards, The second electric slide rail 405, the second power motor 406, the third bevel gear 407, the fourth bevel gear 408, the sawtooth disc 409 and the third rotating shaft 4010 move to the direction away from the stone pillar, so that the sawtooth disc 409 is separated from the stone pillar, meanwhile, the second electric slide rail 405 is controlled to drive the first support plate 403, the second support plate 404, the second power motor 406, the third bevel gear 407, the fourth bevel gear 408, the saw-toothed disc 409 and the third rotating shaft 4010 to move a small distance in the direction close to the first electric slide rail 402, and then the second electric slide rail 405 is stopped, and then the first electric sliding rail 402 is controlled to move towards the direction of the stone pillar again, and the process is repeated until the stone pillar is cut, controlling a first electric slide rail 402 to drive a second movable support frame 401, a first support plate 403, a second support plate 404, a second electric slide rail 405, a second power motor 406, a third bevel gear 407, a fourth bevel gear 408, a saw-tooth disc 409 and a third rotating shaft 4010 to move to an initial position; the system completes the layered cutting of the stone pillar.

The first crushed stone collector 3036 is a round tube, and two sides of the round tube are hollow cubes, and the cubes are provided with penetrating baffle plates.

Can make the stone of being cleared up protect, the external collector of both sides simultaneously for the rubble is collected.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A layered crushing type stone railing post cleaning device comprises a supporting base (1) and an operation control panel (2), and is characterized by further comprising a stone block cleaning system (3) and a stone block cutting system (4); the supporting base (1) is connected with the operation control panel (2); the supporting base (1) is connected with the stone removing system (3); the stone removal system (3) is connected with the stone cutting system (4).

2. The layered crushing type stone railing post cleaning device as claimed in claim 1, wherein the stone block cleaning system (3) comprises a first power motor (301), a first shaft sleeve (302), a first flat gear (303), a first pushing plate (304), a first electric push rod (305), a first column gear (306), a first rotating shaft (307), a first driving wheel (308), a second driving wheel (309), a first screw rod (3010), a first fixing plate (3011), a first movable supporting frame (3012), a second fixing plate (3013), a second flat gear (3014), a third flat gear (3015), a first six-edged rod (3016), a first bevel gear (3017), a second bevel gear (3018), a third driving wheel (3019), a fourth driving wheel (3020), a first rotary table (3021), a first bidirectional push rod (3022), a second pushing plate (3023), a first cleaning unit (3024), and a second cleaning unit (3024), A second clearing unit (3025), a fifth transmission wheel (3026), a sixth transmission wheel (3027), a first rotating rod (3028), a seventh transmission wheel (3029), a third fixing plate (3030), an eighth transmission wheel (3031), a second rotating shaft (3032), a ninth transmission wheel (3033), a tenth transmission wheel (3034), a first stone column fixing chassis (3035), a first crushed stone collector (3036), a first limit rod (3037), a second limit rod (3038), a first auxiliary pushing plate (3039), a second auxiliary pushing plate (3040), a first fixing rod (3041), a second fixing rod (3042), a fourth fixing plate (3043), a fifth fixing plate (3044), a sixth fixing plate (3045), a seventh fixing plate 3046), an eighth fixing plate (3047) and a second shaft sleeve (3048); the first power motor (301) is connected with the support base (1) through a bolt; an output shaft of the first power motor (301) is in sliding connection with the first shaft sleeve (302); an output shaft of the first power motor (301) is fixedly connected with a fifth driving wheel (3026); the first shaft sleeve (302) is fixedly connected with the first flat gear (303); the first shaft sleeve (302) is rotatably connected with the first pushing plate (304); the first pushing plate (304) is connected with a first electric push rod (305) through a bolt; the first electric push rod (305) is connected with the support base (1) through a bolt; a first cylindrical gear (306) is arranged on the side surface of the first flat gear (303); when the first flat gear (303) is engaged with the first spur gear (306), the first spur gear (306) rotates; when the first flat gear (303) is not engaged with the first column gear (306), the first column gear (306) does not rotate; the inner axle center of the first column gear (306) is fixedly connected with the first rotating shaft (307); the outer surface of the first rotating shaft (307) is sequentially connected with a seventh fixing plate (3046) and an eighth fixing plate (3047) in a rotating manner; the seventh fixing plate (3046) and the eighth fixing plate (3047) are fixedly connected with the supporting base (1); the outer surface of the first rotating shaft (307) is fixedly connected with a first driving wheel (308); the outer surface of the first rotating shaft (307) is fixedly connected with the second flat gear (3014); the outer ring surface of the first driving wheel (308) is in transmission connection with a second driving wheel (309) through a belt; the inner axis of the second transmission wheel (309) is fixedly connected with the first screw rod (3010); the first screw rod (3010) is connected with the first fixing plate (3011) and the second fixing plate (3013) in a rotating mode; the first screw rod (3010) is connected with the first movable support frame (3012) in a screwing mode; the first fixing plate (3011) is fixedly connected with the supporting base (1); the first movable support frame (3012) is connected with the support base (1) in a sliding mode; the first hexagonal rod (3016) is in sliding connection with the first bevel gear (3017), and the first movable support frame (3012) is in rotating connection with the first bevel gear (3017); the second fixing plate (3013) is fixedly connected with the supporting base (1); the second flat gear (3014) is meshed with the third flat gear (3015); the inner axis of the third horizontal gear (3015) is fixedly connected with the first hexagonal rod (3016); the first hexagonal rod (3016) is in sliding connection with the first bevel gear (3017); two ends of the first hexagonal rod (3016) are respectively connected with the fifth fixing plate (3044) and the sixth fixing plate (3045) in a rotating manner; the first bevel gear (3017) is meshed with the second bevel gear (3018); the second bevel gear (3018) is fixedly connected with a third transmission wheel (3019) through a rotating shaft; the second bevel gear (3018) is rotatably connected with the first movable support frame (3012) through a rotating shaft; the outer ring surface of the third driving wheel (3019) is in transmission connection with a fourth driving wheel (3020) through a belt; the fourth driving wheel (3020) is fixedly connected with the first turntable (3021) through a rotating shaft; the first rotary disc (3021) is rotatably connected with the first movable support frame (3012) through a rotating shaft; the first rotary table (3021) is connected with the first bidirectional push rod (3022) in a sliding way; two ends of the first bidirectional push rod (3022) are fixedly connected with a second push plate (3023) respectively; a second pushing plate (3023) near one end of the first power motor (301) is connected with the first cleaning unit (3024); a first gravel collector (3036) is arranged below the first clearing unit (3024); a second pushing plate (3023) far away from one end of the first power motor (301) is connected with a second cleaning unit (3025); the two second pushing plates (3023) are in sliding connection with the first movable support frame (3012); the first clearing unit (3024) is connected with the second shaft sleeve (3048); the first clearing unit (3024) is connected with the second auxiliary pushing plate (3040); the second cleaning unit (3025) is connected with the first auxiliary pushing plate (3039); the second cleaning unit (3025) is connected with the second shaft sleeve (3048); the outer ring surface of the fifth driving wheel (3026) is in transmission connection with a sixth driving wheel (3027) through a belt; the sixth driving wheel (3027) is fixedly connected with the first rotating rod (3028) through the inner axle center; the outer surface of the first rotating rod (3028) is fixedly connected with a seventh driving wheel (3029); the outer surface of the first rotating rod (3028) is simultaneously connected with the first cleaning unit (3024) and the second cleaning unit (3025); the outer surface of the first rotating rod (3028) is rotatably connected with the third fixing plate (3030); the third fixing plate (3030) is fixedly connected with the supporting base (1); the outer ring surface of the seventh driving wheel (3029) is in transmission connection with the eighth driving wheel (3031) through a belt; the inner axle center of the eighth transmission wheel (3031) is fixedly connected with the second rotating shaft (3032); the outer surface of the second rotating shaft (3032) is fixedly connected with a ninth driving wheel (3033); the second rotating shaft (3032) is rotatably connected with the supporting base (1); the outer ring surface of the ninth driving wheel (3033) is in transmission connection with a tenth driving wheel (3034) through a belt; the inner axis of the tenth transmission wheel (3034) is fixedly connected with the first stone pillar fixing underframe (3035); the first stone column fixing underframe (3035) is rotatably connected with the supporting base (1); the first movable support frame (3012) is fixedly connected with one side of the first fixed rod (3041); the first movable support frame (3012) is fixedly connected with one side of the second fixed rod (3042); the other side of the second fixed rod (3042) is fixedly connected with one side of the first gravel collector (3036); the other side of the first fixed rod (3041) is fixedly connected with the other side of the first gravel collector (3036); the first auxiliary pushing plate (3039) and the second auxiliary pushing plate (3040) are simultaneously in sliding connection with the first limiting rod (3037) and the second limiting rod (3038); the two second push plates (3023) are simultaneously in sliding connection with the first limiting rod (3037) and the second limiting rod (3038); the sixth fixing plate (3045) and the seventh fixing plate (3046) are fixedly connected with the supporting base (1) at the same time; the first limiting rod (3037) and the second limiting rod (3038) are fixedly connected with the fourth fixing plate (3043) at the same time; the first limiting rod (3037) and the second limiting rod (3038) are fixedly connected with the first movable support frame (3012) at the same time.

3. A layered crushing type stone rail post cleaning apparatus as claimed in claim 2, wherein the first cleaning unit (3024) comprises a first movable half ring (302401), a second movable half ring (302402), a first supporting bar (302403), a second supporting bar (302404), a second pushing bar (302405), a third bushing (302406), a third movable half ring (302407), a fourth movable half ring (302408), a first knocking bar (302409), a first spring (302410), an L-shaped first locking plate (302411) and a first sliding ball group (302412); the first moving half ring (302401) and the second moving half ring (302402) are in contact to form a ring; one side of the first movable half ring (302401) is fixedly connected with one end of the two first supporting rods (302403) at an equal angle; the other side of the first moving half ring (302401) is rotatably connected with one end of one of the second push rods (302405) through a rotating shaft; the first moving half ring (302401) is connected with the third shaft sleeve (302406) in a sliding way; one side of the second movable half ring (302402) is fixedly connected with one end of the two second supporting rods (302404) at an equal angle; the other side of the second moving half ring (302402) is rotatably connected with one end of another second pushing rod (302405); the second moving half ring (302402) is connected with the third shaft sleeve (302406) in a sliding way; the other ends of the two second push rods (302405) are rotatably connected with a second shaft sleeve (3048) through a rotating shaft; the other ends of the two first supporting rods (302403) are fixedly connected with one side of a third movable half ring (302407); the other ends of the two second supporting rods (302404) are fixedly connected with a fourth movable half ring (302408); the third moving half ring (302407) and the fourth moving half ring (302408) are in contact to form a circular ring; the other side of the third movable semi-ring (302407) is provided with two first knocking rods (302409), two first springs (302410), two L-shaped first clamping plates (302411) and two groups of first sliding ball groups (302412) at equal angles; the third movable half ring (302407) is fixedly connected with the first knocking rod (302409); the first knocking rod (302409) is fixedly connected with one end of a first spring (302410); the first knocking rod (302409) is in sliding connection with the L-shaped first clamping plate (302411); the other end of the first spring (302410) is fixedly connected with an L-shaped first clamping plate (302411); the bottom end of the L-shaped first clamping plate (302411) is rotatably connected with the first sliding ball group (302412); the other side of the fourth movable half ring (302408) is provided with two first knocking rods (302409), two first springs (302410), two L-shaped first clamping plates (302411) and two groups of first sliding ball groups (302412) at equal angles; the fourth moving half ring (302408) is fixedly connected with the first knocking rod (302409).

4. A layered crushing type stone rail post cleaning device as claimed in claim 3, wherein the second cleaning unit (3025) comprises a fifth movable half ring (302501), a sixth movable half ring (302502), a third support bar (302503), a fourth support bar (302504), a third push bar (302505), a fourth shaft sleeve (302506), a seventh movable half ring (302507), an eighth movable half ring (302508), a second knock bar (302509), a second spring (302510), an L-shaped second detent plate (302511) and a second sliding ball group (302512); the fifth moving half ring (302501) and the sixth moving half ring (302502) are in contact to form a ring; one side of the fifth movable half ring (302501) is fixedly connected with one end of the two third supporting rods (302503) at an equal angle; the other side of the fifth movable half ring (302501) is rotatably connected with one end of one third pushing rod (302505) through a rotating shaft; the fifth movable half ring (302501) is connected with the fourth shaft sleeve (302506) in a sliding way; one side of the sixth movable half ring (302502) is fixedly connected with one end of the two fourth supporting rods (302504) at an equal angle; the other side of the sixth movable half ring (302502) is rotatably connected with one end of another third push rod (302505); the sixth movable half ring (302502) is connected with the fourth shaft sleeve (302506) in a sliding way; the other ends of the two third push rods (302505) are rotatably connected with a second shaft sleeve (3048) through a rotating shaft; the other ends of the two third supporting rods (302503) are fixedly connected with one side of a seventh movable half ring (302507); the other ends of the two fourth supporting rods (302504) are fixedly connected with the eighth movable half ring (302508); the seventh moving half ring (302507) and the eighth moving half ring (302508) form a circular ring by contact; the other side of the seventh movable half ring (302507) is provided with two second knocking rods (302509), two second springs (302510), two L-shaped second clamping plates (302511) and two groups of second sliding ball groups (302512) at equal angles; the seventh movable half ring (302507) is fixedly connected with the second knocking rod (302509); the second knocking rod (302509) is fixedly connected with one end of a second spring (302510); the second knocking rod (302509) is in sliding connection with the L-shaped second clamping plate (302511); the other end of the second spring (302510) is fixedly connected with an L-shaped second clamping plate (302511); the bottom end of the L-shaped second clamping plate (302511) is rotatably connected with the second sliding ball group (302512); the other side of the eighth moving semi-ring (302508) is provided with two second knocking rods (302509), two second springs (302510), two L-shaped second clamping plates (302511) and two groups of second sliding ball groups (302512) at equal angles; the eighth moving half ring (302508) is fixedly connected with the second knocking rod (302509).

5. The layered crushing type stone railing post cleaning device according to claim 4, wherein the stone cutting system (4) comprises a second movable support frame (401), a first electric slide rail (402), a first support plate (403), a second support plate (404), a second electric slide rail (405), a second power motor (406), a third bevel gear (407), a fourth bevel gear (408), a saw-toothed disc (409) and a third rotating shaft (4010); the second movable support frame (401) is fixedly connected with the first electric slide rail (402); the second movable support frame (401) is fixedly connected with a second electric slide rail (405); the second movable support frame (401) is in sliding connection with the first electric sliding rail (402); the first electric slide rail (402) is fixedly connected with the support base (1); the first supporting plate (403) is in sliding connection with the second electric sliding rail (405); the second support plate (404) is in sliding connection with the second electric slide rail (405); the upper part of the first supporting plate (403) is connected with a second power motor (406) through a bolt; the upper part of the first supporting plate (403) is rotationally connected with an output shaft of a second power motor (406); an output shaft of the second power motor (406) is fixedly connected with a third bevel gear (407); the third bevel gear (407) is meshed with the fourth bevel gear (408); the inner axis of the fourth bevel gear (408) is fixedly connected with the third rotating shaft (4010); the outer surface of the third rotating shaft (4010) is rotatably connected with the first supporting plate (403); the outer surface of the third rotating shaft (4010) is fixedly connected with a sawtoothed disc (409); the outer surface of the third rotating shaft (4010) is rotatably connected with the second support plate (404).

6. A layered crushing stone railing post clearing apparatus as claimed in claim 5 wherein the first stone collector (3036) is a round tube with hollow square on both sides and a baffle through which the square passes.

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