CN108636516B - Building monitoring cement equipment of deblocking - Google Patents

Abstract

The invention discloses a building monitoring cement deblocking device which structurally comprises an opening and closing window, a deblocking machine body and a deblocking device, wherein the opening and closing window is embedded in the right upper part of the deblocking machine body and is fixedly connected to form an integrated structure, the deblocking device is arranged in the deblocking machine body and is movably connected with the opening and closing window, the deblocking device comprises a starting mechanism, a power device, a pushing device, a decomposing mechanism, a transmission mechanism and a decomposing device, the starting mechanism is connected with the power device through the opening and closing window in a pressing mode, and the power device is arranged at the right end of the deblocking device and is electrically connected with the power device through the starting mechanism. According to the invention, the operation of the device can be controlled by opening and closing the window, cement is poured into the sealed container for decomposition, the health hazard of workers can be reduced, the cement blocks can be fully crushed by the sharp corners and the movable wheels, powder falls into the discharge pipeline and can be discharged by pushing, the device is not easy to block, the working efficiency is high, and the device is convenient to use.

Description

Building monitoring cement equipment of deblocking

Technical Field

The invention relates to a building monitoring cement deblocking device, and belongs to the field of building monitoring cement deblocking devices.

Background

Architectonics, in its broadest sense, is a discipline that studies buildings and their environment. Architecture is a subject spanning both engineering and human arts. Architectural arts and construction techniques involved in architecture, and aesthetic and practical aspects included as architectural arts of practical arts, are clearly different but closely related, and their components are greatly different depending on the specific situation and the building.

The prior art generally decomposes insufficiently and easily causes blockage, influences use and needs manual treatment, wastes time and reduces efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a construction monitoring cement deblocking device to solve the problems that the common cement deblocking device is insufficient in decomposition, so that blockage is easily caused, the use is influenced, manual treatment is needed, the time is wasted, and the efficiency is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a cement deblocking device for building monitoring structurally comprises a retractable window, a deblocking machine body and a deblocking device;

the opening and closing window is embedded in the right upper part of the deblocking machine body and fixedly connected to form an integrated structure, a deblocking device is arranged in the deblocking machine body, and the deblocking device is arranged in the deblocking machine body and movably connected with the opening and closing window;

the deblocking device comprises a starting mechanism, a power device, a pushing device, a decomposing mechanism, a transmission mechanism and a decomposing device, wherein the starting mechanism is in press connection with the power device through an opening and closing window, the power device is arranged at the right end of the deblocking device and is electrically connected with the power device through the starting mechanism, the power device is in push connection with the pushing device and the transmission mechanism and is fixed at the left end, the pushing device is movably connected with the decomposing mechanism and is arranged below the decomposing mechanism, the decomposing mechanism is movably connected with the pushing device and the decomposing device and is arranged at the middle end of the decomposing mechanism, the transmission mechanism is arranged above the left side of the deblocking device and is movably connected with the decomposing device through the pushing device, and the decomposing device is connected with the transmission mechanism on the right side and.

Further, actuating mechanism includes connecting rod, depression bar, spacing knot, spacing groove, links up the pole, the connecting rod is located and is opened and shut between window and the depression bar and swing joint down, the depression bar passes through the connecting rod and is connected with deblocking device lift, spacing knot welds in depression bar bottom and is connected with the spacing groove down, the spacing groove inlays to be located on linking up the pole and with spacing knot limit connection, link up the pole and connect depression bar and swing joint on power device down.

Further, the electrifying device comprises a lifting rod, an expansion spring, an anode battery block, a cathode battery block and an electrifying wire, the lifting rod is synchronously connected with the lower pressing rod through a connecting rod, the expansion spring is sleeved between the lifting rod and the anode battery block and is in spring connection with the lifting rod, the anode battery block is fixed at the bottom of the lifting rod and is arranged above the cathode battery block, the cathode battery block is fixed at the right lower part of the deblocking device and is electrically connected with the anode battery block, and the electrifying wire is connected with the cathode battery block on the power device.

Further, power device includes motor frame, motor power, motor rotation axis, bevel gear, motor frame connection motor power in the device bottom of deblocking, motor power passes through the circular telegram line and is connected with the rotation of motor axis, motor rotation axis hub connection motor power in the left side, bevel gear weld in motor rotation axis left side and with drive mechanism swing joint.

Further, thrust unit includes fixed wheel carrier, catch bar, power take off wheel, catch block, dwang, kicking block, fixed wheel carrier is installed in motor frame left end, the catch bar is located on the power take off wheel and is connected with the catch block, the power take off wheel rotates with the motor axis of rotation to be connected and locates the top, the catch block is connected the catch bar and is promoted the connection in decomposition mechanism, the power take off wheel is connected in the inboard to the dwang, the kicking block is fixed in the dwang top and locates the inside and top of decomposition mechanism and move the connection.

Furthermore, the disassembling mechanism comprises a box body, a movable wheel, a disassembling sharp plate, a hinge rod and a discharge channel, the box body is arranged in the deblocking device and is fixedly connected to the lower portion of the opening and closing window, the movable wheel is arranged in the box body and is rotatably connected with the disassembling device, the disassembling sharp plate is arranged on the inner side of the movable wheel and synchronously rotates, the hinge rod is arranged between the box body and the discharge channel and is hinged with the box body through a top block, and the discharge channel is connected with the box body at the bottom.

Further, the transmission mechanism comprises a rotating shaft, a cam, a support frame, a power output wheel, a belt pulley, a transmission belt, a fixed seat, a second belt pulley, a second transmission belt and a third belt pulley, the rotating shaft is installed at the bottom of the deblocking device, the top end of the rotating shaft is fixed with the cam, the cam is rotatably connected with the bevel gear, the support frame is connected with the power output wheel on the left side of the rotating shaft, the power output wheel is fixed above the support frame and synchronously rotates with the belt pulley through the cam, the belt pulley is arranged at the front end of the power output wheel, the transmission belt is sleeved between the belt pulley and the second belt pulley and is in transmission connection with the belt pulley, the fixed seat is connected with the second belt pulley and the third belt pulley on the inner wall of the deblocking device and is in fixed connection with the belt pulley, the second belt pulley synchronously rotates with the power, The third belt pulleys are in transmission connection, and the third belt pulleys are arranged above the right of the second belt pulleys and are connected with the decomposing device.

Further, decomposition device is including decomposing catch bar, swing piece, swinging arms, activity round pin, second fixing base, swing connecting rod, it connects swing piece and promotion connection on the movable pulley to decompose the catch bar, swing piece passes through swing connecting rod and swinging arms swing connection, the swinging arms passes through the activity round pin and installs between second fixing base and swing piece, activity round pin connection second fixing base and swing joint on the swinging arms, second fixing base bottom and discharge passage fixed connection locate the box left side, the below of third belt pulley, second belt pulley is located to the swing connecting rod, swing connecting rod and third belt pulley swing joint just are connected on swing piece.

Advantageous effects

The invention relates to a cement deblocking device for building monitoring, which drives a connecting rod to enable a lower pressing rod to move downwards when an opening and closing window is closed, drives a lifting rod to move downwards through a connecting rod and to drive a positive battery block to be connected with a negative battery block and to be electrified, a power motor is connected with an electrified wire on the negative battery block and to enable a motor rotating shaft to rotate, a power output wheel is in threaded rotating connection with the motor rotating shaft and enables a pushing rod and a rotating rod which are fixed on the power output wheel to be connected with a discharge channel in a pushing and pushing mode to discharge cement, a top block pushes a hinge rod to enable deblocked cement to fall into the discharge channel, a bevel gear is in rotating connection with a cam through the motor rotating shaft, the cam and a power output wheel gear rotate and drive a drive belt to enable a second belt pulley to rotate synchronously, the second belt pulley drives a third belt pulley to rotate through the second drive belt, a swing connecting rod connected with the third belt pulley enables a swing, the decomposition catch bar installed on the swing block pushes the movable wheel and the decomposition tip plate to rotate through the front and the back, so that the cement block is stirred and decomposed, the hinge rod is arranged at the joint of the box body and the discharge passage, the hinge rod is upwards pushed to be splayed through the ejector block, the decomposed cement enters the discharge passage from the opening and is then pushed out by the catch bar, the whole process is sealed and decomposed, the health hazard of workers can be reduced, and the decomposition efficiency is improved.

According to the building monitoring cement deblocking equipment, the operation of the equipment can be controlled by opening and closing the window, cement is poured into the sealed container for decomposition, the health hazards of workers can be reduced, the cement blocks can be fully crushed by sharp corners and movable wheels, powder falls into a discharge pipeline and can be discharged by pushing, the blockage is not easy, the working efficiency is high, and the use is convenient.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a construction monitoring cement deblocking device according to the present invention.

Fig. 2 is a schematic plane structure diagram of the deblocking device according to the present invention.

Fig. 3 is a schematic diagram illustrating the structure of the deblocking device according to the present invention.

Fig. 4 is a schematic diagram of the dynamic structure of the deblocking device according to the present invention.

In the figure: an opening and closing window-1, a deblocking machine body-2, a deblocking device-3, a starting mechanism-30, a power device-31, a power device-32, a pushing device-33, a decomposing mechanism-34, a transmission mechanism-35, a decomposing device-36, a connecting rod-3001, a lower pressing rod-3002, a limit buckle-3003, a limit groove-3004, a connecting rod-3005, a lifting rod-3101, a telescopic spring-3102, a positive battery block-3103, a negative battery block-3104, a power line-3105, a motor frame-3201, a power motor-3202, a motor rotating shaft-3203, a motor rotating shaft-3103, Bevel gear-3204, fixed wheel carrier-3301, push rod-3302, power output wheel-3303, push block-3304, rotating rod-3305, top block-3306, box-3401, movable wheel-3402, disassembly tip board-3403, hinge rod-3404, discharge channel-3405, rotating shaft-3501, cam-3502, support frame-3503, power output wheel-3504, belt pulley-3505, drive belt-3506, fixed seat-3507, second belt pulley-3508, second drive belt-3509, third belt pulley-3510, disassembly push rod-3601, swinging block-3602, swinging rod-3603, movable round pin-3604, second fixed seat-3605 and swinging connecting rod-3606.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Examples

Referring to fig. 1-4, the invention provides a construction monitoring cement deblocking device, which comprises a retractable window 1, a deblocking machine body 2 and a deblocking device 3;

the opening and closing window 1 is embedded at the right upper part of the deblocking machine body 2 and is fixedly connected to form an integrated structure, a deblocking device 3 is arranged in the deblocking machine body 2, and the deblocking device 3 is arranged in the deblocking machine body 2 and is movably connected with the opening and closing window 1;

the deblocking device 3 comprises a starting mechanism 30, a power device 31, a power device 32, a pushing device 33, a decomposing mechanism 34, a transmission mechanism 35 and a decomposing device 36, wherein the starting mechanism 30 is connected with the power device 31 through a switching window 1 in a pressing manner, the power device 31 is arranged at the right end of the deblocking device 3 and is electrically connected with the power device 32 through the starting mechanism 30, the power device 32 is connected with the pushing device 33 and the transmission mechanism 35 in a pushing manner and is fixed at the left end of the deblocking device 36, the pushing device 33 is movably connected with the decomposing mechanism 34 and is arranged below the decomposing mechanism, the decomposing mechanism 34 is movably connected with the pushing device 33 and the decomposing device 36 and is arranged at the middle end of the decomposing mechanism, the transmission mechanism 35 is arranged above the deblocking device 3 and is movably connected with the decomposing device 36 through the pushing device 33, the decomposing device 36 is connected with the transmission mechanism 35 at the right side and is connected, the starting mechanism 30 comprises a connecting rod 3001, a lower pressing rod 3002, a limit buckle 3003, a limit groove 3004 and a linking rod 3005, the connecting rod 3001 is arranged between the opening and closing window 1 and the lower pressing rod 3002 and is movably connected with the opening and closing window, the lower pressing rod 3002 is connected with the deblocking device 3 through the connecting rod 3001 in a lifting way, the limit buckle 3003 is welded at the bottom of the lower pressing rod 3002 and is connected with the limit groove 3004, the limit groove 3004 is embedded in the linking rod 3005 and is connected with the limit buckle 3003 in a limiting way, the linking rod 3005 is connected with the lower pressing rod 3002 on the electrifying device 31 and is movably connected with the electrifying device 31, the electrifying device 31 comprises a lifting rod 3101, an expansion spring 3102, an anode battery block 3103, a cathode battery block 3104 and an electrifying wire 3105, the lifting rod 3101 is synchronously connected with the lower pressing rod 3002 through the linking rod 3005, the expansion spring 3102 is sleeved between the lifting rod 3101 and the anode battery block 3103, the anode battery block 3103 is fixed at the bottom of the lifting rod 3101, the negative battery block 3104 is fixed at the right lower part of the deblocking device 3 and is electrically connected with the positive battery block 3103, the electrified wire 3105 is connected with the negative battery block 3104 on the power device 32, the power device 32 comprises a motor frame 3201, a power motor 3202, a motor rotating shaft 3203 and a bevel gear 3204, the motor frame 3201 is connected with the power motor 3202 at the bottom of the deblocking device 3, the power motor 3202 is rotatably connected with the motor rotating shaft 3203 through the electrified wire 3105, the motor rotating shaft 3203 is connected with the power motor 3202 at the left side, the bevel gear 3204 is welded at the left side of the motor rotating shaft 3203 and is movably connected with the transmission mechanism 35, the pushing device 33 comprises a fixed wheel frame 3301, a pushing rod 3302, a power output wheel 3303, a pushing block 3304, a rotating rod 3305 and a top block 3306, the fixed wheel frame 3301 is mounted at the left end of the motor frame 3201, the pushing rod 3302 is arranged on the power output wheel 3303, the power output wheel 3303 is rotatably connected with the motor rotating shaft 3203 and arranged above, the pushing block 3304 is connected with the pushing rod 3302 and is in pushing connection with the decomposition mechanism 34, the rotating rod 3305 is connected with the power output wheel 3303 on the inner side, the top block 3306 is fixed at the top end of the rotating rod 3305 and is arranged inside the decomposition mechanism 34 and is in pushing connection with the top block, the decomposition mechanism 34 comprises a box 3401, a movable wheel 3402, a decomposition sharp plate 3403, a hinge rod 3404 and a discharge channel 3405, the box 3401 is arranged inside the deblocking device 3 and is fixedly connected with the lower part of the opening and closing window 1, the movable wheel 3402 is arranged inside the box 3401 and is rotatably connected with the decomposition device 36, the decomposition sharp plate 3403 is arranged inside the movable wheel 3402 and rotates synchronously, the hinge rod 3404 is arranged between the box 3401 and the discharge channel 3405 and is hinged with the top block 3306, the discharge channel 3405 is connected with the box 3401 at the bottom, the transmission mechanism 35 comprises, A cam 3502, a support frame 3503, a power output wheel 3504, a belt pulley 3505, a transmission belt 3506, a fixed seat 3507, a second belt pulley 3508, a second transmission belt 3509 and a third belt pulley 3510, wherein the rotating shaft 3501 is mounted at the bottom of the deblocking device 3, the top end of the rotating shaft is fixed with the cam 3502, the cam 3502 is rotatably connected with a bevel gear 3204, the support frame 3503 is connected with the power output wheel 3504 at the left side of the rotating shaft 3501, the power output wheel 3504 is fixed above the support frame 3503 and synchronously rotates with the belt pulley 3505 through the cam 3502, the belt pulley 3505 is arranged at the front end of the power output wheel 3504, the transmission belt 3506 is sleeved between the belt pulley 3505 and the second belt pulley 3508 and is in transmission connection, the fixed seat 3507 is connected with the second belt pulley 3508, the third belt pulley 3510 is fixedly connected on the inner wall of the deblocking device 3, the second belt 3508 synchronously rotates with the power output wheel, the second transmission belt 3509 is sleeved between the second belt pulley 3508 and the third belt pulley 3510 and is in transmission connection, the third belt pulley 3510 is arranged at the right upper part of the second belt pulley 3508 and is connected with the decomposing device 36, the decomposing device 36 comprises a decomposing push rod 3601, a swinging block 3602, a swinging rod 3603, a movable round pin 3604, a second fixed seat 3605 and a swinging connecting rod 3606, the decomposing push rod 3601 is connected with the swinging block 3602 on the movable wheel 3402 and is in pushing connection, the swinging block 3602 is in swinging connection with the swinging rod 3603 through the swinging connecting rod 3606, the swinging rod 3603 is arranged between the second fixed seat 3605 and the swinging block 3602 through the movable round pin 3604, the movable round pin 3604 is connected with the second fixed seat 3605 on the swinging rod 3603 and is in movable connection, the bottom of the second fixed seat 3605 is fixedly connected with the discharge channel 3405 and is arranged at the left side of the box 3401, and the swinging connecting rod 356 is arranged at the third belt pulley 3510, Below the second pulley 3508, the swing connecting rod 3606 is movably connected to the third pulley 3510 and connected to the swing block 3602.

The invention provides a cement deblocking device for building monitoring, which has the working principle that: when the opening and closing window 1 is closed, the connecting rod 3001 is driven to enable the lower pressing rod 3002 to move downwards, the connecting rod 3005 enables the lifting rod 3101 to move downwards and drives the positive battery block 3103 to be connected with and electrified with the negative battery block 3104, the power motor 3202 is connected with an electrified wire 3105 on the negative battery block 3104 and electrified to enable the motor rotating shaft 3203 to rotate, the power output wheel 3303 is in threaded rotating connection with the motor rotating shaft 3203 and enables the pushing rod 3302 and the rotating rod 3305 fixed on the power output wheel 3303 to be in pushing connection with the discharge channel 3405 to push and discharge cement, the jacking block 3306 pushes the hinge rod 3404 to enable the deblocked cement to fall into the discharge channel 3405, the bevel gear 3204 is in rotating connection with the cam 3502 through the motor rotating shaft 3203, the cam 3502 is in gear rotation with the power output wheel 3504 and drives the 350transmission belt 6 to enable the second belt wheel 3508 to synchronously rotate, and the second belt wheel 3508 drives the third belt wheel 3510 to rotate through the second belt 3509, the swinging connecting rod 3606 connected to the third belt pulley 3510 enables the swinging block 3602 and the swinging rod 3603 to be in swinging connection through rotation, the decomposition pushing rod 3601 installed on the swinging block 3602 enables the movable wheel 3402 and the decomposition sharp plate 3403 to rotate through forward and backward pushing, so that cement blocks are stirred and decomposed, a hinge rod 3404 is arranged at the connection position of the box body 3401 and the discharge channel 3405, the upward pushing movement of the top block 3306 is in a splayed shape, decomposed cement enters the discharge channel 3405 from the opening and is pushed out by the pushing block 3304, the whole process is sealed and decomposed, the health hazard of workers can be reduced, and the decomposition efficiency is improved.

The limiting groove 3004 is hollow and embedded in an object and connected with other structures, and is mutually restrained to achieve the limiting effect, convenient and practical.

The invention solves the problems that the common decomposition is not sufficient enough and easily causes blockage, influences use and needs manual treatment, wastes time and reduces efficiency.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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

Claims (1)

1. The utility model provides an equipment that deblocks of building monitoring cement, its structure is including opening and shutting window (1), the organism of deblocking (2), device of deblocking (3), its characterized in that:

the opening and closing window (1) is embedded in the right upper part of the deblocking machine body (2) and fixedly connected to form an integrated structure, a deblocking device (3) is arranged in the deblocking machine body (2), and the deblocking device (3) is arranged in the deblocking machine body (2) and movably connected with the opening and closing window (1);

the deblocking device (3) comprises a starting mechanism (30), a power device (31), a power device (32), a pushing device (33), a decomposing mechanism (34), a transmission mechanism (35) and a decomposing device (36), wherein the starting mechanism (30) is connected with the power device (31) in a pressing mode through a switching window (1), the power device (31) is arranged at the right end of the deblocking device (3) and is electrically connected with the power device (32) through the starting mechanism (30), the power device (32) is connected with the pushing device (33) and the transmission mechanism (35) in a pushing mode and is fixed at the left end of the decomposing device (36), the pushing device (33) is movably connected with the decomposing mechanism (34) and is arranged below the decomposing mechanism, the decomposing mechanism (34) is movably connected with the pushing device (33) and the decomposing device (36) and is arranged at the middle end of the decomposing device, and the transmission mechanism (35) is arranged at the upper left end of the deblocking device (3) and is movably connected with the decomposing device (36 The decomposing device (36) is connected with the transmission mechanism (35) on the right side and is connected with the decomposing mechanism (34) in a pushing mode;

the starting mechanism (30) comprises a connecting rod (3001), a lower pressing rod (3002), a limiting buckle (3003), a limiting groove (3004) and a joint rod (3005), the connecting rod (3001) is arranged between the opening and closing window (1) and the lower pressing rod (3002) and is movably connected with the opening and closing window, the lower pressing rod (3002) is connected with the deblocking device (3) in a lifting mode through the connecting rod (3001), the limiting buckle (3003) is welded to the bottom of the lower pressing rod (3002) and is connected with the limiting groove (3004), the limiting groove (3004) is embedded in the joint rod (3005) and is connected with the limiting buckle (3003) in a limiting mode, and the joint rod (3005) is connected with the lower pressing rod (3002) on the electrifying device (31) and is movably connected with the electrifying;

the electrifying device (31) comprises a lifting rod (3101), a telescopic spring (3102), an anode battery block (3103), a cathode battery block (3104) and an electrifying wire (3105), wherein the lifting rod (3101) is synchronously connected with a lower pressure rod (3002) through a connecting rod (3005), the telescopic spring (3102) is sleeved between the lifting rod (3101) and the anode battery block (3103) and is in spring connection, the anode battery block (3103) is fixed at the bottom of the lifting rod (3101) and is arranged above the cathode battery block (3104), the cathode battery block (3104) is fixed at the lower right of the deblocking device (3) and is electrically connected with the anode battery block (3103), and the electrifying wire (3105) is connected with the cathode battery block (3104) on the power device (32);

the deblocking device is characterized in that the power device (32) comprises a motor frame (3201), a power motor (3202), a motor rotating shaft (3203) and a bevel gear (3204), the motor frame (3201) is connected with the power motor (3202) at the bottom of the deblocking device (3), the power motor (3202) is rotatably connected with the motor rotating shaft (3203) through a power line (3105), the motor rotating shaft (3203) is connected with the power motor (3202) at the left side, and the bevel gear (3204) is welded at the left side of the motor rotating shaft (3203) and is movably connected with a transmission mechanism (35);

the pushing device (33) comprises a fixed wheel carrier (3301), a pushing rod (3302), a power output wheel (3303), a pushing block (3304), a rotating rod (3305) and a jacking block (3306), wherein the fixed wheel carrier (3301) is installed at the left end of a motor frame (3201), the pushing rod (3302) is arranged on the power output wheel (3303) and is connected with the pushing block (3304), the power output wheel (3303) is rotatably connected with a motor rotating shaft (3203) and is arranged above the motor rotating shaft, the pushing block (3304) is connected with the pushing rod (3302) on a decomposition mechanism (34) and is in pushing connection, the rotating rod (3305) is connected with the power output wheel (3303) on the inner side, and the jacking block (3306) is fixed at the top end of the rotating rod (3305) and is arranged inside the decomposition mechanism (34) and is in jacking connection;

the disassembly mechanism (34) comprises a box body (3401), movable wheels (3402), a disassembly sharp plate (3403), a hinge rod (3404) and a discharge channel (3405), wherein the box body (3401) is arranged in the disassembly device (3) and fixedly connected to the lower part of the opening and closing window (1), the movable wheels (3402) are arranged in the box body (3401) and rotatably connected through a disassembly device (36), the disassembly sharp plate (3403) is arranged on the inner side of the movable wheels (3402) and synchronously rotates, the hinge rod (3404) is arranged between the box body (3401) and the discharge channel (3405) and is hinged through a top block (3306), and the discharge channel (3405) is connected with the box body (3401) at the bottom;

the transmission mechanism (35) comprises a rotating shaft (3501), a cam (3502), a support frame (3503), a power output wheel (3504), a belt pulley (3505), a transmission belt (3506), a fixed seat (3507), a second belt pulley (3508), a second transmission belt (3509) and a third belt pulley (3510), wherein the rotating shaft (3501) is installed at the bottom of the deblocking device (3) and the top end of the rotating shaft is fixed with the cam (3502), the cam (3502) is rotatably connected with the bevel gear (3204), the support frame (3503) is connected with the power output wheel (3504) at the left side of the rotating shaft (3501), the power output wheel (3504) is fixed above the support frame (3503) and synchronously rotates with the belt pulley (3505) through the cam (3502), the belt pulley (3505) is arranged at the front end of the power output wheel (3504), the transmission belt (3506) is sleeved between the second belt pulley (3505) and the second belt pulley (3508) and is in transmission connection, the fixing seat (3507) is connected with a second belt pulley (3508) and a third belt pulley (3510) on the inner wall of the deblocking device (3) and is fixedly connected with the inner wall of the deblocking device, the second belt pulley (3508) synchronously rotates with the power output wheel (3504) through a movable belt (3506), the second transmission belt (3509) is sleeved between the second belt pulley (3508) and the third belt pulley (3510) and is in transmission connection with the second belt pulley (3508) and the third belt pulley (3510), and the third belt pulley (3510) is arranged above the right of the second belt pulley (3508) and is connected with the decomposing device (36);

the decomposing device (36) comprises a decomposing push rod (3601), a swinging block (3602), a swinging rod (3603), a movable round pin (3604), a second fixed seat (3605) and a swinging connecting rod (3606), the decomposing push rod (3601) is connected with the swinging block (3602) on the movable wheel (3402) and is in pushing connection, the swinging block (3602) is in swinging connection with the swinging rod (3603) through the swinging connecting rod (3606), the swinging rod (3603) is installed between the second fixed seat (3605) and the swinging block (3602) through the movable round pin (3604), the movable round pin (3604) is connected with a second fixed seat (3605) on the swinging rod (3603) and is in movable connection, the bottom of the second fixed seat (3605) is fixedly connected with a discharge channel (3405) and is arranged on the left side of the box body (3401), the swinging connecting rod (3606) is arranged below a third belt pulley (3510) and a second belt pulley (3508), the swing connecting rod (3606) is movably connected with the third belt pulley (3510) and connected to the swing block (3602).

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