CN113460665A

CN113460665A - Anti-blocking powder conveying device with discharging guide for cement clinker and method thereof

Info

Publication number: CN113460665A
Application number: CN202111016602.2A
Authority: CN
Inventors: 周建军
Original assignee: Jiangsu Xinpeng Heavy Electromechanical Manufacturing Co ltd
Current assignee: Jiangsu Xinpeng Heavy Electromechanical Manufacturing Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-10-01
Anticipated expiration: 2041-08-31
Also published as: CN113460665B

Abstract

The invention relates to the technical field of cement clinker conveying equipment, and discloses an anti-blocking powder conveying device with a discharging guide function for cement clinker and a method thereof, wherein the anti-blocking powder conveying device comprises a discharging guide groove unit and an anti-blocking shovel plate unit fixedly arranged on the discharging guide groove unit, a push column pulls a magnetic block A to move in a guide rail groove A through retraction of a telescopic end of a hydraulic cylinder, the magnetic block A is adsorbed with a magnetic block B, the magnetic block A drives the magnetic block B to move in the guide rail groove B, so that the magnetic block B drives a scraper to move at the lower end in a groove of a discharging groove body, powder at the lower end in the discharging groove body is pushed, when the telescopic end of the hydraulic cylinder retracts, a connecting column drives a limiting column to move in a guide groove opening, one end of a connecting rod is moved, the inclination angles of the connecting rod and a rod frame become small, a pushing plate arranged on the connecting rod moves at the upper end in the groove of the discharging groove body along with the movement of the connecting rod, the operation of breaking and caking the caking powder is completed, and the phenomenon of blockage in the discharge chute body due to caking is prevented.

Description

Anti-blocking powder conveying device with discharging guide for cement clinker and method thereof

Technical Field

The invention relates to the technical field of cement clinker conveying equipment, in particular to an anti-blocking powder conveying device with unloading guide for cement clinker and a method thereof.

Background

The cement clinker is prepared with limestone, clay and iron material as main material and through mixing in proper proportion to form raw material, burning to melt partially or completely and cooling to obtain semi-finished product. In the cement industry, the most commonly used portland cement clinker has the major chemical components calcium oxide, silica and minor amounts of alumina and iron oxide. The main minerals are tricalcium silicate, dicalcium silicate, tricalcium aluminate and tetracalcium aluminoferrite.

When carrying the cement clinker raw materials, the common direction conveyor of unloading is carrying the powder when unloading, often can appear unloading the phenomenon of jam because of the powder caking, influences the process of carrying of unloading, and the powder caking is because of the powder dead weight image compaction caking in transportation process, need dredge through promoting the powder, destroys its caking structure, consequently need one kind can unload when the powder is unloaded the direction and prevent the conveyor of unloading of its caking jam.

Aiming at the problems, the invention provides an anti-blocking powder conveying device with a discharging guide for cement clinker and a method thereof.

Disclosure of Invention

The invention aims to provide an anti-blocking powder conveying device with a discharging guide function for cement clinker and a method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: the anti-blocking powder conveying device with the discharging guide function for the cement clinker comprises a discharging guide groove unit and an anti-blocking shovel plate unit fixedly arranged on the discharging guide groove unit, wherein the discharging guide groove unit is provided with a discharging groove body and hydraulic driving pieces fixedly arranged on two sides of the discharging groove body, a magnetic suction type scraping plate piece is movably arranged in the groove of the discharging groove body in a magnetic suction mode, and the hydraulic driving pieces drive the magnetic suction type scraping plate piece to move at the lower end in the groove of the discharging groove body;

the anti-blocking shovel plate unit is provided with a supporting rod piece arranged at one end of the groove edge of the discharging groove body and a moving rod piece arranged at the other end of the groove edge of the discharging groove body, one end of the moving rod piece is movably arranged on the supporting rod piece, a material pushing plate piece is movably arranged on the moving rod piece, the other end of the moving rod piece is connected with a hydraulic driving piece, the hydraulic driving piece drives the moving rod piece to move, and the material pushing plate piece is driven to move at the upper end of the discharging groove body.

Further, a guide rail groove A is formed in the outer side of the groove edge of the discharging groove body, and a guide rail groove B is formed in the inner side of the outer side of the groove edge.

Furthermore, the hydraulic driving part comprises a hydraulic cylinder fixedly installed on the outer side of the groove edge of the discharging groove body and a connecting column fixedly welded at the upper end of the telescopic end of the hydraulic cylinder, a pushing column is fixedly welded at one end of the telescopic end of the hydraulic cylinder, a magnetic block A is fixedly installed at one end of the pushing column, and the magnetic block A is movably arranged in the guide rail groove A.

Furthermore, the magnetic type scraper piece comprises a magnetic block B movably arranged in the guide rail groove B and a scraper fixedly arranged on the side face of the magnetic block B, and the magnetism of the magnetic block B is opposite to that of the magnetic block A.

Furthermore, the support rod piece comprises a fixed groove block fixedly welded on the groove edge of the discharge groove body and a rod frame with one end movably connected in the groove of the fixed groove block in a shaft mode.

Furthermore, the rod frame comprises a rod body A and a connecting shaft hole block and a connecting groove head which are respectively and fixedly welded at two ends of the rod body A, the connecting shaft hole block is movably connected in a groove of the fixed groove block in a shaft-to-shaft mode, and a frame column is fixedly welded on the side face of the connecting groove head.

Furthermore, the movable rod piece comprises a guide groove block fixedly arranged on the groove edge of the discharge groove body and a movable connecting rod with one end movably connected in the guide groove block groove;

a guide groove opening is formed in the middle of the guide groove block;

the movable connecting rod comprises a limiting column movably arranged in the guide groove and a connecting rod with one end movably sleeved on the limiting column, and the limiting column is fixedly connected with the connecting column.

Further, the connecting rod includes the body of rod B and fixed welding respectively lantern ring and the shaft hole head at body of rod B both ends, and lantern ring activity suit is on spacing post, and shaft hole head loose axle connects in the connecting groove head to at the fixed round hole link that sets up in the centre of the body of rod B.

Further, the material pushing plate comprises a push plate and a connecting column end fixedly arranged at one end of the push plate, threaded columns are fixedly welded at two ends of the connecting column end, the threaded columns are installed in the round hole connecting ends in a threaded mode, and locking internal thread rings are installed on the threaded columns in a threaded mode.

The invention provides another technical scheme: the implementation method of the anti-blocking powder conveying device with the discharging guide for the cement clinker comprises the following steps:

s01: the telescopic end of the hydraulic cylinder retracts, the push column pulls the magnetic block A to move in the guide rail groove A, and the magnetic block A and the magnetic block B are adsorbed to drive the magnetic block B to move in the guide rail groove B;

s02: the scraper plate moves at the lower end in the discharge chute body to push the powder in the discharge chute body;

s03: when the telescopic end of the hydraulic cylinder retracts, the connecting column drives the limiting column to move in the guide groove opening and drives one end of the connecting rod to move, so that the inclination angle of the connecting rod and the rod frame is reduced;

s04: the material pushing plate arranged on the connecting rod moves at the upper end of the discharging groove body along with the movement of the connecting rod, and powder in the discharging groove body is pushed.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention provides an anti-blocking powder conveying device with a discharging guide function for cement clinker and a method thereof.

2. The invention provides an anti-blocking powder conveying device with a discharging guide for cement clinker and a method thereof, wherein one end of a rod frame is movably connected in a fixed groove block groove in a shaft mode, the fixed groove block is fixedly welded on the groove edge of a discharging groove body, one end of a connecting rod is movably connected with a limiting column, the other end of the connecting rod is movably connected in a connecting groove head arranged on the rod frame in a shaft mode, the connecting rod is movably connected with the rod frame, a connecting column on the telescopic end of a hydraulic cylinder is fixedly connected with the limiting column, when the telescopic end of the hydraulic cylinder retracts, the connecting column drives the limiting column to move in a guide groove opening, so that one end of the connecting rod moves, the inclination angle of the connecting rod and the rod frame is reduced, a material pushing plate arranged on the connecting rod moves at the upper end in the groove of the discharging groove body along with the movement of the connecting rod, powder at the upper end in the discharging groove body is pushed to be matched with a scraper for use, make the scraper blade with push away the material plate and promote the powder at internal upper and lower both ends of blowpit respectively, accomplish the broken caking operation to the caking powder, prevent it because of the caking from taking place the phenomenon of jam in the blowpit is internal to when pushing away the material plate and promoting the powder, be convenient for more it unloads from the blowpit is internal, accomplish the direction of powder and unload.

Drawings

FIG. 1 is a schematic view showing the overall structure of an anti-blocking type powder conveying device with a discharge guide for cement clinker according to the present invention;

FIG. 2 is a schematic structural diagram of a discharge guide groove unit of the anti-blocking powder conveying device with discharge guide for cement clinker of the present invention;

FIG. 3 is a schematic structural view of a hydraulic driving member of the anti-blocking powder conveying device with a discharge guide for cement clinker according to the present invention;

FIG. 4 is a schematic structural view of an anti-blocking shovel plate unit of the anti-blocking powder conveying device with a discharging guide for cement clinker, which is disclosed by the invention;

FIG. 5 is a schematic structural view of a rod frame of the anti-blocking powder conveying device with a discharge guide for cement clinker of the present invention;

FIG. 6 is a schematic view of the connection structure between the movable connecting rod and the pushing plate of the anti-blocking powder conveying device with discharging guide for cement clinker.

In the figure: 1. a discharge guide groove unit; 11. a discharge chute body; 111. a guide rail groove A; 112. a guide rail groove B; 12. a hydraulic drive; 121. a hydraulic cylinder; 122. connecting columns; 123. pushing the column; 124. a magnetic block A; 13. a magnetic-type scraper plate member; 131. a magnetic block B; 132. a squeegee; 2. an anti-blocking shovel plate unit; 21. supporting the rod member; 211. fixing the groove block; 212. a pole frame; 2121. a rod body A; 2122. connecting the shaft hole block; 2123. connecting the groove head; 2124. a frame column; 22. moving the rod; 221. a guide groove block; 2211. a guide slot opening; 222. moving the connecting rod; 2221. a connecting rod; 2201. a rod body B; 2202. a collar; 2203. a shaft bore head; 2204. a circular hole connecting end; 2222. a limiting column; 23. pushing a plate; 231. pushing the plate; 232. connecting the column end; 233. a threaded post; 234. and locking the internal thread ring.

Detailed Description

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

Referring to fig. 1, fig. 2 and fig. 4, the anti-blocking powder conveying device with the discharging guide for cement clinker comprises a discharging guide groove unit 1 and an anti-blocking shovel plate unit 2 fixedly mounted on the discharging guide groove unit 1, wherein the discharging guide groove unit 1 is provided with a discharging groove body 11 and hydraulic driving pieces 12 fixedly mounted on two sides of the discharging groove body 11, magnetic attraction is mounted in the groove of the discharging groove body 11 to form a magnetic attraction type scraping plate piece 13, and the hydraulic driving pieces 12 drive the magnetic attraction type scraping plate piece 13 to move at the lower end of the groove of the discharging groove body 11.

The anti-blocking shovel plate unit 2 is provided with a supporting rod piece 21 installed at one end of the groove edge of the discharge groove body 11 and a moving rod piece 22 installed at the other end of the groove edge of the discharge groove body 11, one end of the moving rod piece 22 is movably installed on the supporting rod piece 21, a material pushing plate piece 23 is movably installed on the moving rod piece 22, the other end of the moving rod piece 22 is connected with the hydraulic driving piece 12, and the hydraulic driving piece 12 drives the moving rod piece 22 to move so as to drive the material pushing plate piece 23 to move at the upper end of the groove of the discharge groove body 11.

Referring to fig. 2-3, a guide rail groove a111 is formed on the outer side of the groove edge of the discharge chute body 11, a guide rail groove B112 is formed on the inner side of the outer side of the groove edge, the hydraulic driving member 12 includes a hydraulic cylinder 121 fixedly installed on the outer side of the groove edge of the discharge chute body 11 and a connecting post 122 fixedly welded on the upper end of the telescopic end of the hydraulic cylinder 121, a push post 123 is fixedly welded on one end of the telescopic end of the hydraulic cylinder 121, a magnetic block a124 is fixedly installed on one end of the push post 123, the magnetic block a124 is movably installed in the guide rail groove B112, a magnetic attraction type scraping plate member 13 includes a magnetic block B131 movably installed in the guide rail groove B112 and a scraping plate 132 fixedly installed on the side of the magnetic block B131, the magnetic block B131 and the magnetic block a124 have opposite magnetism, the magnetic block B131 installed in the guide rail groove B112 formed on the inner side of the discharge chute body 11 is movably installed in the guide rail groove a111, and is connected with the telescopic end of the hydraulic cylinder 121 through the push post 123, when powder in the discharge chute body 11 is blocked, the telescopic end of the hydraulic cylinder 121 retracts, the pushing column 123 pulls the magnetic block A124 to move in the guide rail groove A111, the magnetic block A124 is adsorbed with the magnetic block B131, so that the magnetic block A124 drives the magnetic block B131 to move in the guide rail groove B112, the magnetic block B131 drives the scraper 132 to move at the lower end of the discharge chute body 11, the powder at the lower end of the discharge chute body 11 is pushed, the blocking structure of the powder is damaged, and the powder can slide in the discharge chute body 11 to complete discharge conveying.

Referring to fig. 4-6, the supporting rod 21 includes a fixed slot block 211 fixedly welded to the slot edge of the discharge slot body 11, and a rod frame 212 having one end movably coupled to the slot of the fixed slot block 211, the rod frame 212 includes a rod body a2121, and a connecting shaft hole block 2122 and a connecting slot head 2123 respectively fixedly welded to two ends of the rod body a2121, the connecting shaft hole block 2122 is movably coupled to the slot of the fixed slot block 211, and a frame post 2124 is fixedly welded to the side of the connecting slot head 2123.

The movable rod 22 comprises a guide groove block 221 fixedly installed on the groove edge of the discharge chute body 11 and a movable connecting rod 222 with one end movably connected in the groove of the guide groove block 221, a guide groove opening 2211 is formed in the middle of the guide groove block 221, the movable connecting rod 222 comprises a limiting column 2222 movably installed in the guide groove opening 2211 and a connecting rod 2221 with one end movably sleeved on the limiting column 2222, and the limiting column 2222 is fixedly connected with the connecting column 122.

The connecting rod 2221 comprises a rod body B2201, and a sleeve ring 2202 and a shaft hole head 2203 which are respectively fixedly welded at two ends of the rod body B2201, wherein the sleeve ring 2202 is movably sleeved on the limiting column 2222, the shaft hole head 2203 is movably and axially connected in the connecting groove head 2123, and a round hole connecting end 2204 is fixedly arranged in the middle of the rod body B2201.

The material pushing plate 23 comprises a pushing plate 231 and a connecting column end 232 fixedly arranged at one end of the pushing plate 231, both ends of the connecting column end 232 are fixedly welded with threaded columns 233, the threaded columns 233 are installed in a circular hole connecting end 2204 in a threaded manner, locking internal thread rings 234 are installed on the threaded columns 233 in a threaded manner, one end of the rod frame 212 is movably connected in a fixed groove block 211 groove in a shaft mode, the fixed groove block 211 is fixedly welded on the groove edge of the discharging groove body 11, one end of a connecting rod 2221 is movably connected with a limiting column 2222, the other end of the connecting rod 2221 is movably connected in a connecting groove head 2123 arranged on the rod frame 212 in a shaft mode, so that the connecting rod 2221 is movably connected with the rod frame 212, a connecting column 122 on the telescopic end of the hydraulic cylinder 121 is fixedly connected with the limiting column 2222, when the telescopic end of the hydraulic cylinder 121 retracts, the connecting column 122 drives the limiting column 2222 to move in a guide groove opening 2211, one end of the connecting rod 2221 is moved, and the inclination angle of the connecting rod 2221 and the rod frame 212 is reduced, the pushing plate 23 mounted on the connecting rod 2221 moves along with the movement of the connecting rod 2221 at the upper end of the discharging tank body 11, so that powder at the upper end of the discharging tank body 11 is pushed and is matched with the scraper 132, the scraper 132 and the pushing plate 23 respectively push the powder at the upper end and the lower end of the discharging tank body 11, the operation of breaking and caking of the caking powder is completed, the phenomenon that the caking blocks in the discharging tank body 11 is prevented, and when the pushing plate 23 pushes the powder, the powder is more convenient to unload from the discharging tank body 11, and the guiding and discharging of the powder are completed.

To further better illustrate the above examples, the present invention also provides an embodiment of a method for implementing cement clinker by using an anti-blocking powder conveying device with a discharge guide, comprising the following steps:

s01: the telescopic end of the hydraulic cylinder 121 retracts, the push column 123 pulls the magnetic block A124 to move in the guide rail groove A111, the magnetic block A124 is adsorbed with the magnetic block B131, and the magnetic block B131 is driven to move in the guide rail groove B112;

s02: the scraper 132 moves at the lower end in the discharge chute body 11 to push the powder in the discharge chute body 11;

s03: when the telescopic end of the hydraulic cylinder 121 retracts, the connecting column 122 drives the limiting column 2222 to move in the guide slot 2211, and drives one end of the connecting rod 2221 to move, so that the inclination angles of the connecting rod 2221 and the rod frame 212 become smaller;

s04: the pushing plate member 23 mounted on the connecting rod 2221 moves along with the movement of the connecting rod 2221 at the upper end of the discharge chute body 11, so as to push the powder in the discharge chute body 11.

In summary, the following steps: the invention provides an anti-blocking powder conveying device with a discharging guide function for cement clinker and a method thereof, wherein a magnetic block B131 provided with a scraper 132 is movably arranged in a guide rail groove B112 formed in the inner side of a discharging groove body 11, a magnetic block A124 is movably arranged in a guide rail groove A111 and is connected with a telescopic end of a hydraulic cylinder 121 through a push column 123, when powder in the discharging groove body 11 is blocked due to agglomeration, the telescopic end of the hydraulic cylinder 121 retracts, the push column 123 pulls the magnetic block A124 to move in the guide rail groove A111, the magnetic block A124 is adsorbed with the magnetic block B131, so that the magnetic block A124 drives the magnetic block B131 to move in the guide rail groove B112, the magnetic block B131 drives the scraper 132 to move at the lower end in the discharging groove body 11, the powder at the lower end in the discharging groove body 11 is pushed, the agglomeration structure of the powder is damaged, and the powder can slide down in the discharging groove body 11 to complete discharging and conveying; one end of the rod frame 212 is movably connected in the fixed slot block 211, the fixed slot block 211 is fixedly welded on the slot edge of the discharge slot body 11, one end of the connecting rod 2221 is movably connected with the limit post 2222, the other end of the connecting rod 2221 is movably connected in the connecting slot head 2123 arranged on the rod frame 212, so that the connecting rod 2221 is movably connected with the rod frame 212, the connecting rod 122 on the telescopic end of the hydraulic cylinder 121 is fixedly connected with the limit post 2222, when the telescopic end of the hydraulic cylinder 121 retracts, the connecting rod 122 drives the limit post 2222 to move in the guide slot 2211, so that one end of the connecting rod 2221 moves, the inclination angles of the connecting rod 2221 and the rod frame 212 become small, the material pushing plate 23 arranged on the connecting rod 2221 moves at the upper end in the slot of the discharge slot body 11 along with the movement of the connecting rod 2221, pushes the powder at the upper end in the discharge slot body 11 to be matched with the scraper 132, so that the scraper 132 and the material pushing plate 23 respectively push the powder at the upper and lower ends in the discharge slot body 11, the operation of breaking and caking of the caking powder is completed, the blockage phenomenon of the caking powder in the discharge chute body 11 is prevented, and when the material pushing plate 23 pushes the powder, the powder can be more conveniently discharged from the discharge chute body 11, and the guided discharge of the powder is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Cement clinker is with preventing stifled formula powder conveyor who has the direction of unloading, including guide way unit (1) and the fixed mounting of unloading prevent stifled shovel board unit (2) on guide way unit (1), its characterized in that: the discharging guide groove unit (1) is provided with a discharging groove body (11) and hydraulic driving pieces (12) fixedly arranged on two sides of the discharging groove body (11), magnetic suction type scraping plate pieces (13) are movably and magnetically mounted in the groove of the discharging groove body (11), and the hydraulic driving pieces (12) drive the magnetic suction type scraping plate pieces (13) to move at the lower end of the discharging groove body (11);

anti-blocking shovel board unit (2) are provided with support member (21) of installing at the trough rim one end of the cell body of unloading (11) and install removal member (22) at the trough rim other end of the cell body of unloading (11), and the one end movable mounting who removes member (22) is on support member (21), and movable mounting pushes away material plate (23) on removing member (22), the other end that removes member (22) is connected with hydraulic drive spare (12), hydraulic drive spare (12) drive removes member (22), it removes at the inslot upper end of the cell body of unloading (11) to drive and push away material plate (23).

2. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 1, wherein: a guide rail groove A (111) is formed in the outer side of the groove edge of the discharge groove body (11), and a guide rail groove B (112) is formed in the inner side of the outer side of the groove edge.

3. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 2, wherein: the hydraulic driving part (12) comprises a hydraulic cylinder (121) fixedly installed on the outer side of the groove edge of the discharge chute body (11) and a connecting column (122) fixedly welded at the upper end of the telescopic end of the hydraulic cylinder (121), a pushing column (123) is fixedly welded at one end of the telescopic end of the hydraulic cylinder (121), a magnetic block A (124) is fixedly installed at one end of the pushing column (123), and the magnetic block A (124) is movably arranged in the guide rail groove A (111).

4. The anti-blocking type powder conveying device with a discharging guide for cement clinker as claimed in claim 3, wherein: the magnetic type scraper plate component (13) comprises a magnetic block B (131) movably arranged in the guide rail groove B (112) and a scraper plate (132) fixedly arranged on the side face of the magnetic block B (131), and the magnetism of the magnetic block B (131) is opposite to that of the magnetic block A (124).

5. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 4, wherein: the supporting rod piece (21) comprises a fixed groove block (211) fixedly welded on the groove edge of the discharge groove body (11) and a rod frame (212) with one end movably connected in the groove of the fixed groove block (211) in a shaft mode.

6. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 5, wherein: the rod frame (212) comprises a rod body A (2121) and a connecting shaft hole block (2122) and a connecting groove head (2123) which are fixedly welded at two ends of the rod body A (2121) respectively, the connecting shaft hole block (2122) is movably and axially connected in a groove of the fixed groove block (211), and a frame column (2124) is fixedly welded on the side surface of the connecting groove head (2123).

7. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 6, wherein: the movable rod piece (22) comprises a guide groove block (221) fixedly arranged on the groove edge of the discharge groove body (11) and a movable connecting rod (222) with one end movably connected in the guide groove block (221);

a guide slot opening (2211) is formed in the middle of the guide slot block (221);

the movable connecting rod (222) comprises a limiting column (2222) movably arranged in the guide slot opening (2211) and a connecting rod (2221) with one end movably sleeved on the limiting column (2222), and the limiting column (2222) is fixedly connected with the connecting column (122).

8. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 7, wherein: the connecting rod (2221) comprises a rod body B (2201), and a lantern ring (2202) and a shaft hole head (2203) which are respectively fixedly welded at two ends of the rod body B (2201), wherein the lantern ring (2202) is movably sleeved on the limiting column (2222), the shaft hole head (2203) is movably and axially connected in the connecting groove head (2123), and a round hole connecting end (2204) is fixedly arranged in the middle of the rod body B (2201).

9. The anti-blocking powder conveying device with a discharging guide for cement clinker as claimed in claim 8, wherein: the material pushing plate (23) comprises a push plate (231) and a connecting column end (232) fixedly arranged at one end of the push plate (231), the two ends of the connecting column end (232) are fixedly welded with threaded columns (233), the threaded columns (233) are installed in the round hole connecting end (2204) in a threaded mode, and locking internal threaded rings (234) are installed on the threaded columns (233) in a threaded mode.

10. The method of claim 9, further comprising the steps of:

s01: the telescopic end of the hydraulic cylinder (121) retracts, the push column (123) pulls the magnetic block A (124) to move in the guide rail groove A (111), the magnetic block A (124) and the magnetic block B (131) are adsorbed, and the magnetic block B (131) is driven to move in the guide rail groove B (112);

s02: the scraper (132) moves at the lower end in the discharge chute body (11) to push the powder in the discharge chute body (11);

s03: when the telescopic end of the hydraulic cylinder (121) retracts, the connecting column (122) drives the limiting column (2222) to move in the guide groove opening (2211) and drives one end of the connecting rod (2221) to move, so that the inclination angles of the connecting rod (2221) and the rod frame (212) are reduced;

s04: the pushing plate piece (23) arranged on the connecting rod (2221) moves at the upper end of the discharging chute body (11) along with the movement of the connecting rod (2221) to push the powder in the discharging chute body (11).