CN114030980A - High-safety auxiliary hoisting system for material barrel for powder processing - Google Patents

Abstract

The invention provides a high-safety auxiliary hoisting system for a material barrel for powder processing, and relates to the technical field of hoisting equipment. The high-safety auxiliary lifting system for the charging bucket for powder processing comprises a main mounting mechanism and an auxiliary lifting mechanism, wherein the bottom of the main mounting mechanism is fixedly connected with the auxiliary lifting mechanism; the main mounting mechanism is used for realizing main hoisting and mounting of a structure; the auxiliary hoisting mechanism is used for realizing auxiliary hoisting so as to increase safety. Through making six main extension rods of group respectively along the rotatory expansion of the first seat of rotating that first linkage platform lateral wall installed additional, and the end of vice hydraulic drive subassembly output makes six group butt joint boards rotate along a set of main linkage seat simultaneously to the outside direction through vice linkage seat and the rotation relation that the second rotated, make the tapered surface contact that the inclination of butt joint board because self can be inseparable with jar internal portion lateral wall, the reduction is rocked and has been avoided droing, stability and the degree of safety when hoist and mount improve.

Description

High-safety auxiliary hoisting system for material barrel for powder processing

Technical Field

The invention relates to the technical field of hoisting equipment, in particular to a high-safety auxiliary hoisting system for a material barrel for powder processing.

Background

The raw materials for industrial plastic molding mainly comprise powder, granular materials, solution and dispersoid, and a monomer and a prepolymer are used for partial molding. The powder material is prepared by uniformly mixing and dispersing powdery raw material resin and various different auxiliaries, the mixing process is a simple mixing process, the mixed powder material is also called dry mixing material, the granules are mixed granular materials prepared by plasticating the powder material to further plasticize the powder material and using different methods, and a charging basket for processing the powder material needs to be used like a travelling crane or other hoisting equipment during transferring.

Because the characteristic of storage bucket cylinder, when hoist the storage bucket, need fix the storage bucket from a plurality of faces, increased a large amount of process time and manpower, the rocking of storage bucket when also can't reducing the hoist and mount in addition, only hoist with the hoist cable in addition, perhaps hoist and mount many hoist cables, the fracture of hoist cable all can lead to dropping of storage bucket, produces serious potential safety hazard.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a high-safety auxiliary hoisting system for a charging basket for powder processing, and solves the problems of low stability and safety of the charging basket during hoisting.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a high-safety auxiliary hoisting system for a charging bucket for powder processing comprises a main mounting mechanism and an auxiliary hoisting mechanism, wherein the bottom of the main mounting mechanism is fixedly connected with the auxiliary hoisting mechanism;

the main mounting mechanism is used for realizing main hoisting and mounting of a structure;

the auxiliary hoisting mechanism is used for realizing auxiliary hoisting so as to increase safety.

Preferably, main installation mechanism includes cross mounting bracket, fixed column, mousing-hook, rings and hoist cable, cross mounting bracket bottom center fixed connection fixed column, the equal fixed connection of four sides end of cross mounting bracket is a set of mousing-hook, four groups the mousing-hook is inside all to be provided with a set of rings, four groups the equal fixed connection of rings bottom is a set of hoist cable, four groups the equal fixed connection of hoist cable bottom is a set of lifting hook.

Preferably, the auxiliary hoisting mechanism comprises a main hydraulic driving component, a first linkage table, a second linkage table, a main extension rod, a first rotating seat, a second rotating seat, a main rotating column, a first linkage seat, an auxiliary extension rod, an auxiliary rotating column, a second linkage seat, a first rotating part, an auxiliary hydraulic driving component, a first linkage column, a second linkage column, a main linkage seat, a butt plate, an auxiliary linkage seat and a second rotating part, wherein the bottom of the main hydraulic driving component is fixedly connected with the first linkage table, the side wall of the first linkage table is fixedly connected with six groups of first rotating seats which are uniformly and annularly arranged, a group of main extension rods are rotatably connected inside the six groups of first rotating seats through a group of main rotating columns, a group of first linkage seats are fixedly connected with the middle parts of the inner side walls of the six groups of main extension rods, and the six groups of first linkage seats are respectively rotatably connected with a group of auxiliary extension rods through a group of auxiliary rotating columns, six groups of auxiliary extension rods are fixedly connected with a group of first linkage columns at the inner side ends, the tail end of the bottom output end of the main hydraulic driving component is fixedly connected with a second linkage table, the side wall of the second linkage table is fixedly connected with six groups of second rotating seats which are uniformly and annularly arranged, the six groups of second rotating seats are respectively connected with a group of auxiliary extension rods through a group of first linkage columns in a rotating manner, the outer side ends of the six groups of auxiliary extension rods are respectively fixedly connected with a group of second linkage columns, the six groups of auxiliary extension rods are respectively connected with a group of main linkage seats through a group of second linkage columns in a rotating manner, the outer side ends of the six groups of main linkage seats are respectively and fixedly connected with a group of butt joint plates, the inner side walls of the six groups of butt joint plates are respectively and fixedly connected with a group of auxiliary linkage seats, the middle parts of the outer side walls of the six groups of main extension rods are respectively and fixedly connected with a group of second linkage seats through a group of first linkage pieces, and the six groups of second linkage seats are respectively and rotatably connected with a group of auxiliary hydraulic driving components through a group of first linkage pieces, and the tail ends of the output ends of the six groups of auxiliary hydraulic driving assemblies are fixedly connected with a group of second rotating pieces, and the output ends of the six groups of auxiliary hydraulic driving assemblies are respectively connected with a group of butt joint plates through a group of second rotating pieces and a group of auxiliary linkage seats in a rotating manner.

Preferably, the center of the top of the cross-shaped mounting frame is fixedly connected with the traveling crane butt-joint seat.

Preferably, a tank body is arranged below the auxiliary hoisting mechanism, and the side wall of the tank body is uniformly and fixedly connected with four groups of fixing rings which are annularly arranged.

Preferably, the side wall of the cross-shaped mounting frame is fixedly connected with four groups of uniformly arranged stabilizing rods.

Preferably, the bottom output end of the main hydraulic driving assembly longitudinally penetrates through the first rotating seat, and the inside of the first rotating seat is longitudinally connected with the output end of the main hydraulic driving assembly in a sliding manner.

Preferably, the six groups of secondary hydraulic driving assemblies are connected through leads.

The working principle is as follows: firstly, welding and fixing a travelling crane butt-joint seat additionally installed at the bottom of a main installation mechanism and a hoisting butt-joint end of a portal travelling crane, wherein the portal travelling crane can control the hoisting of the main installation mechanism and an auxiliary hoisting mechanism, the main installation mechanism and the auxiliary hoisting mechanism are moved to the position above a tank body to be hoisted by the travelling crane, the main installation mechanism and the auxiliary hoisting mechanism are lowered by the travelling crane, an integral structure included by the auxiliary hoisting mechanism enters the tank body through an opening at the top of the tank body, then lifting hooks additionally installed at four side ends of a cross-shaped installation frame are respectively hooked with four groups of fixing rings additionally installed at the middle upper part of the side wall of the tank body, then a main hydraulic driving assembly positioned in the tank body is started, the main hydraulic driving assembly drives six groups of auxiliary extension rods to ascend through a second rotating seat and a first linkage column after driving a second linkage table additionally installed at the bottom end of an output end of the main hydraulic driving assembly to ascend, when the six groups of auxiliary extension rods ascend, the outer ends of the six groups of auxiliary extension rods are connected with the main extension rod in a butt joint mode through the first linkage seat and the auxiliary rotating column in a rotating mode, the top end of each auxiliary extension rod can drive the tail end of the main extension rod to rotate along the six groups of first rotating seats and the six groups of main rotating columns which are additionally arranged on the first linkage platform at the bottom of the main hydraulic driving component, the six groups of main extension rods are enabled to respectively expand in a rotating mode along the first rotating seats which are additionally arranged on the side wall of the first linkage platform, the main extension rod respectively drives the butt joint plates to ascend and contact with the inner side wall of the tank body, the six groups of auxiliary hydraulic driving components which are additionally arranged are simultaneously started, the six groups of auxiliary hydraulic driving components can respectively rotate on the one group of main extension rods through the rotating relation of the first rotating parts and the second linkage seat at the moment, the output ends of the auxiliary hydraulic driving components simultaneously push the outer sides, and the tail ends of the output ends of the auxiliary hydraulic driving components enable the six groups of the six connecting plates to simultaneously push the outer sides of the six groups of main connecting plates along the main linkage seats and the outer sides of the main linkage seats respectively through the auxiliary rotating seats The direction rotates, makes the tapered surface contact that the butt-joint plate can be inseparable and jar internal portion lateral wall because self inclination to realize carrying out the centre gripping from inside to jar body fixed, improve stability and the degree of safety when hoist and mount, accomplish fixed back when supplementary hoisting machine constructs, through launching the driving with main installation mechanism, supplementary hoisting machine constructs the connection jar body and lifts by crane and shift together.

(III) advantageous effects

The invention provides a high-safety auxiliary hoisting system for a material barrel for powder processing. The method has the following beneficial effects:

the invention starts a main hydraulic driving component positioned in a tank body by adding a group of auxiliary hoisting mechanisms on a main hoisting mechanism, after the main hydraulic driving component drives a second linkage table additionally arranged at the bottom end of an output end of the main hydraulic driving component to ascend, the second linkage table drives six groups of auxiliary extension rods which rotate through a second rotating seat and a first linkage column to ascend, when the six groups of auxiliary extension rods ascend, because the outer ends of the six groups of auxiliary extension rods rotate to be in butt joint with a main extension rod through the first linkage seat and the auxiliary rotating column, the top ends of the auxiliary extension rods can drive the tail ends of the main extension rods to rotate along the six groups of first rotating seats additionally arranged on the first linkage table at the bottom of the main hydraulic driving component and the six groups of main rotating columns, so that the six groups of main extension rods respectively rotate and expand along the first rotating seats additionally arranged on the side wall of the first linkage table, and the main extension rods respectively drive a group of butt joint plates to ascend and contact the inner side wall of the tank body, the vice hydraulic drive subassembly of six groups that start simultaneously installed additional this moment, six vice hydraulic drive subassemblies of group this moment can rotate on a set of main extension rod respectively through the rotation relation of first rotation piece and second linkage seat, vice hydraulic drive subassembly's output promotes to the outside simultaneously, and the end of vice hydraulic drive subassembly output makes six pairs of butt joint boards rotate along a set of main linkage seat simultaneously to the outside direction through the rotation relation of vice linkage seat and second rotation piece respectively, make the taper surface contact that the inclination of butt joint board because self can be inseparable and jar internal portion lateral wall, and realize carrying out the centre gripping fixedly to the jar body from inside, it rocks and has avoided droing to reduce, stability and the degree of safety when hoist and mount are improved.

Drawings

FIG. 1 is an isometric illustration of the present invention;

FIG. 2 is an isometric illustration of the main mounting mechanism of the present invention;

FIG. 3 is an enlarged view of the point A in FIG. 2;

FIG. 4 is a schematic view of an auxiliary hoisting mechanism of the present invention;

FIG. 5 is an exploded view of the auxiliary hoisting mechanism of the present invention;

fig. 6 is a schematic structural view of a part of the auxiliary hoisting mechanism of the invention.

Wherein, 1, a main mounting mechanism; 2. an auxiliary hoisting mechanism; 3. a traveling crane butt joint seat; 4. a tank body; 5. a fixing ring; 101. a cross mounting bracket; 102. fixing a column; 103. unhooking prevention; 104. a hoisting ring; 105. a stabilizing rod; 106. a sling; 107. a hook; 201. a primary hydraulic drive assembly; 202. a first linkage table; 203. a second linkage table; 204. a main extension pole; 205. a first rotating base; 206. a second rotating base; 207. a main rotating column; 208. a first linkage seat; 209. a secondary extension rod; 210. an auxiliary rotating column; 211. a second linkage seat; 212. a first rotating member; 213. a secondary hydraulic drive assembly; 214. a first linkage column; 215. a second linkage column; 216. a main linkage seat; 217. a butt plate; 218. an auxiliary linkage seat; 219. a second rotating member.

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.

Example (b):

as shown in fig. 1 to 6, an embodiment of the present invention provides a high-safety auxiliary hoisting system for a charging bucket for powder processing, including a main installation mechanism 1 and an auxiliary hoisting mechanism 2, wherein the bottom of the main installation mechanism 1 is fixedly connected to the auxiliary hoisting mechanism 2.

The main mounting mechanism 1 is used for realizing main hoisting and mounting of a structure;

the auxiliary hoisting mechanism 2 is used for realizing auxiliary hoisting so as to increase the safety.

The main installation mechanism 1 comprises a cross installation frame 101, a fixing column 102, an anti-tripping hook 103, lifting rings 104 and lifting ropes 106, after the main installation mechanism 1 and the auxiliary hoisting mechanism 2 are moved to the position above a tank body 4 needing hoisting, the fixing column 102 is fixedly connected to the center of the bottom of the cross installation frame 101, a group of anti-tripping hooks 103 are fixedly connected to four side ends of the cross installation frame 101, a group of lifting rings 104 are arranged inside the four groups of anti-tripping hooks 103, the lifting ropes can be replaced quickly only by contacting the lifting rings 104 and the anti-tripping hooks 103, a group of lifting ropes 106 are fixedly connected to the bottom ends of the four groups of lifting rings 104, a group of lifting hooks 107 are fixedly connected to the bottoms of the four groups of lifting ropes 106, lifting hooks 107 installed at four side ends of the cross installation frame 101 are respectively and are mutually hooked with four groups of fixing rings 5 installed on the middle upper portion of the side wall of the tank body 4.

The auxiliary hoisting mechanism 2 comprises a main hydraulic driving component 201, a first linkage platform 202, a second linkage platform 203, a main extension rod 204, a first rotating seat 205, a second rotating seat 206, a main rotating column 207, a first linkage seat 208, an auxiliary extension rod 209, an auxiliary rotating column 210, a second linkage seat 211, a first rotating part 212, an auxiliary hydraulic driving component 213, a first linkage column 214, a second linkage column 215, a main linkage seat 216, a butt plate 217, an auxiliary linkage seat 218 and a second rotating part 219, a driving installation mechanism 1 and the auxiliary hoisting mechanism 2 are lowered in a traveling crane, so that the whole structure of the auxiliary hoisting mechanism 2 enters the inside of the tank body 4 through an opening at the top of the tank body 4, the bottom of the main hydraulic driving component 201 is fixedly connected with the first linkage platform 202, the side wall of the first linkage platform 202 is fixedly connected with six groups of first rotating seats 205 which are uniformly and annularly arranged, the inside of the six groups of first rotating seats 205 are rotatably connected with a group of main extension rods 204 through a group of main rotating column 207, the middle parts of the inner side walls of the six groups of main extension rods 204 are fixedly connected with a group of first linkage seats 208, the six groups of first linkage seats 208 are respectively and rotatably connected with a group of auxiliary extension rods 209 through a group of auxiliary rotating columns 210, the inner side ends of the six groups of auxiliary extension rods 209 are respectively and fixedly connected with a group of first linkage columns 214, the tail end of the bottom output end of the main hydraulic drive component 201 is fixedly connected with a second linkage table 203, the side wall of the second linkage table 203 is fixedly connected with six groups of second rotating seats 206 which are uniformly and annularly arranged, the six groups of second rotating seats 206 are respectively and rotatably connected with a group of auxiliary extension rods 209 through a group of first linkage columns 214, the outer side ends of the six groups of auxiliary extension rods 209 are respectively and fixedly connected with a group of second linkage columns 215, the six groups of auxiliary extension rods 209 are respectively and rotatably connected with a group of main linkage seats 216 through a group of second linkage columns 215, the outer side ends of the six groups of main linkage seats 216 are respectively and fixedly connected with a group of butt joint plates 217, and the inner side walls of the six groups of auxiliary linkage seats 217 are respectively and fixedly connected with a group of auxiliary linkage seats 218, the middle parts of the outer side walls of the six groups of main extension rods 204 are fixedly connected with a group of second linkage seats 211, the six groups of second linkage seats 211 are respectively rotatably connected with a group of auxiliary hydraulic driving components 213 through a group of first rotating pieces 212, the tail ends of the output ends of the six groups of auxiliary hydraulic driving components 213 are respectively and fixedly connected with a group of second rotating pieces 219, the output ends of the six groups of auxiliary hydraulic driving components 213 are respectively rotatably connected with a group of butt joint plates 217 through a group of second rotating pieces 219 and a group of auxiliary linkage seats 218, after the main hydraulic driving component 201 drives the second linkage table 203 additionally arranged at the bottom end of the output end to ascend, the second linkage table 203 drives the six groups of auxiliary extension rods 209 to ascend through the second rotating seats 206 and the first linkage columns 214, when the six groups of auxiliary extension rods 209 ascend, because the outer side ends of the six groups of auxiliary extension rods 209 are rotatably butted with the main extension rods 204 through the first linkage seats 208 and the auxiliary rotating columns 210, and the top ends 209 of the auxiliary extension rods can drive the tail ends of the main extension rods 204 to ascend along the first linkage table 202 at the bottom of the main hydraulic driving component 201 The six sets of the first rotating seats 205 and the six sets of the main rotating columns 207 are installed to start to rotate, so that the six sets of the main extending rods 204 respectively extend along the first rotating seats 205 additionally installed on the side wall of the first linkage table 202 in a rotating manner, the main extending rods 204 respectively drive one set of the butt-joint plates 217 to rise and contact the inner side wall of the tank body 4, at this time, the additionally installed six sets of the auxiliary hydraulic driving assemblies 213 are simultaneously started, at this time, the six sets of the auxiliary hydraulic driving assemblies 213 respectively rotate on one set of the main extending rods 204 through the rotating relationship between the first rotating pieces 212 and the second rotating pieces 211, the output ends of the auxiliary hydraulic driving assemblies 213 simultaneously push outwards, and the tail ends of the output ends of the auxiliary hydraulic driving assemblies 213 enable the six sets of the butt-joint plates 217 to simultaneously rotate outwards along one set of the main linkage seats 216 through the rotating relationship between the auxiliary linkage seats 218 and the second rotating pieces 219, so that the butt-joint plates 217 can be tightly contacted with the tapered surface of the inner side wall of the tank body 4 due to the self inclination angle, and realize fixing the tank body 4 from inside, improve stability and degree of safety when hoist and mount.

The center of the top of the cross-shaped mounting frame 101 is fixedly connected with a traveling crane butt-joint seat 3, the traveling crane butt-joint seat 3 additionally arranged at the bottom of the main mounting mechanism 1 and a hoisting butt-joint end of the gantry traveling crane are welded and fixed, and the gantry traveling crane can control the hoisting of the main mounting mechanism 1 and the auxiliary hoisting mechanism 2.

The lower part of the auxiliary hoisting mechanism 2 is provided with a tank body 4, and the side wall of the tank body 4 is uniformly and fixedly connected with four groups of fixing rings 5 which are annularly arranged.

The side walls of the cross-shaped mounting frame 101 are fixedly connected with four groups of stabilizing rods 105 which are uniformly arranged, and the stabilizing rods 105 increase the structural stability of the cross-shaped mounting frame 101.

The bottom output end of the main hydraulic drive component 201 longitudinally penetrates through the first rotating seat 205, and the interior of the first rotating seat 205 is longitudinally and slidably connected with the output end of the main hydraulic drive component 201.

The six sets of sub hydraulic driving assemblies 213 are connected by wires, so that the six sets of sub hydraulic driving assemblies 213 can operate simultaneously.

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 (8)

1. The utility model provides a powder processing of high security is with supplementary hoist and mount system of storage bucket, includes main installation mechanism (1), supplementary hoist and mount mechanism (2), its characterized in that: the bottom of the main mounting mechanism (1) is fixedly connected with an auxiliary hoisting mechanism (2);

the main mounting mechanism (1) is used for realizing main hoisting and mounting of a structure;

the auxiliary hoisting mechanism (2) is used for realizing auxiliary hoisting so as to increase safety.

2. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 1, characterized in that: the main installation mechanism (1) comprises a cross installation frame (101), a fixing column (102), an anti-drop hook (103), lifting rings (104) and lifting ropes (106), the center of the bottom of the cross installation frame (101) is fixedly connected with the fixing column (102), four sides of the cross installation frame (101) are fixedly connected with a set of anti-drop hook (103), four sets of the anti-drop hook (103) are internally provided with a set of lifting rings (104), four sets of the lifting rings (104) are fixedly connected with a set of lifting ropes (106) at the bottom, and four sets of the lifting ropes (106) are fixedly connected with a set of lifting hooks (107).

3. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 1, characterized in that: the auxiliary hoisting mechanism (2) comprises a main hydraulic driving component (201), a first linkage table (202), a second linkage table (203), a main extension rod (204), a first rotating seat (205), a second rotating seat (206), a main rotating column (207), a first linkage seat (208), an auxiliary extension rod (209), an auxiliary rotating column (210), a second linkage seat (211), a first rotating part (212), an auxiliary hydraulic driving component (213), a first linkage column (214), a second linkage column (215), a main linkage seat (216), a butt joint plate (217), an auxiliary linkage seat (218) and a second rotating part (219), wherein the bottom of the main hydraulic driving component (201) is fixedly connected with the first linkage table (202), the side wall of the first linkage table (202) is fixedly connected with six groups of first rotating seats (205) which are uniformly and annularly arranged, and the six groups of main extension rods (204) are rotatably connected with the inside of the first rotating seats (205) through one group of rotating columns (207), six groups of the middle parts of the inner side walls of the main extension rods (204) are fixedly connected with a group of first linkage seats (208), the six groups of the first linkage seats (208) are respectively and rotatably connected with a group of auxiliary extension rods (209) through a group of auxiliary rotation columns (210), the inner side ends of the six groups of the auxiliary extension rods (209) are respectively and fixedly connected with a group of first linkage columns (214), the tail end of the bottom output end of the main hydraulic driving assembly (201) is fixedly connected with a second linkage table (203), the side walls of the second linkage table (203) are fixedly connected with six groups of second rotation seats (206) which are uniformly and annularly arranged, the six groups of the second rotation seats (206) are respectively and rotatably connected with a group of auxiliary extension rods (209) through a group of first linkage columns (214), the outer side ends of the six groups of the auxiliary extension rods (209) are respectively and fixedly connected with a group of second linkage columns (215), and the six groups of the auxiliary extension rods (209) are respectively and rotatably connected with a group of main linkage seats (216) through a group of second linkage columns (215), six main linkage seat (216) outside end equal fixed connection a set of butt plate (217), six sets butt plate (217) a set of vice linkage seat (218), six sets of equal fixed connection a set of second linkage seat (211) in main extension rod (204) lateral wall middle part, six sets second linkage seat (211) rotate through a set of first rotation piece (212) respectively and connect a set of vice hydraulic drive subassembly (213), six sets the terminal equal fixed connection a set of second rotation piece (219) of output of vice hydraulic drive subassembly (213), six sets the output of vice hydraulic drive subassembly (213) rotates through a set of second rotation piece (219) and a set of vice linkage seat (218) respectively and is connected a set of butt plate (217).

4. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 2, characterized in that: the center of the top of the cross-shaped mounting frame (101) is fixedly connected with the traveling crane butt-joint seat (3).

5. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 1, characterized in that: the auxiliary hoisting mechanism (2) is provided with a tank body (4) below, and the side wall of the tank body (4) is uniformly and fixedly connected with four groups of fixing rings (5) which are annularly arranged.

6. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 2, characterized in that: the side wall of the cross-shaped mounting rack (101) is fixedly connected with four groups of uniformly arranged stabilizing rods (105).

7. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 1, characterized in that: the bottom output end of the main hydraulic driving assembly (201) longitudinally penetrates through the first rotating seat (205), and the interior of the first rotating seat (205) is longitudinally connected with the output end of the main hydraulic driving assembly (201) in a sliding mode.

8. The high-safety auxiliary hoisting system for the charging basket for powder processing according to claim 3, characterized in that: six groups of auxiliary hydraulic drive assemblies (213) are connected through leads.

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