CN102424331B - Arm pin mechanism for suspension arms and crane equipment comprising arm pin mechanism - Google Patents

Abstract

The invention provides an arm pin mechanism for suspension arms and crane equipment comprising the arm pin mechanism. The arm pin mechanism for the suspension arms comprises an arm pin (10), a threaded pair and a first position limiting part (20), wherein the arm pin (10) is provided with a center hole (11) arranged in the axial direction, the threaded pair is arranged in the center hole (11), the first position limiting part (20) is arranged on the arm pin (10) and can move along the axial direction of the arm pin (10), the threaded pair is in driving connection to the first position limiting part (20), and the axial movement limit position of the arm pin (10) is limited by the first position limiting part (20). The arm pin mechanism for the suspension arms according to the invention can realize the fast mounting and dismounting operation between the suspension arms, the structure is simple, the use is convenient and fast, and the operation efficiency is effectively improved.

Description

Arm arm pin mechanism and comprise the weight-lifting equipment of this arm pin mechanism

Technical field

The present invention relates to crane tool field, in particular to a kind of arm arm pin mechanism and comprise the weight-lifting equipment of this arm pin mechanism.

Background technology

Car hosit effect in routine duties is very important, and arm is car hosit most important work parts, and the design of arm directly affects the lifting performance of car hosit.In current industrial construction, facility, practical characteristics have obtained using widely telescopic hoist boom flexibly with it.Telescopic hoist boom comprises does not have the all-hydraulic and two kinds of stretching structures of automatic pinning formula of pin, automatic pinning formula structure owing to easy to use have widely quote.Super-tonnage hoisting crane own wt is big, surpasses road easily and allow load carrying ability in the process of transfer tasks place, and need decompose transportation this moment with arm, when hoisting crane is worked, also needs to carry out quickly and easily the arm mounting or dismounting.Therefore, for hoisting crane, how realizing the quick mounting or dismounting between the arm, is the problem that needs solution emphatically.

Summary of the invention

The present invention aims to provide a kind of arm arm pin mechanism and comprises the weight-lifting equipment of this arm pin mechanism, can realize the quick mounting or dismounting operation between the arm, and is simple in structure, convenient to use, effectively improves operating efficiency.

To achieve these goals, according to an aspect of the present invention, a kind of arm arm pin mechanism is provided, comprise the arm pin, the arm pin has the centre hole that in axial direction arranges, arm arm pin mechanism also comprises first limiting section that is arranged on the screw thread pair in the centre hole and is arranged on the arm pin and can moves along the axial direction of arm pin, and screw thread pair drives and is connected to first limiting section, and first limiting section limits the axial motion end position of arm pin.

Further, the periphery wall of arm pin is provided with second limiting section, is provided with elastic mechanism between first limiting section and second limiting section, and first end of elastic mechanism is pressed on first limiting section, and second end of elastic mechanism is pressed on second limiting section.

Further, include the perforation slotted hole that runs through and extend along the axial direction of arm pin along the radial direction of arm pin on the arm pin, first limiting section is arranged on and connects on the slotted hole.

Further, the tapped bore section that screw thread pair comprises the axle drive shaft that has spiro rod section and is positioned on the centre hole and is spirally connected with spiro rod section, axle drive shaft is arranged in the centre hole rotationally with respect to first limiting section.

Further, axle drive shaft also comprises application of force section and the optical axis section between thread segment and application of force section that is arranged on axle drive shaft first end, and optical axis section diameter is smaller or equal to the external diameter of thread segment.

Further, axle drive shaft also comprise the application of force section that is arranged on axle drive shaft first end, the optical axis section of second end that is arranged on axle drive shaft and the backstop section that is arranged on the end of optical axis section.

Further, second axle sleeve on the outer wall that first limiting section comprises first axle sleeve that is set on the optical axis section, be set in the arm pin and connect first axle sleeve and the alignment pin of second axle sleeve, alignment pin are slidably disposed on along the axial direction of arm pin and connect in the slotted hole.

Further, the wherein end of an end of second axle sleeve is provided with stop lug.

Further, first axle sleeve radially is provided with first pin shaft hole, and second axle sleeve radially is provided with second pin shaft hole, and first pin shaft hole is through hole or blind hole.

Further, first pin shaft hole comprises positioning spiro pit, and an end of alignment pin has the outside thread that cooperates with positioning spiro pit.

Further, the arm pin comprises the supporting part of first end that is arranged on the arm pin and is arranged on the support portion of second end of arm pin, second limiting section is arranged between supporting part and the support portion, the support portion comprises the transition phase that is connected with second limiting section and is positioned at spacing section of the second end end of arm pin that spacing section external diameter is less than transition phase.

Further, supporting part comprises carrying section and the construction section that is connected with the carrying section, and a side of carrying section includes the load plane that cooperates with arm, and construction section is connected with second limiting section.

Further, supporting part is provided with keyway along the axial direction of arm pin.

According to a further aspect in the invention, a kind of weight-lifting equipment is provided, comprise first arm and second arm, the arm pin exit end of first arm is provided with interior method, the arm pin arrival end of first arm is provided with locating flange, weight-lifting equipment also comprises above-mentioned arm arm pin mechanism, and first end of arm arm pin mechanism is pressed on the inside flange, and locating flange is pressed on second end of arm arm pin mechanism.

According to embodiments of the invention, arm arm pin mechanism, comprise the arm pin with the centre hole that in axial direction arranges, also comprise first limiting section 20 that is arranged on the screw thread pair in the centre hole and is arranged on the arm pin and can moves along the axial direction of arm pin, screw thread pair drives and is connected to first limiting section, and first limiting section limits the axial motion end position of arm pin.In use, the arm pin is installed between two arms to be connected, adjusts first limiting section by screw thread pair, thereby make the arm pin connect two joint arms, perhaps the connection location from two joint arms breaks away from, and two joint arms are separated.This arm pin mechanism is simple in structure, easy to operate, and by locking and the separating action of screw thread pair realization arm pin, mounting or dismounting are controlled easy, effectively improve operating efficiency.Elastic mechanism makes the relative position of two limiting sections be in maximum all the time between two limiting sections, also makes first limiting section can hold out against or break away from stop portion on the arm rapidly, guarantees that the arm pin mechanism can fast and effeciently work.The radial peg axis hole of first axle sleeve and second axle sleeve is through hole, and first pin shaft hole comprises positioning spiro pit, alignment pin has the outside thread that cooperates with positioning spiro pit, guarantee that alignment pin can play good connection effect, prevent that alignment pin breaks away from from axle sleeve, reduce the probability that the arm pin mechanism lost efficacy.

Description of drawings

The accompanying drawing that constitutes a part of the present invention is used to provide further understanding of the present invention, and illustrative examples of the present invention and explanation thereof are used for explaining the present invention, do not constitute improper restriction of the present invention.In the accompanying drawings:

Fig. 1 shows the sectional structure scheme drawing of arm arm pin mechanism according to an embodiment of the invention;

Fig. 2 shows the structural representation of the arm pin of arm arm pin mechanism according to an embodiment of the invention;

Fig. 3 shows the sectional structure scheme drawing according to the A-A place of Fig. 2;

Fig. 4 shows the structural representation of the axle drive shaft of arm arm pin mechanism according to an embodiment of the invention;

Fig. 5 shows the structural representation of the alignment pin of arm arm pin mechanism according to an embodiment of the invention;

Fig. 6 shows the structural representation of first axle sleeve of arm arm pin mechanism according to an embodiment of the invention;

Fig. 7 shows the sectional structure scheme drawing according to the B-B place of Fig. 6; And

Fig. 8 shows the sectional structure scheme drawing of second axle sleeve of arm arm pin mechanism according to an embodiment of the invention; And

Fig. 9 shows the connection structure scheme drawing of arm arm latch structure according to an embodiment of the invention.

The specific embodiment

Hereinafter will describe the present invention with reference to the accompanying drawings and in conjunction with the embodiments in detail.Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.

As shown in Figure 1, according to embodiments of the invention, arm arm pin mechanism comprises arm pin 10, screw thread pair and first limiting section 20.Screw thread pair is arranged in the centre hole 11 of arm pin 10, and with first limiting section 20 between drive and be connected, order about first limiting section 20 and move along the axial direction of arm pin.First limiting section 20 can move with respect to arm pin 10 along the axial direction of arm pin 10, adjusts first limiting section 20 residing position on the axial direction of arm pin 10 by screw thread pair, can limit the end position of the axial motion of arm pin 10.In the connection structure of arm, can realize the mounting or dismounting action of arm pin 10 on arm by adjusting first limiting section 20, thereby realize between the two joint arms connection with separate.

When the mounting or dismounting arm, only need act on screw thread pair by socket wrench, just can realize the operation to the arm pin mechanism, and special mounting or dismounting tools need not be set, simple to operate, convenient to use, can effectively improve the efficient of arm mounting or dismounting.The introducing of screw thread pair makes that arm pin of the present invention is not only laborsaving, and can realize self-locking, is convenient to arm pin position is positioned, also be convenient to arm pin position is adjusted, and accurate positioning, comformability is strong.

Please in conjunction with referring to Fig. 2 and shown in Figure 3, arm pin 10 include the supporting part 15 of arm pin 10 first ends, the support portion 16 of arm pin 10 second ends and be arranged on supporting part 15 and support portion 16 between second limiting section 12.

The arm pin mechanism of present embodiment is used for connecting first arm 50 and second arm 60.Supporting part 15 is positioned at second arm 60, is used for first arm 50 and second arm 60 are linked together, and bears the relativity power of two joint arms, guarantees the connection structure between the two joint arms.Supporting part 15 comprise carrying section 151 with carrying section 151 construction sections that are connected 152.One side of carrying section 151 includes in load plane 153, the second arms 60 that cooperate with second arm 60 and comprises the structure that cooperates with load plane 153, and second arm 60 applies application force to load plane 153 at work.Load plane 153 is for being arranged on the planar structure of carrying section sidewall, the side sidewall of this planar structure by will the section of carrying 151 in axial direction cuts a part and forms, when connecting second arm 60, have the carrying application force big and prevent second arm 60 and carry section between the effect that relatively rotates.Construction section 152 is connected with second limiting section 12, is used for the locating flange structure is installed, and bears the application force that locating flange applies.The cylindrical section that construction section 152 adapts for the internal diameter with locating flange.The outer wall of supporting part 15 in axial direction is provided with keyway 14, is used for supporting part 15 and first arm 50 are linked together by positioning key 17, prevents the rotation of arm pin 10, guarantees moving axially of axle drive shaft.Improve the safety in utilization of arm pin mechanism.

Support portion 16 is arranged in first arm 50, cooperates with supporting part 15, plays the effect that connects first arm 50 and second arm 60.Support portion 16 comprises transition phase 161, contraction section 163 and spacing section 162.

Transition phase 161 is connected on second limiting section 12, the cylindrical section that extends for second end along the axial direction of arm pin 10 to arm pin 10.Contraction section 163 is arranged between transition phase 161 and spacing section 162, and second end from the end of transition phase 161 along the axial direction of arm pin 10 to arm pin 10 extends, and inwardly shrinks and form the frustum section, and the other end of contraction section 163 is connected with spacing section 162 end.Spacing section 162 is the cylindrical section that is positioned at the second end end of arm pin 10, has the external diameter less than transition phase 161.The slotted hole 13 of perforation that has run through radially is set for spacing section 162, connects slotted hole 13 and run through and extend along the axial direction of arm pin 10 along the radial direction of arm pin 10.Connecting slotted hole 13 for example is the oval hole.First limiting section 20 is set to pass and connects slotted hole 13, and can move by the axial direction along arm pin 10 in connecting slotted hole 13.Be provided with first threaded connection hole spacing section 162 end, be used for being connected with other appurtenances.

Second limiting section 12 is arranged on the periphery wall of arm pin 10, be shaft shoulder section, be oppositely arranged with first limiting section 20, and formation installing space, elastic mechanism 30 is arranged in this installing space, and first end of elastic mechanism 30 is pressed on first limiting section 20, and second end of elastic mechanism 30 is pressed on second limiting section 12, adjusts distance between first limiting section 20 and second limiting section 12 according to the action of screw thread pair.In the present embodiment, elastic mechanism 30 is the compression spring.

In the middle of other embodiment, support portion 16 also can include only transition phase 161 and spacing section 162, and transition phase 161 and spacing section 162 form the step axle, and spacing section 162 external diameter is less than the external diameter of transition phase 161.In addition, support portion 16 can be set to include only formed spacing section 162 of cylindrical section, spacing section 162 directly is connected with second limiting section 12.

The centre hole 11 of arm pin 10 comprises first centre hole of first end that is arranged on arm pin 10, the tapped bore section 111 that is connected with first centre hole, the other end that is arranged on tapped bore section 111 and second centre hole that is connected with tapped bore section 111 and second threaded connection hole that is arranged on the second centre hole end.The diameter of first centre hole and second centre hole is greater than the tapped bore diameter of tapped bore section 111, and the diameter of second threaded connection hole is greater than the diameter of second centre hole.

Please in conjunction with referring to shown in Figure 4, axle drive shaft 40 comprises application of force section 42, optical axis section 43, spiro rod section 41 and backstop section 44.Axle drive shaft 40 is arranged in this centre hole 11 rotationally with respect to first limiting section 20, constitutes screw thread pair with tapped bore section 111, and this screw thread pair drives with first limiting section 20 and is connected, and actuating arm pin 10 in axial direction moves.

Application of force section 42 is arranged on first end of axle drive shaft 40, is polygonized structure, is used for being connected with external drive mechanism, to axle drive shaft 40 transmission of drive force.This polygonized structure can be quadrangle or hexagon.Optical axis section 43 is arranged on second end of axle drive shaft 40, is cylindrical section.First limiting section 20 passes perforation slotted hole 13 and is arranged on the optical axis section 43, cooperates with optical axis section 43, adjusts the mode of operation of arm pin 10.Spiro rod section 41 is arranged between application of force section 42 and the optical axis section 43, and two ends are connected with optical axis section 43 with application of force section 42 respectively.Spiro rod section 41 is arranged in the tapped bore section 111, is threaded with tapped bore section 111, will be converted to from the turning effort power of driver train transmission along the axial force of arm pin 10, and actuating arm pin 10 in axial direction moves.Backstop section 44 is positioned at the end position of optical axis section 43, is used for first limiting section 20 is formed spacing and backstop action.One section optical axis section also can be set between drive end 42 and the spiro rod section 41, to reduce the length of spiro rod section 41, make application of force section 42 overhanging simultaneously, so that cooperate with driver train.

In the middle of other embodiment, axle drive shaft 40 also can include only application of force section 42, optical axis section 43 and spiro rod section 41.Application of force section 42 is arranged on first end of axle drive shaft 40, and spiro rod section 41 is arranged in the tapped bore of tapped bore section 111, and optical axis section 43 is arranged between application of force section 42 and the spiro rod section 41, and external diameter is less than the external diameter of spiro rod section 41.Connecting slotted hole 13 is arranged in the drop shadow spread of optical axis section 43 on arm pin 10.First limiting section 20 passes perforation slotted hole 13 and is arranged on the optical axis section 43, and cooperates with screw thread pair, limits the limit of sports record position of the axial direction of arm pin 10.

Please in conjunction with extremely shown in Figure 8 referring to Fig. 5, first limiting section 20 comprises first axle sleeve 21, second axle sleeve 22 and alignment pin 23.First axle sleeve 21 is positioned at second centre hole, and is set on the optical axis section 43, can do the motion that rotates in a circumferential direction around optical axis section 43, also can do the motion of axial direction with respect to optical axis section 43.Radially be provided with first pin shaft hole 211 on the sidewall of first axle sleeve 21, this pin shaft hole 211 can be through hole, also can be blind hole, can be unthreaded hole, also can be tapped bore.Preferably, the positioning spiro pit of first pin shaft hole 211 for running through.One end of first axle sleeve 21 is pressed on the backstop section 44, and 44 pairs of first axle sleeves 21 of backstop section form barrier effect, and by first axle sleeve 21 this barrier effect are passed to whole first limiting section 20, thereby form the barrier effect to whole first limiting section 20.Under this barrier effect, elastic mechanism 30 is in compressive state all the time, and when screw thread pair is adjusted, makes first limiting section 20 be in the tram all the time, prevents that first limiting section 20 from blocking, and causes damage or the inefficacy of arm pin mechanism.

Second axle sleeve 22 is set on spacing section 162 the outer wall of arm pin 10, and can slide along the axial direction of arm pin 10.Radially be provided with second pin shaft hole 221 on the sidewall of second axle sleeve 22, this pin shaft hole 221 can be unthreaded hole, also can be tapped bore.Preferably, the unthreaded hole of second pin shaft hole 221 for running through.Alignment pin 23 is arranged between first pin shaft hole 211 and second pin shaft hole 221, passes perforation slotted hole 13 first axle sleeve 21 and second axle sleeve 22 are linked together.One end of alignment pin 23 is provided with outside thread, cooperates between the positioning spiro pit of this end and first pin shaft hole 21, forms location structure, prevents that alignment pin 23 from deviating from pin shaft hole.The other end of alignment pin 23 is arranged in second pin shaft hole 221, make the synchronous axial motion along arm pin 10 of maintenance between first axle sleeve 21 and second axle sleeve 22, alignment pin 23 does not form any restriction to first limiting section 20 with respect to axial motion and the axial motion of axle drive shaft 40.

The end of one end of second axle sleeve 22 includes stop lug 222, is used for being connected with elastic mechanism 30, and elastic mechanism 30 is played backstop action.In the present embodiment, second axle sleeve 22 is arranged on second end of arm pin 10, and the interior retaining wall of stop lug 222 is connected with elastic mechanism 30, plays the effect of elasticity of compression mechanism 30.The outer retaining wall of stop lug 222 cooperates with the locating flange of first arm 50, to the axial motion end position formation restriction of arm pin 10.

Please in conjunction with referring to shown in Figure 9, according to weight-lifting equipment of the present invention, comprise first arm 50 and second arm 60, also comprise above-mentioned arm arm pin mechanism, arm arm pin mechanism is arranged between first arm 50 and second arm 60, and connects first arm 50 and second arm 60.The arm pin exit end of first arm 50 is provided with inside flange 51, the arm pin arrival end of first arm 50 is provided with locating flange 52, first end of arm arm pin mechanism is pressed on the inside flange 51, and locating flange 52 is pressed on second limiting section 12 of arm pin 10 of arm arm pin mechanism.

When arm arm pin mechanism is installed, at first arm arm pin mechanism is arranged in first arm 50, the stop lug 222 of end of second axle sleeve 22 of arm arm pin mechanism is pressed on the inside flange 51 that is fixedly mounted on first arm 50, then another locating flange 52 is installed in the outer end of second limiting section 12 of arm pin 10, second limiting section 12 is formed backstop action, prevent that arm arm pin mechanism from deviating from from the installation end of first arm 50, in the keyway 14 of arm pin 10, insert positioning key 17 (this positioning key 17 is installed on the locating flange 52) then, the rotation that stop arm pin 10 takes place with respect to first arm 50.First limiting section 20 of arm pin 10 and the elastic mechanism 30 between second limiting section 12 are in compressive state at this moment.Then by driver train for example socket wrench be connected with the application of force section 42 of axle drive shaft 40, the input propulsive effort, second limiting section 12 is moved along the direction of elasticity of compression mechanism 30, and arm pin 10 is pressed in first arm 50, it can not caused second arm 60 and being connected of first arm 50 stop.

Second arm 60 is installed on first arm 50, and with the installation position of first arm 50 and second arm 60 to good, pass through the application of force section 42 of socket wrench contrarotation axle drive shaft 40 then, make arm pin 10 along moving away from the direction of first limiting section 20, under the elastic force effect of elastic mechanism 30, arm pin 10 stretches out in first arm 50, and stretches in second arm 60, and the load plane 151 of the supporting part 15 of arm pin 10 is corresponding with the bearing surface of second arm 60 at this moment.So far, arm arm pin mechanism links together first arm 50 and second arm 60.

When needs are dismantled second arm 60, utilize socket wrench rotating driveshaft 40, because of arm pin 10 under the effect of positioning key 17, can not rotate, around arm bearing pin center rotation, to upper surface move on one side by one side for axle drive shaft 40, alignment pin 23 also drives second axle sleeve, 22 upward movements simultaneously, the compression spring.The gap occurs between the lower surface of second axle sleeve 22 and first arm, 50 afterbody inside flanges, 51 end faces, at this moment, only need overcome arm pin 10 just can be with 10 withdrawals of arm pin with the friction force of pin-and-hole.

Can learn that from foregoing description the present invention is when the dismounting arm, only needing to use socket wrench to act on axle drive shaft can realize, more convenient; The present invention has utilized screw mandrel and feed screw nut's version, and is not only laborsaving, also can realize self-locking, is convenient to the location of arm pin position; The present invention is by the shift length of arm pin oval hole (perforation slotted hole) restriction bearing pin, thereby it is spacing to realize that the arm pin stretches; The present invention can also be by observing or measure the relative distance between transition axis upper surface and the arm pin upper surface, judges whether the arm pin compresses or discharge to put the potential safety hazard that can avoid the arm pin not reset and bring well in place.

Be the preferred embodiments of the present invention only below, be not limited to the present invention, for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (14)

1. arm arm pin mechanism, comprise arm pin (10), described arm pin (10) has the centre hole (11) that in axial direction arranges, it is characterized in that, described arm arm pin mechanism also comprises being arranged on the screw thread pair in the described centre hole (11) and being arranged on described arm pin (10) goes up first limiting section (20) that also can move along the axial direction of described arm pin (10), described screw thread pair drives and is connected to described first limiting section (20), and described first limiting section (20) limits the axial motion end position of described arm pin (10).

2. arm arm pin mechanism according to claim 1, it is characterized in that, the periphery wall of described arm pin (10) is provided with second limiting section (12), be provided with elastic mechanism (30) between described first limiting section (20) and described second limiting section (12), first end of described elastic mechanism (30) is pressed on described first limiting section (20), and second end of described elastic mechanism (30) is pressed on described second limiting section (12).

3. arm arm pin mechanism according to claim 1, it is characterized in that, include the perforation slotted hole (13) that runs through and extend along the axial direction of described arm pin (10) along the radial direction of described arm pin (10) on the described arm pin (10), described first limiting section (20) is arranged on the described perforation slotted hole (13).

4. arm arm pin mechanism according to claim 3, it is characterized in that, the tapped bore section (111) that described screw thread pair comprises the axle drive shaft (40) that has spiro rod section (41) and is positioned at that described centre hole (11) is gone up and is spirally connected with described spiro rod section (41), described axle drive shaft (40) is arranged in the described centre hole (11) rotationally with respect to described first limiting section (20).

5. arm arm pin mechanism according to claim 4, it is characterized in that, described axle drive shaft (40) also comprise the application of force section (42) that is arranged on described axle drive shaft (40) first ends and be positioned at described spiro rod section (41) and described application of force section (42) between optical axis section (43), described optical axis section (43) diameter is smaller or equal to the external diameter of described spiro rod section (41).

6. arm arm pin mechanism according to claim 4, it is characterized in that the optical axis section (43) of second end that described axle drive shaft (40) also comprises the application of force section (42) that is arranged on described axle drive shaft (40) first ends, be arranged on described axle drive shaft (40) and the backstop section (44) that is arranged on the end of described optical axis section (43).

7. according to claim 5 or 6 described arm arm pin mechanisms, it is characterized in that, second axle sleeve (22) on the outer wall that described first limiting section (20) comprises first axle sleeve (21) that is set on the described optical axis section (43), be set in described arm pin (10) and connect described first axle sleeve (21) and the alignment pin (23) of described second axle sleeve (22), described alignment pin (23) is slidably disposed in the described perforation slotted hole (13) along the axial direction of described arm pin (10).

8. arm arm pin mechanism according to claim 7 is characterized in that, the wherein end of an end of described second axle sleeve (22) is provided with stop lug (222).

9. arm arm pin mechanism according to claim 8, it is characterized in that, described first axle sleeve (21) radially is provided with first pin shaft hole (211), described second axle sleeve (22) radially is provided with second pin shaft hole (221), and described first pin shaft hole (211) is through hole or blind hole.

10. arm arm pin mechanism according to claim 9 is characterized in that, described first pin shaft hole (211) comprises positioning spiro pit, and an end of described alignment pin (23) has the outside thread that cooperates with described positioning spiro pit.

11. according to each described arm arm pin mechanism in the claim 3 to 6, it is characterized in that, the periphery wall of described arm pin (10) is provided with second limiting section (12), described arm pin (10) comprises the supporting part (15) of first end that is arranged on described arm pin (10) and is arranged on the support portion (16) of second end of described arm pin (10), described second limiting section (12) is arranged between described supporting part (15) and described support portion (16), described support portion (16) comprises the transition phase (161) that is connected with described second limiting section (12), with spacing section (162) of the second end end that is positioned at described arm pin (10), described spacing section (162) external diameter is less than described transition phase (161).

12. arm arm pin mechanism according to claim 11, it is characterized in that, described supporting part (15) comprises carrying section (151) and the construction section (152) that is connected with described carrying section (151), one side of described carrying section (151) includes the load plane (153) that cooperates with described arm, and described construction section (152) is connected with described second limiting section (12).

13. arm arm pin mechanism according to claim 12 is characterized in that, described supporting part (15) is provided with keyway (14) along the axial direction of described arm pin (10).

14. weight-lifting equipment, comprise first arm (50) and second arm (60), the arm pin exit end of described first arm (50) is provided with inside flange (51), the arm pin arrival end of described first arm (50) is provided with locating flange (52), it is characterized in that, described weight-lifting equipment also comprises each described arm arm pin mechanism in the claim 1 to 13, first end of described arm arm pin mechanism is pressed on the described inside flange (51), and described locating flange (52) is pressed on second end of described arm arm pin mechanism.

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