CN202508798U - Pull pin mechanism, bolt type telescopic boom and crane - Google Patents

Abstract

The utility model relates to the technical field of engineering machinery and discloses a pull pin mechanism, a bolt type telescopic boom and a crane. The pull pin mechanism comprises a boom pin, a return mechanism and a swing rod. The boom pin can be arranged on a lateral wall of the telescopic boom in sliding mode, the return mechanism is used for keeping the boom pin to be in an extending state, the swing rod is hinged to a lateral wall of the telescopic boom in dead axle mode, one end of the swing rod is connected with the boom pin, and the other end of the swing rod can be pushed by a cylinder pin. In an embodiment of the pull pin mechanism, by arranging the boom pin, the return mechanism and the swing rod having a leverage effect on two lateral walls at the tail portion of the telescopic boom, when a mandril of the cylinder pin is in an extending state, the boom pin is in a retracting state, when the mandril of the cylinder pin is in an retracting state, the boom pin is in an extending state, and back and forth switching between a locking state of the cylinder pin and a locking state of the boom pin is achieved, so that the structure is simple, assembling is facilitated, machining difficulty of parts such as a cylinder head is reduced, and installing precision of parts such as the boom pin is reduced.

Description

A kind of insert-pull pin mechanism, bolt-type telescopic arm and hoisting crane

Technical field

The utility model relates to technical field of engineering machinery, particularly relates to a kind of insert-pull pin mechanism, bolt-type telescopic arm and hoisting crane.

Background technology

A kind of single-cylinder bolt type telescopic boom has appearred in recent years; This telescopic boom has only a telescopic oil cylinder; And the movable end of this telescopic oil cylinder is provided with cylinder head; The both sides of cylinder head are provided with corresponding two cylinder pins, and the center shaft coplane of the center shaft of these two cylinder pins and said telescopic oil cylinder, said telescopic oil cylinder can optionally lock or discharge the relative position of itself and arbitrary joint telescopic boom when above-mentioned cylinder pin stretches out or regains.In addition; Adjacent respectively save between the telescopic boom and the basic arm and first telescopic boom between be equipped with the arm pin; This arm pin is located on the top side of arm, between the adjacent telescopic boom and the relative position between basic arm and the first segment telescopic boom can optionally lock or discharge through this arm pin.

Said telescopic oil cylinder can at first lock with the minor details telescopic boom, through regaining the arm pin minor details telescopic boom and joint telescopic boom second from the bottom is discharged simultaneously, and this moment, said telescopic oil cylinder can be taken the minor details telescopic boom out of; The minor details telescopic boom locks itself and joint telescopic boom second from the bottom after arriving the desired location again; Regain said telescopic oil cylinder and with the locking of itself and joint telescopic boom second from the bottom; Then joint telescopic boom second from the bottom and joint telescopic boom third from the bottom are discharged; This moment, said telescopic oil cylinder can be taken joint telescopic boom second from the bottom out of, and the like can realize respectively saving stretching out successively of telescopic boom.

In such scheme; The Plug Action of cylinder pin and arm pin is generally controlled through two group oil cylinders; In order to prevent system misoperation, adopt structures such as shift fork, dovetail furrow can not to move simultaneously usually to guarantee cylinder pin oil cylinder and arm pin oil cylinder, promptly, the piston rod of arm pin oil cylinder drives the action downwards together of oat tail groove structure and shift fork downwards when moving; In the release of arm pin, the cylinder pin is carried out lockedly, prevent the maloperation of cylinder pin.

But the structure of this insert-pull pin mechanism is comparatively complicated, and processing technology of components such as cylinder head are had relatively high expectations, and very high to the requirement of the setting accuracy of parts such as arm pin.Therefore, how improving to existing insert-pull pin mechanism, to adapt to uses needs more, is the technical barrier that those skilled in the art need to be resolved hurrily.

The utility model content

In view of this, the utility model is intended to propose a kind of insert-pull pin mechanism, bolt-type telescopic arm and hoisting crane, and is too complicated and then cause processing technology and the too high problem of setting accuracy because of structure to solve existing insert-pull pin mechanism.

On the one hand, the utility model provides a kind of insert-pull pin mechanism, and this insert-pull pin mechanism comprises the telescopic oil cylinder of being located in the telescopic boom, and the movable end of said telescopic oil cylinder is provided with cylinder head, and the both sides of said cylinder head are provided with the cylinder pin that is used for the telescopic boom locking, also comprise:

The arm pin is located on the sidewall of telescopic boom slidably, is used for when slip is stretched out and another telescopic boom locking;

Return mechanism is used for said arm pin is remained on the state of stretching out;

Fork, dead axle are articulated on the sidewall of telescopic boom, and the one of which end links to each other with said arm pin, and the other end can receive the promotion of said cylinder pin.

Further, said return mechanism is first spring, and this first spring made progress around the week that is arranged in said arm pin, and the one of which end links to each other with the arm pin, and the other end links to each other with the sidewall of telescopic boom.

Further, an end of said fork is provided with elongated hole, and said arm pin is provided with pin, and said fork and said arm pin are through this elongated hole and should pin hinged.

Further, be provided with push rod in axial sliding in the said cylinder pin, said push rod promotes the other end of said fork when stretching out.

Further, the other end of said fork is provided with the stressed groove of arc, is used for contacting with the external part of said push rod.

Further, be provided with lockout mechanism between said cylinder head, said cylinder pin and the said push rod, this lockout mechanism comprises:

Be arranged in the mounting hole on the cylinder pin;

Be located at first positioning unit and second positioning unit in this mounting hole slidably, said first positioning unit links to each other through second spring with said second positioning unit;

Be used to hold first position-limited trough of said first positioning unit, said first position-limited trough is located at said cylinder head on the inwall of said cylinder pin;

Be used to hold second position-limited trough of said second positioning unit, said second position-limited trough is located at said push rod on the outer wall of said cylinder pin.

Further, the pivot center that stretches out direction and said fork that stretches out direction and said cylinder pin of said arm pin is perpendicular.

Further, the sidewall of said telescopic boom is provided with arm pin runner, swing district and cylinder pin and holds the district, and said arm pin is located in this arm pin runner, and said fork is located in this swing district, and said cylinder pin is positioned at this cylinder pin and holds the district when stretching out.

On the other hand, the utility model also provides a kind of bolt-type telescopic arm, and this bolt-type telescopic arm comprises basic arm and be socketed at least one joint telescopic boom in the said basic arm, and wherein, arbitrary joint telescopic boom is provided with above-mentioned each described insert-pull pin mechanism.

On the one hand, the utility model also provides a kind of hoisting crane again, and this hoisting crane is provided with above-mentioned bolt-type telescopic arm.

A kind of insert-pull pin mechanism, bolt-type telescopic arm and hoisting crane that the utility model provides; Through at the fork that arm pin, return mechanism is set and is used between cylinder pin and arm pin, rising leverage on the telescopic boom sidewall of cylinder pin both sides; Make that (the cylinder pin is in the lock state) arm pin is in retracted state when stretching out state when the cylinder pin is in; The arm pin is in the state of stretching out (the arm pin is in the lock state) under the effect of return mechanism when the cylinder pin is in retracted state, thereby the switching back and forth of the lock-out state of the lock-out state of realization cylinder pin and arm pin so is provided with not only simple in structure; Be convenient to assembling; And required parts minimizing, both reduced parts difficulty of processing such as cylinder head, also reduced the setting accuracy of parts such as arm pin; Further; In the cylinder pin, be provided with push rod in axial sliding, the external part through this push rod is that the other end of fork provides propelling thrust, thereby can realize that the state that stretches out of push rod and the lock-out state of arm pin switch back and forth; And between cylinder head, cylinder pin and push rod, lockout mechanism is set; Realize interlock function, sell out full withdrawal, improved the safety of telescopic process greatly to avoid arm pin cylinder when not stretching entirely.

Description of drawings

The structural representation of a kind of insert-pull pin mechanism that Fig. 1 provides for the utility model embodiment;

Fig. 2 is the structural representation at another visual angle (the cylinder pin does not stretch out) of insert-pull pin shown in Figure 1 mechanism;

Fig. 3 is the structural representation of insert-pull pin mechanism shown in Figure 2 when the cylinder pin is in the state of stretching out (push rod does not stretch out);

Fig. 4 is in the structural representation when stretching out state for insert-pull pin shown in Figure 3 mechanism at push rod;

Structural representation when Fig. 5 is in first state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism;

Structural representation when Fig. 6 is in second state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism;

Structural representation intention when Fig. 7 is in the third state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism.

The specific embodiment

In order to make those skilled in the art understand the technical scheme of the utility model better, the utility model is done further to specify below in conjunction with accompanying drawing and specific embodiment.Should be pointed out that description and the description order to concrete structure only is the explanation to specific embodiment in this part, should not be regarded as that the protection domain of the utility model is had any restriction.

Please refer to Fig. 1 to Fig. 7; Wherein, The structural representation of a kind of insert-pull pin mechanism that Fig. 1 provides for the utility model embodiment; Fig. 2 is the structural representation at another visual angle (the cylinder pin does not stretch out) of insert-pull pin shown in Figure 1 mechanism; Fig. 3 is the structural representation of insert-pull pin mechanism shown in Figure 2 when the cylinder pin is in the state of stretching out (push rod does not stretch out), and Fig. 4 is in the structural representation when stretching out state for insert-pull pin shown in Figure 3 mechanism at push rod, the structural representation when Fig. 5 is in first state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism; Structural representation intention when the structural representation when Fig. 6 is in second state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism, Fig. 7 are in the third state for the lockout mechanism of insert-pull pin shown in Figure 1 mechanism.Combine corresponding accompanying drawing that the utility model embodiment is described simultaneously according to the needs of describing below, should be pointed out that the following said noun of locality that relates to (as about about etc.) be foundation with sight shown in scheming.

Please be simultaneously referring to figs. 1 to Fig. 4, as shown in the figure, the insert-pull pin mechanism of the utility model embodiment mainly comprises cylinder head 1, cylinder pin 2, fork 3, dead axle 4, arm pin 5 and return mechanism 6 etc., wherein:

Cylinder head 1 is fixedly arranged on the movable end of telescopic oil cylinder (scheming not shown), and this telescopic oil cylinder is located in the telescopic boom 100, and its movable end can promote cylinder head 1 and in telescopic boom 100, move around; Cylinder pin 2 is located at the both sides of cylinder head 1; Can stretch out or regain along the direction of the both sides of cylinder head 1, be provided with cylinder pin oil cylinder in the cylinder head 1 with the stretching out or regain action of control cylinder pin 2, when cylinder head 1 moves; Cylinder pin 2 is in retracted state; When cylinder head 1 moves to the relevant position of telescopic boom 100, be in the state of stretching out through cylinder pin oil cylinder control cylinder pin 2, can realize the locking of cylinder head 1 and telescopic boom 100; Further be provided with push rod 7 in axial sliding in the cylinder pin 2, can be as required a push rod oil cylinder (scheme not shown) be set to control stretching out or regaining of push rod 7 for this top thick stick 7;

On the two side of the afterbody 101 of telescopic boom 100, form two box bodies; These two box-like body are symmetricly set in the both sides of cylinder head 1 substantially, and each box body includes the arm pin runner 50, swing district 30 and the cylinder pin that communicate successively up and down and holds district 20, wherein; Arm pin runner 50 communicates with the outside of telescopic boom 100; Arm pin 5 is located in the arm pin runner 50 slidably, when arm pin 5 is in the state of stretching out (being lock-out state), with telescopic boom 100 and another adjacent telescopic boom locking; Fork 3 is articulated in swing district 30 through dead axle 4, and the cylinder pin holds district 20 and is used to hold cylinder pin 2 and the push rod 7 that stretches out;

The moving direction of arm pin 5 and cylinder pin 2 stretch out direction substantially with the axis normal of dead axle 4; One end (upper end) of fork 3 is provided with elongated hole 31, and an end of arm pin 5 is provided with pin 51, and an end of fork 3 and an end of arm pin 5 are through elongated hole 31 and pin 51 hinged; The other end of fork 3 (lower end) is provided with the stressed groove 32 of arc, is used to receive the promotion of push rod 7 external parts;

Return mechanism 6 is used for arm pin 5 is remained on the state of stretching out, and particularly, return mechanism 6 is specially first spring, and this first spring made progress around the week that is arranged in arm pin 5, and the one of which end links to each other with arm pin 5, and the other end links to each other with the sidewall of afterbody 101.

In the course of the work, when needs promotion telescopic boom 100 moves, at first cylinder head 1 is moved to the afterbody 101 (as shown in Figure 2) of telescopic boom 100 through telescopic oil cylinder; Control cylinder pin oil cylinder stretches out (as shown in Figure 3) with cylinder pin 2 then, realizes the locking of cylinder head 1 and telescopic boom 100, controls the push rod oil cylinder again push rod 7 is stretched out (as shown in Figure 4); Make the stressed groove 32 of external part contact arc of push rod 7, the propelling thrust of lower end generation to fork 3 is swung fork 3 around dead axle 4 under the effect of this propelling thrust; Move along the direction near cylinder head 1 upper end of fork 3, does to regain action along arm pin runner 50 thereby drive arm pin 5, when push rod 7 stretches out fully; Arm pin 5 is regained fully; At this moment, cylinder head 1 and telescopic boom 100 lockings, telescopic boom 100 and another adjacent telescopic boom release; Through telescopic oil cylinder telescopic boom 100 is moved to the relevant position at last, thereby accomplish the moving process of telescopic boom 100; Behind telescopic boom 100 arrival relevant positions; Realize the withdrawal successively of push rod 7 and cylinder pin 2 through controlling push rod oil cylinder and cylinder pin oil cylinder successively; When push rod 7 is regained fully; The lower end of fork 3 no longer receives the effect of propelling thrust, and arm pin 5 will be under the effect of return mechanism 6 moves and finally returns to the state of stretching out along arm pin runner 50, makes fork 3 also return to initial conditions.

Preferably, for for guaranteeing the safety of telescopic boom 100 when flexible, prevent that arm pin 5 is not when stretching entirely; Cylinder pin 2 is withdrawn fully, can also corresponding lockout mechanism be set for cylinder pin 2 and push rod 7, please refer to Fig. 5, Fig. 6 and Fig. 7; As shown in the figure, this lockout mechanism comprises:

Mounting hole 13 is arranged on the cylinder pin 2;

First positioning unit 12 and second positioning unit, 15, the first positioning uniies 12 be located at slidably in this mounting hole 13 link to each other through second spring 14 with second positioning unit 15;

Be used to hold first position-limited trough 11 of first positioning unit 12, said first position-limited trough 11 is located at said cylinder head 1 on the inwall of said cylinder pin 2;

Be used to hold second position-limited trough 16 of said second positioning unit 15, said second position-limited trough 16 is located at said push rod 7 on the outer wall of said cylinder pin 2, said second position-limited trough 16 and said first position-limited trough 11 segment distance that staggers each other.

In the course of the work, as shown in Figure 5, at this moment, cylinder pin 2 does not all stretch out with push rod 7; Arm pin 5 is in the state of stretching out (lock-out state), because first positioning unit 12 does not receive the spacing of first position-limited trough 11, and second positioning unit 15 receives the spacing of second position-limited trough 16, and push rod 7 integral body in cylinder pin 2 and the cylinder pin 2 are in the state that can stretch out with respect to cylinder head 1; Can push rod 7 integral body in cylinder pin 2 and the cylinder pin 2 be extend out to state shown in Figure 6, at this moment, cylinder pin 2 is in the state of stretching entirely, cylinder head 1 and telescopic boom 100 lockings; Because first positioning unit 12 receives the spacing of first position-limited trough 11, second positioning unit 15 receives the spacing of second position-limited trough 16, and cylinder pin 2 is in the state that can not stretch out with respect to cylinder head 1; Push rod 7 is in the state that can not stretch out with respect to cylinder pin 2, and arm pin 5 still is in the lock state, if make it break away from second position-limited trough 16 through controlling second positioning unit 15; Can push rod 7 be extend out to state shown in Figure 7, at this moment, arm pin 5 is regained (being in released state); Push rod 7 is in recoverable state, but cylinder pin 2 still is in the lock state, in the time of in push rod 7 is retracted to cylinder pin 2 again (shown in Figure 2); Arm pin 5 stretches out, and make it break away from first position-limited trough 11 through controlling first positioning unit 12 this moment again, and cylinder pin 2 is retracted in the cylinder head 1 the most at last; In whole process, avoided arm pin 5 when not stretching entirely, the phenomenon that cylinder pin 2 is withdrawn fully.

Need to prove that in the foregoing description, return mechanism 6 is first spring; But in other embodiments; Also can adopt other elastic components well known to those skilled in the art as return mechanism, in addition, it is said that the set-up mode of first spring also is not limited to the foregoing description; For example; Can also be with the lower ends of an end and the fork 3 of this first spring, the other end links to each other with the sidewall of telescopic boom 100, and this first spring is in the opposite direction to the propelling thrust of the direction of the application force of the lower end of fork 3 and push rod 7.

Need to prove that in the foregoing description, arm pin runner 50 is roughly straight shape groove; Arm pin 50 slides in this arm pin runner 50, and the one of which end through the pin link to each other with the elongated hole of fork 3 upper ends, in other embodiments; Also can adopt deep-slotted chip breaker as required; The radius of curvature of this deep-slotted chip breaker equates substantially that with the pendulum radius of fork 3 upper ends at this moment, the upper end of fork 3 can be directly hinged through circular hole and arm pin 5.

Need to prove; In the foregoing description, cylinder pin 2 passes through the following end in contact of push rod 7 and fork 3, but in other embodiments; Also can use cylinder pin 2 directly and the following end in contact of fork 3 as required; And need not to be provided with push rod 7 (and corresponding lockout mechanism), promptly cylinder pin 2 impels fork 3 to swing when stretching out, and then impels arm pin 5 to regain.

Need to prove; In the foregoing description; The moving direction of arm pin 5 and cylinder pin 2 stretch out direction substantially with the axis normal of dead axle 4; But in other embodiments, also can make as required pin 5 moving direction and cylinder pin 2 to stretch out direction angled with the axis of dead axle 4 substantially, as long as can above-mentioned each corresponding function; Moreover in the foregoing description, the axis of dead axle 4 is in substantially parallel relationship to the bearing of trend of telescopic boom 100, but in other embodiments, also can make the bearing of trend of its axis and telescopic boom 100 angled as required, so also can realize above-mentioned various function; In addition, in the above-described embodiments, the axis of the axis of cylinder pin 2 and arm pin 5 is parallel substantially, but in other embodiments, also can make the axis of cylinder pin 2 angled with the axis of arm pin 5 as required, otherwise the realization that influences above-mentioned various functions gets final product.

Need to prove that in the foregoing description, the main body of insert-pull pin mechanism is located at the afterbody 101 of telescopic boom 100, but in other embodiments, also can as required it be located at other positions of telescopic boom 100.

A kind of insert-pull pin mechanism that the utility model embodiment provides; Through at the fork that arm pin, return mechanism is set on the two side of telescopic boom afterbody and is used between the push rod of cylinder pin and arm pin, rising leverage; Make push rod when the cylinder pin be in that (the cylinder pin is in the lock state) arm pin is in retracted state when stretching out state; The arm pin is in the state of stretching out (the arm pin is in the lock state) under the effect of return mechanism when the push rod of cylinder pin is in retracted state, thereby the switching back and forth of the lock-out state of the lock-out state of realization cylinder pin and arm pin so is provided with not only simple in structure; Be convenient to assembling; And required parts minimizing, both reduced parts difficulty of processing such as cylinder head, also reduced the setting accuracy of parts such as arm pin; In addition, between cylinder head, cylinder pin and push rod, lockout mechanism is set, realizes interlock function, sell out full withdrawal, improved the safety of telescopic process greatly to avoid arm pin cylinder when not stretching entirely.

The utility model embodiment also provides a kind of bolt-type telescopic arm, comprises basic arm and is socketed at least one joint telescopic boom in the said basic arm, wherein; The afterbody of arbitrary joint telescopic boom is provided with above-mentioned described insert-pull pin mechanism; Because above-mentioned insert-pull pin mechanism has above-mentioned technique effect, therefore, this hoisting crane also should possess the corresponding techniques effect; Its practical implementation process is similar to the above embodiments, does not give unnecessary details now.

The utility model embodiment also provides a kind of hoisting crane; This hoisting crane is provided with above-mentioned bolt-type telescopic arm; Because above-mentioned bolt-type telescopic arm has above-mentioned technique effect, therefore, the hoisting crane that is provided with this bolt-type telescopic arm also should possess the corresponding techniques effect; Its practical implementation process is similar to the above embodiments, does not give unnecessary details now.

The above is merely the preferred embodiment of the utility model; Not in order to restriction the utility model; All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (10)

1. insert-pull pin mechanism; Comprise the telescopic oil cylinder of being located in the telescopic boom (100), the movable end of said telescopic oil cylinder is provided with cylinder head (1), and the both sides of said cylinder head (1) are provided with the cylinder pin (2) that is used for telescopic boom (100) locking; It is characterized in that said insert-pull pin mechanism also comprises:

Arm pin (5) is located on the sidewall of telescopic boom (100) slidably, is used for when slip is stretched out and another telescopic boom locking;

Return mechanism (6) is used for said arm pin (5) is remained on the state of stretching out;

Fork (3), dead axle are articulated on the sidewall of telescopic boom (100), and the one of which end links to each other with said arm pin (5), and the other end can receive the promotion of said cylinder pin (2).

2. insert-pull pin as claimed in claim 1 mechanism is characterized in that said return mechanism (6) is first spring, this first spring around the week that is arranged in said arm pin (5) upwards, the one of which end links to each other with arm pin (5), the other end links to each other with the sidewall of telescopic boom (100).

3. insert-pull pin as claimed in claim 1 mechanism is characterized in that an end of said fork (3) is provided with elongated hole (31), and said arm pin (5) is provided with pin (51), and said fork (3) and said arm pin (5) are through this elongated hole (31) and should pin (51) hinged.

4. insert-pull pin as claimed in claim 1 mechanism is characterized in that be provided with push rod (7) in axial sliding in the said cylinder pin (2), said push rod (7) promotes the other end of said fork (3) when stretching out.

5. insert-pull pin as claimed in claim 4 mechanism is characterized in that the other end of said fork (3) is provided with the stressed groove of arc (32), is used for contacting with the external part of said push rod (7).

6. insert-pull pin as claimed in claim 4 mechanism is characterized in that be provided with lockout mechanism between said cylinder head (1), said cylinder pin (2) and the said push rod (7), this lockout mechanism comprises:

Be arranged in the mounting hole (13) on the cylinder pin (2);

Be located at first positioning unit (12) and second positioning unit (15) in this mounting hole (13) slidably, said first positioning unit (12) links to each other through second spring (14) with said second positioning unit (15);

Be used to hold first position-limited trough (11) of said first positioning unit (12), said first position-limited trough (11) is located at said cylinder head (1) on the inwall of said cylinder pin (2);

Be used to hold second position-limited trough (16) of said second positioning unit (15), said second position-limited trough (16) is located at said push rod (7) on the outer wall of said cylinder pin (2).

7. like each described insert-pull pin mechanism of claim 1 to 6, it is characterized in that: the pivot center that stretches out direction and said fork (3) that stretches out direction and said cylinder pin (2) of said arm pin (5) is perpendicular.

8. like each described insert-pull pin mechanism of claim 1 to 6; It is characterized in that: the sidewall of said telescopic boom (100) is provided with arm pin runner (50), swing district (30) and cylinder pin and holds district (20); Said arm pin (5) is located in this arm pin runner (50); Said fork (3) is located in this swing district (30), and said cylinder pin (2) is positioned at this cylinder pin and holds district (20) when stretching out.

9. a bolt-type telescopic arm comprises basic arm and is socketed at least one joint telescopic boom in the said basic arm, it is characterized in that: arbitrary joint telescopic boom is provided with each described insert-pull pin mechanism of claim 1 to 8.

10. a hoisting crane is characterized in that, said hoisting crane is provided with the described bolt-type telescopic arm of claim 9.

Images