CN201272663Y - Telescopic arm crane and its super-lifting apparatus - Google Patents

Abstract

The utility model discloses a super lift device for a telescopic crane, which comprises at least one rotating support, a derricking cylinder, a first tension device and a second tension device, wherein a fixing end of the rotating support is in pin joint with a basic jib of the telescopic crane, the derricking cylinder is arranged between the rotating support and the basic jib, the first tension device is arranged between a moving end of the rotating support and an outer end of an optional telescopic jib of the telescopic crane, and the second tension device is arranged between the moving end of the rotating support and the root portion of the basic jib. The first tension device applies a first tensile force between the telescopic jib and the moving end of the rotating support, the component force of the first tensile force can balance a portion of component force of a heavy object in a sheared direction of a main jib, thereby the stressed condition of the main jib can be improved obviously, under identical loading conditions, the flexivity of the main jib is reduced obviously, and the total length, the lifting height, the lifting weight and the like of the telescopic jib can be increased obviously.

Description

Telescopic arm crane and super lifting device thereof

Technical field

The utility model relates to technical field of engineering machinery, particularly relates to a kind of super lifting device that is used for telescopic arm crane.In addition, the utility model also relates to a kind of telescopic arm crane that comprises above-mentioned super lifting device.

Background technology

Along with the fast development of China's economic construction, market for telescopic arm crane particularly the demand of large-tonnage telescopic arm crane increase day by day.

In recent years, the camp site is more and more higher for the requirement of total arm length, lifting altitude and a liter weight of telescopic arm crane, and telescopic arm crane (for example wheeled telescopic arm crane) therefore commonly used just develops towards the direction that maximizes; Maximization is an important design goal of telescopic arm crane.

The principal arm length overall of existing large-scale telescopic arm crane is grown (usually all greater than 50 meters), simultaneously, in order to make telescopic arm crane have the lifting altitude of bigger total arm length and Geng Gao, the brachium of auxiliary is also more and more grown (can reach 20 meters～70 meters usually), and the deadweight of principal arm and auxiliary is also increasing; On goliath, the weight of crane arm often accounts for more than 23% of complete machine weight.Thing followed problem is, principal arm and auxiliary brachium, the increase that arm is heavy will make when hanging loads the stressing conditions of principal arm more and more abominable, and the amount of deflection (be vertical amount of deflection and the transverse deflection of principal arm) of principal arm in luffing plane and plane of rotation is increasing.Excessive for fear of the principal arm amount of deflection, must control gross load; Like this, the total arm length of hoisting crane, lifting altitude and the maximum liter weight that rises all are subjected to serious restriction.

According to present main flow viewpoint, can solve the problems referred to above by following two approach:

The first, optimize the principal arm cross-sectional plane.As shown in Figure 1, based on expendable weight, improve the consideration of distribution of stress, the shape of principal arm cross-sectional plane develops into the U type that worldwide gains universal acceptance at present then by develop into the polygon of limit number greater than four from initial quadrangle; Be followed successively by above-mentioned quadrangular section I, polygonal cross-section II, U-shaped cross section III among Fig. 1 from left to right.After shape of cross section was made as the U type, the lower cover of principal arm and two coxostermums had the ability of stronger anti-local buckling, and it is comparatively reasonable that principal arm cross-sectional plane upper stress distributes, and can reduce the amount of deflection of principal arm to a certain extent, thereby can improve the lifting performance of principal arm.Yet the optimization of principal arm shape of cross section is not endless, is difficult to existing U type cross-sectional plane further is optimized; Continue to optimize lifting performance secular stagnation that this thinking of principal arm cross-sectional plane obviously will cause principal arm not before.

The second, improve the principal arm strength of material.Adopt the higher sheet material of intensity will improve the lifting performance of principal arm to a certain extent; But though the permissible stress of high-strength panel is higher, the ability of its anti-local buckling does not significantly improve, and this has restricted the further raising of lifting performance.In addition, be subjected to the restriction of scientific technological advance speed, the speed that timber intensity improves is slower, is difficult to meet the demands rapidly.

Therefore, according to existing main flow thinking, the total arm length of the boom crane that contracts, lifting altitude and an equal difficulty of liter weight have than quantum jump; The lifting performance that wants to improve principal arm must look for another way.How effectively improving the performances such as total arm length, lifting altitude and a liter weight of telescopic arm crane, is the present technical issues that need to address of those skilled in the art.

The utility model content

The purpose of this utility model provides a kind of super lifting device that is used for telescopic arm crane, and this super lifting device can significantly improve the performances such as total arm length, lifting altitude and a liter weight of telescopic arm crane.Another purpose of the present utility model provides a kind of telescopic arm crane that comprises above-mentioned super lifting device.

For solving the problems of the technologies described above, the utility model provides a kind of super lifting device, is used for telescopic arm crane, comprises at least one swinging strut, and described swinging strut articulates with the basic arm of its fixed end and described telescopic arm crane; Amplitude oil cylinder is arranged between described swinging strut and the described basic arm, so that described swinging strut rotates in perpendicular around its fixed end; First take-up device is arranged between the outer end of the movable end of described swinging strut and the arbitrary telescopic boom of described telescopic arm crane; Second take-up device is arranged between the root of the movable end of described swinging strut and described basic arm.

Preferably, described super lifting device has two described swinging struts, and is equipped with side between two swinging struts and the described basic arm and opens oil cylinder, so that described swinging strut all can be around its fixed end to the suitable angle of described basic arm two sideway swivels.

Preferably, the angular range of described swinging strut sideway swivel outside described basic arm is that 0 degree is to 45 degree.

Preferably, the stay cord that described first take-up device comprises elevator and is wound in this elevator outside, one captive joint with the free end of described swinging strut among both, and another person is captiveed joint with the outer end of arbitrary telescopic boom.

Preferably, described elevator is fixedly connected on the free end of described swinging strut, and the end of described stay cord is captiveed joint with the outer end of minor details telescopic boom.

Preferably, the movable end of described swinging strut further is provided with and tightens up oil cylinder, and the reel of described elevator is the captive joint ratchet coaxially; Describedly tighten up the ratchet that oil cylinder can promote described ratchet, so that further strain described stay cord.

Preferably, described second take-up device is a pull bar; Described pull bar comprises the first bar section that is articulated in described swinging strut movable end, and the second bar section that is articulated in described basic arm root, and the described first bar section and the second bar section are articulated.

Preferably, described second take-up device is a stay cord.

The utility model also provides a kind of telescopic arm crane, comprises above-mentioned each described super lifting device.

Preferably, described telescopic arm crane is specially wheeled telescopic arm crane.

When needing the lifting weight, the swinging strut of super lifting device provided by the utility model can rise on the basic arm of self extending boom crane under the promotion of amplitude oil cylinder, and rotate in perpendicular (being the luffing plane) around its fixed end, finally reach substantially and the perpendicular position of the basic arm of telescopic arm crane.Described first take-up device applies first pulling force between described telescopic boom and described swinging strut movable end, simultaneously, described second take-up device also applies second pulling force between the root of described basic arm and described swinging strut movable end.As everyone knows, weight is being to cause the bigger major cause of telescopic arm crane principal arm amount of deflection perpendicular to the component on the downward direction of described telescopic boom (being shear direction); Simultaneously, weight is less relatively to the influence of principal arm along the positive pressure of principal arm bearing of trend.Because above-mentioned first pulling force can the part component of weight equalizer on above-mentioned shear direction at the component that deviates from the above-mentioned shear direction, therefore, the strained condition of principal arm be improved significantly, the amount of deflection of principal arm significantly reduces under the equal conditions; On the other hand, above-mentioned first pulling force has increased positive pressure on this direction at the component on the principal arm bearing of trend, yet as previously mentioned, the amount of deflection of the positive pressure principal arm on this direction is less relatively, so the increase of this positive pressure there is no tangible negative consequence.In like manner, the existence of above-mentioned second pulling force will significantly alleviate the amount of deflection of described swinging strut, and pulling force is conducted to the root of described basic arm, also can improve the limit of above-mentioned first pulling force simultaneously.To sum up, the setting of described super lifting device, can significantly improve principal arm strained condition, reduce its amount of deflection, and then significantly promote the total arm length, lifting altitude of telescopic arm crane and play performance such as liter weight.

A kind of preferred embodiment in, described super lifting device has two described swinging struts, and be equipped with side between two swinging struts and the described basic arm and open oil cylinder, therefore described swinging strut all can be around its fixed end to the suitable angle of two sideway swivels of described basic arm.Like this, above-mentioned first pulling force exists to the left or component to the right, this component can the balance respective direction on the principal arm shearing force of bearing, therefore the transverse deflection of described principal arm can reduce.Specifically can be with reference to the concrete analysis of epimere literal.

In another preferred embodiment, the movable end of described swinging strut further is provided with and tightens up oil cylinder, and the reel of described elevator is the captive joint ratchet coaxially; Describedly tighten up the ratchet that oil cylinder can promote described ratchet.Like this, after described elevator tightens up, can promote the described ratchet reel of described elevator (and then promote) and continue the suitable angle of direction rotation by the described oil cylinder that tightens up, therefore can further promote the tensile force (being described first pulling force) of described stay cord to rolling.

Description of drawings

Fig. 1 is a principal arm Cross-section Design scheme scheme drawing in the prior art;

Fig. 2 provides the structural representation of a kind of specific embodiment of super lifting device for the utility model;

Fig. 3 is the front elevational schematic of the another kind of specific embodiment of super lifting device that the utility model provides;

Fig. 4 is the schematic top plan view of super lifting device shown in Figure 3;

Fig. 5 is that the axle of super lifting device shown in Figure 3 is surveyed scheme drawing;

Fig. 6 is the partial enlarged drawing at A position among Fig. 5;

Fig. 7 is that the axle of another angle of super lifting device shown in Figure 3 is surveyed scheme drawing;

Fig. 8 provides the scheme drawing that tightens up a kind of set-up mode of oil cylinder for the utility model;

Fig. 9 is the working state schematic representation with telescopic arm crane of super lifting device described in the utility model.

The specific embodiment

Core of the present utility model provides a kind of super lifting device that is used for telescopic arm crane, and this super lifting device can significantly improve the performances such as total arm length, lifting altitude and a liter weight of telescopic arm crane.Another core of the present utility model provides a kind of telescopic arm crane that comprises above-mentioned super lifting device.

In order to make those skilled in the art person understand the utility model scheme better, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Please refer to Fig. 2, Fig. 2 provides the set-up mode scheme drawing of a kind of specific embodiment of super lifting device for the utility model.

In a kind of specific embodiment, super lifting device provided by the utility model is arranged on the basic arm 8 of telescopic arm crane substantially.

Basic arm described herein means the first segment arm that is articulated with the telescopic arm crane upper frame part, at least one joint telescopic boom of suit among the described basic arm, and described telescopic boom can stretch out or withdraws with respect to basic arm.In addition, principal arm described herein means the integral body of being made up of above-mentioned basic arm and telescopic boom.

Super lifting device provided by the utility model comprises at least one swinging strut 1, the cylinder of swinging strut 1 for having enough rigidity and intensity, and its fixed end is by basic arm 8 pivot joints of rotating shaft and telescopic arm crane; This rotating shaft is horizontally disposed with substantially, and its axis is positioned at the cross-sectional plane of basic arm 8, so that swinging strut 1 is roughly vertical plane with basic arm 8 determined planes (luffing plane) when this rotating shaft is rotated.

Be provided with amplitude oil cylinder 2 between swinging strut 1 and the basic arm 8, the two ends of amplitude oil cylinder 2 are articulated with swinging strut 1 and basic arm 8 respectively, rotate in the luffing plane with respect to basic arm 8 to promote swinging strut 1.

Swinging strut 1 has and the corresponding movable end of its fixed end, between the outer end of this movable end and the arbitrary telescopic boom 9 of described telescopic arm crane first take-up device 3 is set; First take-up device 3 is used for forming first pulling force between the outer end of the movable end of swinging strut 1 and telescopic boom 9, and obviously, described first pulling force is identical with the bearing of trend of first take-up device 3.

The two ends that are provided with second take-up device, 4, the second take-up devices 4 between the root of the movable end of swinging strut 1 and basic arm 8 are connected to the movable end of above-mentioned swinging strut 1 and the root of basic arm 8.Second take-up device 4 has suitable length, and second take-up device 4 can tensioning so that swinging strut 1 hoists the back under the effect of amplitude oil cylinder 2, thus between the root of the movable end of swinging strut 1 and basic arm 8 formation second pulling force.Described second pulling force is identical with the bearing of trend of second take-up device 4.

It is pointed out that an end of above-mentioned second take-up device 4 is connected in the root of basic arm 8, can not be interpreted as narrowly that an end of second take-up device 4 must be directly connected on the basic arm 8; Second take-up device 4 can directly be connected with basic arm 8, also can be connected on the bearing and contiguous other structure of basic arm 8 afterbodys.In any case, guarantee that an end of second take-up device 4 is fixedly connected near the getting final product of root of basic arm 8.

Above-mentioned first take-up device 3, second take-up device 4 all can comprise the elevator of stay cord and the described stay cord of folding and unfolding.

Specifically, elevator 31 (being shown among Fig. 8) can be set at the movable end of swinging strut 1, the end that is wound in the stay cord in elevator 31 outsides is captiveed joint with the outer end of arbitrary telescopic boom 9, thereby forms above-mentioned first take-up device 3; Certainly, in theory elevator 31 is arranged at the outer end of arbitrary telescopic boom 9, and the movable end that the end of described stay cord is fixed on swinging strut 1 also is fine.In addition, elevator 31 is arranged on the middle part of swinging strut 1 or the basic arm 8 and all can realizes the utility model purpose.

But for the consideration that alleviates the deadweight of principal arm end, the movable end that elevator 31 is arranged at swinging strut 1 is more appropriate.In addition, when the end of described stay cord was captiveed joint with the outer end of minor details telescopic boom 9, the force-bearing situation of principal arm was even more ideal, and the degree that its amount of deflection reduces is more remarkable.

Second take-up device 4 can not gone to live in the household of one's in-laws on getting married at this to form with first take-up device, 3 similar modes.In addition, second take-up device 4 can also have other structure.

For example, second take-up device 4 can be a pull bar; Described pull bar specifically can comprise the first bar section 41 (being shown among Fig. 3) that is articulated in swinging strut 1 fixed end, and the second bar section 42 (being shown among Fig. 3) that is articulated in basic arm 8 roots, and the first bar section 41 and the second bar section 42 are articulated.

When amplitude oil cylinder 2 is regained fully, when promptly swinging strut 1 was stacked and placed on basic arm 8 tops, the above-mentioned first bar section 41 and the second bar section 42 be folding (as shown in Figure 3) mutually; When swinging strut 1 after hoisting under the effect of amplitude oil cylinder 2, the above-mentioned first bar section 41 and second bar section 42 tensioning gradually finally are straightened.Obviously, second take-up device 4 can also only be a stay cord with suitable length, when swinging strut 1 hoisting under the effect of amplitude oil cylinder 2 put in place after, this stay cord is straightened just.

Described stay cord can be a steel wire tow line, but obviously can not only be confined to steel wire tow line, and the stay cord that is made by other material (such as high-strength high-modulus polyethylene fiber) with suitable intensity, suppleness also is fine.

When needing the lifting weight, the swinging strut 1 of above-mentioned super lifting device can rise on the basic arm 8 of self extending boom crane under the promotion of amplitude oil cylinder 2, and rotates in the luffing plane around its fixed end, and final swinging strut 1 can be perpendicular substantially with basic arm 8.Because first take-up device 3 applies first pulling force between the movable end of telescopic boom 9 and swinging strut 1, and the part shearing force that this first pulling force can weight equalizer, therefore, the amount of deflection of principal arm is significantly less under the equal conditions; In like manner, second pulling force of second take-up device 4 will significantly alleviate the amount of deflection of swinging strut 1, and pulling force is conducted to the root of basic arm 8, also can improve the limit of above-mentioned first pulling force simultaneously.Therefore, the setting of described super lifting device can significantly improve the strained condition of principal arm, and then significantly promotes the performances such as total arm length, lifting altitude and a liter weight of telescopic arm crane.

Can be further improved super lifting device mentioned above.

Please refer to Fig. 3 and Fig. 4, Fig. 3 is the front elevational schematic of the another kind of specific embodiment of super lifting device that the utility model provides; Fig. 4 is the schematic top plan view of super lifting device shown in Figure 3.

In the another kind of specific embodiment, super lifting device provided by the utility model comprises two swinging struts 1, both can about be provided with side by side; Side all is set between arbitrary swinging strut 1 and the basic arm 8 opens oil cylinder 5 (being shown among Fig. 4).

When two swinging struts 1 after substantially hoisting vertically under the promotion of amplitude oil cylinder 2, can open under the promotion of oil cylinder 5 respectively to the suitable angle of two sideway swivels of basic arm 8 in side, also promptly two swinging struts 1 can be substantially about aforementioned luffing plane symmetry, and forms and fall " eight " font.

Along with the change that side is opened oil cylinder 5 elongations, the angle of swinging strut 1 sideway swivel outside basic arm 8 (being the angle on swinging strut 1 and luffing plane) also will change; The scope of this angle can be 0 the degree to 45 the degree, like this, two swinging struts, 1 formed angular range be 0 to 90 the degree.Certainly, swinging strut 1 angle that sideway swivel is bigger outside basic arm 8 also can realize.

Because two swinging struts 1 all can be around its fixed end to the suitable angle of two sideway swivels of basic arm 8, like this, above-mentioned first pulling force exists to basic arm 8 left sides or component to the right, this component shearing force that principal arm bore on can the balance respective direction, therefore the transverse deflection of principal arm also can alleviate.

Please refer to Fig. 5 and Fig. 6, Fig. 5 is that the axle of super lifting device shown in Figure 3 is surveyed scheme drawing; Fig. 6 is the partial enlarged drawing at A position among Fig. 5.

As previously mentioned, swinging strut 1 can rotate in the luffing plane under the promotion of amplitude oil cylinder 2, can also rotate to the outside of basic arm 8 under side is opened the promotion of oil cylinder 5 simultaneously; Therefore, swinging strut 1 can articulate by two perpendicular rotating shaft and basic arms 8 of cardinal principle.

Super lifting device provided by the utility model may further include bearing 6, and bearing 6 has the main part 63 that is horizontally set at basic arm 8 tops, and main part 63 articulates by first rotating shaft 61 and basic arm 8; First rotating shaft 61 is parallel substantially with main part 63.Simultaneously, the both ends of main part 63 all articulate connecting arm 64, the second rotating shafts 62 substantially perpendicular to first rotating shaft 61 by second rotating shaft 62.Above-mentioned two swinging struts 1 are captiveed joint with two connecting arms 64 of bearing 6 respectively.Like this, swinging strut 1 rotated around first rotating shaft 61 when amplitude oil cylinder 2 was stretched out or shunk, and swinging strut 1 was around second rotating shaft, 62 rotations when side was opened oil cylinder 5 and stretched out or shrinks.

Please refer to Fig. 7 and Fig. 8, Fig. 7 is that the axle of another angle of super lifting device shown in Figure 3 is surveyed scheme drawing; Fig. 8 provides the scheme drawing that tightens up a kind of set-up mode of oil cylinder for the utility model.

As previously mentioned, first pulling force of first take-up device 3 can overcome the part shearing force of weight to principal arm, so above-mentioned first pulling force should be enough big; When first take-up device 3 was made of elevator 31 and stay cord, above-mentioned first pulling force showed as the tension force of stay cord.

In order further to improve and keep the tension force of stay cord, super lifting device provided by the utility model may further include and tightens up oil cylinder 34, tightens up the movable end that oil cylinder 34 is arranged at swinging strut 1; Simultaneously, the reel of elevator 31 captive joint ratchet 33 coaxially.The rotating shaft of elevator 31 can be articulated between two corresponding connection side plates 32 that are provided with; The fixed end that tightens up oil cylinder 34 also can be connected side plate 32 and articulate.

After elevator 31 tightens up, can promote the ratchet of ratchet 33 by the movable end that tightens up oil cylinder 34 directly or indirectly, and then the reel that drives elevator 31 rotates suitable angle towards the direction continuation of rolling, therefore stay cord further can be strained, thereby further promoted described first pulling force.

Please refer to Fig. 9, Fig. 9 is the working state schematic representation with telescopic arm crane of super lifting device described in the utility model.

Except above-mentioned super lifting device, the utility model also provides a kind of telescopic arm crane that comprises above-mentioned super lifting device, and the structure of these other each several parts of telescopic arm crane please refer to prior art, and this paper repeats no more.

Particularly, above-mentioned telescopic arm crane can be wheeled telescopic arm crane.

More than telescopic arm crane provided by the utility model and super lifting device thereof are described in detail.Used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.

Claims (10)

1, a kind of super lifting device is used for telescopic arm crane, it is characterized in that, comprising:

At least one swinging strut, described swinging strut articulates with the basic arm of its fixed end and described telescopic arm crane;

Amplitude oil cylinder is arranged between described swinging strut and the described basic arm, so that described swinging strut rotates in perpendicular around its fixed end;

First take-up device is arranged between the outer end of the movable end of described swinging strut and the arbitrary telescopic boom of described telescopic arm crane;

Second take-up device is arranged between the root of the movable end of described swinging strut and described basic arm.

2, super lifting device as claimed in claim 1, it is characterized in that, have two described swinging struts, and be equipped with side between two swinging struts and the described basic arm and open oil cylinder, so that described swinging strut all can be around its fixed end to the suitable angle of described basic arm two sideway swivels.

3, super lifting device as claimed in claim 2 is characterized in that, the angular range of described swinging strut sideway swivel outside described basic arm is that 0 degree is to 45 degree.

4, as any described super lifting device of claim 1 to 3, it is characterized in that, the stay cord that described first take-up device comprises elevator and is wound in this elevator outside, one captive joint with the free end of described swinging strut among both, and another person is captiveed joint with the outer end of arbitrary telescopic boom.

5, super lifting device as claimed in claim 4 is characterized in that, described elevator is fixedly connected on the free end of described swinging strut, and the end of described stay cord is captiveed joint with the outer end of minor details telescopic boom.

6, super lifting device as claimed in claim 5 is characterized in that, the movable end of described swinging strut further is provided with and tightens up oil cylinder, and the reel of described elevator is the captive joint ratchet coaxially; Describedly tighten up the ratchet that oil cylinder can promote described ratchet, so that further strain described stay cord.

As each described super lifting device of claim 1 to 3, it is characterized in that 7, described second take-up device is a pull bar; Described pull bar comprises the first bar section that is articulated in described swinging strut movable end, and the second bar section that is articulated in described basic arm root, and the described first bar section and the second bar section are articulated.

As each described super lifting device of claim 1 to 3, it is characterized in that 8, described second take-up device is a stay cord.

9, a kind of telescopic arm crane is characterized in that, comprises as each described super lifting device of claim 1 to 3.

10, telescopic arm crane as claimed in claim 9 is characterized in that, is specially wheeled telescopic arm crane.

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