CN201598119U - Crane and control system thereof for double variable-amplitude oil cylinders - Google Patents

Abstract

The utility model discloses a control system for double variable-amplitude oil cylinders, which comprises two variable-amplitude oil cylinders and a pipeline device communicated with rodless cavities of the two variable-amplitude oil cylinders. Preferably, the pipeline device includes two fixed components and a rigid straight pipe, wherein the two fixed components are respectively fixedly arranged on the two variable-amplitude oil cylinders, two ends of the rigid straight pipe are respectively inserted into the two fixed components, and the rigid straight pipe is communicated with the rodless cavities of the two variable-amplitude oil cylinders. Each fixed component particularly includes a fixed seat and a bulb body; the bulb body is placed into a spherical containing cavity of the fixed seat; two ends of the rigid straight pipe are respectively inserted into through holes of the bulb bodies of the two fixed components; and the rigid straight pipe is in sliding fit with the through holes of the bulb bodies. When in the moment that the double variable-amplitude oil cylinders have side-loading, the pipeline device can ensure that the pressure of the rodless cavities of the two oil cylinders is rapidly balanced. On the basis, the utility model further provides a crane with the control system.

Description

Hoisting crane and two amplitude oil cylinder control system thereof

Technical field

The utility model relates to the hoisting crane technical field, is specifically related to a kind of hoisting crane and two amplitude oil cylinder control system thereof.

Background technology

The luffing mechanism of existing self-propelled crane has three hinges to realize the operation of arm luffing, sees also Fig. 1, and this figure is the rough schematic view of existing luffing mechanism.Three hinges are respectively: hinge C under hinge B and the amplitude oil cylinder on hinge A, the amplitude oil cylinder behind the crane arm; Wherein, hinge B and the crane arm part of protracting is connected on the amplitude oil cylinder, and hinge C is connected with turntable under the amplitude oil cylinder, and hinge A also is connected with turntable behind the crane arm.

As everyone knows, along with the development of super-tonnage hoisting crane, amplitude oil cylinder need have bigger thrust so that enough lifting moments that rises to be provided, and guarantees to sling smoothly weight.For amplitude oil cylinder, under the certain situation of oil cylinder operation pressure, can improve its thrust: the quantity that increases amplitude oil cylinder diameter and increase amplitude oil cylinder by dual mode.Based on existing material and technology level, high thrust becomes the comparison feasible selection to adopt several amplitude oil cylinder to provide more; Simultaneously, take all factors into consideration the factors such as technical requirements of weight, arrangement space and realization, twin-tub luffing structure design becomes increases the preferential design plan that adopts of arm working stability.

Yet than single cylinder luffing structure design, twin-tub luffing structure exists synchronism to cannot say for sure the problem demonstrate,proved.Be subjected to the restriction of working accuracy, can't guarantee that the friction coefficient of two amplitude oil cylinder is in full accord; In the luffing working process, through regular meeting two amplitude oil cylinder nonsynchronous phenomenon of moving appears.Like this,, must make a side cylinder stressed bigger than normal, when exceeding the design safety system, very easily cause Peril Incident to take place in bad working environments such as system shock or sudden ladings.Particularly, be subjected to the effect of lateral loading, because two amplitude oil cylinder are stressed inconsistent, even are difficult to keep stressed roughly the same, the malconformation of load makes that two amplitude oil cylinder nonsynchronous phenomenon of moving is more outstanding.

For solving two amplitude oil cylinder nonsynchronous problem of moving, the hydraulic fluid port of prior art by linking to each other with the big chamber of oil cylinder on the balance cock, the pressure between two amplitude oil cylinder of balance, promptly, between the above-mentioned hydraulic fluid port of two balance cocks, be provided with pipeline P1, to realize the synchronous of oil cylinder with damping.Specifically see also Fig. 2, this figure is the fluid control schematic diagram of existing two amplitude oil cylinder control system.But, in the actual application, when fluctuation appears in the pressure of one of them oil cylinder, very easily cause the pressure of another oil cylinder can't transient equilibrium, still can cause nonsynchronous phenomenon to take place, thereby existing design can not thoroughly solve the nonsynchronous problem of twin-tub.

In view of this, demand urgently improving design, to guarantee twin-tub amplitude oil cylinder synchronized movement at prior art.

The utility model content

At above-mentioned defective, the technical matters that the utility model solves is, a kind of pair of amplitude oil cylinder control system is provided, with overcome prior art when the fluctuation of pressure of an oil cylinder, the pressure of another oil cylinder can't transient equilibrium defective.On this basis, the utility model also provides a kind of hoisting crane with this pair amplitude oil cylinder control system.

Two amplitude oil cylinder control system that the utility model provides comprise two amplitude oil cylinder, also comprise pepe installation, and described pepe installation is communicated with the rodless cavity of described two amplitude oil cylinder.

Preferably, described pepe installation comprises two fixation kits and a rigid straight pipe; Wherein, described two fixation kits are fixedly installed on respectively on two amplitude oil cylinder; The two ends of described rigid straight pipe are plugged in respectively in two fixation kits, are communicated with the rodless cavity of two amplitude oil cylinder.

Preferably, described fixation kit specifically comprises permanent seat and bulb body; Described permanent seat is captiveed joint with the cylinder body of corresponding amplitude oil cylinder, and this permanent seat has the through hole of perforation and the middle part of this through hole has spherical cavity volume; Described bulb body places the spherical cavity volume of described permanent seat, and this bulb body has the through hole of ccontaining described rigid straight pipe; The two ends of described rigid straight pipe are plugged in respectively in the through hole of bulb body of two fixation kits, and are bearing fit between the through hole of described rigid straight pipe and bulb body.

Preferably, described permanent seat specifically comprises flange body and clamp nut, and described clamp nut is connected with the outside thread of flange body external part and both have the through hole of coaxial setting respectively; The opposite end of two through holes is respectively spherical and two relative sphericals form described spherical cavity volume.

Preferably, be provided with first sealing member between the fitting surface of described flange body and clamp nut.

Preferably, be provided with second sealing member between the fitting surface of described rigid straight pipe and bulb body.

Preferably, be provided with the 3rd sealing member between the fitting surface of described bulb body and clamp nut.

Preferably, the external part of described clamp nut is provided with the protecting sleeve that cover is loaded on the described rigid straight pipe outside.

Preferably, described protecting sleeve is specially corrugated rubber protecting sleeve.

The hoisting crane that the utility model provides comprises arm and chassis, and the amplitude oil cylinder of amplitude oil cylinder control system is arranged between described arm and the chassis, and described amplitude oil cylinder control system is specially preceding described pair of amplitude oil cylinder control system.

Compared with prior art, described in the utility model pair of amplitude oil cylinder control system has the pepe installation that is communicated with two amplitude oil cylinder rodless cavities, like this, side occurring at two derricking cylinders carries in a flash, this pepe installation can guarantee that two oil cylinder rodless cavity pressures reach balance rapidly, makes the pressure of two oil cylinders reach consistent.Because the pressure of two amplitude oil cylinder equates to have identical thrust, thereby the resistance that two cylinders overcome in the luffing operating process is identical; Like this, two cylinders stretch out with identical kinematic velocity V or regain.According to flow formula Q=V*A as can be known, under the identical situation of area of thrust surface A, roughly the same flow Q makes two amplitude oil cylinder move with the speed V of basically identical, promptly shows as to have twin-tub synchronism preferably.

In preferred version of the present utility model, described pepe installation comprises two fixation kits and a rigid straight pipe; Two fixation kits are captiveed joint with two amplitude oil cylinder respectively; The two ends of rigid straight pipe are plugged in respectively in two fixation kits, so that be communicated with the rodless cavity of two amplitude oil cylinder.This programme is simple in structure, reasonable in design.

In another preferred version of the present utility model, fixation kit specifically comprises permanent seat and bulb body, and this bulb body places the spherical cavity volume at the through hole middle part of permanent seat; The two ends of described rigid straight pipe are plugged in respectively in the through hole of bulb body of two fixation kits, but and rigid straight pipe with respect to the through hole slide relative of bulb body.In the real work, can slide with respect to the bulb body in the both ends of rigid straight pipe, to overcome the cross travel that occurs between two derricking cylinders; Two bulb bodies can rotate with respect to permanent seat respectively, to overcome the swing displacement of two derricking cylinders.This programme guaranteeing on the synchronous basis of twin-tub, installation, kinematic error between can also the automatic compensation twin-tub; Simultaneously, above-mentioned compensation can effectively be protected sealing, avoids sealing the phenomenon that stress deformation causes leakage of oil.

Two amplitude oil cylinder control system that the utility model provides can be used for any construction machinery and equipment that needs the luffing operation, such as, elevating fire truck, hoisting crane etc. are specially adapted to hoisting crane.

Description of drawings

Fig. 1 is the rough schematic view of existing luffing mechanism;

Fig. 2 is the fluid control schematic diagram of existing two amplitude oil cylinder control system;

Fig. 3 is the fluid control schematic diagram of two amplitude oil cylinder control system described in the specific embodiment;

Fig. 4 is the integral structure scheme drawing of pepe installation described in the specific embodiment;

Fig. 5 is the assembling exploded view of permanent seat described in the specific embodiment and rigid straight pipe.

Among Fig. 3-Fig. 5:

Pepe installation 10, fixation kit 1, flange body 11, bulb body 12, clamp nut 13, spherical cavity volume 14, first sealing member 15, second sealing member 16, the 3rd sealing member 17, protecting sleeve 3, rigid straight pipe 2.

The specific embodiment

Based on prior art, the core of described in the utility model pair of amplitude oil cylinder control system is: have the pepe installation of the rodless cavity that is communicated with described two amplitude oil cylinder, during with the fluctuation of pressure of an oil cylinder of effective solution, the pressure of another oil cylinder can't transient equilibrium problem.

Specify present embodiment below in conjunction with Figure of description.

Should be appreciated that two amplitude oil cylinder control system that present embodiment provides can be used for any construction machinery and equipment that needs the luffing operation, such as, elevating fire truck, hoisting crane etc.Be without loss of generality, this paper is that example is carried out elaborating of technical scheme with the hoisting crane.

Need to prove, main function components such as the chassis system of the described hoisting crane of present embodiment, crane system, hoisting system and power system are same as the prior art, those of ordinary skill in the art can realize fully based on prior art, so this paper repeats no more.

See also Fig. 3, this figure is the schematic diagram of described pair of amplitude oil cylinder control system of present embodiment.Should illustrate, only because the utility model is paid close attention to the pepe installation 10 that is communicated with two amplitude oil cylinder rodless cavities, therefore, schematic diagram shown in Figure 3 only shows two amplitude oil cylinder and two balance cocks, in fact, this control system also comprises system pressure oil circuit, oil return circuit and directional control valve etc.This paper will elaborate the pepe installation 10 that is communicated with two amplitude oil cylinder rodless cavities.

See also Fig. 4 and Fig. 5, wherein, Fig. 4 shows the integral structure scheme drawing of pepe installation described in the present embodiment; Fig. 5 is the assembling exploded view of described permanent seat and rigid straight pipe.

As shown in Figure 4 and Figure 5, pepe installation 10 comprises two fixation kits 1 and a rigid straight pipe 2; Wherein, two fixation kits 1 are fixedly installed on respectively on two amplitude oil cylinder, and rigid straight pipe 2 preferred solid drawn pipes and its two ends are plugged in respectively in two fixation kits 1, so that be communicated with the rodless cavity of two amplitude oil cylinder.In the working process, can reacting rapidly in a flash of occurring that side carries, make the pressure of two amplitude oil cylinder rodless cavities reach balance rapidly, promptly, when fluctuation appears in the pressure in two any one big chambeies of oil cylinder of oil cylinder, all can feed back to moment in another oil cylinder, thereby make two amplitude oil cylinder pressure unanimities, realize synchronously.

Preferably, two fixation kits 1 are fixedly installed on the cylinder bottom of amplitude oil cylinder respectively, all have synchronized movement preferably thereby make amplitude oil cylinder be in any state that stretches out.Local figure shown in the long and two-short dash line is the cylinder bottom portion of two amplitude oil cylinder among Fig. 4.

Based on existing mechanical processing technique level, in the course of processing, can't guarantee the size zero-error of two amplitude oil cylinder, simultaneously, also there is assembly error in amplitude oil cylinder in fitting process; Obviously, when the aforementioned manufacturing errors of two amplitude oil cylinder not simultaneously, the relative motion of two oil cylinders in the fitting process will inevitably occur: the swing displacement of hinge under derricking cylinder cross travel appears and in two derricking cylinders.

For fear of the stressed inefficacy of the feasible sealing of above-mentioned relative motion, the present embodiment fixation kit specifically comprises permanent seat and bulb body 12; Wherein, permanent seat specifically comprises flange body 11 and clamp nut 13, and clamp nut 13 is connected with the outside thread of flange body 11 external parts.The middle part of this clamp nut 13 and flange body 11 has through hole respectively, under the perfect condition, and the coaxial setting of through hole at both middle parts; The opposite end of two through holes is respectively spherical, and two relative sphericals form described spherical cavity volume 14, so that ccontaining described bulb body 12.Be normal-running fit between bulb body 12 and the spherical cavity volume 14, like this, two bulb bodies 12 can rotate with respect to permanent seat respectively, to overcome the swing displacement of two derricking cylinders.

Bulb body 12 has the through hole of ccontaining described rigid straight pipe 2, and the two ends of rigid straight pipe 2 are plugged in respectively in the through hole of bulb body 12 of two fixation kits, and are bearing fit between the through hole of rigid straight pipe 2 and bulb body 12; Like this, can slide with respect to bulb body 12 in the both ends of rigid straight pipe 2, to overcome the cross travel that occurs between two derricking cylinders.

Obviously, the described pepe installation of present embodiment has been used for reference universal transmission principle, can realize unobstructive displacement automatic compensation in certain angular range, and sealing has effectively been protected in this compensation, loses efficacy thereby can avoid sealing stress deformation.

Special version be, form between the flange body 11 of permanent seat and the clamp nut 13 and be threaded, promptly both are detachable connection; In fact, after finishing, both assemblings also can be welded as a whole to improve its working stability, as long as the normal-running fit that satisfies between bulb body 12 and the spherical cavity volume 14 concerns all in the scope that the application asks for protection.

The sealing of this pepe installation can have multiple array mode.

As shown in Figure 4, be provided with first sealing member 15 between the fitting surface of flange body 11 and clamp nut 13, be provided with second sealing member 16 between the fitting surface of rigid straight pipe 2 and bulb body 12, be provided with the 3rd sealing member 17 between the fitting surface of bulb body 12 and clamp nut 13.

Shown in the figure, first sealing member 15 between flange body 11 and the clamp nut 13 is a radial seal, should be appreciated that between the two and also can select the side seal (not shown).Should be appreciated that first sealing member also can be arranged between the fitting surface of bulb body 12 and flange body 11.

In addition, for impurity such as anti-sealing, dust enter oil piping system by the fitting surface between clamp nut 13 and the rigid straight pipe 2, cause the pollution of system.Preferably, the external part of clamp nut 13 is provided with the protecting sleeve 3 that cover is loaded on the described rigid straight pipe outside; This protecting sleeve 3 is specially corrugated rubber protecting sleeve, to adapt to cross travel and the swing displacement between two amplitude oil cylinder preferably.

Should illustrate that rigid straight pipe 2 can adopt the integral type design with the bulb body 12 of one of them fixation kit 1, thereby reduce matching relationship to be sealed on the basis of operating needs satisfying.

To sum up, described pair of amplitude oil cylinder control system of present embodiment has the pepe installation that is communicated with two amplitude oil cylinder rodless cavities, side occurring at two derricking cylinders carries in a flash, can guarantee that two oil cylinder rodless cavity pressures reach balance rapidly, make the pressure of two oil cylinders reach consistent, have twin-tub synchronism preferably.In addition, this pepe installation has been used for reference universal transmission principle, can realize unobstructive displacement automatic compensation in certain angular range, and sealing has effectively been protected in this compensation, loses efficacy thereby can avoid sealing stress deformation.

The above only is a preferred implementation of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. two amplitude oil cylinder control system comprise two amplitude oil cylinder, it is characterized in that, also comprise pepe installation, described pepe installation is communicated with the rodless cavity of described two amplitude oil cylinder.

2. according to claim 1 pair of amplitude oil cylinder control system is characterized in that described pepe installation comprises:

Two fixation kits are fixedly installed on respectively on two amplitude oil cylinder; With

One rigid straight pipe, two ends are plugged in respectively in two fixation kits, are communicated with the rodless cavity of two amplitude oil cylinder.

3. according to claim 2 pair of amplitude oil cylinder control system is characterized in that described fixation kit specifically comprises:

Permanent seat is captiveed joint with the cylinder body of corresponding amplitude oil cylinder, and this permanent seat has the through hole of perforation and the middle part of this through hole has spherical cavity volume; With

The bulb body places the spherical cavity volume of described permanent seat, and this bulb body has the through hole of ccontaining described rigid straight pipe; And

The two ends of described rigid straight pipe are plugged in respectively in the through hole of bulb body of two fixation kits, and are bearing fit between the through hole of described rigid straight pipe and bulb body.

4. according to claim 3 pair of amplitude oil cylinder control system is characterized in that described permanent seat specifically comprises flange body and clamp nut, and described clamp nut is connected with the outside thread of flange body external part and both have the through hole of coaxial setting respectively; The opposite end of two through holes is respectively spherical and two relative sphericals form described spherical cavity volume.

5. according to claim 4 pair of amplitude oil cylinder control system is characterized in that, is provided with first sealing member between the fitting surface of described flange body and clamp nut.

6. according to claim 4 or 5 described pairs of amplitude oil cylinder control system, it is characterized in that, be provided with second sealing member between the fitting surface of described rigid straight pipe and bulb body.

7. according to claim 6 pair of amplitude oil cylinder control system is characterized in that, is provided with the 3rd sealing member between the fitting surface of described bulb body and clamp nut.

8. according to claim 4 pair of amplitude oil cylinder control system is characterized in that, the external part of described clamp nut is provided with the protecting sleeve that cover is loaded on the described rigid straight pipe outside.

9. according to claim 8 pair of amplitude oil cylinder control system is characterized in that described protecting sleeve is specially corrugated rubber protecting sleeve.

10. hoisting crane, comprise arm and chassis, the amplitude oil cylinder of amplitude oil cylinder control system is arranged between described arm and the described chassis, it is characterized in that, described amplitude oil cylinder control system is specially each described pair of amplitude oil cylinder control system in the claim 1 to 9.

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