CN201382041Y - Telescopic cylinder, variable bitrate control room with same and crane - Google Patents

Abstract

The utility model discloses a telescopic cylinder, and a cylinder end and a cylinder rod end thereof are provided with hinge lugs to be hinged with matched parts; the extension end of a cylinder rod is an external threaded rod section; and the hinge lug of the cylinder rod end is provided with a threaded hole which is matched with the external threaded rod section, for the convenience of adjusting the distance between the hinge lug and the external threaded rod section. When in use, the utility model adjusts the hinge pitch of both ends by thread so as to adjust the relative positions of adjacent parts which are hinged with the two ends, and is characterized by simple and reliable structure. The variable bitrate control room comprises a horizontal variable bitrate transmission mechanism, a control room turret, a control room body and a vertical variable bitrate telescopic cylinder; the vertical variable bitrate telescopic cylinder is hinged between the control room turret and the control room body; and the vertical variable bitrate telescopic cylinder adopts the telescopic cylinder so as to ensure that the control room body is in the horizontal state in installation. On this basis, the utility model also discloses a crane with the variable bitrate control room.

Description

Telescopic oil cylinder, variable control cabin and hoist with this oil cylinder

Technical field

The utility model relates to technical field of engineering machinery, is specifically related to a kind of telescopic oil cylinder, has the variable control cabin and the hoist of this oil cylinder.

Background technique

In the work progress of heavy constructions such as venue, wind-powered electricity generation and bridge, all adopt the large-tonnage special purpose crane to finish the handling work of member.

Because the arm width dimensions of hoister in large tonnage is bigger, and the arm amplitude oil cylinder is subjected to the restriction of car load height and is arranged on the side of arm; Therefore, be the requirement of satisfying wheeled crane transportation width (can not above 3.10 meters), the regulation (being not less than 0.7 meter) that meets the minimum width design standard of control cab, the position of existing hoister in large tonnage control cab all can change, that is, control cab places hoist dead astern (referring to Fig. 1 and Fig. 2) during transportation; Control cab places the side (referring to Fig. 3 and Fig. 4) of rotating platform of crane during lifting job.Like this, operator's field range just can satisfy the requirement of safe lifting job.

The side view of control cab and plan view when wherein, Fig. 1 and Fig. 2 are respectively transport state; The side view of control cab and plan view when Fig. 3 and Fig. 4 are respectively the handling state.As shown in the figure, this variable control cabin mainly is made of control cab body A, control cab rotating turret B, horizontal displacement driving mechanism C and vertical displacement telescopic cylinder D; Control cab body A is connected with horizontal displacement driving mechanism 3 output blocks on being fixed on turntable E by control cab rotating turret B, to realize turning to turntable side (handling state) by hoist dead astern (transport state); Vertically the two ends of displacement telescopic cylinder D are articulated between control cab rotating turret B and the control cab body A, and by the stretching out or regain the adjustment control cab and be horizontal of vertical displacement telescopic cylinder D, the stroke of this displacement telescopic cylinder D is vertical adjustment range.But, because there is the accumulation of error in the manufacturing link of adjacent each parts, and the pitch-row between the hinging hole of existing vertical displacement telescopic cylinder D two ends is fixed, therefore, should vertical displacement telescopic cylinder D and after control cab body A and control cab rotating turret B assembling finish, be difficult to guarantee that control cab is horizontal, and then influence the travelling comfort of its use.

In view of this, demand developing a kind of two ends hinging hole urgently apart from adjustable telescopic oil cylinder.

The model utility content

At above-mentioned defective, the technical problem that the utility model solves is, a kind of telescopic oil cylinder that is easy to assemble is provided, with adapt to articulating point that it matches between the variation of relative position.On this basis, the utility model also provides a kind of variable control cabin and hoist with this telescopic oil cylinder.

The telescopic oil cylinder that the utility model provides, its cylinder body end and cylinder rod end are provided with hinged ear seat, be used for hinged with the parts that match, the external part of described cylinder bar is the external thread rod section, the hinged ear seat of described cylinder rod end has the tapped hole that cooperates with this external thread rod section, so that adjust distance between the two.

Preferably, also comprise the lock-nut that at least one matches with described external thread rod section.

The variable control cabin that the utility model provides comprises horizontal displacement driving mechanism, control cab rotating turret, control cab body and vertical displacement telescopic cylinder; Described horizontal displacement driving mechanism its output block under the driving of power mechanism can rotate in horizontal plane; Described control cab rotating turret is fixedlyed connected with the output block of described horizontal displacement driving mechanism; Described control cab body and described control cab rotating turret are hinged; Described vertical displacement telescopic cylinder is hinged to be arranged between control cab rotating turret and the control cab body; Described vertical displacement telescopic cylinder adopts foregoing telescopic oil cylinder.

Preferably, described horizontal displacement driving mechanism comprises the worm and worm wheel assembly that is meshed, and wherein, described worm gear assembly comprises inner ring and worm gear outer ring; Described inner ring is used for fixedlying connected with turntable; Described worm gear outer ring is sleeved on the outside of described inner ring, is used for fixedlying connected with the control cab rotating turret; And described worm gear outer ring can horizontally rotate with respect to described inner ring under the effect of described worm screw.

Preferably, described worm gear assembly also comprises several balls, and described several balls are uniform to be arranged between described inner ring and the worm gear outer ring, so that reduce between the two frictional force in relative rotation.

Preferably, have the ring-type accommodating part between described inner ring and the worm gear outer ring, being shaped as and the suitable circle of described ball external diameter of the cross section of this ring-type accommodating part, described several balls are uniform to be arranged in this ring-type accommodating part.

The hoist that the utility model provides comprises control cab, and described control cab adopts foregoing variable control cabin.

Preferably, also comprise driver part, be used to drive described worm screw around self rotational.

Preferably, described driver part is motor or oil hydraulic motor.

The telescopic oil cylinder that the utility model provides compared with prior art, its cylinder body end and cylinder rod end are provided with hinged ear seat, be used for hinged with the parts that match, the external part of described cylinder bar is the external thread rod section, the hinged ear seat of described cylinder rod end has the tapped hole that cooperates with this external thread rod section, so that adjust distance between the two.During use, the hinging hole distance of the utility model by its two ends of threaded adjusting, and then adjust and adjacent component that its two ends are hinged between relative position relation, have simple in structure, reliable characteristics.

The utility model provides variable control cabin compared with prior art, its vertical displacement telescopic cylinder adopts foregoing aforementioned telescopic oil cylinder, the horizontal position of its control cab body of adjustable in length by regulating this telescopic oil cylinder, thereby absorbed the cumulative error that each parts is made, therefore, the level that can guarantee control cab is installed, and in the overall performance and comfort that improve control cab, can also reduce manufacture cost.

In the preferred version of variable control cabin that the utility model provides, its horizontal displacement driving mechanism adopts the worm and gear transmission, this mechanism rotates in horizontal plane by the worm drive worm gear, thereby drive the control cab body of fixedlying connected and turn to the working position with the worm gear outer ring, has reasonable in design, compact structure, steady, the muting characteristics of working procedure.

The variable control cabin that the utility model provides is applicable to various engineering machinery, is specially adapted to hoister in large tonnage.

Description of drawings

Fig. 1 and Fig. 2 show the transport state schematic representation that existing variable control cabin is applied to hoist respectively; Wherein, Fig. 1 is a side view; Fig. 2 is a plan view;

Fig. 3 and Fig. 4 show the handling view that existing variable control cabin is applied to hoist respectively; Wherein, Fig. 3 is a side view; Fig. 4 is a plan view;

Fig. 5 is the overall structure schematic representation of telescopic oil cylinder provided by the utility model;

Fig. 6 and Fig. 7 show the overall structure schematic representation of variable control cabin provided by the utility model respectively; Wherein, Fig. 6 is the horizontal operation view; Fig. 7 is the adjustment process schematic representation;

Fig. 8 is the I portion enlarged view of Fig. 6, and the horizontal displacement driving mechanism shown in the figure is for partly cuing open schematic representation.

Among Fig. 5-Fig. 8:

Telescopic oil cylinder 10, cylinder body 11, cylinder bar 12, hinged ear seat 111,121, lock-nut 13;

Horizontal displacement driving mechanism 1, inner ring 101, worm gear outer ring 102, worm screw 103, ring-type accommodating part 104, ball 105, attached seat 106, control cab rotating turret 2, control cab body 3, vertical displacement telescopic cylinder 4.

Embodiment

Core of the present utility model provides a kind of length-adjustable telescopic oil cylinder, thereby has reduced the required precision of the adjacent component that is mated, and under the prerequisite that guarantees assembly relation, has improved the interchangeability of telescopic oil cylinder and can reduce the complete machine manufacture cost.

Specify present embodiment below in conjunction with Figure of description.

See also Fig. 5, this figure is the overall structure schematic representation of telescopic oil cylinder provided by the utility model.

The cylinder body end of telescopic oil cylinder 10 and cylinder rod end are provided with hinged ear seat, are used for hinged with the parts that match.As shown in Figure 5, the hinged ear seat 111 of cylinder body end is fixedlyed connected with cylinder body 11, can weld or be cast into one between the two; The hinged ear seat 121 of cylinder rod end is threaded with cylinder bar 12, as shown in Figure 5, the external part of cylinder bar 12 is the external thread rod section, has tapped hole on the coupled hinged ear seat 121, utilize external thread section in this tapped hole, to screw in or screw out the length that to adjust telescopic oil cylinder 10, adjust distance between the articulating point of two end part.

Being threaded between cylinder bar external part and the hinged ear seat also can be such design; promptly; the external thread rod section is arranged on the hinged ear seat, and internal thread is arranged on cylinder bar external part (not shown), uses needs all in the protection domain of this patent as long as physical dimension satisfies.Certainly, it is better that the external thread rod section is arranged on the technology capability of cylinder bar 12 external parts, so be optimum scheme.

Need to prove that cooperation between the cylinder body 11 of the described telescopic oil cylinder 10 of present embodiment, piston (not shown) and the cylinder bar 12 and sealing relationship and prior art are identical, do not repeat them here.

In the working procedure, telescopic oil cylinder need bear the impact of work loads, therefore, for avoiding the aforementioned threads annexation loosening, on described external thread rod section, be set with the lock-nut 13 with its screw-thread fit, after the length of telescopic oil cylinder 10 is determined, this lock-nut 13 is tightened, be close to hinged ear seat 121 and produce axial force between the two, like this, the frictional force between internal thread tooth and the outside thread tooth increases and prevents to become flexible between cylinder bar 12 and the hinged ear seat 121.Need explanation, this lock-nut 13 is provided with one can satisfy usage requirement, can certainly be set to two (as shown in Figure 5) or a plurality of, to guarantee enough axial forces.

Rigging position based on reality concerns, when needs are regulated the length of telescopic oil cylinder 10, this lock-nut 13 is unclamped, and lock-nut 13 is tightened after adjustment finishes to get final product again, and has the structural design advantages of simple, the operation reliable characteristics.

See also Fig. 6 and Fig. 7, show the overall structure schematic representation of variable control cabin that the utility model provides; Wherein, Fig. 6 is the horizontal operation view; Fig. 7 is the adjustment process schematic representation.

As shown in Figure 6, described variable control cabin comprises horizontal displacement driving mechanism 1, control cab rotating turret 2, control cab body 3 and vertical displacement telescopic cylinder 4.Wherein, control cab rotating turret 2 and control cab body 3 are not the inventive point places of this patent, and those skilled in the art can realize fully based on prior art, so the concrete structure of control cab rotating turret 2 and control cab body 3 is not described in detail herein.

Horizontal displacement driving mechanism 1 its output block under the driving of power mechanism can rotate in horizontal plane; Control cab rotating turret 2 is fixedlyed connected with the output block of described horizontal displacement driving mechanism 1, is used to realize the position adjustment of control cab body 3 in horizontal plane.

Control cab body 3 and described control cab rotating turret 2 are hinged; Described vertical displacement telescopic cylinder 4 hinged being arranged between control cab rotating turret 2 and the control cab body 3, this vertical displacement telescopic cylinder 4 flexible are used to realize the position adjustment of control cab body 3 in vertical plane, as shown in Figure 7.

As shown in Figure 6 and Figure 7, described vertical displacement telescopic cylinder 4 is arranged at the below of the turning point of control cab body, when vertical displacement telescopic cylinder 4 stretches out, the head of control cab body 3 is swing upwards, when vertical displacement telescopic cylinder 4 is regained, the head of control cab body 3 is to lower swing, is in level or has a certain degree until it.

Be understandable that, described vertical displacement telescopic cylinder 4 also can be arranged at the top (not shown) of the turning point of control cab body, different with afore-mentioned is that along with the expanding-contracting action of vertical displacement telescopic cylinder, the swaying direction of control cab body 3 is opposite, promptly, when vertical displacement telescopic cylinder stretched out, the head of control cab body was to lower swing, when vertical displacement telescopic cylinder is regained, the head of control cab body is swing upwards, is in level or has a certain degree until it.

Particularly, this vertical displacement telescopic cylinder 4 adopts foregoing telescopic oil cylinder, and concrete structure is referring to Fig. 5.During assembling, if hinge and the distance between the hinge on the control cab rotating turret 2 on the control cab body 3 greater than between two hinges of this telescopic oil cylinder 10 apart from the time, then the length of described telescopic oil cylinder 10 is transferred and grows; If the hinge on the control cab body 3 and the distance between the hinge on the control cab rotating turret 2 less than between two hinges of this telescopic oil cylinder 10 apart from the time, then the length of described telescopic oil cylinder 10 is transferred short, to ensure the level installation of control cab body.Therefore, in assembly process, regulate the length of this telescopic oil cylinder and can adjust the cumulative error that absorbs each parts manufacturing, thereby reduced requirement for each component processing precision.

See also Fig. 8, this figure is the I portion enlarged view of Fig. 6, and the horizontal displacement driving mechanism shown in the figure is for partly cuing open schematic representation.

As shown in Figure 8, horizontal displacement driving mechanism 1 comprises the worm and worm wheel assembly that is meshed, and wherein, described worm gear assembly comprises inner ring 101 and worm gear outer ring 102; Described inner ring 101 is used for fixedlying connected with turntable, and shown in the figure, inner ring 101 is connected with turntable by attached 106; Described worm gear outer ring 102 is sleeved on the outside of described inner ring 101, is used for fixedlying connected with control cab rotating turret 2; And described worm gear outer ring 102 can horizontally rotate with respect to described inner ring 101 under the effect of described worm screw 103.

Need explanation to be, also can adopt the speed reducer (not shown) to reduce the rotating speed of dynamical element, in the respective design, aforementioned outer ring is the gear ring that meshes with the speed reducer output wheel, can realize the function of transmitting torque.

Particularly, as shown in Figure 8, has ring-type accommodating part 104 between inner ring 101 and the worm gear outer ring 102; Several ball 105 uniform being arranged in this ring-type accommodating part 104 are so that reduce between the two frictional force in relative rotation.Shown in the figure, this ring-type accommodating part 104 is made of inside and outside two-part and being shaped as and the suitable circle of described ball 105 external diameters of the cross section of this ring-type accommodating part 104, wherein inside part is the ring-type inside recess on the cylndrical surface, the outside of inner ring 101, external lateral portion is the ring-type inside recess on the inboard cylndrical surface of worm gear outer ring 102, needs grease up during assembling.

The hoist that the utility model provides comprises control cab, and described control cab adopts foregoing variable control cabin.Also comprise driver part, be used to drive described worm screw around self rotational.

This driver part can be motor or oil hydraulic motor.

When transport position, this variable control cab places the dead astern of hoist, and driver part starts, and rotate in horizontal plane the worm gear outer ring that drives the horizontal displacement driving mechanism by worm screw, this moment, the control cab body turned to the turntable side by the hoist dead astern, was in the handling working position; If the control cab body is not in level, then adjust by the flexible of vertical displacement telescopic cylinder.Vice versa.

Need to prove that especially other main function components such as the chassis of the described hoist of present embodiment, turntable, power system, hoisting system and Lifting device are not the inventive point places of this patent, do not repeat them here.

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 (9)

1, telescopic oil cylinder, its cylinder body end and cylinder rod end are provided with hinged ear seat, be used for hinged with the parts that match, it is characterized in that, the external part of described cylinder bar is the external thread rod section, the hinged ear seat of described cylinder rod end has the tapped hole that cooperates with this external thread rod section, so that adjust distance between the two.

2, telescopic oil cylinder according to claim 1 is characterized in that, also comprises the lock-nut that at least one matches with described external thread rod section.

3, variable control cabin comprises:

The horizontal displacement driving mechanism, its output block can rotate in horizontal plane under the driving of power mechanism;

The control cab rotating turret is fixedlyed connected with the output block of described horizontal displacement driving mechanism;

The control cab body, hinged with described control cab rotating turret; With

Vertical displacement telescopic cylinder, hinged being arranged between control cab rotating turret and the control cab body; It is characterized in that described vertical displacement telescopic cylinder adopts telescopic oil cylinder as claimed in claim 1 or 2.

4, variable control cabin according to claim 3 is characterized in that, described horizontal displacement driving mechanism comprises the worm and worm wheel assembly that is meshed, and wherein, described worm gear assembly comprises:

Inner ring is used for fixedlying connected with turntable;

The worm gear outer ring is sleeved on the outside of described inner ring, is used for fixedlying connected with the control cab rotating turret; And

Described worm gear outer ring can horizontally rotate with respect to described inner ring under the effect of described worm screw.

5, variable control cabin according to claim 4 is characterized in that, described worm gear assembly also comprises several balls, and described several balls are uniform to be arranged between described inner ring and the worm gear outer ring, so that reduce between the two frictional force in relative rotation.

6, variable control cabin according to claim 5, it is characterized in that, have the ring-type accommodating part between described inner ring and the worm gear outer ring, being shaped as and the suitable circle of described ball external diameter of the cross section of this ring-type accommodating part, described several balls are uniform to be arranged in this ring-type accommodating part.

7, hoist comprises control cab, it is characterized in that, described control cab adopts as the described variable control cabin of arbitrary claim in the claim 3 to 6.

8, according to the described hoist of claim 7, it is characterized in that, also comprise driver part, be used to drive described worm screw around self rotational.

9, hoist according to claim 8 is characterized in that, described driver part is motor or oil hydraulic motor.

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