CN201800687U - Engineering mechanical chassis and leg supporting device thereof - Google Patents

Engineering mechanical chassis and leg supporting device thereof Download PDF

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Publication number
CN201800687U
CN201800687U CN 201020550176 CN201020550176U CN201800687U CN 201800687 U CN201800687 U CN 201800687U CN 201020550176 CN201020550176 CN 201020550176 CN 201020550176 U CN201020550176 U CN 201020550176U CN 201800687 U CN201800687 U CN 201800687U
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CN
China
Prior art keywords
plate
supporting leg
strutting arrangement
upper bed
bracing
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Expired - Lifetime
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CN 201020550176
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Chinese (zh)
Inventor
马善华
朱磊
丁宏刚
王新强
张继丽
记海兵
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Xuzhou Heavy Machinery Co Ltd
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Xuzhou Heavy Machinery Co Ltd
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Priority to CN 201020550176 priority Critical patent/CN201800687U/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66CCRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
    • B66C23/00Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes
    • B66C23/62Constructional features or details
    • B66C23/72Counterweights or supports for balancing lifting couples
    • B66C23/78Supports, e.g. outriggers, for mobile cranes

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Vibration Prevention Devices (AREA)

Abstract

The utility model discloses a leg supporting device for supporting an engineering mechanical chassis. The device comprises a leg base arranged under an engineering mechanical leg, wherein the leg base comprises an upper base connected to the tail end of the leg and a lower base supported by the floor, and the upper base is connected to the lower base through a shifting mechanism, so as to ensure that the upper base can selectively move for a preset distance relative to the lower base. The leg base of the leg supporting device can shift following a vertical cylinder, has an increased bearing capability and better reliability, and is fit for the development demand of large-scale engineering machinery. The utility model also provides an engineering mechanical chassis of the leg supporting device, the safety reliability of which can be increased.

Description

Engineering machinery chassis and supporting leg bracing or strutting arrangement thereof
Technical field
The utility model relates to engineering machinery field, particularly relates to a kind of supporting leg bracing or strutting arrangement that is used for engineering machinery chassis.In addition, the utility model also relates to a kind of engineering machinery chassis that comprises above-mentioned supporting leg bracing or strutting arrangement.
Background technology
Along with the fast development of China's economic construction, market for portable construction machinery and equipment particularly the demand of the portable construction machinery and equipment of large-tonnage increase day by day, portable construction machinery and equipment just develops towards the direction that maximizes; Maximization is an important design goal of portable construction machinery and equipment.
Please refer to Fig. 1, Fig. 1 is the structural representation of a kind of typical project machinery chassis in the prior art.
Engineering machinery chassis generally comprises vehicle frame 11, supporting leg 12, earth plate 13 and supporting leg stay bearing plate 14, wherein, supporting leg 12 is connected on the vehicle frame 11, earth plate 13 is located at the outer end of supporting leg 12, generally lie in during work on ground or the supporting leg stay bearing plate 14, be used for support leg 12, and propping works machinery smooth working.
Please refer to Fig. 2, Fig. 2 is the partial enlarged drawing of A part among Fig. 1.
Existing earth plate 13 comprises bearing pin 131, spring pin and bearing 132.Wherein, bearing 132 is the base portion of earth plate 13, comprise base plate 1321, bent plate 1322 and ball seat 1323 by the direct welding fabrication of steel, except that ball seat 1323 and bent plate 1322, all the other regional rigidity are not strong, non-deformability a little less than, stressedly can produce plastic deformation when big, and can not recover automatically, particularly easy deformation when the unfairness of ground, the reliability of supporting leg 12 is affected, influences the construction machinery and equipment normal operation simultaneously.
Please refer to Fig. 3, Fig. 3 is the structural representation of construction machinery and equipment supporting leg stress deformation in the prior art, partly is the structure after the supporting leg distortion among the figure shown in the dotted line.
With the movable crane is example, and vehicle frame 11 and supporting leg 12 are easy to generate distortion during crane job, and earth plate 13 is a rigidity, makes can produce bigger squeese pressure between vertical oil cylinder bending, vertical oil cylinder 15 and the supporting leg 12, stress concentration occurs, very easily damages.The particularly continuous development of maximizing along with construction machinery and equipment, the load-carrying ability of hoisting crane constantly increases, the deflection of its vehicle frame 11 and supporting leg 12 also increases, make the squeese pressure between vertical oil cylinder 15 and the supporting leg 12 bigger, supporting leg 12 impaired possibilities are bigger, and earth plate 13 is easily impaired even become the bottleneck of construction machinery and equipment large scale development.
12 times needs earth plates 13 of supporting leg guaranteed the hoisting crane smooth working when in addition, hoisting crane was worked.Existing earth plate 13 is as a whole, ball seat 1323 and base plate 1321 weld togethers, and total is a rigidity, can not relatively move.During lift heavy, earth plate 13 whole land slides relatively easily cause ground to destroy, and bring hidden danger for lift heavy safety.
Therefore, how improving the reliability of construction machinery and equipment supporting leg, adapt to the growth requirement that construction machinery and equipment maximizes, and improve the processing safety of large-scale engineering machinery, 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 supporting leg bracing or strutting arrangement that is used for engineering machinery chassis, and the earth plate of this supporting leg bracing or strutting arrangement can be with vertical oil cylinder skew, and its load-carrying capacity improves, and reliability is better, has adapted to the growth requirement that construction machinery and equipment maximizes.Another purpose of the present utility model provides a kind of engineering machinery chassis that comprises above-mentioned supporting leg bracing or strutting arrangement, and its safe reliability is improved.
For realizing above-mentioned utility model purpose, the utility model provides a kind of supporting leg bracing or strutting arrangement, be used for the propping works machinery chassis, the earth plate that comprises the supporting leg below of being located at described construction machinery and equipment, described earth plate comprises the terminal bonded assembly upper bed-plate with described supporting leg, and by the lower bottom base of ground supports; Described upper bed-plate is connected by offsetting mechanism with described lower bottom base, so that the selectively described relatively lower bottom base skew of described upper bed-plate preset distance.
Preferably, described offsetting mechanism comprises the leg that supported by described lower bottom base and around the elastomeric element of described leg, the top of described leg and described upper bed-plate are hinged.
Preferably, described leg comprises center stand column and perpendicular to the restoring board of described column, and along the circumferential well-distributed gusset of described column, the circumferential size of described elastomeric element is less than the circumferential size of described restoring board; The top of described column and described upper bed-plate are hinged.
Preferably, described lower bottom base has the following cavity that holds described elastomeric element, and the top of this time cavity is provided with the upper cover plate with central through hole, and the top of described column penetrates described central through hole.
Preferably, the bottom of described upper bed-plate has the groove that Open Side Down, and the top of described column becomes swivel coupling with described groove shape.
Preferably, the upper surface of described upper cover plate is provided with back-up ring along circumferential outer rim, and the top of described column is lower than the upper surface of described back-up ring.
Preferably, the bottom of described upper bed-plate has the positioning plate of size less than described back-up ring circumferential size; Also comprise with the upper surface of described back-up ring connecting removably and the closing plate parallel to have predetermined distance between sealing plate and the described positioning plate, so that described positioning plate can the predetermined distance of described relatively upper cover plate skew with described positioning plate.
Preferably, be provided with sealing member between described positioning plate and the described closing plate, and at least one has the seal groove that holds described sealing member in the two.
Preferably, be provided with wear-resistant pad between described upper bed-plate and the described lower bottom base.
Preferably, described elastomeric element is specially spring, and the top of this spring is provided with pressing plate, and described upper cover plate and described pressing plate have the installation recess that cooperatively interacts and projection is installed.
Preferably, be provided with the locating dowel pin that distributes along circumferentially between described pressing plate and the described upper cover plate.
Preferably, also comprise the stay bearing plate of being located at described earth plate downside, the area of this stay bearing plate is greater than the floor space of described earth plate, and described earth plate is positioned at the center of described stay bearing plate.
Preferably, described earth plate circumferentially evenly is provided with some first pins along it and decide the hole, and described stay bearing plate has decide cooresponding second pin in hole site with described first pin and to decide the hole, and described first sells and decide hole and described second and sell and decide the hole and captive joint by connecting pin.
Preferably, described lower bottom base comprises base plate, upper cover plate and some side plates, and each described side plate one end is captiveed joint with described upper cover plate, and the other end is captiveed joint with described base plate, forms the base with hollow structure.
Preferably, the described side plate that two positions is relative is provided with hanger.
The utility model also provides a kind of engineering machinery chassis, comprise supporting leg and as above-mentioned each described supporting leg bracing or strutting arrangement, the bottom of described supporting leg has first section and be positioned at described first section downside and size greater than described first section second section, described upper bed-plate has and holds described second section upper plenum, also have and the suitable movable bayonet socket of described first section size, the size of this activity bayonet socket under locking state is less than described second section size.
Preferably, described upper bed-plate comprises first support and second support of being located at described upper plenum both sides, and first locating piece and second locating piece that all connect described first support and described second support, described first locating piece has left recess, described second locating piece has right recess, and described left recess and described right recess form described movable bayonet socket.
Preferably, described first locating piece and described second locating piece and described first support are all hinged; All be connected with described second support by spring pin.
Preferably, described first locating piece and described second locating piece all have handle, and this handle all is located at the end near described second support.
Supporting leg bracing or strutting arrangement provided by the utility model, be used for the propping works machinery chassis, comprise the earth plate of being located at the supporting leg below, unlike the prior art be that earth plate provided by the utility model comprises upper bed-plate and lower bottom base, wherein, upper bed-plate is connected with the end of supporting leg, lower bottom base is by ground supports, and upper bed-plate is connected by offsetting mechanism with lower bottom base, makes upper bed-plate predetermined distance of lower bottom base skew relatively when needing out-of-position.The supporting leg of engineering machinery chassis generally comprises fixed supporting leg and movable supporting legs, and the end of movable supporting legs is provided with vertical oil cylinder, and earth plate is located at the bottom of vertical oil cylinder.In the process of construction machinery and equipment stand under load, supporting leg can produce a certain amount of distortion, movable supporting legs can be curved downwards at its bearing of trend, because be provided with offsetting mechanism between upper bed-plate and the lower bottom base, this offsetting mechanism can make between upper bed-plate and the lower bottom base and relatively move, therefore, also can be offset by relative lower bottom base with upper bed-plate bonded assembly supporting leg bottom, effectively reduce the stress concentration between movable supporting legs and the vertical oil cylinder, improve the reliability of supporting leg, prolong the service life of supporting leg.Particularly in the construction machinery and equipment large scale development, offsetting mechanism the load capacity that can increase supporting leg is set, under the situation that scantling of structure need not increase, increase the loading capability that is subjected to of construction machinery and equipment, thereby satisfy the requirement that construction machinery and equipment maximizes.
Simultaneously, owing to can realize certain skew by offsetting mechanism between upper bed-plate and the lower bottom base, therefore, when the bearing surface of earth plate is not the plane of complete level, offsetting mechanism can be born the load of part, effectively reduce the support reaction that vertical oil cylinder is subjected to, thereby guarantee the reliability of construction machinery and equipment and supporting leg thereof, also improved the applicability of construction machinery and equipment simultaneously.
A kind of preferred embodiment in, described offsetting mechanism comprises the leg that supported by described lower bottom base and around the elastomeric element of described leg, the top of described leg and described upper bed-plate are hinged.When upper bed-plate was offset with supporting leg, moved with upper supporting leg on the top of leg, drives leg and rotate around hinge-point, realizes the relative displacement between upper bed-plate and lower bottom base.Because elastomeric element is around leg, during the leg skew, can produce extruding to the part of elastomeric element, when the distortion of supporting leg reduces or disappears, the bounce of elastomeric element can promote a pin preset, and the relative position of upper bed-plate and lower bottom base is aligned, and recovers the normal position of earth plate.This structure can not only realize effectively that upper bed-plate with respect to the relatively moving of lower bottom base, can also make upper bed-plate reset, and its high efficiency is better to the support effect of supporting leg.
In another preferred embodiment, the bottom of described supporting leg has first section and be positioned at described first section downside and size greater than described first section second section, described upper bed-plate has and holds described second section upper plenum, also have and described first section bayonet socket that size is suitable, the size of this bayonet socket is less than described second section size.The bottom that is supporting leg has the terrace of appearing on the stage, upper bed-plate has the leave from office terrace that cooperates with the terrace of appearing on the stage, the bottom of supporting leg is stuck in the upper plenum, appear on the stage terrace and leave from office terrace of utilization links together the bottom and the upper bed-plate of supporting leg, when supporting leg is packed up, vertical oil cylinder drives tops bar, and the supporting leg bearing is lifted conveniently moving.This is simple in structure, reliable, is easy to realize, both can reduce the cost of supporting leg bracing or strutting arrangement, can improve the connection reliability of supporting leg and earth plate again.
On the basis that above-mentioned supporting leg bracing or strutting arrangement is provided, the utility model also provides a kind of engineering machinery chassis that comprises above-mentioned supporting leg bracing or strutting arrangement; Because the supporting leg bracing or strutting arrangement has above-mentioned technique effect, the engineering machinery chassis with this supporting leg bracing or strutting arrangement also has the corresponding techniques effect.
Description of drawings
Fig. 1 is the structural representation of a kind of typical project machinery chassis in the prior art;
Fig. 2 is the partial enlarged drawing of A part among Fig. 1;
Fig. 3 is the structural representation of construction machinery and equipment supporting leg stress deformation in the prior art;
Fig. 4 is the supporting leg of construction machinery and equipment that the utility model provides and the distortion scheme drawing of a kind of specific embodiment of supporting leg bracing or strutting arrangement thereof;
Fig. 5 provides the distortion scheme drawing of a kind of specific embodiment of supporting leg bracing or strutting arrangement under a kind of application force for the utility model;
Fig. 6 is the distortion scheme drawing of supporting leg bracing or strutting arrangement shown in Figure 5 under another kind of application force;
Fig. 7 is the cutaway view of offsetting mechanism that the utility model provides and a kind of specific embodiment of lower bottom base;
Fig. 8 is the explosive view of offsetting mechanism shown in Figure 7 and lower bottom base;
Fig. 9 provides the structural representation of a kind of specific embodiment of leg for the utility model;
Figure 10 provides the structural representation of a kind of specific embodiment of pressing plate for the utility model;
Figure 11 provides the perspective view of a kind of specific embodiment of upper bed-plate for the utility model;
Figure 12 provides the structural representation of a kind of specific embodiment of lower bottom base for the utility model;
Figure 13 is the cutaway view of lower bottom base shown in Figure 12;
Figure 14 provides the exploded perspective view of a kind of specific embodiment of earth plate for the utility model;
Figure 15 provides the cutaway view of a kind of specific embodiment of upper bed-plate for the utility model;
Figure 16 provides the structural representation of a kind of specific embodiment of closing plate for the utility model;
Figure 17 is connected a kind of structural representation of the specific embodiment for upper bed-plate that the utility model provides and supporting leg bottom;
Figure 18 provides the three-dimensional diagrammatic sketch of a kind of specific embodiment of upper bed-plate for the utility model;
Figure 19 is the structural representation of upper bed-plate shown in Figure 180 middle part subassembly;
Figure 20 provides the structural representation of a kind of specific embodiment of supporting leg bracing or strutting arrangement for the utility model;
Figure 21 is the cutaway view of supporting leg bracing or strutting arrangement shown in Figure 20;
Figure 22 provides the structural representation of a kind of specific embodiment of engineering machinery chassis for the utility model.
The specific embodiment
Core of the present utility model provides a kind of supporting leg bracing or strutting arrangement that is used for engineering machinery chassis, and the earth plate of this supporting leg bracing or strutting arrangement can be with vertical oil cylinder skew, and its load-carrying capacity improves, and reliability is better, has adapted to the growth requirement that construction machinery and equipment maximizes.Another core of the present utility model provides a kind of engineering machinery chassis that comprises above-mentioned supporting leg bracing or strutting arrangement, and its safe reliability is improved.
The upper and lower noun of locality that waits that this paper is related, supporting leg and the residing control position of supporting leg bracing or strutting arrangement are that benchmark defines when in running order with construction machinery and equipment.The noun of locality that should be appreciated that herein to be adopted should not limit the protection domain of this patent.
Connection as herein described comprises direct connection, also comprises indirect connection.
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. 4 to Fig. 6, Fig. 4 is the supporting leg of construction machinery and equipment that the utility model provides and the distortion scheme drawing of a kind of specific embodiment of supporting leg bracing or strutting arrangement thereof, dotted portion is supporting leg and supporting leg bracing or strutting arrangement after being out of shape among the figure, and direction shown in the arrow is the moving direction of supporting leg deformation direction and supporting leg bracing or strutting arrangement; Fig. 5 provides the distortion scheme drawing of a kind of specific embodiment of supporting leg bracing or strutting arrangement under a kind of application force for the utility model, Fig. 6 is the distortion scheme drawing of supporting leg bracing or strutting arrangement shown in Figure 5 under another kind of application force, the assembly of solid line part for moving with supporting leg in the supporting leg bracing or strutting arrangement among the figure, dotted portion is for keeping motionless assembly, and direction shown in the arrow is the force direction that is subjected to of supporting leg bottom.
Supporting leg bracing or strutting arrangement provided by the utility model, be used for the propping works machinery chassis, comprise the earth plate 2 of being located at the supporting leg below, unlike the prior art be, earth plate 2 provided by the utility model comprises upper bed-plate 21 and lower bottom base 22, wherein, upper bed-plate 21 is connected with the end of supporting leg, lower bottom base 22 is by ground supports and keep relative fixed, upper bed-plate 21 is connected by offsetting mechanism 23 with lower bottom base 22, makes upper bed-plate 21 predetermined distance of lower bottom base 22 skew relatively when needing out-of-position.
The supporting leg of engineering machinery chassis generally comprises fixed supporting leg and movable supporting legs, and the end of movable supporting legs is provided with vertical oil cylinder, and earth plate 2 is located at the bottom of vertical oil cylinder.In the process of construction machinery and equipment stand under load, supporting leg can produce a certain amount of distortion, movable supporting legs can be curved downwards at its bearing of trend, because be provided with offsetting mechanism 23 between upper bed-plate 21 and the lower bottom base 22, this offsetting mechanism 23 can make between upper bed-plate 21 and the lower bottom base 22 and relatively move, therefore, also can be offset by relative lower bottom base 22 with upper bed-plate 21 bonded assembly supporting legs bottom, effectively reduce the stress concentration between movable supporting legs and the vertical oil cylinder, thereby improve the reliability of supporting leg, prolong the service life of supporting leg.
Particularly in the construction machinery and equipment large scale development, offsetting mechanism 23 the load capacity that can increase supporting leg is set, under the situation that scantling of structure need not increase, increase the loading capability that is subjected to of construction machinery and equipment, satisfy the requirement that construction machinery and equipment maximizes.
Simultaneously, owing to can realize certain skew by offsetting mechanism 23 between upper bed-plate 21 and the lower bottom base 22, therefore, when the bearing surface of earth plate 2 is not the plane of complete level, offsetting mechanism 23 can be born the load of part, effectively reduce the support reaction that vertical oil cylinder is subjected to, thereby guarantee the reliability of construction machinery and equipment and supporting leg thereof, also improved the applicability of construction machinery and equipment simultaneously.
Please refer to Fig. 7 to Figure 10, Fig. 7 is the cutaway view of offsetting mechanism that the utility model provides and a kind of specific embodiment of lower bottom base; Fig. 8 is the explosive view of offsetting mechanism shown in Figure 7 and lower bottom base; Fig. 9 provides the structural representation of a kind of specific embodiment of leg for the utility model; Figure 10 provides the structural representation of a kind of specific embodiment of pressing plate for the utility model.
In a kind of concrete embodiment, offsetting mechanism 23 provided by the utility model can comprise the leg 231 that supported by lower bottom base 22 and around the elastomeric element 232 of leg 231, the top of leg 231 and upper bed-plate 21 are hinged.When upper bed-plate 21 was offset with supporting leg, moved with upper bed-plate 21 on the top of leg 231, drives leg 231 and rotate the relativity shift that realization upper bed-plate 21 and lower bottom base are 22 around hinge-point.Because elastomeric element 232 is around leg 231, during leg 231 skews, part to elastomeric element 232 can produce extruding, when the distortion of supporting leg reduces or disappears, the bounce of elastomeric element 232 can promote leg 231 and reset, the relative position of upper bed-plate 21 and lower bottom base 22 is aligned, recover the normal position of earth plate 2.This structure can not only realize effectively that upper bed-plate 21 with respect to the relatively moving of lower bottom base 22, can also make upper bed-plate 21 reset, and its high efficiency is better to the support effect of supporting leg.
Obviously, above-mentioned offsetting mechanism 23 can connect upper bed-plate 21 and lower bottom base 22 and can make upper bed-plate 21 and other structure that 22 of lower bottom bases relatively move, as offsetting mechanism 23 can be hinged-support, promptly also can satisfy requirement of the present utility model by hinged-support connection upper bed-plate 21 and lower bottom base 22.
In a kind of concrete embodiment, leg 231 can comprise center stand column 2311 and perpendicular to the restoring board 2312 of column 2311, and along the circumferential well-distributed gusset 2313 of column 2311, the circumferential size of elastomeric element 232 is less than the circumferential size of restoring board 2312, and the top of column 2311 and upper bed-plate 21 are hinged.After the application force that acts on elastomeric element 232 and make it to be out of shape disappeared, the bounce of elastomeric element 232 acted on restoring board 2312, makes restoring board 2312 homings.
Particularly, lower bottom base 22 can have the following cavity 221 that holds elastomeric element 232, and the top of following cavity 221 is provided with the upper cover plate 222 with central through hole, and the upper cover plate 222 that the top of column 2311 is higher than lower bottom base 22 penetrates central through hole.Because elastomeric element 232 is around leg 231, so the bottom of leg 231 is certainly also in cavity 221 down, but cavity 221 down need be stretched out in the top of leg 231, is used for being connected with upper bed-plate 21.When the offsetting mechanism 23 of leg 231 and elastomeric element 232 formation is located at down in the cavity 221, can reduce the distance between upper bed-plate 21 and the lower bottom base 22, make earth plate 2 more compact structure, the size of supporting leg bracing or strutting arrangement is littler, and design facilitates in order to maximize.
In further technical scheme, above-mentioned elastomeric element 232 is specifically as follows spring, and pressing plate 233 can be set at the top of spring, and upper cover plate 222 and pressing plate 233 have the installation recess that cooperatively interacts and projection are installed, the installation projection of upper cover plate 222 and the installation raised position of pressing plate 233 are at once, and pressing plate 233 is in place.Simultaneously, can be along being provided with the locating dowel pin 234 that distributes along circumferentially between pressing plate 233 and the upper cover plate 222, by the relative position between locating dowel pin 234 locking pressing plates 233 and the upper cover plate 222, avoid spring from deviating from the cavity 221 down, further improve the reliability of offsetting mechanism 23, also improve the reliability of supporting leg bracing or strutting arrangement simultaneously.
During installation, elder generation packs leg 231 in the following cavity 221, spring is contained on the leg 231, again pressing plate 233 is placed on the spring, by compression machine with length of spring compressed, make the projection of pressing plate 233 cooperate with the recess of upper cover plate 222, pressing plate 233 is pressed into down in the cavity 221, behind the rotation predetermined angular, the projection of pressing plate 233 is corresponding with the raised position of upper cover plate 222, pressing plate 233 just is stuck in down in the cavity 221, and is by locating dowel pin 234 that pressing plate 233 and upper cover plate 222 is locked at last, finishes the installation of offsetting mechanism 23.
Those skilled in the art just can obtain without creative work, elastomeric element 232 can not be a spring, for example can be around cushion around leg 231, the extruding of 231 pairs of cushions of leg also can produce distortion, and generation bounce help leg 231 resets the realization the purpose of this utility model.In addition, elastomeric element 232 can be that this class of spring is continuous, also can be discontinuous, is disposed on equably around the leg 231, so also can realize the purpose of this utility model.
Please refer to Figure 11 to Figure 14, Figure 11 provides the perspective view of a kind of specific embodiment of upper bed-plate for the utility model; Figure 12 provides the structural representation of a kind of specific embodiment of lower bottom base for the utility model; Figure 13 is the cutaway view of lower bottom base shown in Figure 12; Figure 14 provides the exploded perspective view of a kind of specific embodiment of earth plate for the utility model.
In a kind of concrete embodiment, the bottom of upper bed-plate 21 provided by the utility model can have the groove 211 that Open Side Down, and the top card of column 2311 is located in the groove 211, forms swivel coupling with groove 211.Promptly the groove 211 by upper bed-plate 21 connects leg 231, and realization upper bed-plate 21 is connected with lower bottom base 22, simultaneously, drives the top action of leg 231 during upper bed-plate 21 skews.Simultaneously,, can to reduce the friction of leg 231 and upper bed-plate 21, reduce the possibility of leg 231 and upper bed-plate 21 impaired distortion, improve the reliability of supporting leg bracing or strutting arrangement at the outer setting pad of groove 211 in order to allow leg 231 be connected with upper bed-plate 21 better.
Further, can along circumferential outer rim back-up ring 223 be set at the upper surface of upper cover plate 222, and the top of column 2311 is lower than the upper surface of back-up ring 223.Be equivalent at the top of lower bottom base 22 position-limited trough that opening makes progress is set, the top of leg 231 is located in the position-limited trough; The bottom of upper bed-plate 21 has the positioning plate 212 of size less than position-limited trough, and groove 211 is located on the positioning plate 212.As shown in figure 11, position-limited trough is formed by upper cover plate 222 and back-up ring 223, and the top of column 2311 is higher than upper cover plate 222, and during connection, positioning plate 212 and can move in position-limited trough in the space of position-limited trough.
In addition, relatively move, therefore, can between upper bed-plate 21 and lower bottom base 22, wear-resistant pad 24 be set, make the top of leg 231 pass wear-resistant pad 24 and be connected with upper bed-plate 21 because upper bed-plate 21 and lower bottom base 22 can frequently produce.Wear-resistant pad 24 can be a nylon cushion, is fixedly connected on the upper cover plate 222 by flathead screw, to reduce the wearing and tearing between upper bed-plate 21 and the lower bottom base 22, prolongs the service life of supporting leg bracing or strutting arrangement.Obviously, wear-resistant pad 24 can be the pad of other material, as long as it is just passable to satisfy wear resisting property; Simultaneously, wear-resistant pad 24 also can directly be bonded on the upper cover plate 222, just utilizes flathead screw to connect not only can more firm, more to help the wearing and tearing that reduce between upper bed-plate 21 and the lower bottom base 22, and maintainable better.
Particularly, above-mentioned lower bottom base 22 can comprise base plate 224, upper cover plate 222 and some side plates 225, and each side plate 225 1 end is captiveed joint with upper cover plate 222, and the other end is captiveed joint with base plate 224, forms to have the box-shaped of hollow structure.Both lower bottom base 22 was a box type construction, and its rigidity is bigger, and load-carrying capacity is better, and was not yielding, further improved the reliability of supporting leg bracing or strutting arrangement.
In addition, can hanger 226 be set on the two positions opposing sideplates 225 in lower bottom base 22, it is more convenient that earth plate is moved, and engineer machinery change field is more convenient.
Please refer to Figure 15 and Figure 16, Figure 15 provides the cutaway view of a kind of specific embodiment of upper bed-plate for the utility model; Figure 16 provides the structural representation of a kind of specific embodiment of closing plate for the utility model.
Upper bed-plate 21 can also comprise closing plate 213, and sealing plate 213 is captiveed joint with the upper surface of position-limited trough, promptly can be bolted to connection with the upper surface of back-up ring 223; Simultaneously, closing plate 213 can be parallel with positioning plate 212 and be had predetermined distance between the two, so that the positioning plate 212 predetermined distance of lower bottom base 22 skews relatively.Closing plate 213 can have been sealed the space between positioning plate 212 and the back-up ring 223, avoids impurity such as dust to enter the junction of upper bed-plate 21 and lower bottom base 22, keeps the cleaning of junction, prolongs the service life of supporting leg bracing or strutting arrangement.
Further, can between positioning plate 212 and closing plate 213, sealing member 214 be set, and at least one has the seal groove that holds sealing member 214 in the two.Sealing member 214 can further be sealed the space between positioning plate 212 and the closing plate 213, avoids impurity such as dust to enter junction between upper bed-plate 21 and the lower bottom base 22 from the gap of two connecting panels, further improves the cleanliness level of junction.During installation, can earlier sealing member 214 be packed in the seal groove, connect closing plate 213 and connecting plate 223 again.
Except above-mentioned supporting leg bracing or strutting arrangement, the utility model also provides a kind of engineering machinery chassis that comprises above-mentioned supporting leg bracing or strutting arrangement, the bottom of the supporting leg of construction machinery and equipment is connected in the inside of supporting leg bracing or strutting arrangement, the structure of other each several parts of this project machinery chassis please refer to prior art, and this paper repeats no more.
Please refer to Figure 17, Figure 17 is connected a kind of structural representation of the specific embodiment for upper bed-plate that the utility model provides and supporting leg bottom.
A kind of preferred embodiment in, the bottom 3 of supporting leg have first section 31 and be positioned at first section 31 downside and size greater than first section 31 second section 32, upper bed-plate 21 has and holds second section 32 upper plenum, also have and first section 31 suitable movable bayonet socket of size, the size of this activity bayonet socket under locking state is less than second section 32 size.The bottom 3 that is supporting leg has the terrace of appearing on the stage, upper bed-plate 21 has the leave from office terrace that cooperates with the terrace of appearing on the stage, make the bottom 3 of supporting leg be stuck in 215 li of upper plenums, appear on the stage terrace and leave from office terrace of utilization links together the bottom 3 of supporting leg with upper bed-plate 21, when supporting leg is packed up, vertical oil cylinder drives tops bar, and earth plate 2 is lifted conveniently moving.This is simple in structure, reliable, is easy to realize, both can reduce the cost of supporting leg bracing or strutting arrangement, can improve the connection reliability of supporting leg and earth plate again.
Please refer to Figure 18 and Figure 19, Figure 18 provides the three-dimensional diagrammatic sketch of a kind of specific embodiment of upper bed-plate for the utility model; Figure 19 is the structural representation of upper bed-plate shown in Figure 180 middle part subassembly.
In a kind of concrete embodiment, upper bed-plate 21 can comprise first support 216 and second support 217 of being located at upper plenum 215 both sides, and first locating piece 218 and second locating piece 219 that all connect first support 216 and second support 217, first locating piece 218 has left recess, second locating piece 219 has right recess, and left recess and right recess form movable bayonet socket.Like this, when first locating piece 218 and 219 merging of second locating piece, left recess and right recess location correspondence form the movable bayonet socket that holds first section 31, realize the connection to supporting leg bottom 3.Need be when the supporting leg bracing or strutting arrangement separate when supporting leg bottom 3, first locating piece 218 separates with second locating piece 219, and is with 3 taking-ups of supporting leg bottom, convenient and swift.
Particularly, first locating piece 218 and second locating piece 219 and first support 216 all can be hinged, specifically can connect by bearing pin 210; First locating piece 218 all can removably be connected by spring pin with second support 217 with second locating piece 219.As shown in figure 17, an end of an end of first locating piece 218 and second locating piece 219 all is connected with first support 216 by bearing pin 210, and first locating piece 218 and second locating piece 219 all can be rotated around being connected bearing pin 210; The other end of first locating piece 218 and second locating piece 219 all can pass through bolted connection, also can between first locating piece 218 and second locating piece 219 brace panel 220 be set, and makes Joint strenght better.Like this, when supporting leg bottom 3 need be separated with upper bed-plate 21, take tie bolt and brace panel 220 apart, the other end of first locating piece 218 and second locating piece 219 is separated, end with first locating piece 218 and second locating piece 219 rotates around being connected bearing pin 210 again, first locating piece 218 and second locating piece 219 open, and the bottom of vertical oil cylinder can free in and out upper plenum 215.Obviously, the other end of first locating piece 218 and second locating piece 219 removably is connected except bolted connection, can also be alternate manner, for example can connect by spring pin, and spring pin its installation when connecting, dismounting is more convenient, and efficient is higher.
Simultaneously, dismounting for convenience, first locating piece 218 and second locating piece 219 can all have handle 200, and this handle all is located at the end near second support 217, make first locating piece 218 and the second room piece 219 can be more convenient, quick when Assembly ﹠Disassembly.
By being not difficult to find out in each above-mentioned embodiment, upper bed-plate 21 and lower bottom base 22 and offsetting mechanism 23 are assembly parts, even if occurring part in practical engineering application damages, also can change separately or safeguard, the maintainability of supporting leg bracing or strutting arrangement is improved greatly, help improving the economy of engineering machinery chassis.
Please refer to Figure 20 and Figure 21, Figure 20 provides the structural representation of a kind of specific embodiment of supporting leg bracing or strutting arrangement for the utility model; Figure 21 is the cutaway view of supporting leg bracing or strutting arrangement shown in Figure 20.
Further in the technical scheme, supporting leg bracing or strutting arrangement provided by the utility model can also comprise the stay bearing plate 4 of being located at earth plate 2 downsides, and the area of this stay bearing plate 4 is greater than the floor space of earth plate 2, and earth plate 2 is positioned at the center of stay bearing plate 4.Can further increase the Area of bearing of supporting leg bracing or strutting arrangement like this, improve its load-carrying capacity, satisfy the needs of construction machinery and equipment large scale development.
Simultaneously, earth plate 2 circumferentially evenly is provided with some first pins along it and decides hole 25, stay bearing plate 4 has decide 25 positions, hole cooresponding second with first pin and to sell and to decide hole 41, first pin decide hole 25 and second and is sold and to decide hole 41 and captive joint by connecting pin 5, slide to prevent to produce between earth plate 2 and the stay bearing plate 4, further improve the reliability of construction machinery and equipment.
Please refer to Figure 22, Figure 22 provides the structural representation of a kind of specific embodiment of engineering machinery chassis for the utility model.
Particularly, the chassis of above-mentioned construction machinery and equipment can be the chassis of hoisting crane, also can be the chassis of large-sized aerial work car, elevating fire truck.
More than engineering machinery chassis provided by the utility model and supporting leg bracing or strutting arrangement 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 (19)

1. supporting leg bracing or strutting arrangement, be used for the propping works machinery chassis, comprise the earth plate of the supporting leg below of being located at described construction machinery and equipment, it is characterized in that, described earth plate comprises the terminal bonded assembly upper bed-plate with described supporting leg, and by the lower bottom base of ground supports; Described upper bed-plate is connected by offsetting mechanism with described lower bottom base, so that the selectively described relatively lower bottom base skew of described upper bed-plate preset distance.
2. supporting leg bracing or strutting arrangement according to claim 1 is characterized in that, described offsetting mechanism comprises the leg that supported by described lower bottom base and around the elastomeric element of described leg, the top of described leg and described upper bed-plate are hinged.
3. supporting leg bracing or strutting arrangement according to claim 2, it is characterized in that, described leg comprises center stand column and perpendicular to the restoring board of described column, and along the circumferential well-distributed gusset of described column, the circumferential size of described elastomeric element is less than the circumferential size of described restoring board; The top of described column and described upper bed-plate are hinged.
4. supporting leg bracing or strutting arrangement according to claim 3 is characterized in that, described lower bottom base has the following cavity that holds described elastomeric element, and the top of this time cavity is provided with the upper cover plate with central through hole, and the top of described column penetrates described central through hole.
5. supporting leg bracing or strutting arrangement according to claim 4 is characterized in that the bottom of described upper bed-plate has the groove that Open Side Down, and the top of described column becomes swivel coupling with described groove shape.
6. supporting leg bracing or strutting arrangement according to claim 5 is characterized in that, the upper surface of described upper cover plate is provided with back-up ring along circumferential outer rim, and the top of described column is lower than the upper surface of described back-up ring.
7. supporting leg bracing or strutting arrangement according to claim 6 is characterized in that, the bottom of described upper bed-plate has the positioning plate of size less than described back-up ring circumferential size; Also comprise with the upper surface of described back-up ring connecting removably and the closing plate parallel to have predetermined distance between sealing plate and the described positioning plate, so that described positioning plate can the predetermined distance of described relatively upper cover plate skew with described positioning plate.
8. supporting leg bracing or strutting arrangement according to claim 7 is characterized in that, be provided with sealing member between described positioning plate and the described closing plate, and at least one has the seal groove that holds described sealing member in the two.
9. supporting leg bracing or strutting arrangement according to claim 1 is characterized in that, is provided with wear-resistant pad between described upper bed-plate and the described lower bottom base.
10. according to each described supporting leg bracing or strutting arrangement of claim 4 to 9, it is characterized in that described elastomeric element is specially spring, the top of this spring is provided with pressing plate, and described upper cover plate and described pressing plate have the installation recess that cooperatively interacts and projection is installed.
11. supporting leg bracing or strutting arrangement according to claim 10 is characterized in that, is provided with the locating dowel pin that distributes along circumferentially between described pressing plate and the described upper cover plate.
12. according to each described supporting leg bracing or strutting arrangement of claim 1 to 9, it is characterized in that, also comprise the stay bearing plate of being located at described earth plate downside, the area of this stay bearing plate is greater than the floor space of described earth plate, and described earth plate is positioned at the center of described stay bearing plate.
13. supporting leg bracing or strutting arrangement according to claim 12, it is characterized in that, described earth plate circumferentially evenly is provided with some first pins along it and decides the hole, described stay bearing plate has decide cooresponding second pin in hole site with described first pin and decide the hole, and described first sells and decide hole and described second and sell and decide the hole and captive joint by connecting pin.
14. supporting leg bracing or strutting arrangement according to claim 13, it is characterized in that described lower bottom base comprises base plate, upper cover plate and some side plates, each described side plate one end is captiveed joint with described upper cover plate, the other end is captiveed joint with described base plate, forms the base with hollow structure.
15. supporting leg bracing or strutting arrangement according to claim 14 is characterized in that, the described side plate that two positions is relative is provided with hanger.
16. engineering machinery chassis, it is characterized in that, comprise supporting leg and as each described supporting leg bracing or strutting arrangement of claim 1 to 15, the bottom of described supporting leg has first section and be positioned at described first section downside and size greater than described first section second section, described upper bed-plate has and holds described second section upper plenum, also have and the suitable movable bayonet socket of described first section size, the size of this activity bayonet socket under locking state is less than described second section size.
17. engineering machinery chassis according to claim 16, it is characterized in that, described upper bed-plate comprises first support and second support of being located at described upper plenum both sides, and first locating piece and second locating piece that all connect described first support and described second support, described first locating piece has left recess, described second locating piece has right recess, and described left recess and described right recess form described movable bayonet socket.
18. engineering machinery chassis according to claim 17 is characterized in that, described first locating piece and described second locating piece and described first support are all hinged; All be connected with described second support by spring pin.
19. engineering machinery chassis according to claim 18 is characterized in that, described first locating piece and described second locating piece all have handle, and this handle all is located at the end near described second support.
CN 201020550176 2010-09-28 2010-09-28 Engineering mechanical chassis and leg supporting device thereof Expired - Lifetime CN201800687U (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102416933A (en) * 2010-09-28 2012-04-18 徐州重型机械有限公司 Construction machinery chassis and supporting leg supporting device thereof
CN102491201A (en) * 2011-12-05 2012-06-13 中联重科股份有限公司 Supporting leg disc, supporting device and engineering vehicle
CN102815524A (en) * 2012-06-18 2012-12-12 红云红河烟草(集团)有限责任公司 Accurate positioning device for heavy equipment moving workbench
EP2664576A1 (en) * 2012-05-14 2013-11-20 Manitowoc Crane Group France SAS Shearing force reducing support device
NL2009495C2 (en) * 2012-09-20 2014-03-24 Reedijk Hydrauliek B V Lifting or hoisting system and method of stabilizing a mobile elevating work platform.
WO2014043933A1 (en) * 2012-09-18 2014-03-27 中联重科股份有限公司 Supporting device and cranes
EP2927179A1 (en) * 2014-04-03 2015-10-07 Advante Limited Outrigger pad carrier

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102416933B (en) * 2010-09-28 2013-09-04 徐州重型机械有限公司 Construction machinery chassis and supporting leg supporting device thereof
CN102416933A (en) * 2010-09-28 2012-04-18 徐州重型机械有限公司 Construction machinery chassis and supporting leg supporting device thereof
CN102491201B (en) * 2011-12-05 2014-01-22 中联重科股份有限公司 Supporting leg disc, supporting device and engineering vehicle
CN102491201A (en) * 2011-12-05 2012-06-13 中联重科股份有限公司 Supporting leg disc, supporting device and engineering vehicle
EP2664576A1 (en) * 2012-05-14 2013-11-20 Manitowoc Crane Group France SAS Shearing force reducing support device
CN103420285A (en) * 2012-05-14 2013-12-04 马尼托沃克起重机集团(法国)公司 Transverse force-reducing support device
US9073517B2 (en) 2012-05-14 2015-07-07 Manitowoc Crane Group France Sas Transverse force-reducing support device
CN103420285B (en) * 2012-05-14 2016-01-20 马尼托沃克起重机集团(法国)公司 Reduce the bracing or strutting arrangement of transverse force
CN102815524A (en) * 2012-06-18 2012-12-12 红云红河烟草(集团)有限责任公司 Accurate positioning device for heavy equipment moving workbench
WO2014043933A1 (en) * 2012-09-18 2014-03-27 中联重科股份有限公司 Supporting device and cranes
NL2009495C2 (en) * 2012-09-20 2014-03-24 Reedijk Hydrauliek B V Lifting or hoisting system and method of stabilizing a mobile elevating work platform.
EP2711330A1 (en) * 2012-09-20 2014-03-26 Reedijk Hydrauliek B.V. Lifting or hoisting system and method of stabilizing a mobile elevating work platform
EP2927179A1 (en) * 2014-04-03 2015-10-07 Advante Limited Outrigger pad carrier

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