CN209322406U - A kind of lifting structure and roofboltier - Google Patents
A kind of lifting structure and roofboltier Download PDFInfo
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- CN209322406U CN209322406U CN201920045281.0U CN201920045281U CN209322406U CN 209322406 U CN209322406 U CN 209322406U CN 201920045281 U CN201920045281 U CN 201920045281U CN 209322406 U CN209322406 U CN 209322406U
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- lifting structure
- heave compensation
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Abstract
The application discloses a kind of lifting structure and roofboltier, is related to supporting machine equipment technical field.Lifting structure is used to the first matrix doing lifting moving with respect to the second matrix, and lifting structure includes heave compensation mechanism, has multiple fulcrums between heave compensation mechanism and the second matrix;Heave compensation mechanism is set between the first matrix and the second matrix, and heave compensation mechanism is connected to the first matrix and the second matrix;Heave compensation mechanism can do lifting moving along the direction perpendicular to the second matrix, so that the first matrix is horizontally oriented always.When the inclination of the second matrix relatively horizontal orientation or it is parallel when, lifting structure can prevent the first matrix from favouring the lifting moving of horizontal plane with respect to the second matrix.
Description
Technical field
This application involves supporting machine equipment technical fields, in particular to a kind of lifting structure and roofboltier.
Background technique
Roofboltier is the drilling anchor rod hole in underworkings top plate or lateral wall, and completes partly or entirely installation anchor pole work
The automatic moving type equipment of sequence.
The operating platform of conventional anchor drill carriage is in lifting process, when vehicle is in upward slope or descending, roofboltier
Operating platform and horizontal plane have angle, at this moment there is security risk, while the also poor (operator of comfort of operator
With operating platform out of plumb), it needs to compensate angle by adjusting angle of drill bit.
Utility model content
This application provides a kind of lifting structure and roofboltier, the first matrix is used as the installation of operation bench in roofboltier
Pedestal uses, and the second matrix is used as the pedestal in roofboltier and uses.When the second matrix relatively horizontal orientation tilts or is parallel,
Lifting structure can prevent the first matrix from favouring the lifting moving of horizontal plane with respect to the second matrix.
In a first aspect, providing a kind of lifting structure, it is used for the first matrix with respect to the second matrix along the first preset direction
Lifting moving is done, lifting structure includes heave compensation mechanism, has multiple fulcrums between heave compensation mechanism and the second matrix;It rises
Drop compensation mechanism is set between the first matrix and the second matrix, and heave compensation mechanism is connected to the first matrix and the second base
Body;Heave compensation mechanism can do lifting moving along the first preset direction, so that the plane where the first matrix is always perpendicular to
One preset direction.
Above-mentioned technical proposal, lifting structure by the movement of heave compensation mechanism, can while going up and down the first matrix,
The angle for adjusting the first matrix Yu horizontal plane (i.e. perpendicular to the plane of the first preset direction), avoids the first matrix with respect to the second base
The first matrix favours horizontal plane when body does lifting moving along the first preset direction.
With reference to first aspect, in the first possible implementation of the first aspect of the application, heave compensation mechanism
Including multiple extensible members, multiple extensible members limit multiple fulcrums;One end of one of extensible member in multiple extensible members connects
The other end of one of extensible member in the first matrix, multiple extensible members is rotationally connected with the second matrix.
Above-mentioned technical proposal, by the variation of the adjustable height of different extensible members, so as to adjust the first matrix and horizontal plane
Variable angle.
The possible implementation of with reference to first aspect the first, in second of possible reality of the first aspect of the application
In existing mode, the quantity of extensible member is three, the orientation arrangement triangular in shape of three extensible members;Extensible member is hydraulic cylinder.
Above-mentioned technical proposal, specifically, extensible member can be arranged for hydraulic cylinder, three extensible members use triangular orientation
Arrangement, forms stable gusseted, plays certain firm effect while going up and down the first matrix.
The possible implementation of with reference to first aspect the first, in the third possible reality of the first aspect of the application
In existing mode, heave compensation mechanism includes rotating member;One end of rotating member is rotationally connected with the second matrix, the other end of rotating member
It is connected to the first matrix;Multiple extensible members are in be parallel to the arranged in a straight line of rotating member.
One end of above-mentioned technical proposal, the first matrix is moved up and down by multiple extensible members with respect to the second matrix, simultaneously
Rotating member can be correspondingly rotated according to the angle of the first matrix and horizontal direction, to compensate inclining for the first matrix and horizontal plane
Oblique angle, to achieve the effect that the angle for adjusting the first matrix and horizontal plane while going up and down the first matrix.
With reference to first aspect, in the 4th kind of possible implementation of the first aspect of the application, lifting structure includes
Go up and down position-limit mechanism;One end of lifting position-limit mechanism is rotationally connected with the first matrix, and the other end for going up and down position-limit mechanism is connected to
Second matrix, so that the first matrix of limitation is moved along the second preset direction, the first matrix of limitation is moved along third preset direction.
Above-mentioned technical proposal, lifting position-limit mechanism are used to go up and down with respect to the second matrix along the first preset direction when the first matrix
When mobile, the first matrix of limitation is moved along the second preset direction and the second preset direction, while cooperating heave compensation mechanism
The first matrix of common lifting guarantees that the first matrix is reliable and stable in lifting process.
With reference to first aspect, in the 5th kind of possible implementation of the first aspect of the application, lifting structure includes
Go up and down position-limit mechanism;Heave compensation mechanism includes rotating member, support plate and multiple extensible members;Support plate setting the first matrix with
Between second matrix;One end of rotating member is rotationally connected with support plate, and the other end of rotating member is connected to the first matrix;It is multiple to stretch
One end of one of extensible member in contracting part is rotationally connected with support plate, one of extensible member in multiple extensible members it is another
One end is connected to the first matrix, and multiple extensible members are in be parallel to the arranged in a straight line of rotating member;Go up and down one end connection of position-limit mechanism
In support plate, the other end for going up and down position-limit mechanism is rotationally connected with the second matrix.
Above-mentioned technical proposal, lifting position-limit mechanism is for limiting support plate along the second preset direction and the second preset direction
Movement;Rotating member and extensible member cooperate jointly, limit the first matrix along the second preset direction and along the second preset direction
It is mobile;So that support plate does lifting moving with respect to the second matrix, and it is reliable and stable, guarantee that the first matrix is put down always in lifting process
Row is in horizontal plane.
5th kind of possible implementation of the 4th kind of possible implementation or first aspect with reference to first aspect,
In 6th kind of possible implementation of the first aspect of the application, lifting position-limit mechanism includes four-bar mechanism.
Above-mentioned technical proposal, four-bar mechanism can guarantee the first matrix and the second matrix or support in lifting process
Plate is parallel with the second matrix and steadily goes up and down.
5th kind of possible implementation of the 4th kind of possible implementation or first aspect with reference to first aspect,
In 7th kind of possible implementation of the first aspect of the application, lifting position-limit mechanism includes scissor-type lifting mechanism.
Above-mentioned technical proposal, scissor-type lifting mechanism can guarantee in lifting process the first matrix and the second matrix or
Person's support plate is parallel with the second matrix and steadily goes up and down.
Second aspect, provides a kind of roofboltier, and roofboltier includes any one of first aspect or first aspect
Lifting structure in possible implementation;Roofboltier further includes mobile crawler belt and operation bench;Mobile crawler belt is connected to second
Matrix, operation bench are connected to the first matrix.
Above-mentioned technical proposal, by the setting of lifting structure, the plane where guaranteeing operation bench was being gone up and down roofboltier
It is parallel to the horizontal plane always in journey, effectively eliminates security risk present in lifting process, improve the work of operator
Comfort.
In conjunction with second aspect, in the first possible implementation of the second aspect of the application, roofboltier includes
Drill boom, drill boom have drill bit;Drill boom is connected to the first matrix.
Above-mentioned technical proposal, by the setting of lifting structure, the first matrix where guaranteeing drill boom is being gone up and down roofboltier
It is parallel to the horizontal plane always in the process, does not need to compensate drill boom and horizontal by adjusting angle of drill bit in roofboltier work
Angle between face, effectively improves working efficiency.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application, below will be to needed in the embodiment attached
Figure is briefly described, it should be understood that the following drawings illustrates only some embodiments of the application, therefore is not construed as pair
The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other relevant attached drawings.
Fig. 1 is the structural schematic diagram of lifting structure in first alternative embodiment of the application;
Fig. 2 is structural schematic diagram of the lifting structure after concealing the first matrix in first alternative embodiment of the application;
Fig. 3 is the structural schematic diagram of heave compensation mechanism in first alternative embodiment of the application;
Fig. 4 is structural schematic diagram of the four-bar mechanism under the first visual angle in first alternative embodiment of the application;
Fig. 5 is structural schematic diagram of the four-bar mechanism under the second visual angle in first alternative embodiment of the application;
Fig. 6 is structural representation of the lifting structure after concealing lifting position-limit mechanism in second alternative embodiment of the application
Figure;
Fig. 7 is the structural schematic diagram of lifting structure in the application third alternative embodiment;
Fig. 8 is the structural schematic diagram of roofboltier in one alternative embodiment of the application.
Icon: 10- lifting structure;20- lifting structure;30- lifting structure;40- roofboltier;42- moves crawler belt;44-
Operation bench;46- drill boom;The first matrix of 100-;The second matrix of 200-;300- heave compensation mechanism;310- extensible member;302- lifting
Compensation mechanism;320- rotating member;322- rotation axis;324- bearing;326- strut;410- support plate;500- four-bar mechanism;510-
Connecting rod;520- attachment base;530- mounting base;600- scissor-type lifting mechanism;610- drive rod.
Specific embodiment
To keep the purposes, technical schemes and advantages of the embodiment of the present application clearer, below in conjunction with the embodiment of the present application
In attached drawing, the technical scheme in the embodiment of the application is clearly and completely described, it is clear that described embodiment is
Some embodiments of the present application, instead of all the embodiments.The application being usually described and illustrated herein in the accompanying drawings is implemented
The component of example can be arranged and be designed with a variety of different configurations.
Therefore, the detailed description of the embodiments herein provided in the accompanying drawings is not intended to limit below claimed
Scope of the present application, but be merely representative of the selected embodiment of the application.Based on the embodiment in the application, this field is common
Technical staff's every other embodiment obtained without creative efforts belongs to the model of the application protection
It encloses.
It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi
It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.
In the description of the present application, it should be noted that the orientation or positional relationship of the instructions such as term "inner", "lower" is base
In orientation or positional relationship shown in the drawings or this application product using when the orientation or positional relationship usually put, only
It is the application and simplified description for ease of description, rather than the device or element of indication or suggestion meaning must have specifically
Orientation is constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.In addition, term " first ", " the
Two " etc. are only used for distinguishing description, are not understood to indicate or imply relative importance.
In the description of the present application, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ",
" connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected;It can be
Mechanical connection, can be directly connected, can also can be the connection inside two elements indirectly connected through an intermediary.
For the ordinary skill in the art, the concrete meaning of above-mentioned term in this application can be understood with concrete condition.
In this application unless specifically defined or limited otherwise, fisrt feature can be on or below second feature
Directly contacted including the first and second features, also may include the first and second features be not direct contact but by them it
Between other characterisation contact.Moreover, fisrt feature is on second feature, top and above include fisrt feature second spy
Right above sign and oblique upper, or first feature horizontal height is merely representative of higher than second feature.Fisrt feature second feature it
Under, lower section and fisrt feature included below be directly below and diagonally below the second feature, or be merely representative of first feature horizontal height
Less than second feature.
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.
Conventional anchor drill carriage is frequently necessary to carry out lift work to operating platform according to specific operating condition during the work time, and
For operating platform as key operation place, safety is most important.In the actual operation process, conventional anchor drill carriage will appear
Vehicle is in the situation on a slope, and leading to operating platform, there are angles with horizontal plane in lifting process, due to operation
There are operation safety hidden danger for the inclination of platform, while the work comfort of operator also correspondingly declines, and are specifically making
Need to come by adjusting angle of drill bit the angle of compensating operation platform and horizontal plane during industry.
First alternative embodiment of the application provides a kind of lifting structure 10, and lifting structure 10 can prevent the first base
Body 100 favours the lifting moving of horizontal plane with respect to the second matrix 200.
Fig. 1 and Fig. 2 are please referred to, Fig. 1 shows the specific of the lifting structure 10 of first alternative embodiment of the application offer
Structure, the lifting structure 10 provided Fig. 2 shows first alternative embodiment of the application are specific after concealing the first matrix 100
Structure.
As shown in Fig. 2, for convenience of description, the application establishes rectangular coordinate system in space, wherein the first preset direction
For the direction perpendicular to level ground;The second matrix 200 when the second matrix 200 is parallel to level ground, with rectangular shape
Long side it is parallel and be the second preset direction perpendicular to the axis direction of the first preset direction;When the second matrix 200 is parallel to
When level ground, axis direction parallel and perpendicular to the first preset direction with the short side of the second matrix 200 of rectangular shape
For third preset direction.
Lifting structure 10 is used to opposite second matrix 200 of the first matrix 100 doing lifting moving along the first preset direction.?
In the embodiment of the present application, installation pedestal of first matrix 100 as the operation bench 44 in roofboltier 40 (please referring to shown in Fig. 8)
It uses, operation bench 44 can be connected on the upper surface of the first matrix 100 by way of bolt/welding;Second matrix, 200 conduct
Pedestal in roofboltier 40 uses.Lifting structure 10 includes heave compensation mechanism 300 and lifting position-limit mechanism, heave compensation machine
Structure 300 and lifting position-limit mechanism are all set between the first matrix 100 and the second matrix 200.
Heave compensation mechanism 300 includes three extensible members 310, and three extensible members 310 are arranged in isosceles triangle, extensible member
310 both ends are separately connected the lower surface of the first matrix 100 and the upper surface of the second matrix 200, wherein the bottom end of extensible member 310
As the fulcrum of heave compensation mechanism 300, by the variation of the adjustable height of different extensible members 310, so as to adjust the first matrix
100 with the variable angle of horizontal plane (i.e. perpendicular to the plane of the first preset direction).
Going up and down position-limit mechanism includes four-bar mechanism 500, and the region that three extensible members 310 surround is arranged in four-bar mechanism 500
Interior, the both ends of four-bar mechanism 500 are separately connected the lower surface of the first matrix 100 and the upper surface of the second matrix 200, four-bar mechanism
500 cooperate the first matrix 100 of lifting jointly of heave compensation mechanism 300 simultaneously, guarantee that the first matrix 100 is stablized in lifting process
Reliably.It will be discussed in detail the detail of the connection of four-bar mechanism 500 later.
It should be noted that the embodiment of the present application does not limit the particular use of the first matrix 100 and the second matrix 200,
In some other alternative embodiment, the first matrix 100 and the second matrix 200 can be other liters such as lifting seat, Height-adjustable
Structure in equipment drops.
Optionally, Fig. 3-Fig. 5 is please referred to, Fig. 3 shows the heave compensation machine of first alternative embodiment of the application offer
The specific structure of structure 300, Fig. 4 show the four-bar mechanism 500 of first alternative embodiment of the application offer under the first visual angle
Specific structure, Fig. 5 show first alternative embodiment of the application offer four-bar mechanism 500 it is specific under the second visual angle
Structure.
By bolt/be welded and fixed connection there are three fixing seat on the upper surface of second matrix 200, three fixing seats in etc.
Lumbar triangle shape is roughly arranged in the medium position of 200 upper surface of the second matrix.Two of them fixed seating is in the second matrix
The line of the center of 200 upper surfaces, the two fixing seats is parallel with third preset direction;Another fixed seating is in
The left side of two matrixes, 200 upper surface.There is certain spacing distance between three fixing seats.Fixing seat includes two symmetrical intervals
The center of the fixed plate of setting, fixed plate offers fixation hole.Extensible member 310 in heave compensation mechanism 300 is hydraulically extensible
Oil cylinder, the lower end of three extensible members 310 are respectively placed between two fixed plates of fixing seat, pass through matching for fixation hole and rotating bar
It closes, so that extensible member 310 is rotationally connected with the upper surface of the second matrix 200;The upper end of three extensible members 310 has connecting hole,
Extensible member 310 is connect by connecting hole with the lower surface of the first matrix 100.Three extensible members 310 are arranged using triangular orientation,
Form stable gusseted;There is certain spacing distance, to guarantee under the first matrix 100 between three extensible members 310
The both ends on surface are supported on extensible member 310;Finally extensible member 310 is played centainly while going up and down the first matrix 100
Firm effect.
It should be noted that the embodiment of the present application does not limit the particular number of extensible member 310, some other optional
In embodiment, the quantity of extensible member 310 may be four or other quantity.In addition, the embodiment of the present application do not limit yet it is flexible
The spread geometry of part 310, in some other optional embodiment, when the quantity of extensible member 310 is three, three extensible members
310 can also be arranged in right angled triangle;When the quantity of extensible member 310 is four, four extensible members 310 can also be arranged in rectangular
Shape is trapezoidal.Also, the embodiment of the present application does not limit the concrete form of extensible member 310 yet, in some other optional embodiment
In, extensible member 310 can also be air pressure telescoping cylinder or electric telescopic rod.Meanwhile the embodiment of the present application does not also limit extensible member
310 and second concrete form that is rotatablely connected of matrix 200, in some other optional embodiment, extensible member 310 can also be with
Second matrix 200 realizes rotation connection using hinged form.
Four-bar mechanism 500 includes mounting base 530, connecting rod 510 and attachment base 520.Mounting base 530 includes a lower bottom base
Support seats with two connections, two connections support seat interval verticals are connected on lower bottom base, wherein lower bottom base with connect support seat can be integrated
Shape casting or welding/be bolted.Multiple fixed bolt holes, lower bottom base and the second matrix are offered on lower bottom base
200 upper surface is cooperatively connected by fixed bolt hole and bolt.Connection support seat is right angled triangle plate structure, connection support
Seat offers hinge hole at the both ends of bevel edge respectively.Connecting rod 510 includes long straight connecting rod 510, curved 510 and of shape shape connecting rod
Shape connecting rod 510 is bridged, the both ends of long straight connecting rod 510 offer hinge hole respectively;The both ends of curved shape shape connecting rod 510 point
Hinge hole is not offered;Bridge joint shape connecting rod 510 offers hinge hole at both ends and a quarter length respectively.Attachment base
The two sides of 520 bottom end are respectively arranged with articulated slab, offer hinge hole on articulated slab;Multiple spiral shells are offered on attachment base 520
Keyhole, attachment base 520 are cooperatively connected by the lower surface of bolt hole and bolt and the first matrix 100.
The specific connection type of four-bar mechanism 500 is: the hinge hole of the bottom end of two curved shape shape connecting rods 510 respectively with
The hinge hole of the bottom end of two connection support seats hingedly cooperates;Hinge hole at the curved apex of two curved shape shape connecting rods 510
The hinge hole at one end of shape connecting rod 510 is bridged with two respectively hingedly to cooperate;The other end of two bridge joint shape connecting rods 510
The hinge hole at place hingedly cooperates with the hinge hole on two articulated slabs of 520 bottom end of attachment base respectively;Two long straight connecting rod
The hinge hole that hinge hole at 510 one end bridges at 510 a quarter length of shape connecting rod with two respectively hingedly cooperates, and two
The hinge hole that hinge hole at the other end of a long straight connecting rod 510 connect the top end of support seat with two respectively is hingedly matched
It closes.So that four-bar mechanism 500 is formed after connecting is spaced symmetrically arranged two four pole mechanisms, wherein the cooperation of each hinge hole
Place is equipped with a shaft, and shaft connects two four pole mechanisms.Four-bar mechanism connects along the first preset direction lifting process
Extension bar 510 can be rotated around the axis for being parallel to third preset direction, and wherein the attachment base 520 of the top and the lowermost are installed
For seat 530 always in being parallel on the straight line of the first preset direction, other connecting rods 510 do the variation for being similar to " S " type, from
And the first matrix 100 is limited in the second preset direction and third preset direction (when extensible member 310 and the second matrix 200 use
When hinged, extensible member 310 can do 180 ° of rotation around the second matrix 200) on movement so that the first matrix 100 was being gone up and down
It is steady firm in journey.
When work, while three extensible members 310 are driven, so that the first matrix 100 does lifting fortune relative to the second matrix 200
It is dynamic, according to the angle of the second matrix 200 and horizontal plane, select different lifting speeds (the i.e. extensible member 310 of three extensible members 310
Height and position variation) adjust the angle of the first matrix 100 with horizontal plane.Four-bar mechanism 500 due to internal articulated structure,
It can voluntarily be gone up and down during opposite second matrix 200 of the first matrix 100 moves up and down, so that the first matrix 100 of limitation exists
Movement on second preset direction and third preset direction guarantees that the first matrix 100 is gone up and down steadily.
Second alternative embodiment of the application provides a kind of lifting structure 20, referring to FIG. 6, Fig. 6 shows the application
Specific structure of the lifting structure 20 that second alternative embodiment provides after concealing lifting position-limit mechanism.
Lifting structure 20 is roughly the same with the structure of lifting structure 10 in first alternative embodiment, unlike, it rises
Dropping compensation mechanism 302 includes two extensible members 310 and a rotating member 320, and extensible member 310 and rotating member 320 are respectively with second
It is located at second in fulcrum of the tie point of matrix 200 as heave compensation mechanism 302, two extensible members 310 and lifting structure 10
The structure and connection type of two extensible members 310 in 200 upper surface middle position of matrix are identical.
Rotating member 320 includes rotation axis 322, bearing 324 and strut 326.
In addition to two fixing seats for connecting two extensible members 310, on the upper surface of the second matrix 200 by bolt/
The mode of welding is also fixedly connected there are two fixing seat, and two fixing seats are arranged with two 310 parallel intervals of extensible member, and two solid
Fixation hole is offered in reservation, the both ends of rotation axis 322 are fixedly connected in fixation hole.It installs respectively at the both ends of rotation axis 322
There is bearing 324.The quantity of strut 326 is six, wherein one end interval of three struts 326 is articulated under the first matrix 100
The side on surface, the other end of three struts 326 are connected on a bearing 324;It cuts with scissors at one end interval of the other three strut 326
It is connected to the other side of the lower surface of the first matrix 100, the other end of the other three strut 326 is connected on another bearing 324.
When work, one end of the first matrix 100 is moved up and down by two extensible members 310 with respect to the second matrix 200, together
When strut 326 rotated under the action of bearing 324 around rotation axis 322, thus the inclination of compensation the first matrix 100 and horizontal plane
Angle achievees the effect that the angle that the first matrix 100 and horizontal plane is adjusted while going up and down the first matrix 100;And strut 326 is only
It is rotated around rotation axis 322, limits movement of first matrix 100 on third preset direction;Six struts 326 exist respectively simultaneously
The first matrix 100 supported on both sides of first matrix, 100 lower surface plays the role of firm support.Cooperation lifting position-limit mechanism (figure
In be not drawn into), thus movement of the first matrix 100 of limitation on the second preset direction, so that the first matrix 100 is in lifting process
In it is steady firm.
The application third alternative embodiment provides a kind of lifting structure 30, referring to FIG. 7, Fig. 7 shows the application
The specific structure for the lifting structure 30 that third alternative embodiment provides.
Lifting structure 30 is roughly the same with the structure of lifting structure 20 in second alternative embodiment, unlike, it rises
Descending branch support structure uses scissor-type lifting mechanism 600, and lifting structure 30 further includes support plate 410.
The structure phase of heave compensation mechanism 302 and the heave compensation mechanism 302 in lifting structure 20 in lifting structure 30
Together, unlike, the bottom end of the heave compensation mechanism 302 in lifting structure 30 is the upper surface for being connected to support plate 410, support
Plate 410 is arranged between the first matrix 100 and the second matrix 200.Support plate 410 and lifting position-limit mechanism are integrally as with the
The fulcrum of two matrixes 200 connection.
Going up and down position-limit mechanism includes scissor-type lifting mechanism 600.Scissor-type lifting mechanism 600 includes three arranged in a straight line
Scissor connecting rod, a limb of the bottom end of scissor connecting rod are fixedly connected on the upper surface of the second matrix 200, the second matrix 200 it is upper
Surface is provided with sliding rail, and sliding rail is parallel to the second preset direction, and another limb of the bottom end of scissor connecting rod is slidably connected to sliding rail;It is sliding
Drive rod 610 is also connected between the limb and sliding rail of the dynamic scissor connecting rod for being connected to sliding rail.The top of scissor connecting rod is connected to
Second matrix 200.Scissor-type lifting mechanism 600 can guarantee that support plate 410 and the second matrix 200 are parallel simultaneously in lifting process
And it steadily goes up and down;The arrangement of sliding rail limits movement of the scissor-type lifting mechanism 600 on third preset direction, while scissor
The hinged characteristic of connecting rod makes support plate 410 in lifting process always in being parallel on the axis of the first preset direction, from
And play the role of limit.Lifting position-limit mechanism is used to support the second matrix 200 and support plate 410, and the second matrix of limitation
200 and movement of the support plate 410 on the second preset direction and third preset direction, so that support plate 410 is with respect to the second matrix
200 do it is reliable and stable when lifting moving;Rotating member 320 and two extensible members 310 cooperate jointly simultaneously, so that the first matrix 100
Relative support plate 410 rotates, and guarantees that the first matrix 100 is parallel to horizontal plane always in lifting process.
In addition, the alternative embodiment of the application additionally provides a kind of roofboltier 40.
Referring to FIG. 8, Fig. 8 shows the specific structure of the roofboltier 40 of one alternative embodiment of the application offer.
Roofboltier 40 includes lifting structure 10 (not marking in figure), mobile crawler belt 42, operation bench 44 and drill boom 46.It is mobile
Crawler belt 42 is connected to the lower surface of the second matrix 200 (not marking in figure), and operation bench 44 is connected to the first matrix 100 (in figure not
Mark) upper surface.Roofboltier 40 passes through the setting of lifting structure 20, guarantees the plane at 44 place of operation bench in lifting process
In be parallel to the horizontal plane always, effectively eliminate security risk present in lifting process, improve operator work relax
Adaptive.Drill boom 46 is connect with operation bench 44, and drill boom 46 has drill bit.Roofboltier 40 passes through the setting of lifting structure 10, guarantees
The first matrix 100 where drill boom 46 is parallel to the horizontal plane always in lifting process, does not need when roofboltier 40 works
The angle between drill boom 46 and horizontal plane is compensated by adjusting angle of drill bit, effectively improves working efficiency.
It should be noted that roofboltier 40 can also use lifting structure 20 or lifting structure 30.
The foregoing is merely preferred embodiment of the present application, are not intended to limit this application, for the skill of this field
For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair
Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.
Claims (10)
1. a kind of lifting structure, for the first matrix to be done lifting moving, feature along the first preset direction with respect to the second matrix
It is:
The lifting structure includes heave compensation mechanism, has multiple between the heave compensation mechanism and second matrix
Point;
The heave compensation mechanism is set between first matrix and second matrix, the heave compensation mechanism difference
It is connected to first matrix and second matrix;
The heave compensation mechanism can do lifting moving along first preset direction, so that the plane where first matrix
Always perpendicular to first preset direction.
2. lifting structure according to claim 1, it is characterised in that:
The heave compensation mechanism includes multiple extensible members, and the multiple extensible member limits the multiple fulcrum;
One end of one of extensible member in the multiple extensible member is connected to first matrix, in the multiple extensible member
The other end of one of extensible member be rotationally connected with second matrix.
3. lifting structure according to claim 2, it is characterised in that:
The quantity of the extensible member is three, three extensible members orientation arrangement triangular in shape;
The extensible member is hydraulic cylinder.
4. lifting structure according to claim 2, it is characterised in that:
The heave compensation mechanism includes rotating member;
One end of the rotating member is rotationally connected with second matrix, and the other end of the rotating member is connected to first base
Body;
The multiple extensible member is in be parallel to the arranged in a straight line of the rotating member.
5. lifting structure according to claim 1, it is characterised in that:
The lifting structure includes lifting position-limit mechanism;
One end of the lifting position-limit mechanism is rotationally connected with first matrix, the other end connection of the lifting position-limit mechanism
It in second matrix, is moved to limit first matrix along the second preset direction, limits first matrix along third
Preset direction is mobile.
6. lifting structure according to claim 1, it is characterised in that:
The lifting structure includes lifting position-limit mechanism;
The heave compensation mechanism includes rotating member, support plate and multiple extensible members;
The support plate is arranged between first matrix and second matrix;
One end of the rotating member is rotationally connected with the support plate, and the other end of the rotating member is connected to first base
Body;
One end of one of extensible member in the multiple extensible member is connected to the support plate, in the multiple extensible member
The other end of one of extensible member is connected to first matrix, and the multiple extensible member is in be parallel to the straight of the rotating member
Line arrangement;
One end of the lifting position-limit mechanism is connected to the support plate, and the other end of the lifting position-limit mechanism is connected to described
Second matrix.
7. lifting structure according to claim 5 or 6, it is characterised in that:
The lifting position-limit mechanism includes four-bar mechanism.
8. lifting structure according to claim 5 or 6, it is characterised in that:
The lifting position-limit mechanism includes scissor-type lifting mechanism.
9. a kind of roofboltier, it is characterised in that:
The roofboltier has lifting structure of any of claims 1-8;
The roofboltier further includes mobile crawler belt and operation bench;
The mobile crawler belt is connected to second matrix, and the operation bench is connected to first matrix.
10. roofboltier according to claim 9, it is characterised in that:
The roofboltier includes drill boom, and the drill boom has drill bit;
The drill boom is connected to first matrix.
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Cited By (1)
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CN109437049A (en) * | 2019-01-10 | 2019-03-08 | 江苏中贵重工有限公司 | A kind of lifting structure and roofboltier |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109437049A (en) * | 2019-01-10 | 2019-03-08 | 江苏中贵重工有限公司 | A kind of lifting structure and roofboltier |
CN109437049B (en) * | 2019-01-10 | 2024-02-06 | 江苏中贵重工有限公司 | Lifting structure and anchor rod drill carriage |
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