CN106144942B - Lifting body - Google Patents

Abstract

A kind of lifting body, it includes matrix and the jacking component being installed on the matrix, the jacking component includes sliding part, guiding axis and jacking part, the sliding part is slidably installed in the side of the matrix, perforation offers inclined guide part on the sliding part, the guiding axis partial receipt is in the matrix and at least one end of the guiding axis is located in the guide part, the jacking part is installed in the matrix and can be stretched out by the matrix, the jacking part and the guiding axis connection, when the sliding part is mobile relative to the matrix, the guiding axis can be moved along the guide part, to drive the jacking part to stretch out or bounce back with respect to the matrix.Lifting body of the invention is compact-sized, occupies little space.

Description

Lifting body

Technical field

The present invention relates to a kind of lifting bodies.

Background technique

In process, it generallys use following two lifting body and carrys out auxiliary work-piece processing：First is that being pushed up using cylinder Power is risen, another additional guiding mechanism realizes jacking；Second is that motor realizes jacking as power using the structure of screw rod and line rail, However, limitation of the above two lifting body due to its structure, is both needed to occupy larger space.

Summary of the invention

In view of above content, it is necessary to provide a kind of lesser lifting body of occupied space.

A kind of lifting body comprising matrix and the jacking component being installed on the matrix, the matrix include ejection face and First side positioned at the ejection face side, the ejection face are concavely provided with installation hole, which penetrates through the first side and open Equipped with accommodating hole, which is connected to the installation hole, which includes sliding part, guiding axis and jacking part, the sliding Part is slidably installed in the first side, which is equipped with inclined guide part, and the guiding axis partial receipt is in the appearance It sets in hole and at least one end of the guiding axis is located in the guide part, which is installed in the installation hole and the accommodating hole It can be stretched out in the space of formation and by the installation hole, the jacking part and the guiding axis connection, the sliding part are moved with respect to the matrix When dynamic, which can move along the guide part, to drive the jacking part to stretch out or bounce back with respect to the matrix.

Lifting body of the invention passes through the cooperation of guiding axis and guide part, with the jacking part phase for driving with being oriented to axis connection Matrix is gone up and down, it is compact-sized, it occupies little space.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of lifting body in the embodiment of the present invention.

Fig. 2 is the partial sectional view in lifting body shown in Fig. 1.

Fig. 3 is the decomposition diagram of lifting body shown in Fig. 1.

Fig. 4 is that the jacking part of lifting body shown in Fig. 1 is in the usage state diagram of retracted state.

Fig. 5 is that the jacking part of lifting body shown in Fig. 1 is in the usage state diagram of stretching state.

Main element symbol description

Lifting body 100

Installation part 20

Fixed plate 22

Matrix 24

Ejection face 242

Installation hole 2423

First side 244

Second side 246

Accommodating hole 248

Top plate 26

Through-hole 262

Jack component 40

Sliding frame 42

Sliding part 423

Guide part 4232

Connector 425

First connector 4251

Mounting hole 4252

Second connector 4253

Guiding axis 44

Jack part 46

Shifting part 60

Cam part 62

Grip part 64

Shaft 70

Elastic component 80

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It should be noted that it can be directly on another component when component is referred to as " being fixed on " another component Or there may also be components placed in the middle.When a component is considered as " connection " another component, it, which can be, is directly connected to To another component or it may be simultaneously present component placed in the middle.When a component is considered as " being set to " another component, it It can be and be set up directly on another component or may be simultaneously present component placed in the middle.Term as used herein is " vertical ", " horizontal ", "left", "right" and similar statement for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

Referring to Fig. 1, the lifting body 100 of embodiment of the present invention includes installation part 20 and is installed on installation part 20 Jack component 40.

Referring to Fig. 2, installation part 20 includes fixed plate 22, matrix 24 and top plate 26.Matrix 24 is installed on fixed plate On 22；Top plate 26 is installed on surface of the matrix 24 far from fixed plate 22.Referring to Fig. 3, in the present embodiment, matrix 24 is substantially For rectangular block shape comprising an ejection face 242 and two first sides 244 and second side 246 being oppositely arranged, the first side Face 244 and second side 246 are located at the two sides in ejection face 242.Accommodating hole 248, accommodating hole 248 are offered inside matrix 24 Extend in a first direction and penetrate through the first side 244 and second side 246 of matrix 24.In the present embodiment, first direction is The direction of 24 transverse axis of parallel matrix.It is offered inside matrix 24 between 7 accommodating holes, 248,7 accommodating holes 248 are parallel to each other Every distribution.Recessed multiple installation holes 2423 are spaced on ejection face 242.Corresponding 7 accommodating holes 248 of multiple installation holes 2423 are divided into 7 Group.Every group of installation hole 2423 be spaced apart along the extending direction of accommodating hole 248 and each installation hole 2423 penetrate through ejection face 242 with Corresponding accommodating hole 248 is connected to.Matrix 24 is fixed in fixed plate 22 far from the surface in ejection face 242.Top plate 26 is fixed on base On the ejection face 242 of body 24.Correspond to the perforation of multiple installation holes 2423 on top plate 26 and open up multiple through-holes 262, each through-hole 262 with Corresponding installation hole 2423 is connected to.

Referring to Fig. 2 and Fig. 3, jacking component 40 includes sliding frame 42, guiding axis 44 and jacking part 46.Slider box Frame 42 is slideably installed in the outer peripheral edge between fixed plate 22 and top plate 26 and being located at matrix 24.44 partial receipt of guiding axis exists It is connect in accommodating hole 248 and with sliding frame 42.Jacking part 46 is installed in the space of the formation of accommodating hole 248 and installation hole 2423 It is interior and connect with guiding axis 44.When sliding frame 42 is mobile relative to matrix 24, guiding axis 44 is able to drive the opposite top of jacking part 46 Plate 26 stretches out or retraction.

Referring to Fig. 3, in the present embodiment, the generally rectangular frame shaped of sliding frame 42 comprising slideably set Set two sliding parts 423 and two connectors 425 between fixed plate 22 and top plate 26.Two sliding parts 423 are along second party To extension, in the present embodiment, second direction is 24 longitudinal direction of parallel matrix.Two sliding parts 423 are slidably set respectively It sets in the first side 244 and second side 246 of matrix 24.The corresponding multiple accommodating holes 248 of each sliding part 423 are equipped with more A guide part 4232 being obliquely installed.In the present embodiment, guide part 4232 is the pilot hole that perforation is provided with sliding part 423, It is appreciated that guide part 4232 can also for it is recessed in sliding part 423 towards the guide groove on 24 surface of matrix.Guiding axis 44 is corresponding Accommodating hole 248 is provided with 7, and the both ends difference portion of each guiding axis 44 is located in corresponding guide part 4232 and can be along guide part 4232 slidings.Connector 425 includes the first connector 4251 and the second connector 4253, and the first connector 4251 and second connects Part 4253 is oppositely arranged on the two sides of matrix 24 and being laterally extended along matrix 24.First connector 4251 and the second connector 4253 are separately connected the both ends of two sliding parts 423.Please refer to Fig. 2, jacks the corresponding multiple installation holes 2423 of part 46 and be arranged Have multiple, multiple jacking parts 46 interval is set on corresponding guiding axis 44.Each jacking part 46 is installed in corresponding accommodating It can stretch out in the space that hole 248 and installation hole 2423 are formed and from installation hole 2423 and through-hole 262, so that jacking part 46 exists Under the limitation of guiding axis 44 and matrix 24, it can only be moved along installation hole 2423.

Referring again to Fig. 3, sliding frame 42 is pushed to move with respect to matrix 24 for convenience of operator, lifting body 100 may be used also It further comprise shifting part 60 and elastic component 80.Shifting part 60 is connect with the first connector 4251, the both ends difference of elastic component 80 The second connector 4253 and matrix 24 are connected towards the surface of the second connector 4253.In the present embodiment, the first connector Mounting hole 4252 is opened up on 4251, and mounting hole 4252 penetrates through the first connector 4251 towards the side of matrix 24 and deviates from matrix 24 side.Shifting part 60 includes cam part 62 and the grip part 64 connecting with cam part 62.Cam part 62 can by shaft 70 It is rotationally installed on the first connector 4251.Cam part 62 towards the side of matrix 24 between shaft 70 at a distance from continuously become Change, in the present embodiment, cam part 62 towards the side of matrix 24 between shaft 70 at a distance from gradually become smaller in the counterclockwise direction. Cam part 62 wears mounting hole 4252, so that side and matrix 24 sliding contact of the cam part 62 towards matrix 24.

When assembling, firstly, matrix 24 is fixed in fixed plate 22, then, multiple jacking parts 46 are sequentially placed into accommodating In the space that hole 248 and installation hole 2423 are formed, then guiding axis 44 successively worn into corresponding jacking part 46, and makes guiding axis 44 Both ends be located in the guide part 4232 of sliding part 423.Finally, top plate 26 is connect with matrix 24, and by shifting part 60 and slide Dynamic frame 42 connects.

Referring to figure 4., when lifting body 100 is not used, guiding axis 44 is located at guide part 4232 at fixed plate 22, top It rises part 46 and does not extend out top plate 26.Referring to figure 5., lifting body 100 is in use, operator holds grip part 64 in the counterclockwise direction Rotation cam portion 62, at this time cam part 62 towards the side of matrix 24 between shaft 70 at a distance from become larger, and be greater than matrix 24 with Distance between shaft 70, since matrix 24 is motionless, so force shifting part 60 and the sliding part being attached thereto 423 towards shifting part 60 Direction sliding, thus make guiding axis 44 along guide part 4232 towards top plate 26 sliding and compression elastic piece 80 (Fig. 5 does not show), with It drives the jacking part 46 connecting with guiding axis 44 to move towards top plate 26 and finally stretches out pre-determined distance from top plate 26.Operator pine Shifting part 60 is opened, it is sliding towards the direction far from shifting part 60 that the elastic restoring force of elastic component 80 (Fig. 5 does not show) will drive sliding part 423 It is dynamic, to make guiding axis 44 slide along guide part 4232 towards fixed plate 22, to drive the jacking part 46 connecting with guiding axis 44 Opposite top plate 26 bounces back.

Lifting body 100 of the invention passes through the cooperation of guiding axis 44 and guide part 4232, is connected with driving and guiding axis 44 The jacking part 46 connect is gone up and down with respect to matrix 24, compact-sized, is occupied little space.It is led in addition, the present invention can control simultaneously multiple groups It is moved to axis 44 and jacking part 46, improves production efficiency.Each jacking part 46 is detachable, and multiple jacking parts 46 can carry out freedom Combination, so that lifting body 100 be enable to be suitable for different occasions.

It is appreciated that sliding part 423 can only be arranged one, accommodating hole 248 can only penetrate through first side 244 at this time, lead It is stretched out and is located in the guide part 4232 of guiding axis 44 by first side 244 to an end of axis 44.

It is appreciated that shifting part 60 can be omitted, an actuator can be reconnected on sliding part 423, for example, motor or Cylinder etc. drives sliding part 423 to move with respect to matrix 24 by actuator.At this point, connector 425 can be omitted, will directly drive Moving part is connect with sliding part 423.

It is appreciated that fixed plate 22 and top plate 26 can be omitted, sliding frame 42 is slideably installed in matrix 24 Side.

It is appreciated that cam part 62 towards the side of matrix 24 between shaft 70 at a distance from consecutive variations mode be not limited to The present embodiment, for example, cam part 62 towards the side of matrix 24 between shaft 70 at a distance from can also in the counterclockwise direction gradually Become larger.

It is appreciated that the quantity of the guiding axis 44 of jacking part 46 is not limited to the present embodiment, can be set according to actual needs Other numbers.

It is appreciated that elastic component 80 can be omitted, it can be by making sliding frame 42 towards the side far from shifting part 60 manually To movement.

In addition, those skilled in the art can also do other variations in spirit of that invention, certainly, these are smart according to the present invention The variation that mind is done should be all included in scope of the present invention.

Claims (9)

1. a kind of lifting body comprising matrix and the jacking component being installed on the matrix, it is characterised in that：The matrix includes Ejection face and first side positioned at the ejection face side, the ejection face are concavely provided with installation hole, the intrinsic silicon penetrate through this One side offers accommodating hole, which is connected to the installation hole, which includes sliding part, guiding axis and jacking Part, the sliding part are slidably installed in the first side, which is equipped with inclined guide part, which receives Hold in the accommodating hole and at least one end of the guiding axis is located in the guide part, the jacking part be installed in the installation hole with It can be stretched out in the space that the accommodating hole is formed and by the installation hole, the jacking part and the guiding axis connection, the sliding part is opposite When the matrix is mobile, which can move along the guide part, to drive the jacking part to stretch out or bounce back with respect to the matrix.

2. lifting body as described in claim 1, it is characterised in that：The quantity of the installation hole is multiple, multiple installation hole Extending direction along the accommodating hole is spaced apart, which corresponds to multiple installation hole and be provided with multiple, each jacking part set It is located on the guiding axis and is installed in the space that corresponding installation hole and the accommodating hole are formed.

3. lifting body as claimed in claim 2, it is characterised in that：The accommodating hole and the guiding axis be correspondingly arranged on it is multiple, Multiple accommodating hole is parallel and compartment of terrain is distributed in the matrix, and multiple installation hole corresponds to multiple accommodating hole and is divided into multiple groups, Every group of installation hole extends along corresponding accommodating hole and is connected to corresponding accommodating hole, and multiple guiding axis is respectively installed in corresponding In accommodating hole, multiple jacking part is set on corresponding guiding axis.

4. lifting body as described in claim 1, it is characterised in that：The matrix includes second side, the second side with should First side is located at the opposite sides of the matrix, which penetrates through the first side and the second side, the jacking group Part includes two sliding parts being oppositely arranged, which is slidably disposed within the first side and the second side respectively On, which opens up guide part, and the both ends of the guiding axis are stretched out by the first side and the second side respectively And it is located in corresponding guide part.

5. lifting body as claimed in claim 4, it is characterised in that：The jacking component further includes connector and shifting part, is somebody's turn to do Connector connects two sliding parts, which connects the connector, to drive the sliding part with respect to the substrate motion.

6. lifting body as claimed in claim 5, it is characterised in that：The connector includes the first connector and the second connection Part, first connector and second connector connect two sliding parts and first connector is parallel with second connector Interval setting, the shifting part include cam part and the grip part that connect with the cam part, which passes through a shaft rotationally Be installed on first connector, the cam part towards the side of matrix between the shaft at a distance from consecutive variations, and the cam Portion wears the side of first connector towards the matrix and the side away from the matrix, so that the cam part is towards the matrix Side and the matrix sliding contact.

7. lifting body as claimed in claim 6, it is characterised in that：The lifting body further includes elastic component, the elastic component One end connects second connector, and the other end of the elastic component connects the matrix and towards second connector.

8. lifting body as described in claim 1, it is characterised in that：The lifting body further includes fixed plate, and the matrix is separate The surface in the ejection face is fixed in the fixed plate, which is slidably disposed in the fixed plate.

9. lifting body as described in claim 1, it is characterised in that：The lifting body further includes top plate, which is fixed on On the ejection face of the matrix, installation hole perforation is corresponded on the top plate and opens up multiple through-holes, which can be from the through-hole It stretches out.