CN111483943B - Jacking device - Google Patents

Abstract

The invention discloses a jacking device, comprising: a fixing mechanism; the guide mechanism is connected with the fixing mechanism in a sliding mode in the vertical direction and is provided with a guide positioning structure; the jacking mechanism is arranged on the fixing mechanism and is provided with a lifting end; the supporting mechanism is arranged on the fixing mechanism and comprises a supporting sliding block and a driving assembly for driving the supporting sliding block to move; after the lifting end of the jacking mechanism jacks the guide mechanism to a preset position, the driving assembly drives the supporting sliding block to move to the position below the guide mechanism, and the lifting end of the jacking mechanism descends, so that the supporting sliding block supports the guide mechanism. The jacking device positions the transportation equipment through the guide mechanism, so that the horizontal position of a product and the horizontal position of a workbench are accurate, the product is lifted to a preset height through the jacking mechanism, and then the product is supported by the rigid support sliding block, so that the support stability and the vertical position accuracy are ensured.

Description

Jacking device

Technical Field

The invention relates to the field of battery manufacturing, in particular to a jacking device.

Background

The existing lithium battery production process needs to transfer products from one station to another station, corresponding work cannot be completed by using automatic equipment due to the fact that the size of the products is too large, the existing mode is still that a trolley is manually pushed to transfer the products, the trolley needs to be repositioned with a workbench after the products are transferred to the next station by the trolley, and if the positioning is manually completed by workers, the problems of unstable and inaccurate positioning exist, time and labor are consumed, and the production efficiency is low.

Disclosure of Invention

The invention provides a jacking device aiming at the defects in the prior art, and aims to solve the problems of unstable, inaccurate and time-consuming positioning caused by manual positioning in the process of transferring lithium battery products in the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a jacking device, comprising:

a fixing mechanism;

the guide mechanism is connected with the fixing mechanism in a sliding mode in the vertical direction and is provided with a guide positioning structure;

the jacking mechanism is arranged on the fixing mechanism and is provided with a lifting end;

the supporting mechanism is arranged on the fixing mechanism and comprises a supporting sliding block and a driving assembly for driving the supporting sliding block to move;

after the lifting end of the jacking mechanism jacks the guide mechanism to a preset position, the driving assembly drives the supporting sliding block to move to the position below the guide mechanism, and the lifting end of the jacking mechanism descends, so that the supporting sliding block supports the guide mechanism.

Preferably, the guide mechanism is provided with a top plate; the guide positioning structure is arranged at the upper end of the top plate.

Preferably, the guiding and positioning structure is a positioning pin and a guide groove.

Preferably, the bottom of the guide mechanism is provided with a guide shaft; the fixing mechanism is provided with a guide sleeve or a guide hole which is connected with the guide shaft in a sliding way.

Preferably, the guide mechanism is provided with a receiving hole which is positioned at the inner side of the guide shaft and is used for penetrating through the support sliding block; the supporting slide block is provided with a through hole for penetrating through the guide shaft.

Preferably, the number of the supporting mechanisms is two; the number of the jacking mechanisms is two and the jacking mechanisms are respectively and symmetrically arranged on the outer side of the supporting mechanism.

Preferably, the jacking device further comprises a supporting plate arranged on the fixing mechanism; the driving assembly is arranged on the supporting plate and drives the supporting slide block to slide inwards or outwards along the supporting plate.

Preferably, the bottom of the supporting slide block is also provided with a supporting pad.

Preferably, the jacking device further comprises a first limiting structure arranged at the front end of the fixing mechanism.

Preferably, the jacking device further comprises an inductive switch for detecting the transportation equipment.

Compared with the prior art, the embodiment of the application mainly has the following beneficial effects:

the jacking device provided by the invention adopts the fixing mechanism to be fixedly connected with the ground so as to avoid inaccurate positioning caused by uneven ground, the upper part of the fixing mechanism is vertically and slidably connected with the guide mechanism, the guide mechanism is provided with the guide positioning structure, after a trolley for transferring products enters the jacking device, the trolley is horizontally positioned with the jacking device through the guide positioning structure, after the horizontal positioning is finished, the jacking mechanism jacks up the guide mechanism, because the guide mechanism and the fixing mechanism only slide in the vertical direction, the trolley only changes the position in the vertical direction, after the lifting end of the jacking mechanism is jacked to the preset position, the driving assembly drives the supporting slide block to move to the lower part of the guide mechanism, the lifting end of the jacking mechanism descends, so that the supporting slide block supports the guide mechanism, and the guide mechanism is positioned in the vertical direction through the supporting slide block, and then accomplish the location of dolly in vertical direction to ensure the butt joint of dolly and workstation accurate, so that the processing of follow-up product. Adopt the support slider to carry out the outrigger to guiding mechanism after climbing mechanism's the lift end jacking, also can guarantee the stability of dolly vertical positioning back support to avoid jacking device because of the positioning influence that other uncertain reasons brought. The process from the entering of the trolley for transporting the product into the jacking device to the completion of positioning is quick, accurate and stable, and the production efficiency is improved.

Furthermore, the bottom of the guide mechanism is provided with a guide shaft, the fixing mechanism is provided with a guide sleeve or a guide hole which is connected with the guide shaft in a sliding manner, and the stability of the guide mechanism and the fixing mechanism in sliding in the vertical direction is ensured through the matching of the guide shaft and the guide sleeve or the guide hole.

Furthermore, the guide mechanism is provided with an accommodating hole which is located on the inner side of the guide shaft and used for penetrating through the supporting slide block, the supporting slide block is provided with a through hole used for penetrating through the guide shaft, after the jacking device jacks the guide mechanism, the supporting slide block is withdrawn from the accommodating hole and then is driven by the driving assembly to move to the lower part of the entity part of the guide mechanism for supporting, and the supporting slide block is accommodated on the inner side of the guide mechanism, so that the integral structure is compact.

Furthermore, the bottom of the supporting slide block is also provided with a supporting pad so as to reduce the friction coefficient between the supporting slide block and the supporting plate and reduce the abrasion of the supporting slide block.

Furthermore, the jacking device still including the inductive switch who is used for detecting the haulage equipment, whether put in place through inductive switch detection dolly to control jacking device carries out the jacking, can realize automated control, improve production efficiency.

Drawings

In order to illustrate the solution of the present application more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a perspective view showing the overall structure of a jacking apparatus according to the present invention.

Fig. 2 is a side view of a jacking device of the present invention.

Fig. 3 is a perspective view of a cart in accordance with the present invention.

Reference numerals:

1 jacking device 100 fixing mechanism

110 upper support 120 lower support

121 supporting leg cup 122 connecting leg

130 connecting piece 140 guide sleeve

200 guide mechanism 210 guiding and positioning structure

211 positioning pin 2111 fixing seat

2112 elastic seat 2113 pin body

212 guide channel 213 guide plate

214 bearing table 220 top plate

230 guide shaft 240 receiving bore

300 jacking mechanism 310 lifting end

400 support mechanism 410 supports slider

411 through hole 412 support part

413 bearing part 415 support pad

420 drive assembly 430 support plate

440 second limiting structure 500 first limiting structure

6 Trolley 610 frame

611 product placing part 612 pushing handle

613 wheel 614 carrier bar

615 boss 700 inductive switch

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The invention provides a jacking device, comprising: the device comprises a fixing mechanism, a guide mechanism, a jacking mechanism arranged on the fixing mechanism and a supporting mechanism arranged on the fixing mechanism. The guide mechanism is connected with the fixing mechanism in a sliding mode in the vertical direction, and a guide positioning structure is arranged on the guide mechanism. The jacking mechanism is provided with a lifting end, and the supporting mechanism comprises a supporting slide block and a driving assembly for driving the supporting slide block to move. After the lifting end of the jacking mechanism jacks the guide mechanism to a preset position, the driving assembly drives the supporting sliding block to move to the position below the guide mechanism, and the lifting end of the jacking mechanism descends, so that the supporting sliding block supports the guide mechanism.

An embodiment of the present invention provides a jacking device, as shown in fig. 1, the jacking device 1 includes: the device comprises a fixing mechanism 100, a guide mechanism 200, a jacking mechanism 300 arranged on the fixing mechanism 100, and a supporting mechanism 400 arranged on the fixing mechanism 100, wherein the guide mechanism 200 is connected with the fixing mechanism 100 in a sliding mode in the vertical direction.

During specific implementation, the guiding mechanism 200 is provided with a guiding and positioning structure 210, the guiding mechanism 200 is provided with a top plate 220, the guiding and positioning structure 210 is arranged at the upper end of the top plate 220, and the guiding and positioning structure 210 comprises a positioning pin 211 and a guide groove 212. The positioning pins 211 comprise a fixed seat 2111, an elastic seat 2112 arranged on the fixed seat 2111 and a pin body 2113 fixed on the elastic seat 2112, the top end of the pin body 2113 protrudes upwards, the bottom of the transportation equipment is also provided with a positioning groove matched with the pin body 2113, when the transportation equipment enters, the bottom of the transportation equipment firstly presses the elastic seat 2112 to enable the elastic seat 2112 and the pin body 2113 to move downwards, after the transportation equipment stops against the first limiting structure 500, the elastic seat 2112 and the pin body 2113 reset upwards, the pin body 2113 is inserted into the positioning groove of the transportation equipment to form a positioning relation, the number of the positioning pins 211 is two, the positioning pins are respectively positioned on two sides of the guide plate 213, and in order to keep balance, a bearing platform 214 is further arranged on the opposite side of the positioning pins 211 relative to the guide plate 213. The guide groove 212 is composed of two oppositely arranged guide plates 213, the entering direction of the guide groove 212 is outwards opened to form a transition section, the guide plates 213 are fixed on the top plate 220 through two L-shaped connecting sheets, the entering end of the guide groove 212 is the place where the transportation equipment starts to enter the jacking device 1, and the guide groove 212 is mainly used for guiding the transportation equipment after entering the jacking device 1, so that the arranging direction of the guide groove 212 is consistent with the entering direction of the transportation equipment into the jacking device 1, and meanwhile, the guide groove 212 can also be used for positioning the transportation equipment in the direction perpendicular to the entering direction of the jacking device 1.

The jacking device 1 further comprises a first limiting structure 500 installed at the front end of the fixing mechanism 100, and the front end of the fixing mechanism 100 is the tail end of the transportation equipment in the direction of driving into the jacking device 1. After the transportation equipment, namely the trolley 6 enters the jacking device 1, the trolley 6 is guided through the guide groove 212, when the trolley 6 reaches the first limiting structure 500, the first limiting structure 500 at the front end of the fixing mechanism 100 limits the trolley 6, and the positioning pin 211 and the guide groove 212 also limit the trolley 6 at the moment so as to ensure that the trolley 6 cannot move after being jacked and separated from the first limiting structure 500.

In an implementation, the fixing mechanism 100 includes an upper bracket 110 and a lower bracket 120, the upper bracket 110 and the lower bracket 120 are frame-shaped structures, and the upper bracket 110 and the lower bracket 120 are fixedly connected through a connecting member 130. The first limiting structure 500 is fixed at the front end of the lower bracket 120, the first limiting structure 500 is a baffle, the supporting mechanism 400 is installed at the upper end of the upper bracket 110, the supporting foot cup 121 is arranged at the bottom end of the lower bracket 120, the connecting foot 122 fixed with the ground is further arranged on the end surface of the lower bracket 120, and the connecting foot 122 is connected with the ground through a ground screw, so that a fixed position relation is formed between the connecting foot 122 and the ground, position movement of the jacking device 1 can not occur during working, and positioning accuracy is ensured.

During the concrete implementation, the jacking device 1 further comprises an inductive switch 700 for detecting the transportation equipment, and the inductive switch 700 is installed at the front end of the first limiting structure 500.

As shown in fig. 2, the jacking mechanism 300 is provided with a lifting end 310, the jacking mechanism 300 is an air cylinder or an oil cylinder, and the number of the jacking mechanisms 300 is two and the two jacking mechanisms are respectively and symmetrically arranged on the outer side of the supporting mechanism 400 to ensure balance during jacking. The jacking mechanism 300 is detachably mounted on the lower bracket 120, and can be replaced according to specific needs, so that the jacking height can be selected and set according to different requirements.

In specific implementation, the bottom of the guiding mechanism 200 is provided with a guiding shaft 230, the fixing mechanism 100 is provided with a guiding sleeve 140 slidably connected with the guiding shaft 230, and the guiding sleeve 140 is fixed on the upper bracket 110. The number of the guide shafts 230 is 4 and the guide shafts are distributed in a rectangular shape, and the guide shafts 230 are matched with the guide sleeve 140, so that the stability of the guide mechanism 200 and the fixing mechanism 100 in sliding in the vertical direction is ensured.

In other embodiments, the fixing mechanism 100 may be provided with a guide hole slidably coupled to the guide shaft 230 for sliding engagement.

In an implementation, the supporting mechanism 400 includes a supporting block 410 and a driving unit 420 for driving the supporting block 410 to move, and the driving unit 420 is an air cylinder. Wherein, each supporting mechanism 400 comprises two supporting sliders 410 symmetrically arranged at two sides of the guiding plate 213. The guide mechanism 200 is provided with a receiving hole 240 (refer to fig. 1) at an inner side of the guide shaft 230 for passing through the support slider 410, and the support slider 410 is provided with a through hole 411 for passing through the guide shaft 230. When the jacking device 1 is not jacked, the supporting slide block 410 is accommodated in the accommodating hole 240, so that the overall structure is compact, and the supporting slide block 410 does not interfere with the trolley 6 entering the jacking device 1. The jacking device 1 further comprises a supporting plate 430 for mounting the supporting mechanism 400, the driving assembly 420 is mounted on the supporting plate 430, the supporting slider 410 is slidably connected to the supporting plate 430, the driving assembly 420 drives the supporting slider 410 to slide inwards or outwards along the supporting plate 430, and the supporting plate 430 is fixed at the upper end of the upper bracket 110 of the fixing mechanism 100. The number of the supporting mechanisms 400 is two and the two supporting mechanisms are symmetrically arranged to ensure the balance of the supporting slider 410 when supporting the guiding mechanism 200.

In specific implementation, the through hole 411 of the supporting slider 410 for passing through the guide shaft 230 is a oval hole, the supporting slider 410 is sleeved on the periphery of the guide shaft 230, and the supporting slider 410 is provided with the through hole 411 for passing through the guide shaft 230, so that the supporting slider 410 does not interfere with the guide shaft 230 during movement. The supporting block 410 is provided with a supporting portion 412 for supporting the guiding mechanism 200, and a bearing portion 413, wherein the guiding mechanism 200 is supported by the supporting portion 412 when the guiding mechanism 200 is lifted off the ground, and the height of the supporting portion 412 determines the final position of the cart 6. When the guide mechanism 200 is not lifted up, the guide mechanism 200 is supported by the bearing part 413, and at this time, only the support part 412 of the support slider 410 is accommodated in the accommodation hole 240.

In specific implementation, the bottom of the supporting slider 410 is further provided with a supporting pad 415 to reduce the friction coefficient between the supporting slider 410 and the supporting plate 430, and at the same time, to reduce the wear of the supporting slider 410.

In specific implementation, the supporting mechanism 400 further includes a second limiting structure 440 fixed on the supporting plate 430, and the second limiting structure 440 is a stop block for supporting the sliding block 410 to slide and limit. The second limit structures 440 are disposed between the support slider 410 and the driving assembly 420, and when the number of the support mechanisms 400 is two, the number of the second limit structures 440 is also two.

During the concrete implementation, inductive switch 700 is connected with drive assembly 420 electricity, and when the transportation equipment was that dolly 6 drove into jacking device 1 and reachd first limit structure 500's position after the direction of guide slot 212, locating pin 211 carried on spacingly to dolly 6, and inductive switch 700 can detect to have dolly 6 to get into this moment, control drive assembly 420 work promptly, can realize automatic work.

In other embodiments, when the guide mechanism 200 is not lifted, the guide mechanism 200 may be supported by the support plate 430 while the support slider 410 is entirely received in the receiving hole 240.

As shown in fig. 3, the embodiment of the present invention further provides a trolley 6, where the trolley 6 includes a frame 610, a receiving space for receiving the jacking device 1 is provided inside the frame 610, a product placing portion 611 is provided at the top of the frame 610, a pushing handle 612 is provided at the upper portion of one end of the frame 610, wheels 613 and a carrying rod 614 are provided at the bottom of the frame 610. The trolley 6 carrying rod 614 is used for contacting with the top plate 220 of the guide mechanism 200, so that when the jacking device 1 is jacked up, the trolley 6 can be jacked up together with the guide mechanism 200.

In a specific implementation, a protruding portion 615 for slidably connecting with the guide groove 212 is further disposed below the frame 610. When the trolley 6 enters the jacking device 1, the convex part 615 is in contact with the transition section on the guide groove 212 and then enters the guide groove 212. The height of the trolley 6 is determined according to the height of the guiding mechanism 200 when the trolley is not jacked, so that the trolley 6 can smoothly enter the jacking device 1, and after the jacking device 1 jacks, the trolley 6 needs to be separated from the ground.

In specific implementation, a positioning groove for matching with the positioning pin 211 of the guide mechanism 200 is further arranged below the frame 610.

During the concrete implementation, in order to ensure that the trolley 6 enters the jacking device 1 and reaches the first limit structure 500, the trolley can be detected by the inductive switch 700, and the inductor which is convenient for the inductive switch 700 to detect can be installed at the fixed part of the trolley 6.

In particular, the inductive switch 700 may be replaced by a mechanical travel switch.

The working principle of the jacking device 1 is as follows:

when the cart 6 is not inserted into the lifting apparatus 1, the support mechanism 400 is in a lowered state, the guide mechanism 200 is supported by the support mechanism 400, the support portion 412 supporting the slider 410 is received in the receiving hole 240 of the guide mechanism 200, and the bearing portion 413 supports the top plate 220 of the guide mechanism 200.

When a worker pushes the trolley 6 to the jacking device 1, the protrusion 615 below the frame 610 reaches the first limiting structure 500 under the guiding effect of the guide groove 212, the positioning pin 211 of the guide mechanism 200 positions the trolley 6 to ensure the accurate positioning of the trolley 6 and the guide mechanism 200, at this time, the inductive switch 700 can detect that the trolley 6 enters the jacking device 1, the inductive switch 700 controls the jacking mechanism 300 to jack the guide mechanism 200, the trolley 6 loaded on the guide mechanism 200 is also jacked together with the guide, and in the process that the guide mechanism 200 is jacked gradually, the supporting part 412 supporting the sliding block 410 also slowly separates from the accommodating hole 240.

After the guide mechanism 200 is lifted to the predetermined position, the support slider 410 is completely withdrawn from the receiving hole 240 and is located below the top plate 220 of the guide mechanism 200 to ensure that the support slider 410 has a space to move, and at this time, the driving assembly 420 drives the support slider 410 to move outward, so that the support portion 412 of the support slider 410 moves to the outer edge of the guide shaft 230. The preset position is determined according to the height position required by the butt joint of the trolley and the working platform.

The upper part of the supporting portion 412 is a solid part of the top plate 220 of the guide mechanism 200, the lifting end of the lifting mechanism 300 descends, the guide mechanism 200 and the trolley 6 also descend together until the top plate 220 of the guide mechanism 200 contacts the supporting portion 412 of the supporting slider 410, at this time, the guide mechanism 200 is separated from the lifting end 310 of the lifting mechanism 300, the guide mechanism 200 is supported by the rigid supporting slider 410, the positions of the guide mechanism 200 and the trolley 6 in the vertical direction do not move, and the lifting end 310 of the lifting mechanism 300 continues to descend to the initial position.

After the product on the trolley 6 is finished at the working position, the lifting end 310 of the jacking mechanism 300 is lifted up again and lifts the guide mechanism 200 upwards, at this time, the driving assembly 420 drives the supporting slider 410 to retract, so that the supporting portion 412 of the supporting slider 410 is located below the accommodating hole 240 of the guide mechanism 200, then, the lifting end 310 of the jacking mechanism 300 descends, the guide mechanism 200 also descends, and as the supporting portion 412 of the supporting slider 410 is already located below the accommodating hole 240, the guide mechanism 200 is no longer supported by the supporting portion 412 in the descending process, and when the lifting end 310 of the jacking mechanism 300 retracts to the initial position, the trolley 6 is in contact with the ground.

In the invention, because the jacking mechanism 300 adopts the air cylinder or the hydraulic cylinder, if the situation that air pressure is unstable or oil pressure is insufficient exists in the jacking process or after the jacking of the jacking mechanism 300 is finished, the position of the trolley 6 can be deflected, and the trolley 6 or a product can be seriously damaged, therefore, the rigid supporting slide block 410 is adopted for supporting after the lifting end 310 of the jacking mechanism 300 is jacked, so as to ensure the stability when the guide mechanism 200 supports the trolley 6.

It is to be understood that the above-described embodiments are merely illustrative of some, but not restrictive, of the broad invention, and that the appended drawings illustrate preferred embodiments of the invention and do not limit the scope of the invention. This application is capable of embodiments in many different forms and the embodiments are provided so that this disclosure will be thorough and complete. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims (8)

1. A jacking device, comprising:

a fixing mechanism;

the guide mechanism is connected with the fixing mechanism in a sliding mode in the vertical direction and is provided with a guide positioning structure; the guide mechanism is provided with a top plate, the guide positioning structure is arranged at the upper end of the top plate, and the guide positioning structure is a positioning pin and a guide groove; the positioning pin comprises a fixed seat, an elastic seat arranged on the fixed seat and a pin body fixed on the elastic seat, and the top end of the pin body protrudes upwards; the number of the positioning pins is two, and bearing platforms are arranged on the opposite sides of the positioning pins relative to the guide grooves;

the jacking mechanism is arranged on the fixing mechanism and is provided with a lifting end;

the supporting mechanism is arranged on the fixing mechanism and comprises a supporting sliding block and a driving assembly for driving the supporting sliding block to move;

after the lifting end of the jacking mechanism jacks the guide mechanism to a preset position, the driving assembly drives the supporting sliding block to move to the position below the guide mechanism, and the lifting end of the jacking mechanism descends, so that the supporting sliding block supports the guide mechanism.

2. The jacking device of claim 1, wherein a guide shaft is provided at the bottom of the guide mechanism; the fixing mechanism is provided with a guide sleeve or a guide hole which is connected with the guide shaft in a sliding way.

3. The jacking device according to claim 2, wherein the guide mechanism is provided with a receiving hole which is positioned inside the guide shaft and is used for penetrating through the support sliding block; the supporting slide block is provided with a through hole for penetrating through the guide shaft.

4. Jacking device according to claim 2, wherein the number of said supporting means is two; the number of the jacking mechanisms is two and the jacking mechanisms are respectively and symmetrically arranged on the outer side of the supporting mechanism.

5. The jacking device of claim 1, further comprising a support plate mounted on the fixing mechanism; the driving assembly is arranged on the supporting plate and drives the supporting slide block to slide inwards or outwards along the supporting plate.

6. The jacking device as claimed in claim 5, wherein the bottom of the supporting slide block is further provided with a supporting pad.

7. The jacking device of claim 1, further comprising a first stop structure mounted to a front end of the securing mechanism.

8. The jacking device of claim 1, further comprising an inductive switch for detecting transport equipment.

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