CN208539013U - The battery hoisting mechanism of battery chip mounter - Google Patents

Abstract

The utility model embodiment provides a kind of battery hoisting mechanism of battery chip mounter, including being docked with external transport for will be promoted along the battery semi-finished product that incline track moves and transfer to the lifting assembly in subsequent handling transmission track with the incline track that guides battery semi-finished product to roll or slide automatically under the effect of gravity and at the bottom end outlet of incline track, lifting assembly includes upper belt-wheel, lower belt wheel, the elevator belt being set around between upper belt-wheel and lower belt wheel, it is used to carry the microscope carrier of battery semi-finished product set on elevator belt outer surface and the power unit for driving elevator belt circulation to advance, one in both upper belt-wheel and lower belt wheel is driving wheel and another is driven wheel, power unit is connected with driving wheel and drives elevator belt circulation to advance by driving driving wheel rotation.The utility model embodiment can be such that battery chip mounter preferably docks with external transport, and incline track also has temporary function, the defect that can effectively avoid battery semi-finished product efficiency of supply low.

Description

The battery hoisting mechanism of battery chip mounter

Technical field

The utility model embodiment is related to battery patch device technical field, more particularly to a kind of electricity of battery chip mounter Pond hoisting mechanism.

Background technique

In cell production process, battery chip mounter can be usually applied to realize in the progress of an end face of battery semi-finished product Patch operation.Due to the factor of various aspects such as designing, assembling, frequently can lead in same assembly line, the patch of battery chip mounter There are certain differences in height for the height of the conveyer belt of the height and battery chip mounter feed side of piece station, and lead to battery semi-finished product Transmission cannot be realized well.In addition, temporary storage mechanism is had no inside existing battery chip mounter come temporarily store it is further amounts of to The battery semi-finished product of patch, and carry out feed by the conveyer belt on assembly line merely and be easy to appear feed not in time and in patch Disconnected situation seriously affects the patch efficiency of battery chip mounter.

Utility model content

The utility model embodiment technical problems to be solved are, provide a kind of battery elevator of battery chip mounter Structure, so that energy is smooth, efficiently realizes feed.

In order to solve the above technical problems, the utility model embodiment uses following technical scheme: a kind of battery chip mounter Battery hoisting mechanism, including dock with external transport to guide battery semi-finished product to roll or slide automatically under the effect of gravity Incline track and be set at the bottom end outlet of incline track for will the battery that be moved along the incline track partly at Product are promoted and transfer to the lifting assembly in the subsequent handling transmission track of desired height position, and the lifting assembly includes Upper belt-wheel positioned at a high position, the elevator belt being set around between upper belt-wheel and lower belt wheel, is set to promotion at the lower belt wheel positioned at low level It is used to carry the microscope carrier of battery semi-finished product with outer surface and the power unit for driving the elevator belt circulation to advance, it is described One in both upper belt-wheel and lower belt wheel is driving wheel and another is driven wheel, and the power unit is connected simultaneously with driving wheel Elevator belt circulation is driven to advance by driving driving wheel rotation.

Further, the incline track is the track that from top to bottom and repeatedly left and right reverse snapback extends.

Further, the incline track includes surrounding the length formed by two blocks of parallel side plates and two pieces of parallel end plates Cube chamber and muti-piece are located at the intracavitary track bottom that the rectangular body cavity is separated to form to the track that repeatedly turnover extends of cuboid Plate, it is abutment end that each sole-plate, which includes positioned at the abutment end of opposite end and free end, the top surface of each sole-plate, The high and low inclined-plane for sliding or rolling automatically under the effect of gravity for battery semi-finished product in free end, and each sole-plate successively with Abutment end alternately leans for opposite with two end plates one piece, and the free end of most next piece sole-plate is lower than the one of face One piece of end plate of the root edge of block end plate and the bottom end outlet for forming incline track, the free end of remaining each sole-plate and face it Between formed with preset distance and drop down onto whereabouts on next sole-plate mouthful for battery semi-finished product.

Further, the two sides of the sole-plate are individually fixed on two blocks of parallel side plates.

Further, the sole-plate is the clapboard that side is in isosceles triangle.

Further, whether be provided at the bottom end outlet of the incline track at the detection bottom end opening has battery half The sensor of finished product, the detection signal enabling or stop that the power unit of the lifting assembly is generated and transmitted according to the sensor Only.

Further, the ascent stage of the elevator belt is towards the incline track bottom end outlet and the incline track bottom end It exports close to the bottom of the ascent stage.

Further, the width of the elevator belt be less than battery semi-finished product length, the two of the ascent stage of the elevator belt Side is also respectively provided with the block for keeping out battery semi-finished product.

Further, the both side plate extends beyond the end plate of local terminal by one end of lifting assembly and forms outer installation sky Between, the upper belt-wheel and lower belt wheel and elevator belt are mounted in the outer installation space, the pivot of the upper belt-wheel and lower belt wheel Axis is hubbed on both side plate.

Further, the convex of limit battery semi-finished product is also formed at the one side edge of the separate elevator belt of the microscope carrier Rib.

By adopting the above technical scheme, the utility model embodiment at least has the advantages that the utility model is implemented Example is used to dock external transport to receive the battery semi-finished product that conveying comes by setting incline track, and again by promotion group The battery semi-finished product being moved at the bottom end outlet of incline track along incline track are promoted to desired height position thus will by part Battery semi-finished product transfer in subsequent handling transmission track, and battery chip mounter can be made preferably to fill with the transmission on assembly line It sets and is docked, and incline track also has certain temporary function, a certain number of battery semi-finished product can be stored in advance, And it can effectively avoid the defect that battery semi-finished product efficiency of supply is low in the prior art.

Detailed description of the invention

Fig. 1 is the stereoscopic-state signal of an alternative embodiment of the battery hoisting mechanism of the utility model battery chip mounter Figure.

Fig. 2 is that one block of side plate is removed in an alternative embodiment of the battery hoisting mechanism of the utility model battery chip mounter When schematic perspective view.

Fig. 3 is that one block of side plate is removed in an alternative embodiment of the battery hoisting mechanism of the utility model battery chip mounter When schematic side view.

Fig. 4 is to pass in an alternative embodiment of the battery hoisting mechanism of the utility model battery chip mounter with subsequent handling Send the schematic perspective view of orbital docking.

Specific embodiment

The utility model is described in further detail in the following with reference to the drawings and specific embodiments.It should be appreciated that below Illustrative examples and explanation are only used to explain the utility model, be not intended to limit the scope of the present invention, moreover, not rushing In the case where prominent, the feature in the embodiments of the present invention and embodiment can be combined with each other.

As shown in Figures 1 to 4, the battery hoisting mechanism of a kind of battery chip mounter provided by the embodiment of the utility model, packet It includes and dock with external transport (not shown go out) to guide battery semi-finished product 5 to roll or slide oblique automatically under the effect of gravity Face track 1 and be set at the bottom end outlet 10 of incline track 1 for will the battery that be moved along the incline track 1 partly at Product 5 are promoted and transfer to the lifting assembly 2 in the subsequent handling transmission track 6 of desired height position.

The lifting assembly 2 includes the upper belt-wheel 20 positioned at a high position, the lower belt wheel 22 positioned at low level, is set around upper belt-wheel 20 Elevator belt 24 between lower belt wheel 22, be set to 24 outer surface of elevator belt for carry battery semi-finished product 5 microscope carrier 26 and For driving the power unit 28 of the circulation of elevator belt 24 traveling, one in 22 the two of the upper belt-wheel 20 and lower belt wheel is Driving wheel and another be driven wheel, the power unit 28 be connected with driving wheel and by drive driving wheel rotate drive mentions The circulation of band 24 is risen to advance.

The utility model embodiment by setting incline track 1 come dock external transport with receive conveying come battery Semi-finished product 5, and again by lifting assembly 2 will be moved to along incline track 1 battery at the bottom end outlet 10 of incline track 1 half at Product 5 are promoted to desired height position to transfer to battery semi-finished product 5 in subsequent handling transmission track 6, can make battery Chip mounter is preferably docked with the transmission device on assembly line, and incline track 1 also has certain temporary function, can To store a certain number of battery semi-finished product in advance, and it can effectively avoid battery semi-finished product efficiency of supply in the prior art low Defect.

In an alternative embodiment of the utility model, the incline track 1, which is that left and right is reversed from top to bottom and repeatedly, to be turned Roll over the track extended.The present embodiment can effectively extend 1 length of incline track by repeatedly left and right turnover extending design, improve temporary Deposit capacity.

In an alternative embodiment of the utility model, the incline track 1 includes by two pieces of parallel side plates 11,12 and Two pieces of parallel end plates 13,14 surround the rectangular body cavity to be formed and muti-piece is located at that cuboid is intracavitary to separate the rectangular body cavity The sole-plate 15 for the track that repeatedly turnover extends is formed, each sole-plate 15 includes the abutment end 150 positioned at opposite end With free end 152, the top surface of each sole-plate 15 is 150 height of abutment end and free end 152 is low so that battery semi-finished product 5 exist The inclined-plane 154 for sliding or rolling automatically under gravity, and each sole-plate 15 is successively alternately held with two pieces with abutment end 150 It leans for opposite one piece in plate 13,14, the free end 152 of most next piece sole-plate 15 is lower than one piece of end plate 14 of face Root edge and the bottom end outlet 10 for forming incline track 1, the free end 152 of remaining each sole-plate 15 and one piece of end plate of face 13, the whereabouts mouthful 16 dropped down on next sole-plate 15 for battery semi-finished product 5 is formed between 14 with preset distance.This implementation Example cooperatively forms incline track 1 by using side plate 11,12, end plate 13,14 and sole-plate 15, and structure is simple, is easy to Processing and assembling, can be effectively reduced equipment cost.

In an alternative embodiment of the utility model, the two sides of the sole-plate 15 are individually fixed in described two pieces On parallel side plate 11,12.The present embodiment, can by the way that the two sides of sole-plate 15 are fixed on corresponding side plate 11,12 With ease of assembly, furthermore, it is possible to which easily the side plate of wherein side is removed to safeguard to 1 internal structure of incline track.

In an alternative embodiment of the utility model, the sole-plate is the clapboard that side is in isosceles triangle. The present embodiment is by being designed as the clapboard that side is in isosceles triangle for sole-plate, and not only top surface is inclined-plane, but also bottom surface And inclined-plane and the channel that is adapted to the height of battery semi-finished product of height can be cooperatively formed with the top surface of next sole-plate, keep away Exempt from battery semi-finished product to stack in channel.

Detection is provided at another alternative embodiment of the utility model, the bottom end outlet 10 of the incline track 1 Whether the sensor 3 of battery semi-finished product 5 is had at the bottom end opening 10, and the power unit 28 of the lifting assembly 2 is according to described The generation of sensor 3 and the detection signal enabling transmitted or stopping.When it is implemented, when sensor 3 has detected battery semi-finished product 5 When, the detection signal of generation starts the power unit 28 for making lifting assembly 2, and the promotion conveying for carrying out battery semi-finished product is dynamic Make, and when battery semi-finished product 5 have been not detected in sensor 3, then stop generating and exporting (the no detection signal output of detection signal Itself also it is considered as generating and outputing a kind of detection signal of special shape), or another detection signal is generated, and mention When the power unit 28 for rising component 2 fails to receive detection signal or receive another detection signal, i.e., it can stop moving Make.Power unit 28 can be realized using servo motor equal power device, and it is straight by deceleration mechanism to can be servo motor Driving driving wheel is connect, is also possible to drive indirectly by conventional gear trains such as gear drive, tape handlers again Dynamic driving wheel.The present embodiment more can accurately realize enhancing action, avoid hoisting mechanism need not by setting sensor 3 The idle running wanted, it is more energy saving.

In another alternative embodiment of the utility model, ascent stage of the elevator belt 24 is towards the incline track 1 The bottom end outlet and bottom end outlet of the incline track 1 10 is close to the bottom of the ascent stage.The present embodiment is by by elevator belt 24 ascent stage is towards 1 bottom end outlet of incline track and the bottom end outlet 10 of the incline track 1 is close to the ascent stage Bottom, so as to easily will from bottom end outlet 10 come out battery semi-finished product one by one be promoted, and can effectively benefit With the upward stroke of elevator belt 24, keep the topology layout of hoisting mechanism more compact.

In an alternative embodiment of the utility model, the width of the elevator belt 24 is less than the length of battery semi-finished product 5, The two sides of the ascent stage of the elevator belt 24 are also respectively provided with the block 29 for keeping out battery semi-finished product 5.The present embodiment is logical It crosses the width design of elevator belt 24 at the length for being less than battery semi-finished product 5, so as to easily hold battery semi-finished product 5 Middle section is promoted, and when battery semi-finished product 5 are transferred to subsequent handling transmission track 6, subsequent handling transmission track 6 into Material end is corresponding to set a recess 60 for the insertion of 24 top of elevator belt, then promotes the part by both ends of battery semi-finished product 5 in place It will directly be carried by 60 two sides of recess of subsequent handling transmission track 6 and realize battery semi-finished product 5 and turn in different interorbitals It moves, and block 29 is set, on the one hand can withstand the battery semi-finished product 5 moved along incline track 1, avoid directly impacting Elevator belt 24 influences the smoothness of the operating of hoisting mechanism, on the other hand, can also lean on two to battery semi-finished product 5 by block 29 End is positioned, and tilt battery semi-finished product 5 will not in lifting process.

The also shape at an alternative embodiment of the utility model, the one side edge of the separate elevator belt 24 of the microscope carrier 26 At the fin 260 for having limit battery semi-finished product 5.The present embodiment can limit battery semi-finished product by setting fin 260 well 5, avoid the battery semi-finished product 5 in lifting process from sliding from microscope carrier 26.

The embodiments of the present invention are described above in conjunction with attached drawing, but the utility model is not limited to The specific embodiment stated, the above mentioned embodiment is only schematical, rather than restrictive, this field it is common Technical staff is not departing from the utility model aims and scope of the claimed protection situation under the enlightenment of the utility model Under, many forms can be also made, these are belonged within the protection of the utility model.

Claims (10)

1. a kind of battery hoisting mechanism of battery chip mounter, it is characterised in that: the battery hoisting mechanism includes transmitting with outside Device docks the incline track to guide battery semi-finished product to roll or slide automatically under the effect of gravity and is set to incline track Bottom end outlet at for the battery semi-finished product moved along the incline track to be promoted and are transferred to positioned at predetermined altitude Lifting assembly in the subsequent handling transmission track of position, the lifting assembly include positioned at high-order upper belt-wheel, are located at low level Lower belt wheel, the promotion that is set around between upper belt-wheel and lower belt wheel be set to elevator belt outer surface for carrying battery semi-finished product Microscope carrier and power unit for driving elevator belt circulation to advance, one in both the upper belt-wheel and lower belt wheel is Driving wheel and another be driven wheel, the power unit be connected with driving wheel and by driving driving wheel rotate drive promotion Band circulation is advanced.

2. the battery hoisting mechanism of battery chip mounter as described in claim 1, which is characterized in that the incline track is from upper And track lower and that repeatedly left and right reverse snapback extends.

3. the battery hoisting mechanism of battery chip mounter as claimed in claim 2, which is characterized in that the incline track include by Two blocks of parallel side plates and two pieces of parallel end plates surround the rectangular body cavity to be formed and muti-piece be located at that cuboid is intracavitary will be described Rectangular body cavity is separated to form the sole-plate for the track that repeatedly turnover extends, and each sole-plate includes supporting positioned at opposite end By end and free end, the top surface of each sole-plate is abutment end height and free end is low so that battery semi-finished product are in gravity The lower automatic inclined-plane slided or roll, and each sole-plate is successively with the abutment end alternately one piece phase opposite with two end plates Against the bottom end that the free end of most next piece sole-plate is lower than the root edge of one piece of end plate of face and forms incline track goes out Mouthful, there is preset distance between the free end of remaining each sole-plate and one piece of end plate of face and formed and fallen for battery semi-finished product Whereabouts mouthful on to next sole-plate.

4. the battery hoisting mechanism of battery chip mounter as claimed in claim 3, which is characterized in that the two sides of the sole-plate Face is individually fixed on two blocks of parallel side plates.

5. the battery hoisting mechanism of battery chip mounter as claimed in claim 3, which is characterized in that the sole-plate is side In the clapboard of isosceles triangle.

6. the battery hoisting mechanism of battery chip mounter as described in claim 1, which is characterized in that the bottom end of the incline track Exit is provided with the sensor for detecting and whether having battery semi-finished product at the bottom end outlet, the power unit of the lifting assembly The detection signal enabling for generating and transmitting according to the sensor or stopping.

7. the battery hoisting mechanism of battery chip mounter as described in claim 1, which is characterized in that the ascent stage of the elevator belt Towards the incline track bottom end outlet and the incline track bottom end outlet is close to the bottom of the ascent stage.

8. the battery hoisting mechanism of battery chip mounter as claimed in claim 7, which is characterized in that the width of the elevator belt is small In the length of battery semi-finished product, the two sides of the ascent stage of the elevator belt are also respectively provided with the gear for keeping out battery semi-finished product Block.

9. the battery hoisting mechanism of battery chip mounter as claimed in claim 3, which is characterized in that the both side plate leans on promotion group One end of part extends beyond the end plate of local terminal and forms outer installation space, and the upper belt-wheel and lower belt wheel and elevator belt are mounted on In the outer installation space, the pivot of the upper belt-wheel and lower belt wheel is hubbed on both side plate.

10. the battery hoisting mechanism of battery chip mounter as described in claim 1, which is characterized in that the separate of the microscope carrier mentions Rise the fin that limit battery semi-finished product are also formed at the one side edge of band.