CN214393087U - Overturning module and battery assembling device with same - Google Patents

Abstract

The utility model discloses a upset module and have its battery assembly device belongs to battery equipment technical field. A flip module, comprising: the rotary driving mechanism comprises a supporting frame and a driving device, and the driving device is fixed on the supporting frame; the output end of the driving device is connected with the overturning adsorption component in a driving mode so as to drive the overturning adsorption component to rotate; upset adsorption component is including installing the installation department on the output and installing the upset adsorption plate on installation department one side, and the upset adsorption plate is including the adsorption part that is used for adsorbing the battery. The utility model discloses promoted the mobility stability of battery position in the battery assembling process greatly, improved battery packaging efficiency and equipment precision, the convenient flexibility of assembling process has good suitability simultaneously.

Description

Overturning module and battery assembling device with same

Technical Field

The utility model relates to a battery equipment technical field, concretely relates to upset module and have its battery assembly device.

Background

In the assembly of intelligent wrist-watch battery, after operating personnel fixes a position the battery in the carrier and assembles the winding displacement into the battery, still need to remove the battery to another place and put the battery in place. In the prior art, a vacuum suction pen is often manually held by hand to suck a battery to move the battery in place and assemble the battery into a carrier, but the stability of manual movement is often low, the movement speed is greatly limited, the assembly efficiency and the assembly precision are affected, and the operation is inconvenient in actual work.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a upset module and have its battery assembly device to promote the mobility stability of battery position in the battery assembling process, improve work efficiency, solve the problem among the prior art.

In order to achieve the technical purpose, the embodiment of the present invention specifically provides the following technical solutions:

a flip module, comprising:

the rotary driving mechanism comprises a supporting frame and a driving device, and the driving device is fixed on the supporting frame;

the output end of the driving device is in driving connection with the overturning adsorption component so as to drive the overturning adsorption component to rotate; upset adsorption component including install in installation department on the output with install in upset adsorption plate on installation department one side, upset adsorption plate is including the adsorption part that is used for adsorbing the battery.

Further, the output end is installed to on the support frame by the drive mounting panel, the one end of actuating lever is connected in the output drive, the other end of actuating lever with upset adsorption component links to each other.

Further, the drive mounting panel with be fixed with the upset handle on the actuating lever between the upset adsorption component, it is right to install on the actuating lever the upset handle carries out spacing locating part, the upset handle is used for manual regulation the position of upset adsorption component.

Furthermore, a fixing pin is arranged on the supporting frame, and a corresponding jack is arranged on the overturning handle; and/or magnetic components which are matched with each other and are adsorbed and fixed are arranged on the supporting frame and at the corresponding positions of the turning handle.

Further, the overturning module further comprises a position adjusting device for manually adjusting the positions of the rotary driving mechanism and the overturning adsorption component.

Further, the position adjusting device comprises a front position adjusting mechanism and a rear position adjusting mechanism, the front position adjusting mechanism and the rear position adjusting mechanism comprise slide rails arranged on the supporting frame and limiting blocks respectively arranged on two sides of the slide rails, and the overturning adsorption component is connected to the slide rails in a sliding mode through a connecting plate.

Further, position control mechanism about position control device still includes, position control mechanism includes mounting panel and bottom plate about, the support frame is fixed in on the mounting panel, the mounting panel slides and locates on the bottom plate.

Furthermore, a fixing mechanism is arranged on the mounting plate, and when the mounting plate stops sliding, the fixing mechanism enables the mounting plate to be fixed on the bottom plate.

Furthermore, the fixing mechanism comprises an elastic piece, a drawing pin movably arranged on the mounting plate in a penetrating way, a supporting seat arranged on the mounting plate and a clamping block hinged on the supporting seat; the supporting seat is arranged close to the drawing pin, and the bottom plate is provided with a corresponding hole for the drawing pin to penetrate and fix; the joint piece is including being used for the joint portion of pulling pin, elastic component one end with the joint piece links to each other, the other end of elastic component with the mounting panel links to each other.

A battery assembling device comprises the turnover module.

Compared with the prior art, the utility model has the advantages of:

(1) the utility model discloses an in the preferred embodiment, through setting up the upset adsorption plate on installation department one side, because the upset adsorption plate sets up on installation department one side, compares in the central authorities of installation department with the upset adsorption plate, and the upset radius of upset adsorption plate increases, can make the battery overturn to remote follow-up processing station, avoids producing with other stations or components and parts and interferes.

(2) The utility model discloses an in the preferred embodiment, establish the upset handle through the cover on the actuating lever, the during operation is earlier by the rotatory integer angle of drive arrangement drive upset adsorption component, drives the rotatory battery installation position that reachs of upset handle again by operating personnel, and the manual work is pressed the adsorption component and is installed the battery can. Such setting up makes the installation of battery convenient more easily transfer, also can not influence the stable rotation of upset adsorption component simultaneously.

(3) In the preferred embodiment of the utility model, through the arrangement of the front and rear position adjusting mechanism, when the operator drives the turning handle to rotate to reach the battery mounting position, the turning adsorption component on the slide rail is moved to adjust the distance between the battery and the battery mounting position; position adjustment mechanism removes upset adsorption component and extends carrier department at the during operation through setting up about, and keeps away from carrier department after work is accomplished to realized the nimble use of upset module, avoided its interference that probably exists to hinder.

(4) The utility model discloses a preferred embodiment, through set up fixed establishment on the mounting panel, the operating personnel of being convenient for drives the sliding operation of mounting panel on the bottom plate, can bring the fixed effect of preferred when the slip stops simultaneously.

(5) The utility model discloses promoted the mobility stability of battery position in the battery assembling process greatly, improved battery packaging efficiency and equipment precision, the convenient flexibility of assembling process has good suitability simultaneously.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of an overall structure in an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a structure at a position in fig. 1 according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the driving device and the turnover adsorbing assembly in the embodiment of the present invention.

Fig. 4 is a schematic structural view of the turnover adsorption assembly in the embodiment of the present invention.

Fig. 5 is another overall structural diagram in the embodiment of the present invention.

Wherein the reference numerals are as follows:

110-a support frame; 1101-fixed pins; 120-a drive device; 1201-an output; 130-a drive mounting plate; 1301-a knob; 140-a drive rod; 150-a bearing connector; 160-flip handle; 170-a stop; 180-a magnetic component; 200-turning over the adsorption component; 210-a mounting portion; 220-overturning the adsorption plate; 2201-adsorption part; 2202-trachea joint; 2203-air holes; 300-a battery; 400-flat cable; 510-a slide rail; 520-a limiting block; 530-a connecting plate; 600-left and right position adjustment mechanism; 610-a mounting plate; 6101-a handle; 620-base plate; 6301-elastic member; 6302-drawing pin; 6303-supporting seat; 6304-clamping block; 6305-a clamping part; 6306-stricture; 6307-handle.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is said to be "disposed on" another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly connected to the other element or intervening elements may also be present. The terms "front", "rear", "left", "right" and similar expressions are used herein for the purpose of illustration only.

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 herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Referring to fig. 1 to 5, an embodiment of a turning module of the present invention includes:

as shown in fig. 1, the rotation driving mechanism includes a supporting frame 110 and a driving device 120, and the driving device 120 is fixed on the supporting frame 110. In this embodiment, the driving device 120 is a rotary cylinder.

The output end 1201 of the driving device 120 is in driving connection with the overturning adsorption component 200 to drive the overturning adsorption component 200 to rotate; the flip suction assembly 200 includes a mounting portion 210 mounted on the output end 1201 and a flip suction plate 220 mounted on one side of the mounting portion 210, and the flip suction plate 220 includes a suction portion 2201 for sucking the battery 300. Specifically, as shown in fig. 4, a gas pipe joint 2202 is provided on one side of the inverting suction plate 220, a vacuum pump is externally connected to the gas pipe joint 2202 to vacuum-suck the battery 300 by a suction portion 2201, and a gas hole 2203 communicating with a gas pipe is provided in the suction portion 2201.

Among them, the benefit of installing the turnover adsorption plate 220 on one side of the installation part 210 is: because the turnover adsorption plate 220 is arranged on one side of the installation part 210, compared with the turnover adsorption plate 220 arranged in the center of the installation part 210, the turnover radius of the turnover adsorption plate 220 is increased, so that the battery can be turned to a remote subsequent processing station, and interference with other stations or components is avoided.

In actual operation, as shown in fig. 4, the absorption portion 2201 is turned upward, the battery 300 is fixed to the absorption portion, the flat cable 400 is installed on the battery 300 by an operator, after the installation is completed, the driving device 120 is started to drive the turning absorption assembly 200 to rotate to the battery installation position, at this time, as shown in fig. 1 or fig. 3, the absorption portion 2201 is turned downward, and the operator presses the absorption portion 2201 to install the battery 300 in place.

Referring to fig. 3, the output end 1201 is mounted on the supporting frame 110 by the driving mounting plate 130, the output end 1201 is drivingly connected to one end of the driving rod 140, and the other end of the driving rod 140 is connected to the turnover adsorbing assembly 200. Specifically, the drive mounting plate 130 and the output end 1201 are connected by the bearing connector 150. It should be noted that the driving rod 140 may be a single rod or at least two rods, which may be designed according to the actual production requirement. Further, a knob 1301 is disposed on the driving mounting plate 130 to adjust the locking degree between the supporting bracket 110 and the driving device 120. In this embodiment, the knob 1301 is a pentagonal knob that is convenient for holding and locking.

Referring to fig. 3, a turning handle 160 is fixed on the driving rod 140 between the driving mounting plate 130 and the turning adsorption assembly 200, a limiting member 170 for limiting the turning handle 160 is installed on the driving rod 140, and the turning handle 160 is used for manually adjusting the position of the turning adsorption assembly 200. In this embodiment, the limiting member 170 is a C-shaped retaining ring. It should be noted that the turning handle 160 is fixedly sleeved on the driving rod 140.

In the embodiment, the battery is required to be mounted on a carrier placed in an inclined manner, if the driving device 120 is only used for driving the overturning adsorption component 200 to rotate, the rotation angle is not easy to be calculated, the overturning handle 160 is arranged, the driving device 120 drives the overturning adsorption component to rotate by an integer angle, the operating personnel drives the overturning handle 160 to rotate to reach the battery mounting position, and the adsorption part 2201 is manually pressed to mount the battery 300. The arrangement of the turning handle 160 makes the installation of the battery 300 more convenient and easier to adjust, and meanwhile, the stable rotation of the turning adsorption assembly 200 is not affected.

It should be noted that: in actual operation, when the assembly mechanism 200 positions the battery 10 on the suction portion 2102, the rotation center of the battery 10 and the rotation center of the battery suction member 210 are located on a horizontal line. If the rotation center of the battery is not on the same horizontal line with the adsorption center of the battery adsorption assembly 210, and the adsorption positions are different when the adsorption part 2102 adsorbs the battery 10, the distance of the movement of the battery 10 is not constant when the battery adsorption assembly 210 drives the battery 10 to rotate or an operator drives the turnover handle 260 to rotate, so that the deviation occurs at the final installation position, and the battery assembly is not favorable.

In this embodiment, the supporting frame 110 is provided with a fixing pin 1101, and the turning handle 160 is provided with a corresponding insertion hole; and/or, the magnetic components 180 which are matched with each other and fixed in an adsorption manner are arranged on the support frame 110 and at the corresponding positions of the turnover handle 160. In this embodiment, the two sets are arranged in a "and" parallel relationship, that is, the fixing pins 1101 and the corresponding insertion holes are provided, and the magnetic assembly 180 is also provided. It should be noted that, if the supporting frame 110 is made of ferromagnetic material, the magnetic component 180 is a magnet installed on the turning handle 160, and vice versa; if the supporting frame 110 and the turning handle 160 are made of non-ferromagnetic material, the magnetic assembly 180 is a magnet respectively mounted on the supporting frame 110 and the turning handle 160.

Further, the flipping module further includes a position adjusting device for manually adjusting the position of the rotation driving mechanism and the flipping adsorption assembly 200.

As shown in fig. 5, the position adjusting device includes a front and rear position adjusting mechanism, which includes a slide rail 510 mounted on the supporting frame 110 and a limiting block 520 respectively mounted on two sides of the slide rail 510, and the turnover absorbing assembly 200 is slidably connected to the slide rail 510 by a connecting plate 530. Through setting up front and back position control mechanism, when operating personnel drove the rotatory battery installation position that reachs of upset handle, the distance between battery 300 and the battery installation position is adjusted to upset adsorption component 200 on the removal slide rail 510.

Referring to fig. 2, the position adjustment apparatus further includes a left-right position adjustment mechanism 600, the left-right position adjustment mechanism 600 includes a mounting plate 610 and a bottom plate 620, the supporting frame 110 is fixed on the mounting plate 610, and the mounting plate 610 is slidably disposed on the bottom plate 620. "side-to-side" here refers to side-to-side movement of the mounting plate 610 along the slide rails in the orientation shown in FIG. 1. The left and right position adjusting mechanisms 600 are arranged to move the overturning adsorption component 200 to extend to the carrier during working and to be away from the carrier after working is completed, so that flexible use of the overturning module is realized, and possible interference obstruction is avoided.

Further, the mounting plate 610 is provided with a fixing mechanism for fixing the mounting plate 610 to the base plate when the mounting plate 610 stops sliding.

Referring to fig. 1 and fig. 2, the fixing mechanism includes an elastic member 6301, a pulling pin 6302 movably disposed on the mounting plate 610, a supporting seat 6303 mounted on the mounting plate 610, and a clamping block 6304 hinged to the supporting seat 6303. The supporting seat 6303 is arranged close to the drawing pin 6302, and the bottom plate 620 is provided with a corresponding long hole for the drawing pin 6302 to penetrate and fix; the clamping block 6304 comprises a clamping portion 6305 for clamping the drawing pin 6302, one end of the elastic member 6301 is connected with the clamping block 6304, and the other end of the elastic member 6301 is connected with the mounting plate 610. In this embodiment, the locking portion 6305 is a U-shaped notch, the pulling pin 6302 includes a cut-off portion 6306, and the locking portion 6305 is locked on the cut-off portion 6306. In addition, the support base 6303 is disposed near the drawing pin 6302 to achieve labor-saving operation. Further, the clamping block 6304 further includes a handle 6307 convenient for manual pressing. It should be noted that the number of the corresponding elongated holes provided on the bottom plate 620 is at least two, so as to realize the fixation at more than two positions.

Further, as shown in fig. 1, a handle 6101 is further disposed on the mounting plate 610, so as to facilitate the manual operation of driving the rotation driving mechanism and the turning and adsorbing assembly 200. Preferably, the handle 6101 is located right below the handle 6307, and when the operator presses the handle 6307, the operator can hold the handle 6101 to drive the mounting plate 610 and the components carried on the mounting plate 610 to slide, which is very convenient.

The function of the fixing mechanism is realized by the lever principle. In actual operation, an operator presses the clamping block 6304 and presses down, the clamping portion 6305 drives the pulling pin 6302 to ascend, the pulling pin 6302 is pulled out from the corresponding long hole on the bottom plate, the operator holds the handle 6101 to drive the mounting plate 610 to slide, when the sliding is stopped, the operator releases the clamping block 6304, the elastic member 6301 rebounds, the clamping portion 6305 drives the pulling pin 6302 to descend, the pulling pin 6302 falls back into the long hole in the corresponding position on the bottom plate, and the mounting plate 610 and the upper parts thereof are fixed.

Further, the utility model also provides a battery assembly device, this battery assembly device includes aforementioned upset module. The battery assembling device comprising the overturning module realizes stable assembly of the battery, the assembly process is flexible and convenient, and the assembly efficiency is improved.

It should be emphasized that, although particular embodiments of the present invention have been shown and described, it is not intended to limit the invention in any way, and any simple modifications, equivalent variations and modifications made to the above embodiments in accordance with the technical spirit of the present invention are within the scope of the present invention.

Claims (10)

1. A flip module, comprising:

the rotary driving mechanism comprises a supporting frame and a driving device, and the driving device is fixed on the supporting frame;

the output end of the driving device is in driving connection with the overturning adsorption component so as to drive the overturning adsorption component to rotate; upset adsorption component including install in installation department on the output with install in upset adsorption plate on installation department one side, upset adsorption plate is including the adsorption part that is used for adsorbing the battery.

2. The flipping module of claim 1, wherein: the output is installed extremely by the drive mounting panel on the support frame, the one end of actuating lever is connected in the output drive, the other end of actuating lever with upset adsorption component links to each other.

3. The flipping module of claim 2, wherein: the drive mounting panel with be fixed with the upset handle on the actuating lever between the upset adsorption component, it is right to install on the actuating lever the upset handle carries out spacing locating part, the upset handle is used for manual regulation the position of upset adsorption component.

4. The flipping module of claim 3, wherein: the support frame is provided with a fixing pin, and the turning handle is provided with a corresponding jack; and/or magnetic components which are matched with each other and are adsorbed and fixed are arranged on the supporting frame and at the corresponding positions of the turning handle.

5. The flipping module of any one of claims 1-4, wherein: the overturning module further comprises a position adjusting device for manually adjusting the positions of the rotary driving mechanism and the overturning adsorption component.

6. The flipping module of claim 5, wherein: the position adjusting device comprises a front position adjusting mechanism and a rear position adjusting mechanism, the front position adjusting mechanism and the rear position adjusting mechanism comprise slide rails arranged on the supporting frame and limiting blocks respectively arranged on two sides of the slide rails, and the overturning adsorption component is connected to the slide rails in a sliding mode through a connecting plate.

7. The flipping module of claim 5, wherein: the position adjusting device further comprises a left position adjusting mechanism and a right position adjusting mechanism, the left position adjusting mechanism and the right position adjusting mechanism comprise mounting plates and bottom plates, the supporting frame is fixed on the mounting plates, and the mounting plates are slidably arranged on the bottom plates.

8. The flipping module of claim 7, wherein: the mounting plate is provided with a fixing mechanism, and the fixing mechanism enables the mounting plate to be fixed on the bottom plate when the mounting plate stops sliding.

9. The flipping module of claim 8, wherein: the fixing mechanism comprises an elastic piece, a drawing pin movably arranged on the mounting plate in a penetrating way, a supporting seat arranged on the mounting plate and a clamping block hinged on the supporting seat; the supporting seat is arranged close to the drawing pin, and the bottom plate is provided with a corresponding hole for the drawing pin to penetrate and fix; the joint piece is including being used for the joint portion of pulling pin, elastic component one end with the joint piece links to each other, the other end of elastic component with the mounting panel links to each other.

10. A battery assembly device, characterized in that: the battery assembling apparatus includes the turnover module of any one of claims 1 to 9.

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