CN209542674U - A kind of whole foot detection telecontrol equipment for lithium battery jacketing machine - Google Patents

Abstract

The utility model discloses a kind of whole feet for lithium battery jacketing machine to detect telecontrol equipment, it includes rack, at least two guiding axis, sliding seat and telecontrol equipment, the two sides of the every guiding axis are equipped with fixing seat, and the guiding axis is fixed in the rack by fixing seat；The sliding seat includes the first sliding seat and the second sliding seat being sheathed on the guiding axis respectively；The telecontrol equipment is set to the lower section of the rack, the telecontrol equipment includes shaft, lever, first connecting rod and second connecting rod, the shaft is fixed on the side for below the rack and being located at the fixing seat, the lever rotation is fixed on the lower section of the shaft, one end of the lever is connected with the first connecting rod, the other end of the lever is connected with the second connecting rod, and the first connecting rod is connect with first sliding seat, and the second connecting rod is connect with second sliding seat.It can make whole foot is synchronous with characterization processes to carry out, to realize pipelining.

Description

A kind of whole foot detection telecontrol equipment for lithium battery jacketing machine

Technical field

The utility model relates to a kind of lithium battery production technical fields, are used for lithium battery set more specifically to one kind The whole foot of pipe machine detects telecontrol equipment.

Background technique

Lithium battery is previously required to enter a series of previous step, such as whole foot, Check up polarity, commutation in sleeve pipe machine Process, traditional way generally use artificial or specific installation mode and carry out whole foot, screening, the human cost needed Height, and a collection of defective products can be generated during the circulation of each link, cause product yield low, and pipelining can not be formed, Human cost and equipment cost greatly improved.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of whole feet for lithium battery jacketing machine to detect fortune Dynamic device, when shaft rotates forward, first connecting rod is moved along and the first sliding seat is driven to be moved along, and second connecting rod is past It moves afterwards and the direction for driving the second sliding seat toward close first sliding seat is mobile, so that the first sliding seat and the second sliding seat can To move toward one another, when shaft rotates backward, first connecting rod moves backward and the first sliding seat is driven to move backward, and second connects Bar is moved along and drives the second sliding seat mobile toward the direction far from the first sliding seat, so that the first sliding seat and the second activity Seat can be located remotely from each other movement, and the reciprocating movement of sliding seat is realized by the forward motion or counter motion of adjusting shaft, Its opening and closing movement that sliding seat may be implemented.By the way that multiple whole foot devices and detection device are arranged in sliding seat, can make Whole foot is synchronous with characterization processes to carry out, to realize pipelining, reduces manpower and equipment cost.

Technical problem to be solved in the utility model is achieved by the following technical programs:

In order to solve the above technical problems, the utility model provides a kind of whole foot detection movement for lithium battery jacketing machine Device comprising rack, at least two guiding axis, sliding seat and telecontrol equipment, the two sides of the every guiding axis are equipped with solid Reservation, the guiding axis are fixed in the rack by fixing seat；The sliding seat includes being sheathed on the guiding axis respectively On the first sliding seat and the second sliding seat；The telecontrol equipment is set to the lower section of the rack, and the telecontrol equipment includes turning Axis, lever, first connecting rod and second connecting rod, the shaft are fixed on the side for below the rack and being located at the fixing seat, The lever rotation is fixed on the lower section of the shaft, and one end of the lever is connected with the first connecting rod, the lever The other end is connected with the second connecting rod, and the first connecting rod is connect with first sliding seat, the second connecting rod with it is described The connection of second sliding seat.

Further, it is examined before whole foot device, second whole foot device, commutation for the first time are disposed in the sliding seat Detection device after surveying device, dipole inversion folder and commutating.

It further, further include attachment base across the rack, the attachment base includes that the first attachment base and second connect Joint chair, one end and the first sliding seat of first attachment base are fixed, and the other end is fixed with first connecting rod；Second connection One end of seat is fixed with the second sliding seat, and the other end is fixed with second connecting rod.

Further, the rack is equipped with loose slot corresponding with the attachment base.

Further, the end of the lever is additionally provided with racetrack through-hole.

The utility model has the following beneficial effects:

When shaft rotates forward, first connecting rod is moved along and the first sliding seat is driven to be moved along, and second connecting rod It moves backward and the direction for driving the second sliding seat toward close first sliding seat is mobile, so that the first sliding seat and the second sliding seat It can move toward one another, when shaft rotates backward, first connecting rod moves backward and the first sliding seat is driven to move backward, and second Connecting rod is moved along and drives the second sliding seat mobile toward the direction far from the first sliding seat, so that the first sliding seat and second is lived Dynamic seat can be located remotely from each other movement, realize the reciprocal shifting of sliding seat by adjusting forward motion or the counter motion of shaft It is dynamic, the opening and closing movement of sliding seat may be implemented.By the way that multiple whole foot devices and detection device are arranged in sliding seat, can make Obtaining the progress synchronous with characterization processes of whole foot reduces manpower and equipment cost to realize pipelining.

Detailed description of the invention

Fig. 1 is that a kind of whole foot detection telecontrol equipment overlook direction for lithium battery jacketing machine provided by the utility model is vertical Body figure.

Fig. 2 is that a kind of whole foot for lithium battery jacketing machine provided by the utility model detects telecontrol equipment to look up direction vertical Body figure.

Fig. 3 is the structural schematic diagram of whole foot device for the first time.

Fig. 4 is a point structural schematic diagram for foot piece.

Fig. 5 is the structural schematic diagram for clapping angle folder.

Fig. 6 is the structural schematic diagram of detection device before commutating.

Fig. 7 is the explosive view of the components of detection device before commutating.

Specific embodiment

The utility model is described in detail below with reference to embodiment, embodiment is only the preferred reality of the utility model Mode is applied, is not the restriction to the utility model.

Fig. 1 and Fig. 2 are please referred to, for a kind of whole foot detection sportswear for lithium battery jacketing machine provided by the utility model It sets comprising rack 1, at least two guiding axis 2, sliding seat 3 and telecontrol equipment 4, the guiding axis 2 in the present embodiment are two, It can also increase a certain number of guiding axis 2 according to the number of equipment in sliding seat 3, to improve stability, described in every The two sides of guiding axis 2 are equipped with fixing seat 21, so that guiding axis 2 can be fixed in rack 1, the guiding axis 2 passes through solid Reservation 21 is fixed in the rack 1；The sliding seat 3 includes the first sliding seat 31 being sheathed on the guiding axis 2 respectively With the second sliding seat 32 so that sliding seat 3 can be oppositely oriented 2 linear movement of axis；The telecontrol equipment 4 is set to the rack 1 Lower section, the telecontrol equipment 4 includes shaft 41, lever 42, first connecting rod 43 and second connecting rod 44, and the shaft 41 passes through method Blue seat is fixed on 1 lower section of rack and is located at the side of the fixing seat 21, so that shaft 41 can be rotated relative to rack 1, The lever 42 rotates the lower section for being fixed on the shaft 41, and one end of the lever 42 is connected with the first connecting rod 43, institute The other end for stating lever 42 is connected with the second connecting rod 44, and the first connecting rod 43 is connect with first sliding seat 31, institute Second connecting rod 44 is stated to connect with second sliding seat 32.When shaft 41 rotates forward, first connecting rod 43 is moved along and band Dynamic first sliding seat 31 is moved along, and second connecting rod 44 moves backward and drives the second sliding seat 32 toward close to the first sliding seat 31 direction is mobile, and the first sliding seat 31 and the second sliding seat 32 are moved toward one another, when shaft 41 rotates backward, the One connecting rod 43 moves backward and the first sliding seat 31 is driven to move backward, and second connecting rod 44 is moved along and drives the second activity Seat 32 is mobile toward the direction far from the first sliding seat 31, and the first sliding seat 31 and the second sliding seat 32 is allowed to be located remotely from each other fortune It is dynamic, by adjusting forward motion or the counter motion of shaft 41 to realize the reciprocating movement of sliding seat 3, activity may be implemented The opening and closing movement of seat 3.By the way that multiple whole foot devices and detection device are arranged in sliding seat 3, whole foot and detection work can be made Skill is synchronous to be carried out, to realize pipelining, reduces manpower and equipment cost.

Further, before whole foot device 5, second whole foot device, commutation for the first time are disposed in the sliding seat 3 Detection device after detection device 6, dipole inversion folder and commutation, since whole foot, detection device can be by opening and closing movements come complete At the setting of these devices can be completed disposably after whole foot detects telecontrol equipment, to realize pipelining.

It further, further include attachment base 7 across the rack 1, the attachment base 7 includes the first attachment base 71 and the Two attachment bases 72, one end of first attachment base 71 and the first sliding seat 31 are fixed, and the other end and first connecting rod 43 are fixed； One end of second attachment base 72 and the second sliding seat 32 are fixed, and the other end and second connecting rod 44 are fixed.Pass through attachment base 7 Sliding seat 3 and first connecting rod 43, second connecting rod 44 are connected, to realize the opening and closing movement of sliding seat 3.

Further, the rack 1 is equipped with loose slot 11 corresponding with the attachment base 7, to prevent attachment base 7 and machine Frame 1 interferes, and equipment is caused to be damaged.

Further, the end of the lever 42 is additionally provided with racetrack through-hole 45, and racetrack through-hole 45 is for installing power Device is opened and closed with rotating shaft 41 by adjusting installation site of the power device on racetrack through-hole 45 to control sliding seat 3 Precision.

Fig. 3 and Fig. 4 are please referred to, further, the first time whole foot device 5 includes that bat angle folder 51 and taper divide foot piece 52, the angle folder 51 of clapping includes the first count angle folder 511 being fixed in the first sliding seat 31 and is fixed in the second sliding seat 32 And with 511 corresponding second count angles folder 512 of first count angle folder, first count angle folder 511 and second count angle folder 512 are contour；Institute It states taper and divides that foot piece 52 is fixed on first count angle folder 511 and pointed part is protruding, is i.e. taper divides the foot piece 52 to include Integrally formed fixed part 521 and tapered portion 522, fixed part 521 are fixed on first count angle folder 511, and tapered portion 522 is to overhanging Out.When whole foot device works, the first sliding seat 31 and the second sliding seat 32 drive first count angle folder 511 and second count angle folder 512 Close to each other, the taper being set on first count angle folder 511 moves on after dividing foot piece 52 and the pin touching of lithium battery, and presses Taper divides the posture of the taper of foot piece 52 and the pin of lithium battery after width adjusting, first count angle folder 511 and second count angle folder 512 Continue to be moved along and coincide together, so that the pin of skew is clapped, divides foot piece 52 by the taper of simple tapers sheet Whole foot-propelled work can be completed with 51 mutual cooperation of angle folder is clapped, complicated device structure is simpler than other, and equipment cost is more It is low, compared with artificial whole foot, human cost is greatly reduced.Divide foot piece 52 due to dividing foot only to need to use a taper, It can be fixed by screws on first count angle folder 511, need to only unscrew screw, maintenance and replacement step when requiring replacement It is very simple.

Referring to Fig. 5, further, the clamping face of the first count angle folder 511 and second count angle folder 512 is equipped with plastic cement Pad 53 is applied to the pressure of pin by plastic pad 53 to buffer bat angle folder 51, so that pin be prevented to be crushed, it is good to improve whole foot Rate.

Fig. 6 and Fig. 7 are please referred to, further, detection device 6 includes detection folder 61, fixed block 62, detection before the commutation Piece 63 and proximity switch 64, the detection folder 61 include the first detection folder 611 being fixed in the first sliding seat 31 and are fixed on The second detection folder 612 in second sliding seat 32；The fixed block 62 is fixed on the back side of the first detection folder 611；It is described Fixed block 62 is equipped with sliding slot 621 corresponding with the detection lug 63, and the first detection folder 611 is equipped with and the detection lug 63 corresponding square holes 613, the detection lug 63 pass through the sliding slot 621 and square hole 613；The proximity switch 64 is set to the inspection Survey the rear of piece 63.The pin of lithium battery is clamped by detection folder 61, when detection lug 63 encounters pin, detection lug 63 is backward Mobile, proximity switch 64 detects moving backward for detection lug 63, then determines that pin polarity is normal, without carrying out dipole inversion； When detection lug 63 can not encounter pin, detection lug 63 is not moved, and proximity switch 64 can not detect that the past of detection lug 63 moves back It is dynamic, then determine that pin polarity is abnormal, need to carry out dipole inversion, can be used for commutating preceding detection.It is simply changed by setting It can be completed to detection device to the polar detection of lithium battery pin, without complicated expensive equipment, also considerably reduce Cost of labor.

Further, the detection lug 63 includes test section 631 and induction part 632, and test section 631 and proximity switch 64 are right Answer, open up fluted 633 on the induction part 632, be equipped with pressure spring in the groove 633, the sliding slot 621 be equipped with it is described The corresponding blind hole of pressure spring, the fixed block 62 are fixed with baffle 622 at blind hole, and the baffle 622 passes through the groove 633. Since pressure spring is placed on 633 the inside of groove, and the baffle 622 that fixed block 62 is arranged passes through groove 633, and one end of pressure spring is by groove 633 block, and the other end is blocked by baffle 622, and when induction part 632 encounters pin, induction part 632 is moved backward and compressed Spring, the elastic force that rear compression spring is completed in detection resets detection lug 63, to realize automatic detection.

Further, the clamping face of the second detection folder 612 is equipped with tooth socket 614 corresponding with the detection lug 63, The tooth socket 614 has multiple.The height for allowing detection lug 63 to correspond to different tooth sockets 614 is detected, to adapt to different height The lithium battery of degree.

Further, the height of the square hole 613 is corresponding with the height of multiple tooth sockets 614.So that detection lug 63 The height that different tooth sockets 614 can be corresponded to is detected, to adapt to the lithium battery of different height.

Above embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but can not Therefore it is interpreted as that a limitation on the scope of the patent of the present invention, as long as the form using equivalent substitution or equivalent transformation is obtained Technical solution, shall fall within the scope of the present invention.

Claims (5)

1. a kind of whole foot for lithium battery jacketing machine detects telecontrol equipment, characterized in that it comprises:

Rack；

At least two guiding axis, the two sides of the every guiding axis are equipped with fixing seat, and the guiding axis is fixed by fixing seat In the rack；

Sliding seat comprising the first sliding seat and the second sliding seat being sheathed on the guiding axis respectively；

Telecontrol equipment, is set to the lower section of the rack, and the telecontrol equipment includes shaft, lever, first connecting rod and the second company Bar, the shaft are fixed on the side for below the rack and being located at the fixing seat, and the lever rotation is fixed on described turn The lower section of axis, one end of the lever are connected with the first connecting rod, and the other end of the lever is connected with the second connecting rod, The first connecting rod is connect with first sliding seat, and the second connecting rod is connect with second sliding seat.

2. the whole foot according to claim 1 for lithium battery jacketing machine detects telecontrol equipment, which is characterized in that the work Move detection device, dipole inversion folder and commutation before being disposed with whole foot device, second whole foot device, commutation for the first time on seat Detection device afterwards.

3. the whole foot according to claim 1 for lithium battery jacketing machine detects telecontrol equipment, which is characterized in that further include Across the attachment base of the rack, the attachment base include the first attachment base and the second attachment base, the one of first attachment base End is fixed with the first sliding seat, and the other end is fixed with first connecting rod；One end of second attachment base and the second sliding seat are solid Fixed, the other end is fixed with second connecting rod.

4. the whole foot according to claim 3 for lithium battery jacketing machine detects telecontrol equipment, which is characterized in that the machine Frame is equipped with loose slot corresponding with the attachment base.

5. the whole foot according to claim 1 for lithium battery jacketing machine detects telecontrol equipment, which is characterized in that the thick stick The end of bar is additionally provided with racetrack through-hole.