CN203242706U - Clamp positioning-locking mechanism - Google Patents

Abstract

The utility model discloses a clamp positioning-locking mechanism which is suitable for locking a locking screw on a battery clamp. The clamp positioning-locking mechanism comprises a support, a pressurization unit, a locking unit and a vertical drive unit, wherein the battery clamp is arranged below the support; the pressurization unit is fixed above the support, and the output end of the pressurization unit faces the battery clamp and stretches up and down; the locking unit is fixed on the vertical drive unit, and the output end of the locking unit faces the battery clamp; the vertical drive unit is installed on the support and used for driving the locking unit to slide up and down. The clamp positioning-locking mechanism disclosed by the utility model is capable of pressurizing and locking a battery loaded in the battery clamp, thus increasing the automation degree of battery machining, improving production efficiency, and decreasing production cost.

Description

The anchor clamps location locking mechanism

Technical field

The utility model relates to a kind of battery production equipment, relates in particular to a kind of anchor clamps location locking mechanism that the battery that is loaded in the battery clamp is pressurizeed and locks.

Background technology

In the production process of battery, need the steps such as process changes into, baking.In actual production, usually a plurality of batteries are loaded on the battery clamp, can conveniently carry battery so on the one hand, on the other hand, by battery clamp a plurality of batteries are applied certain pressure, and carry out disposable accurate location; Not only can conveniently change into, the step such as baking, and the formation effect of Effective Raise battery improves the electrical property of battery.

In the prior art, the process that battery is loaded into battery clamp is generally dependent manual operation, and battery loading and the accuracy of exerting pressure depend on the accuracy of personnel operation, and uncertain factor manually is quite large,

Thereby the battery quality of producing can not get ensureing.On the other hand, along with the raising of cost of labor, the manual loading can cause the battery production cost to improve, and also is unfavorable for realizing the production automation.

Therefore, need a kind ofly to pressurize and lock being loaded into battery in the battery clamp, improve the automaticity of battery processing, enhance productivity the anchor clamps location locking mechanism that reduces production costs.

The utility model content

The purpose of this utility model is to provide a kind of and pressurizes and lock being loaded into battery in the battery clamp, improves the automaticity of battery processing, enhances productivity the anchor clamps location locking mechanism that reduces production costs.

To achieve these goals, the anchor clamps location locking mechanism that the utility model provides is applicable to lock the lock screw on the battery clamp, and described anchor clamps location locking mechanism comprises support, presser unit, locking unit and vertical driver element; Described battery clamp places the below of described support; Top and output that described presser unit is fixed in described support also stretch up and down towards described battery clamp; Described locking unit be fixed on the described vertical driver element and output towards described battery clamp; Described vertical driver element is installed on the described support and drives described locking unit and slides up and down.

Compared with prior art, because the utility model is by being arranged at described battery clamp described support below, described presser unit is installed on the top of described support, utilize the output of described presser unit flexible up and down, when stretching out downwards and conflict described battery clamp, just can the battery in the described battery clamp be pressurizeed in advance; Again by described locking unit being installed on the described vertical driver element, moved up and down by the described locking unit of described vertical drive unit drives, when being moved down into described battery clamp top, just can cooperate with described lock screw, thereby tighten described lock screw.The other end of described lock screw is then exerted pressure to the battery in the battery clamp, whole process is finished automatically by described presser unit, locking unit and vertical driver element, not only improved the automaticity of battery processing, and need not manual operation, greatly enhance productivity, reduced production cost.

Preferably, described support comprises supporting bracket and four support columns, and described support column is distributed on four angles of described supporting bracket.

Particularly, described presser unit comprises the first cylinder, increased pressure board and pressurization fore-set, described the first cylinder is fixed on the described supporting bracket, and the output of described the first cylinder is fixedly connected with described increased pressure board, and described pressurization fore-set is fixed on the described increased pressure board and downwards towards described battery clamp.By utilizing described the first cylinder, make described the first cylinder drive described pressurization fore-set by increased pressure board and move up and down, thereby the purpose that realization is pressurizeed to described battery clamp is simple in structure, easy to operate.

More specifically, described presser unit also comprises pair of sliding plate and four slip caps, and described sliding panel is fixed respectively at the two ends of described increased pressure board, and described slip cap is fixed respectively at the two ends of described sliding panel, and described slip cap is socketed on the described support column.By described sliding panel and slip cap are set, described sliding panel is connected with described increased pressure board, and utilize described slip cap to slide at described support column, thereby described pressurization fore-set is played the effect of guiding, described pressurization fore-set is moved down at every turn can both accurately aim at the compression point of described battery clamp, and then the pressure that battery is subject to is more even.

Preferably, described vertical driver element comprises the second cylinder and drive plate, and described the second cylinder is fixed in described support and output is fixed in described drive plate; Described locking unit be carried on described drive plate and output downward.Be connected with described drive plate by the output with described the second cylinder, described drive plate is connected with described locking unit again, moves up and down thereby make described the second cylinder promote described locking unit.

Particularly, described vertical driver element also comprises guide post and guide plate; Described guide post one end is fixed in described drive plate, and the other end is fixed in described guide plate; The output of described locking unit passes described guide plate pivotally.Because the output of described locking unit stretches out downwards, and all need accurately to aim at described lock screw before each locking action, therefore, described guide post and guide plate are set, make the output of described locking unit pass pivotally described guide plate, the output that can prevent described locking unit produces vibration in the process that moves up and down, and utilizes the guide effect of described guide post to make the output of described locking unit can aim at described lock screw, realizes accurately location.

More specifically, described vertical driver element also comprises fairlead, and described fairlead is fixed on the described support vertically, and described guide post is socketed in the described fairlead slidably.Utilize described fairlead can guarantee that described guide post slides more smooth, contraposition is more accurate.

Preferably, described locking unit comprises motor and locking element, and the output of described motor is fixedly connected with described locking element, and described locking element engages with the screw terminal of described lock screw.By the described locking unit of described motor driving, described locking unit rotation makes described lock screw rotation and downwards to the pressurization of the battery in the described battery pressing element, whole locking unit is simple in structure, and easily realization, and it is all very convenient to install and remove and safeguard.

Description of drawings

Fig. 1 is the structural representation of the utility model anchor clamps location locking mechanism and battery clamp.

Fig. 2 is the side schematic diagram of the utility model anchor clamps location locking mechanism.

Fig. 3 is along the cutaway view of A-A direction among Fig. 2.

Embodiment

Be the effect that describes technology contents of the present utility model, structural feature in detail, realizes, below in conjunction with execution mode and cooperate accompanying drawing to give in detail explanation.

As shown in Figure 1 and Figure 2, the utility model anchor clamps location locking mechanism 100 is applicable to lock the lock screw 201 on the battery clamp 200, have a plurality of dividing plates 1 in the described battery clamp 200, can place a battery between every adjacent two dividing plates 1, described lock screw 201 is connected on the battery clamp 200, therefore when rotating described lock screw 201, described lock screw 201 moves down and compresses the described dividing plate of the superiors, but counterweight stacks and puts together described a plurality of battery and exert pressure.Described anchor clamps location locking mechanism 100 comprises support 1, presser unit 2, locking unit 3 and vertical driver element 4; Described support 1 comprises supporting bracket 11 and four support columns 12, and described support column 12 is distributed on four angles of described supporting bracket 11.Described battery clamp 200 places the below of described supporting bracket 11; Described presser unit 2 is fixed on the described supporting bracket 11 and output also stretches up and down towards described battery clamp 200; Described locking unit 3 be fixed on the described vertical driver element 4 and output towards described battery clamp 200; Described vertical driver element 4 is installed on the described supporting bracket 11 and drives described locking unit 3 and slides up and down.Particularly, as follows:

See also Fig. 1 and Fig. 2, described presser unit 2 comprises a pair of the first cylinder 21, a pair of increased pressure board 22, four pressurizations fore-set 23, pair of sliding plate 24 and four slip caps 25 again; Described the first cylinder 21 is fixed on the described supporting bracket 11, and the output of described the first cylinder 21 is fixedly connected with described increased pressure board 22, and described pressurization fore-set 23 is fixed on the described increased pressure board 22 and downwards towards described battery clamp 200.Described sliding panel 24 is fixed respectively at the two ends of described increased pressure board 22, and described slip cap 25 is fixed respectively at the two ends of described sliding panel 24, and described slip cap 25 is socketed on the described support column 12, and therefore, above-mentioned four described pressurization fore-sets 23 all move up and down simultaneously.Utilize described the first cylinder 21, make described the first cylinder 21 drive described pressurization fore-set 23 by increased pressure board 22 and move up and down, thereby the purpose that realization is pressurizeed to described battery clamp 200 is simple in structure, easy to operate.By described sliding panel 24 and slip cap 25 are set, described sliding panel 24 is connected with described increased pressure board 22, and utilize described slip cap 25 to slide at described support column 12, thereby described pressurization fore-set 23 is played the effect of guiding, described pressurization fore-set 23 is moved down at every turn can both accurately aim at the compression point of described battery clamp 200, and then the pressure that battery is subject to is more even.

Such as Fig. 1 and shown in Figure 3, described vertical driver element 4 comprises the second cylinder 41, drive plate 42, guide post 43, guide plate 44 and fairlead 45; Described the second cylinder 41 is fixed on the described supporting bracket 11 and output is fixed in described drive plate 42; Particularly, the piston rod of described the second cylinder 41 is fixed on the described supporting bracket 11, and the cylinder body of described the second cylinder 41 is connected with described drive plate 42.Certainly, the piston rod of described the second cylinder 41 is connected with described drive plate 42, the cylinder body of described the second cylinder 41 is fixed on the described supporting bracket 11.Described locking unit 3 be carried on the described drive plate 42 and output downward.Described guide post 43 1 ends are fixed in described drive plate 42, and the other end is fixed in described guide plate 44; The output of described locking unit 3 passes described guide plate 44 pivotally.Described fairlead 45 is fixed on the described supporting bracket 11 vertically, and described guide post 43 is socketed in the described fairlead 45 slidably.Be connected with described drive plate 42 by the output with described the second cylinder 41, described drive plate 42 is connected with described locking unit 3 again, moves up and down thereby make described the second cylinder 41 promote described locking unit 3.Because the output of described locking unit 3 stretches out downwards, and all need accurately to aim at described lock screw 201 before each locking action, therefore, described guide post 43 and guide plate 44 are set, make the output of described locking unit 3 pass pivotally described guide plate 44, the output that can prevent described locking unit 3 produces vibration in the process that moves up and down, and the guide effect that utilizes described guide post 43 makes the output of described locking unit 3 can aim at described lock screw 201, realizes accurately location.And it is more smooth to utilize described fairlead 45 can guarantee that described guide post 43 slides, and contraposition is more accurate.

Please see also Fig. 2 and Fig. 3, described locking unit 3 comprises motor 31 and locking element 32, and the output of described motor 31 is fixedly connected with described locking element 32, and described locking element 32 engages with the screw terminal of described lock screw 201.Described lock screw 201 is hex(agonal)screw, and described locking element 32 is the allen driver that mates with hex(agonal)screw.Drive described locking unit 32 by described motor 31, described locking unit 32 rotates and makes described lock screw 201 rotations and downward to the batteries pressurization in the described battery clamp 200, whole locking unit 3 is simple in structure, and easily realizes, mounting or dismounting and safeguard all very convenient.

Comprehensive above-mentioned and in conjunction with Fig. 1 to Fig. 3, before 100 pairs of described battery clamps 200 lockings of described anchor clamps location locking mechanism, the output of described presser unit 2 and locking unit 3 is all away from described battery clamp 200.During the described battery clamp 200 of described anchor clamps location locking mechanism 100 lockings, at first by 21 actions of described the first cylinder, the piston rod of described the first cylinder 21 stretches out downwards, and then promotes described increased pressure board 22 and sliding panel 24 moves down, and described slip cap 25 is along described support column 12 down slidings; At this moment, described pressurization fore-set 23 moves down, and compresses described battery clamp 200 dividing plate topmost, and described dividing plate is applied certain pressure.Then described the second cylinder 41 actions, the cylinder body of described the second cylinder 41 moves down and drives described drive plate 42, described drive plate 42 drives described guide post 43, guide plate 44 and locking unit 3 and moves down, and described locking element 32 is aimed at described lock screw 201 and engaged with described lock screw 201.At this moment, start described motor 31, described motor 31 drives described locking element 32 and rotates, thereby turns described lock screw 201, and described lock screw 201 moves down and presses on the described dividing plate, thereby makes described dividing plate keep constant pressure to battery.Described anchor clamps location locking mechanism 100 can be finished the locking step to described battery clamp 200.

Because the utility model is by being arranged at described battery clamp 200 described support 1 below, described presser unit 2 is installed on the top of described support 1, utilize the output of described presser unit 2 flexible up and down, when stretching out downwards and conflict described battery clamp 200, just can the battery in the described battery clamp 200 be pressurizeed in advance; Again by described locking unit 3 is installed on the described vertical driver element 4, driving described locking unit 3 by described vertical driver element 4 moves up and down, described locking unit 3 just can cooperate with described lock screw 201 when being moved down into described battery clamp 200 top, thereby tightens described lock screw 201.The other end of described lock screw 201 is then exerted pressure to the battery in the battery clamp 200, whole process is finished automatically by described presser unit 2, locking unit 3 and vertical driver element 4, not only improved the automaticity of battery processing, and need not manual operation, greatly enhance productivity, reduced production cost.

Above disclosed only is preferred embodiments of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (8)

1. an anchor clamps location locking mechanism is applicable to lock the lock screw on the battery clamp, it is characterized in that: described anchor clamps location locking mechanism comprises support, presser unit, locking unit and vertical driver element; Described support is fixed on the described base, and described battery clamp places the below of described support; Top and output that described presser unit is fixed in described support stretch up and down towards described battery clamp; Described locking unit be fixed on the described vertical driver element and output towards described battery clamp; Described vertical driver element is installed on the described support and drives described locking unit and slides up and down.

2. anchor clamps location locking mechanism as claimed in claim 1, it is characterized in that: described support comprises supporting bracket and four support columns, described support column is distributed on four angles of described supporting bracket.

3. anchor clamps location locking mechanism as claimed in claim 2, it is characterized in that: described presser unit comprises the first cylinder, increased pressure board and pressurization fore-set, described the first cylinder is fixed on the described supporting bracket, and the output of described the first cylinder is fixedly connected with described increased pressure board, and described pressurization fore-set is fixed on the described increased pressure board also downwards towards described battery clamp.

4. anchor clamps location locking mechanism as claimed in claim 3, it is characterized in that: described presser unit also comprises pair of sliding plate and four slip caps, described sliding panel is fixed respectively at the two ends of described increased pressure board, described slip cap is fixed respectively at the two ends of described sliding panel, and described slip cap is socketed on the described support column.

5. anchor clamps location locking mechanism as claimed in claim 1, it is characterized in that: described vertical driver element comprises the second cylinder and drive plate, described the second cylinder is fixed in described support and output is fixed in described drive plate; Described locking unit be carried on described drive plate and output downward.

6. anchor clamps location locking mechanism as claimed in claim 5, it is characterized in that: described vertical driver element also comprises guide post and guide plate; Described guide post one end is fixed in described drive plate, and the other end is fixed in described guide plate; The output of described locking unit passes described guide plate pivotally.

7. anchor clamps location locking mechanism as claimed in claim 6, it is characterized in that: described vertical driver element also comprises fairlead, and described fairlead is fixed on the described support vertically, and described guide post is socketed in the described fairlead slidably.

8. anchor clamps location locking mechanism as claimed in claim 1, it is characterized in that: described locking unit comprises motor and locking element, and the output of described motor is fixedly connected with described locking element, and described locking element engages with the screw terminal of described lock screw.

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