A kind of voltage internal resistance test machine battery conveying mechanism of remodeling fast
Technical field
The utility model relates to feedway technical field, relates in particular to a kind of voltage internal resistance test machine battery conveying mechanism of remodeling fast.
Background technology
As a kind of new-type battery structure, soft package lithium battery application is more and more extensive, the advantages such as for traditional lithium ion battery, soft package lithium battery has that volume is little, lightweight, specific energy is high, safe, flexible design.
In soft package lithium battery manufacture process, soft package lithium battery must reach certain voltage internal resistance index, and it generally detects by corresponding voltage internal resistance test machine; Utilizing voltage internal resistance test machine soft package lithium battery to be carried out in voltage internal resistance detection process, soft package lithium battery is automatically transferred into voltage internal resistance test machine by corresponding conveying mechanism.
Because soft package lithium battery is of different sizes specification, design a kind of conveying mechanism that can be suitable for the soft package lithium battery of different size specification and accurately positioning stablity transmission and seem particularly important.
Summary of the invention
The purpose of this utility model is to provide for the deficiencies in the prior art a kind of voltage internal resistance test machine battery conveying mechanism of remodeling fast, this voltage internal resistance test machine battery conveying mechanism of remodeling fast can be suitable for the soft package lithium battery of different size specification, and accurate positioning and course of conveying are reliable and stable.
For achieving the above object, the utility model is achieved through the following technical solutions.
A kind of voltage internal resistance test machine battery conveying mechanism of remodeling fast, include Belt Conveying assembly, Belt Conveying assembly includes transfer gantry, the installation shaft that is installed in rotatably the rotating shaft of transfer gantry leading section and is installed in transfer gantry rearward end, rotating shaft is fitted with the first driving pulley and the second driving pulley, the first driving pulley is not set in rotating shaft rotatably, the second driving pulley is set in inlay card between rotating shaft and the second driving pulley and rotating shaft retainer, installation shaft is set with the first driven pulley and the second driven pulley rotatably successively, between the first driving pulley and the first driven pulley, installed around the first Timing Belt, between the second driving pulley and the second driven pulley, installed around the second Timing Belt, the front of the first Timing Belt is equiped with the first spacing cross bar being evenly intervally arranged, the front of the second Timing Belt is equiped with evenly spaced apart the second spacing cross bar, the first spacing cross bar and the second spacing cross bar are respectively perpendicular to the moving direction of corresponding the first Timing Belt and the second Timing Belt, rotating shaft is fitted with driven unit, and driven unit includes servomotor and retarder, and servomotor drives and is connected with retarder, and the power take-off shaft of retarder drives and is connected with rotating shaft.
Wherein, the retainer that described retainer includes flange portion and is located at the distolateral and tapered shape of flange portion one, flange portion is screwed on the end face of described the second driving pulley, the core of retainer offers suit hole, the end of described rotating shaft respective side is flush-mounted in the suit hole of retainer, and retainer is embedded between rotating shaft and the centre hole of the second driving pulley.
Wherein, the periphery wall of described retainer is provided with the first support surface that is conical surface-shaped, the corresponding retainer in end of the centre hole of described the second driving pulley is provided with the second support surface that is conical surface-shaped, retainer offers the gap radially running through completely, the second support surface and the first support surface butt, the internal perisporium in the suit hole of retainer is held the corresponding end of described rotating shaft tightly.
Wherein, described the first spacing cross bar is screwed on described the first Timing Belt.
Wherein, described the second spacing cross bar is screwed on described the second Timing Belt.
Wherein, between the power take-off shaft of described retarder and described rotating shaft, be equiped with belt gear, the power take-off shaft of retarder, belt gear and rotating shaft drive connection successively.
Wherein, between the power take-off shaft of described retarder and described rotating shaft, be equiped with chain drive, the power take-off shaft of retarder, chain drive and rotating shaft drive connection successively.
Wherein, between the power take-off shaft of described retarder and described rotating shaft, be equiped with gear drive, the power take-off shaft of retarder, gear drive and rotating shaft drive connection successively.
The beneficial effects of the utility model are: a kind of voltage internal resistance test machine described in the utility model battery conveying mechanism of remodeling fast, its Belt Conveying assembly includes transfer gantry, rotating shaft and installation shaft, shaft set the first driving pulley and the second driving pulley, installation shaft is set with the first driven pulley and the second driven pulley, inlay card retainer between the second driving pulley and rotating shaft, between the first driving pulley and the first driven pulley, install around the first Timing Belt, between the second driving pulley and the second driven pulley, install around the second Timing Belt, the first spacing cross bar that the front installing of the first Timing Belt is evenly intervally arranged, the front installing of the second Timing Belt is spaced apart the second spacing cross bar evenly, servomotor is passed through in rotating shaft, retarder drives.The utility model can be adjusted to the first right spacing cross bar and the spacing between the second spacing cross bar according to the needs of the soft package lithium battery of conveying different size specification, and then meets the needs of the soft package lithium battery of carrying different size specification; So, the utlity model has that applicability is strong, easy to adjust fast, accurate positioning, the reliable and stable advantage of course of conveying.
Accompanying drawing explanation
Utilize accompanying drawing to be further detailed the utility model below, but the embodiment in accompanying drawing does not form any restriction of the present utility model.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation at another visual angle of the utility model.
Fig. 3 is generalized section of the present utility model.
Fig. 4 is the enlarged diagram of " A " shown in Fig. 3 position.
Fig. 5 is the structural representation of retainer of the present utility model.
In Fig. 1 to Fig. 5, include:
1---Belt Conveying assembly 11---transfer gantry
12---rotating shaft 13---installation shaft
21---first driving pulley 22---first driven pulley
23---first Timing Belt 31---second driving pulley
311---second support surface 32---second driven pulley
33---second Timing Belt 4---retainer
41---flange portion 42---retainer
421---suit hole 422---first support surface
423---gap 5---first spacing cross bar
6---second spacing cross bar 7---driven unit
71---servomotor 72---retarder
8---belt gear 9---soft package lithium battery.
The specific embodiment
Below in conjunction with concrete embodiment, the utility model is described.As shown in Figures 1 to 5, a kind of voltage internal resistance test machine battery conveying mechanism of remodeling fast, include Belt Conveying assembly 1, Belt Conveying assembly 1 includes transfer gantry 11, the installation shaft 13 that is installed in rotatably the rotating shaft 12 of transfer gantry 11 leading sections and is installed in transfer gantry 11 rearward end, rotating shaft 12 is fitted with the first driving pulley 21 and the second driving pulley 31, the first driving pulley 21 is not set in rotating shaft 12 rotatably, the second driving pulley 31 is set in inlay card between rotating shaft 12 and the second driving pulley 31 and rotating shaft 12 retainer 4, installation shaft 13 is set with the first driven pulley 22 and the second driven pulley 32 rotatably successively, between the first driving pulley 21 and the first driven pulley 22, installed around the first Timing Belt 23, between the second driving pulley 31 and the second driven pulley 32, installed around the second Timing Belt 33, the front of the first Timing Belt 23 is equiped with the first spacing cross bar 5 being evenly intervally arranged, the front of the second Timing Belt 33 is equiped with evenly spaced apart the second spacing cross bar 6, the first spacing cross bar 5 and the second spacing cross bar 6 are respectively perpendicular to the moving direction of corresponding the first Timing Belt 23 and the second Timing Belt 33, rotating shaft 12 is fitted with driven unit 7, and driven unit 7 includes servomotor 71 and retarder 72, and servomotor 71 drives and is connected with retarder 72, and the power take-off shaft of retarder 72 drives and is connected with rotating shaft 12.
Wherein, described the first spacing cross bar 5 is screwed on described the first Timing Belt 23; Same, described the second spacing cross bar 6 is screwed on described the second Timing Belt 33.Certainly, above-mentioned assembling mode does not form restriction of the present utility model.
As depicted in figs. 1 and 2, the first spacing cross bar 5 and interval parallel with the second spacing cross bar 6 arranged, one first spacing cross bar 5 and one second adjacent spacing cross bar 6 are joined merga pass location soft package lithium battery 9, for the soft package lithium battery 9 of different size specification, paired the first spacing cross bar 5 and the distance between the second spacing cross bar 6 are different.Wherein, the utility model comes the first paired spacing cross bar 5 and the spacing between the second spacing cross bar 6 to regulate in the following manner, be specially: when retainer 4 is embedded between rotating shaft 12 and the second driving pulley 31, the second driving pulley 31, the first driving pulley 21 synchronously rotate with rotating shaft 12.When retainer 4 is recessed between rotating shaft 12 and the second driving pulley 31, the second belt pulley can rotate by phase countershaft 12, when rotating shaft 12 is rotated, the first driving pulley 21 and the first Timing Belt 23 are along with rotating shaft 12 synchronization actions, and the second driving pulley 31 and the second Timing Belt 33 be not with rotating shaft 12 synchronization actions, now, the spacing between the first spacing cross bar 5 and the second spacing cross bar 6 changes; When the first paired spacing cross bar 5 and the distance between the second spacing cross bar 6 and soft package lithium battery 9 dimensionss match, servomotor 71 power-off, are then embedded in retainer 4 between the second driving pulley 31 and rotating shaft 12 again.
Comprehensive above-mentioned situation is known, the utility model can be adjusted to the first right spacing cross bar 5 and the spacing between the second spacing cross bar 6 according to the needs of the soft package lithium battery 9 of conveying different size specification, and then meets the needs of the soft package lithium battery 9 of carrying different size specification; So, the utlity model has that applicability is strong, easy to adjust fast, accurate positioning, the reliable and stable advantage of course of conveying.
Further, as shown in Figure 4 and Figure 5, the retainer 42 that described retainer 4 includes flange portion 41 and is located at the distolateral and tapered shape of flange portion 41 1, flange portion 41 is screwed on the end face of described the second driving pulley 31, the core of retainer 42 offers suit hole 421, the end of described rotating shaft 12 respective side is flush-mounted in the suit hole 421 of retainer 42, and retainer 42 is embedded between rotating shaft 12 and the centre hole of the second driving pulley 31; Wherein, the periphery wall of described retainer 42 is provided with the first support surface 422 that is conical surface-shaped, the corresponding retainer 42 in end of the centre hole of described the second driving pulley 31 is provided with the second support surface 311 that is conical surface-shaped, retainer 42 offers the gap 423 radially running through completely, the second support surface 311 and the first support surface 422 butts, the internal perisporium in the suit hole 421 of retainer 42 is held the corresponding end of described rotating shaft 12 tightly.
Need further to explain, gap 423 structure designs can make retainer 42 have certain elastic deformation amount, when retainer 42 is embedded between rotating shaft 12 and the second driving pulley 31, the first support surface 422 of retainer 42 is supported in the second support surface 311 of the second driving pulley 31, and retainer 42 certain elastic deformation occurs inwardly and holds tightly in the corresponding end of rotating shaft 12; Between the second active synchronization belt wheel, retainer 42 and rotating shaft 12 ends, interaction force produces larger friction force, and then makes the second driving pulley 31 along with rotating shaft 12 is synchronously rotated.
Wherein, the power take-off shaft of retarder 72 of the present utility model can adopt belt gear 8, gear drive or chain drive drive shaft 12 to rotate.
Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.