CN210435465U - Battery cold drawing part processing equipment - Google Patents

Abstract

The utility model relates to the field of fin production equipment, in particular to battery cold plate part processing equipment, which comprises a forming device and a cutting device arranged at the back of the forming device, wherein the forming device presses and forms a sheet into a fin strip, the formed fin strip is transmitted towards the cutting device, the cutting device comprises a profiling supporting mechanism arranged below the fin strip and a synchronous cutting mechanism arranged above the fin strip, the profiling supporting mechanism comprises a transmission belt, the transmission belt is provided with a profiling block, the profiling block is clamped into a lower opening groove of the fin strip to support the fin strip under the driving of the transmission belt, the synchronous mechanism is matched with the profiling supporting mechanism to synchronously track and cut the fin strip, the problem that the raised part of the fin strip cannot be supported when a common plane supporting plate is matched with a cutter, and the deformation condition can occur when the fin strip is cut is solved, leading to the technical problem of poor cooling effect of the battery cold plate.

Description

Battery cold drawing part processing equipment

Technical Field

The utility model relates to a radiator accessory production facility technical field especially relates to a battery cold drawing part processing equipment.

Background

The battery cold plate is a heat dissipation device for dissipating heat of a battery in a using process, and comprises a fin part, wherein the fin part of the heat sink increases the demand of the heat sink, so that the demand of the fins of the heat sink is increased, and how to improve the production efficiency is a key point. One of the existing solutions is to adopt a fin slitting mode, that is, one fin is cut into two fins, the capacity can be directly doubled on the original basis, but the fins belong to the core part of the radiator, the requirement on the fins is quite high, how to match the fin slitting speed with the equipment capacity, and the difficulty that the slits do not deform in the slitting process is caused.

The application number is CN 201420662617.5's chinese utility model patent, discloses a fin slitting mechanism, cuts off the adoption and goes up the rotatory mode of cutter and lower cutter, through the synchro-driven gear drive, adopts the drive to roll and adjust the regulation structure strict control volume of cutting in the clearance between cutter and the lower cutter, and the accurate nature that the fin was cut is guaranteed in strict linear velocity control.

However, it has the following problems: the fins are fully supported in the cutting process, deformation easily occurs during cutting, and the cut fins cannot be orderly arranged and conveyed backwards.

SUMMERY OF THE UTILITY MODEL

The utility model aims at prior art's weak point, the utility model provides a battery cold drawing part processing equipment, transmission band the same with fashioned fin strip transmission speed through setting up, and set up the shape piece of card income fin strip's under shed inslot on the transmission band, thereby form the abundant supporting role to the fin strip, the cooperation is cut the mechanism in step and is realized cutting the fin strip tracking, the bellied place of fin strip can appear when having solved ordinary plane backup pad cooperation cutter and having cut can not reach the support, can take place the deformation condition when cutting, the coolant flow effect when influencing the use, the not good technical problem of cooling effect who leads to the battery cold plate.

In order to solve the technical problems, the technical scheme is as follows:

the utility model provides a battery cold drawing part processing equipment, includes forming device and sets up the cutting device at the back of forming device, forming device carries out the briquetting to the sheet and is the fin strip, and fashioned fin strip is transported toward the cutting device direction, cutting device is including setting up the profile modeling supporting mechanism of fin strip below and setting up the synchronous mechanism of cutting in fin strip top, profile modeling supporting mechanism includes the transmission band, be provided with on the transmission band, the profile modeling piece supports it in the lower open groove of fin strip is gone into to the drive card of transmission band, the synchronous mechanism of cutting cooperation profile modeling supporting mechanism carries out the synchronous tracking to the fin strip and cuts.

As the improvement, the profiling supporting mechanism further comprises a driving piece used for driving a transmission belt to transmit, when the profiling block on the transmission belt is transmitted to the upper position, the profiling block firstly passes through the inclined section and then passes through the horizontal section, a supporting plate is arranged on the inner side of the transmission belt, and the supporting plate supports the transmission belt in the cutting process.

As an improvement, the profiling blocks are made of hard rubber materials and are in clearance fit with the lower opening grooves of the fin strips.

As an improvement, the synchronous cutting mechanism comprises a rotary tracking assembly, a cutting assembly driven by the rotary tracking assembly and a guide assembly used for guiding and supporting the cutting assembly.

As an improvement, the rotation tracking assembly comprises a support, a rotating part fixed on the support and a chain driven by the rotating part, wherein a rotation supporting block is fixedly arranged on the side surface of the chain;

the cutting assembly comprises a sliding sleeve rotatably arranged on the rotating supporting block, a sliding rod in sliding fit with the sliding sleeve, and a first cutter and a second cutter which are fixed at the lower end part of the sliding rod;

the guide assembly comprises a guide frame, a guide groove is formed in the guide frame, a guide wheel is rotatably arranged on the side edge of the sliding rod, and the guide wheel rolls along the guide groove.

As an improvement, the two guide frames are symmetrically arranged at the left and right, the two guide wheels corresponding to the two guide frames are arranged at the left and right, and the two guide wheels roll along the guide grooves on the left and right guide frames respectively;

the guide groove comprises a return portion located above and a tracking portion located below, and the tracking portion comprises a translation section and a cutting section.

As an improvement, a supporting block is fixed at the upper end of the sliding sleeve, two rollers are rotatably arranged on the supporting block, the two rollers are symmetrically arranged in front and back, a limiting plate is arranged above the two rollers and corresponds to the two rollers, the rollers roll along the lower surface of the limiting plate when passing through the limiting plate, and the limiting plate is fixed on the support.

As an improvement, one side of the first cutter and one side of the second cutter are both provided with a mounting block, the lower surface of the mounting block is fixed with a spring, the lower end part of the spring is fixed with a pressing block, and the pressing block is positioned below the cutting edges of the first cutter and the second cutter when the spring is in an uncompressed state.

As an improvement, a cover plate is further arranged above the conveying belt, the fin strips are conveyed through a space between the conveying belt and the cover plate, the cover plate is fixed on the support, a lower supporting block is arranged below the front end of the cover plate, and an introduction port is formed between the front end of the cover plate and the lower supporting block.

As an improvement, the contour blocks are provided with oblique grooves, the oblique grooves on the adjacent four contour blocks form a group, and the second cutter corresponds to the oblique grooves in the group in the cutting process.

As an improvement, the tail end of the conveying belt is also provided with a material receiving platform.

As another improvement, the forming device includes a forming roller a and a forming roller b which are vertically matched, and details of other structures thereof are not described herein as the prior art.

The utility model has the advantages that:

1. the utility model discloses in through setting up the transmission band the same with fashioned fin strip transmission speed to set up the profile modeling piece on the transmission band, thereby can block into the lower open groove of fin strip with the profile modeling piece when making fin strip along with transmission band synchronous transfer and form the abundant supporting role to the fin strip, then the synchronous mechanism that cuts that the cooperation set up realizes cutting the tracking of fin strip, and can appear the bellied place of fin strip and can not reach the support when adopting ordinary plane backup pad cooperation cutter to cut, can take place the condition of warping when leading to cutting, the utility model discloses a supporting mode has avoided the emergence of this kind of deformation condition, makes the fin strip incision department that cuts off level and smooth nothing deformation condition.

2. The utility model discloses in drive the tracking that cutting assembly removed the fin strip that realizes in the transmission course through setting up the gyration and trail the subassembly, and the direction subassembly that the cooperation set up on the one hand leads spacingly to cutting assembly, on the other hand utilizes the cutting section of direction subassembly and cutting assembly's slip lift to set up to cooperate and realizes moving down to accomplish cutting to the fin strip at synchronous tracking's in-process automatic cutter, moreover, the steam generator is simple in structure, it is effectual to realize, cutting assembly and fin strip keep in step when this gyration is traced the subassembly and is driven cutting assembly and fin strip syntropy removal, can drive through servo motor when gyration is traced the subassembly and is reset to remove quick gyration and reach the position department of moving down the point location of cutting again and accomplish synchronous tracking with the fin strip.

3. The utility model discloses in be fixed with the supporting shoe through the upper end that sets up the sliding sleeve, the rotatable two running rollers that are provided with on the supporting shoe to the cooperation sets up the limiting plate and carries out spacing direction to it, makes the cutting assembly stable at the in-process translation that cuts, can not take place the condition of slope.

In conclusion, the utility model has the advantages of simple and ingenious structure, good cutting effect, uneasy deformation of products and the like; the cutting device is particularly suitable for the technical field of radiator fin cutting equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a fin forming and cutting apparatus for a heat sink;

FIG. 2 is a schematic front view of a fin forming and cutting apparatus for a heat sink;

FIG. 3 is a schematic structural view of the profiling supporting mechanism and the synchronous cutting mechanism;

FIG. 4 is a schematic structural view of the synchronous cutting mechanism;

FIG. 5 is a schematic view of a cutting assembly;

FIG. 6 is a schematic structural view of the profiling support mechanism;

FIG. 7 is an enlarged view of FIG. 6 at A;

FIG. 8 is a schematic view of the cutting assembly and the guiding assembly.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the accompanying drawings.

Example one

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 8, a battery cold plate part processing device includes a forming device 1 and a cutting device 2 disposed behind the forming device 1, the forming device 1 presses and forms a sheet 10 into a fin strip 20, the formed fin strip 20 is conveyed toward the cutting device 2, the cutting device 2 includes a profiling supporting mechanism 21 disposed below the fin strip 20 and a synchronous cutting mechanism 22 disposed above the fin strip 20, the profiling supporting mechanism 21 includes a transmission belt 211, the transmission belt 211 is disposed thereon, the profiling block 212 is clamped into a lower opening groove 201 of the fin strip 20 under the driving of the transmission belt 211 to support the same, and the synchronous cutting mechanism 22 cooperates with the profiling supporting mechanism 21 to synchronously track and cut the fin strip 20.

What worth mentioning is, through setting up the transmission band 211 the same with fashioned fin strip 20 transmission speed, and set up the shape piece 212 on transmission band 211, thereby can go into shape piece 212 card and form the abundant supporting role to fin strip 20 in the lower open groove 201 of fin strip 20 along with transmission band 211 synchronous transfer time for fin strip 20, then the synchronous mechanism 22 that cuts that the cooperation set up realizes cutting the tracking of fin strip 20, and can appear fin strip 20 bellied place when adopting ordinary plane backup pad cooperation cutter to cut and can not reach the support, the condition that can take place to warp when leading to cutting, the utility model discloses a support mode has avoided the emergence of this kind of deformation condition, makes fin strip 20 incision department that cuts off level and has not the deformation condition.

Further, the profiling supporting mechanism 21 further comprises a driving part 213 for driving the transmission belt 211 to transmit, when the profiling block 212 on the transmission belt 211 is transmitted to the upper position, the profiling block passes through the inclined section 100 and then passes through the horizontal section 200, a supporting plate 214 is arranged on the inner side of the transmission belt 211, and the supporting plate 214 supports the transmission belt 211 in the cutting process.

Further, the contour block 212 is made of a hard rubber material, which is clearance-fitted with the lower opening groove 201 of the fin bar 20.

Further, the synchronous cutting mechanism 22 comprises a rotary tracking assembly 221, a cutting assembly 222 driven by the rotary tracking assembly 221, and a guiding assembly 223 for guiding and supporting the cutting assembly 222.

Further, the rotation tracking assembly 221 includes a support 2211, a rotating member 2212 fixed on the support 2211, and a chain 2213 driven by the rotating member 2212, wherein a rotating support block 2214 is fixedly arranged on a side surface of the chain 2213;

the cutting assembly 222 comprises a sliding sleeve 2221 rotatably disposed on the rotating support block 2214, a sliding rod 2222 slidably engaged with the sliding sleeve 2221, and a first cutting knife 2223 and a second cutting knife 2224 fixed at the lower end of the sliding rod 2222;

the guide assembly 223 comprises a guide frame 2231, a guide groove 2232 is formed on the guide frame 2231, a guide wheel 2233 is rotatably arranged on the side edge of the sliding rod 2222, and the guide wheel 2233 rolls along the guide groove 2232.

Here, the rotation tracking assembly 221 is arranged to drive the cutting assembly 222 to move so as to realize tracking of the fin strips 20 in the transmission process, the guide assembly 223 arranged in a matching mode is used for guiding and limiting the cutting assembly 222 on one hand, on the other hand, the cutting assembly 222 and the cutting assembly 222 are arranged in a sliding lifting mode to be matched so that the automatic cutter moves downwards to cut the fin strips 20 in the synchronous tracking process, the structure is simple, the implementation effect is good, when the rotation tracking assembly 221 drives the cutting assembly 222 to move in the same direction with the fin strips 20, the cutting assembly 222 and the fin strips 20 are kept synchronous, and when the rotation tracking assembly 221 drives the cutting assembly 222 to rotate and reset, the servo motor can drive the cutting assembly 222 to rotate quickly to reach the position of the downward moving cutting point position and then to complete synchronous tracking with the fin strips 20.

Further, the guide frames 2231 are symmetrically arranged at left and right sides, two guide wheels 2233 corresponding to the two guide frames 2231 are arranged at left and right sides, and the two guide wheels 2233 roll along the guide grooves 2232 on the left and right guide frames 2231 respectively;

the guide groove 2232 includes an upper return portion 300 and a lower tracking portion 400, and the tracking portion 400 includes a translation segment 4001 and a cutting segment 4002.

Further, the upper end of the sliding sleeve 2221 is fixed with a supporting block 3, two rollers 31 are rotatably disposed on the supporting block 3, the two rollers 31 are symmetrically disposed in front and back, a limiting plate 32 is disposed above the roller 31, the roller 31 rolls along the lower surface of the limiting plate 32 when passing through the limiting plate 32, and the limiting plate 32 is fixed on the support 2211.

Here, the upper end through setting up sliding sleeve 2221 is fixed with supporting shoe 3, and the rotatable two running rollers 31 that are provided with on supporting shoe 3 to the cooperation sets up limiting plate 32 and carries out spacing direction to it, makes cutting assembly 222 stable at the in-process translation that cuts, can not take place the condition of slope.

Further, a cover plate 5 is further disposed above the conveyor belt 211, the fin strip 20 is conveyed through a space between the conveyor belt 211 and the cover plate 5, the cover plate 5 is fixed on the support 2211, a lower support block 51 is disposed below the front end of the cover plate 5, and an inlet is formed between the front end of the cover plate 5 and the lower support block 51.

Further, the shape blocks 212 are provided with oblique grooves 215, the oblique grooves 215 of four adjacent shape blocks 212 form a group, and the second cutting knife 2224 corresponds to the upper and lower positions of the oblique grooves 215 of the group in the cutting process.

Further, the tail end of the conveying belt 211 is also provided with a receiving table 6.

Further, the molding apparatus 1 includes a molding roller a11 and a molding roller b12 which are fitted one above the other.

Example two

As shown in fig. 5 and 8, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience; the second embodiment is different from the first embodiment in that: the mounting blocks 4 are arranged on one sides of the first cutter 2223 and the second cutter 2224, the springs 41 are fixed on the lower surfaces of the mounting blocks 4, the pressing blocks 42 are fixed on the lower end portions of the springs 41, and the pressing blocks 42 are located below the cutting edges of the first cutter 2223 and the second cutter 2224 when the springs 41 are in an uncompressed state.

Spring 41 and briquetting 42's setting makes the cutter push down the fin strip earlier before cutting, supports when can further guaranteeing to cut fully, and the in-process briquetting 42 that shifts up at the completion cutting cutter in addition also can avoid receiving frictional force to influence the cutter and take up the marginal area of cutting of fin strip, guarantees to cut back fin strip and still steadily treats on the transmission area.

The working process is as follows:

the sheet material 10 is formed into the fin strip 20 by the forming device 1 and is continuously conveyed backwards, the guide-in opening between the cover plate 5 and the lower support block 51 is guided to the profiling support mechanism 21, the conveyor belt 211 of the profiling support mechanism 21 drives the profiling block 212 to be conveyed at the same speed as the fin strip 20, and the profiling block 212 is sequentially clamped into the lower opening groove 201 of the fin strip 20 to support the fin strip;

the fin strip 20 is conveyed together with the conveyor belt 211 and the contour block 212, the rotary tracking assembly 221 drives the cutting assembly 222 to perform rotary motion, the cutting assembly 222 moves along the track of the guide groove 2232 through the guide wheel 2233 on the side edge of the sliding rod 2222, when the cutting assembly 222 moves to the translation section 4001, the moving speed of the cutting assembly 222 is synchronous with the fin strip 20, when the cutting assembly moves continuously to the cutting section 4002, the sliding rod 2222 slides downwards along the sliding sleeve 2221, and therefore the first cutting knife 2223 and the second cutting knife 2224 move downwards to cut the fin strip 20.

In the present invention, it is to be understood that: the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship indicated in the drawings for convenience and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only do the utility model discloses the embodiment of preferred, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel who is familiar with this technical field are in the utility model discloses a change or replacement that can think easily under the technical suggestion, if through arranging the back with opening state up with the bottle base, through transferring mechanism behind bottle base high positioning to the bottle base bottleneck location back negative pressure absorption fixed through bottle base feed mechanism, carry out the design concept that becomes the detection that looks analysis realized the bottleneck of bottle base and bottle global through the detecting element again, all should cover within the protection scope of the utility model. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a battery cold drawing part processing equipment, includes forming device (1) and sets up cutting device (2) at forming device (1) back, its characterized in that: forming device (1) carries out the press forming to sheet (10) for fin strip (20), and fashioned fin strip (20) are toward cutting device (2) direction transmission, cutting device (2) are including setting up profile modeling supporting mechanism (21) and the synchronous cutting mechanism (22) of setting in fin strip (20) top in fin strip (20) below, profile modeling supporting mechanism (21) include transmission band (211), be provided with on transmission band (211), profile modeling piece (212) support it in lower open groove (201) of fin strip (20) are gone into in the drive card of transmission band (211), synchronous cutting mechanism (22) cooperation profile modeling supporting mechanism (21) carry out the synchronous tracking to fin strip (20) and cut.

2. The battery cold plate component processing apparatus of claim 1, wherein: the profiling supporting mechanism (21) further comprises a driving piece (213) used for driving the transmission belt (211) to transmit, when the profiling block (212) on the transmission belt (211) is transmitted to the upper position, the profiling block firstly passes through the inclined section (100) and then passes through the horizontal section (200), a supporting plate (214) is arranged on the inner side of the transmission belt (211), and the supporting plate (214) supports the transmission belt (211) in the cutting process.

3. The battery cold plate component processing apparatus of claim 1, wherein: the profile block (212) is made of hard rubber material and is in clearance fit with the lower opening groove (201) of the fin strip (20).

4. The battery cold plate component processing apparatus of claim 1, wherein: the synchronous cutting mechanism (22) comprises a rotary tracking assembly (221), a cutting assembly (222) driven by the rotary tracking assembly (221) and a guide assembly (223) used for guiding and supporting the cutting assembly (222).

5. The battery cold plate component processing apparatus of claim 4, wherein: the rotation tracking assembly (221) comprises a support (2211), a rotating piece (2212) fixed on the support (2211) and a chain (2213) driven by the rotating piece (2212), and a rotation supporting block (2214) is fixedly arranged on the side surface of the chain (2213);

the cutting assembly (222) comprises a sliding sleeve (2221) rotatably arranged on the rotating supporting block (2214), a sliding rod (2222) in sliding fit with the sliding sleeve (2221), and a first cutter (2223) and a second cutter (2224) which are fixed at the lower end part of the sliding rod (2222);

the guide assembly (223) comprises a guide frame (2231), a guide groove (2232) is formed in the guide frame (2231), a guide wheel (2233) is rotatably arranged on the side edge of the sliding rod (2222), and the guide wheel (2233) rolls along the guide groove (2232).

6. The battery cold plate component processing apparatus of claim 5, wherein: the guide frames (2231) are symmetrically arranged at the left and the right, the guide wheels (2233) corresponding to the guide frames are arranged at the left and the right, and the two guide wheels (2233) roll along the guide grooves (2232) on the left and the right guide frames (2231) respectively;

the guide groove (2232) comprises an upper return portion (300) and a lower tracking portion (400), and the tracking portion (400) comprises a translation segment (4001) and a cutting segment (4002).

7. The battery cold plate component processing apparatus of claim 5, wherein: the utility model discloses a spacing device, including sliding sleeve (2221), upper end of sliding sleeve (2221) is fixed with supporting shoe (3), rotatable two running rollers (31) of being provided with on supporting shoe (3), two running rollers (31) front and back symmetry set up, and what correspond with it is provided with limiting plate (32) in the top of running roller (31), running roller (31) roll along the lower surface of limiting plate (32) when limiting plate (32), limiting plate (32) are fixed on support (2211).

8. The battery cold plate component processing apparatus of claim 7, wherein: the cutting knife is characterized in that mounting blocks (4) are arranged on one sides of the first cutting knife (2223) and the second cutting knife (2224), springs (41) are fixed to the lower surfaces of the mounting blocks (4), pressing blocks (42) are fixed to the lower end portions of the springs (41), and the pressing blocks (42) are located below cutting edges of the first cutting knife (2223) and the second cutting knife (2224) when the springs (41) are in an uncompressed state.

9. The battery cold plate component processing apparatus of claim 5, wherein: the fin strip is characterized in that a cover plate (5) is further arranged above the conveying belt (211), the fin strip (20) is conveyed through a space between the conveying belt (211) and the cover plate (5), the cover plate (5) is fixed on the support (2211), a lower supporting block (51) is arranged below the front end of the cover plate, and an introducing port is formed between the front end of the cover plate (5) and the lower supporting block (51).

10. The battery cold plate component processing apparatus of claim 8, wherein: the profiling blocks (212) are provided with oblique grooves (215), the oblique grooves (215) on the four adjacent profiling blocks (212) form a group, and the second cutting knife (2224) corresponds to the upper and lower positions of the oblique grooves (215) in the group in the cutting process.

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