CN205291587U - Machine is withheld to radiator hydroecium - Google Patents
Machine is withheld to radiator hydroecium Download PDFInfo
- Publication number
- CN205291587U CN205291587U CN201620072610.7U CN201620072610U CN205291587U CN 205291587 U CN205291587 U CN 205291587U CN 201620072610 U CN201620072610 U CN 201620072610U CN 205291587 U CN205291587 U CN 205291587U
- Authority
- CN
- China
- Prior art keywords
- mould
- withholds
- withhold
- bar
- worktable
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The utility model discloses a machine is withheld to radiator hydroecium, which comprises a frame, the hydroecium pressure die, left side mould, left side mould workstation, right side mould, right side mould workstation, the core supporting seat, the PLC controller, the hydroecium pressure die is established in the frame top, the left side in the frame is established to left side mould workstation, the right side in the frame is established to right side mould workstation, left side mould includes the first mould of withholding, the mould is withheld to the second, the mould is withheld to left side mould side, left side mould side withhold the mould establish first withhold the mould on, right side mould includes that the third withholds the mould, the mould is withheld to the fourth, the mould is withheld to right side mould side, right side mould side is withheld the mould and is established on the mould is withheld to the third, the utility model is simple in operation, withhold with the automation of core mainboard through PLC system control reality hydroecium to still can withhold the machine according to the specification adjustment of work piece hydroecium and withhold the assembly demand with the hydroecium that adapts to multiple specification, and assembly speed is fast, compares manual withholding, has improved machining efficiency greatly.
Description
Technical field
The utility model relates to scatterer processing units field, is specifically related to a kind of radiator water chamber and withholds machine.
Background technology
Radiator, also known as scatterer, is main parts in automobile cooling system; Function is distribute heat, and water coolant absorbs heat in water jacket, and after flowing to scatterer, heat leaves, then returns to water jacket internal recycle, reaches temperature adjustment, is the integral part of motor car engine.
When producing scatterer, need to buckle radiator water chamber at radiator mainboard, mainboard on radiator core body and gasket and plastic water chamber three are combined, pawl tooth on mainboard is bent, and tightly hook the limit pin of hydroecium, hydroecium and core body are closely combined integral, form an airtight container, and existing operation major part of withholding adopts manual operation to withhold, or carry out hydroecium by manual simplified crimping device and withhold, but the working (machining) efficiency that operation withheld by this kind of hydroecium is lower, process period is longer, it is difficult to adapt to the rapid processing demand of streamline.
Practical novel content
Technical problem to be solved in the utility model is the defect overcoming the existence of above-mentioned prior art, a kind of radiator water chamber is provided to withhold machine, realize radiator water chamber and the fast automatic of radiator core body mainboard is withheld, reduce workman and work intensity, it is to increase processing efficiency.
In order to solve the problem, a kind of radiator water chamber provided by the utility model withholds machine, comprise frame, hydroecium compresses mould, Zuo Mo, left mould worktable, right mould, right mould worktable, core support seat, PLC, described hydroecium compresses mould and is located at above described frame, described left mould worktable is located at the left side of described frame, described right mould worktable is located at the right side of described frame, described left mould is arranged on described left mould worktable by left mould slide rail and the left mode slider that coordinates with it, described left mould is rotated by the left mould driven by servomotor left mould ball screw mandrel being located on described left mould worktable and drives the nut sleeve coordinated with it and be fixed on described left mould and move, described right mould is arranged on described right mould worktable by right mould slide rail and the right mode slider that coordinates with it, described right mould is rotated by the right mould driven by servomotor right mould ball screw mandrel being located on described right mould worktable and drives the nut sleeve coordinated with it and be fixed on described right mould and move, described left mould comprises first and withholds mould, 2nd withholds mould, left mould side withholds mould, described left mould side is withheld mould and is located at described first and withholds on mould, described right mould comprises the 3rd and withholds mould, 4th withholds mould, right mould side withholds mould, described right mould side is withheld mould and is located at the described 3rd and withholds on mould, described core support seat comprises the left seat of core support, the right seat of core support, the left seat of described core support is located on described left mould worktable, the right seat of described core support is located on described right mould worktable.
Preferably, described first withholds mould comprises and withholds die holder, withhold mould Sliding partitions, withhold block, withhold head, withhold mould Sliding partitions cylinder, withhold block cylinder, worm gear worm screw, described withhold side in die holder two and it is provided with chute, described mould Sliding partitions of withholding promotes motion before and after work by being fixed on the mould Sliding partitions cylinder of withholding withholding on outside die holder on chute, and can withhold described in being fixed on withhold described in the fine setting of the worm gear worm screw on mould Sliding partitions mould Sliding partitions relatively described in withhold the position of mould Sliding partitions cylinder, described block front end of withholding is flexibly connected with described die holder of withholding by rotating shaft, described withhold block end withhold described in being fixed on bottom mould Sliding partitions withhold block cylinder promote move up and down, described withhold head be locked in by bolt described in withhold on block front end, described 2nd withholds mould, 3rd withholds mould, it is identical that 4th structure withholding mould withholds mode structure with described first.
Preferably, nut sleeve on described left mould ball screw mandrel is fixed on the bottom that described first withholds mould, nut sleeve on described right mould ball screw mandrel is fixed on the bottom that the described 3rd withholds mould, described 2nd withholds mould withholds mould linkage motion by described first, and the described 4th withholds mould withholds mould linkage motion by the described 3rd.
Preferably, described left mould side is withheld mould and is comprised side and withhold mould servomotor, side withholds mould ball screw mandrel, side withholds mould bar, side withholds head, mould bar is flexibly connected cover, mould bar rotates cover, mould bar rotary cylinder, mould bar supports seat, described mould bar support seat is fixed on described first and withholds on mould front end, described side is withheld mould bar front end and is supported seat through described mould bar, described side is withheld mould bar and is enclosed within described side and withholds in mould ball screw mandrel and the nut sleeve that coordinates with it, and withhold side described in mould driven by servomotor and withhold mould ball screw mandrel by being fixed on described first side withheld on mould sidewall and rotate to drive and coordinate with it and be flexibly connected cover by described mould bar and withhold nut sleeve that mould bar is connected with described side and move, described mould bar be flexibly connected cover inner withhold with described side mould bar end be provided with the hasp tooth cooperatively interacted make described side withhold mould bar described mould bar be flexibly connected overlap in free to rotate, described mould bar flexible connection cover is fixed on described side and withholds in the nut sleeve on mould ball screw mandrel and then promote described side to withhold motion before and after mould bar work, described mould bar is flexibly connected to be arranged with withholds mould sidewall tangent plane bonded to each other with described first, described side is withheld mould bar and is provided with revotating card groove, described mould bar rotates in cover and is provided with the rotation latch coordinated with it, described mould bar rotates and is enclosed within described side and withholds on mould bar and support the mould bar rotary cylinder on seat and promote rotation by being fixed on described mould bar and then drive described side to withhold the rotation of mould bar, described side is withheld head and is located at described side and withholds mould bar front end, it is identical that the structure that described right mould side withholds mould withholds mode structure with described left mould side, it is located at the described 3rd to withhold on the outer side wall of mould.
Preferably, described hydroecium compresses mould and is provided with hydroecium compression cylinder, it is provided with hydroecium bottom described hydroecium compression cylinder piston rod rod end and compresses cushion, described hydroecium is compressed mould two ends and is flexibly connected with described frame by optical axis, and described hydroecium compresses mould and moves left and right by the screw rod control being located at above described frame.
Preferably, described left mould worktable is arranged in described frame by left mould worktable slide rail and the left mould worktable slide block that coordinates with it, described left mould worktable controls two synchronous wheel drive two left mould worktable ball screw mandrel by the left mould worktable servomotor being located in described frame by synchronous band and rotates and drive the nut sleeve coordinated with it and be fixed on described left mould worktable and move, and is regulated the tensioning degree of described synchronous band by two tightening pulleys being located at adjustable position in described frame.
Preferably; described PLC is located in described frame, described PLC and described hydroecium compression cylinder, left mould servomotor, left mould worktable servomotor, right mould servomotor, withhold mould Sliding partitions cylinder, withhold block cylinder, side withholds mould servomotor, mould bar rotary cylinder is connected and control described hydroecium compression cylinder, left mould servomotor, left mould worktable servomotor, right mould servomotor, withhold mould Sliding partitions cylinder, withhold block cylinder, side withholds mould servomotor, the operation of mould bar rotary cylinder.
From above-mentioned to description of the present utility model, the utility model tool has the following advantages: the utility model adopts touch-screen and PLC system to show and set device working order (cloth distance and rate of advance etc.), system can store several data parameter, and can call arbitrarily, the workpiece hydroecium being particularly suitable for multi items is withheld; Equipment adopts servomotor and servo-driver, drives ball screw mandrel, and make-up pressing mold carries out driving and controlling, make to withhold mould linearly slide rail realize accurate stepping; And can realize according to workpiece water chamber shape dodging and the action such as advance, thus realize the automatic inlaid of radiator water chamber and core body; The utility model is simple to operate, by the automatic inlaid of PLC system control reality hydroecium and core body mainboard, and also can withhold machine according to the specification adjustment of workpiece hydroecium and withhold assembling demand to adapt to the hydroecium of plurality of specifications, and it is fast to withhold speed, compare manual withholding, substantially increase working (machining) efficiency, and reduce the work intensity of workman.
Accompanying drawing explanation
Fig. 1 is the structural representation of embodiment of the present utility model.
The hydroecium that Fig. 2 is embodiment of the present utility model compresses mode structure schematic diagram.
Fig. 3 is left and right mould and the Working table structure schematic diagram of embodiment of the present utility model.
Fig. 4 is the left and right mould of embodiment of the present utility model and another angle structural representation of worktable.
Fig. 5 is the left mould of embodiment of the present utility model and the structural representation of worktable.
Fig. 6 is the left mode structure schematic diagram of embodiment of the present utility model.
Fig. 7 is the three-dimensional decomposition structural representation that the first of embodiment of the present utility model withholds mould.
The side that Fig. 8 is embodiment of the present utility model withholds mode structure schematic diagram.
The side that Fig. 9 is embodiment of the present utility model withholds mould solid decomposition structural representation.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described.
Please refer to accompanying drawing 1, accompanying drawing 2, accompanying drawing 3, accompanying drawing 5, a kind of radiator water chamber withholds machine, comprise frame 1, hydroecium compresses mould 2, left mould 3, left mould worktable 4, right mould 5, right mould worktable 6, core support seat 7, PLC 8, described hydroecium compresses mould 2 and is located at above described frame 1, described left mould worktable 4 is located at the left side of described frame 1, described right mould worktable 6 is located at the right side of described frame 1, described left mould 3 is arranged on described left mould worktable 4 by left mould slide rail 43 and the left mode slider 44 that coordinates with it, described left mould 3 drives left mould ball screw mandrel 41 to rotate by the left mould servomotor 42 being located on described left mould worktable 4 and drives the nut sleeve coordinated with it and be fixed on described left mould 3 and move, described right mould 5 is arranged on described right mould worktable 6 by right mould slide rail 63 and the right mode slider 64 that coordinates with it, described right mould 5 drives right mould ball screw mandrel 61 to rotate by the right mould servomotor 62 being located on described right mould worktable 6 and drives the nut sleeve coordinated with it and be fixed on described right mould 5 and move, described left mould 3 comprises first and withholds mould 31, 2nd withholds mould 32, left mould side withholds mould 33, described left mould side is withheld mould 33 and is located at described first and withholds on mould 31 front side wall, described right mould 5 comprises the 3rd and withholds mould 51, 4th withholds mould 52, right mould side withholds mould 53, described right mould side is withheld mould 53 and is located at the described 3rd and withholds on mould 51 rear wall, described core support seat 7 comprises the left seat 71 of core support, the right seat 72 of core support, the left seat of described core support 71 is located on described left mould worktable 4, the right seat of described core support 72 is located on described right mould worktable 6.
Please refer to accompanying drawing 3, accompanying drawing 7, described first withholds mould 31 comprises and withholds die holder 311, withhold mould Sliding partitions 312, withhold block 313, withhold 314, withhold mould Sliding partitions cylinder 315, withhold block cylinder 316, worm gear worm screw 317, adjusting bolt 318, described withhold side in die holder 311 liang and it is provided with chute, described mould Sliding partitions 312 of withholding promotes motion before and after work by being fixed on the mould Sliding partitions cylinder 315 of withholding withholding on outside die holder 311 on chute, and the worm gear worm screw 317 that can withhold described in being fixed on mould Sliding partitions 312 finely tune described in withhold mould Sliding partitions 312 relatively described in withhold the position of mould Sliding partitions cylinder 315, described worm gear worm screw 317 and described withholding withhold mould Sliding partitions 312 displacement readings described in when being also provided with the scale convenience fine setting cooperatively interacted on die holder 311, described block 313 front end of withholding is flexibly connected with described die holder 311 of withholding by rotating shaft, described withhold block 313 end withhold described in being fixed on bottom mould Sliding partitions 312 withhold block cylinder 316 by adjusting bolt 318 promote move up and down, described withhold 314 be locked in by bolt described in withhold on block 313 front end, and can pad as required one piece of cushion block adjust described in withhold a relative height for 314 relatively described core support seats 7, described 2nd withholds mould 32, 3rd withholds mould 51, it is identical that 4th structure withholding mould 52 withholds mould 31 structure with described first.
Please refer to accompanying drawing 3, accompanying drawing 6, nut sleeve on described left mould ball screw mandrel 41 is fixed on the bottom that described first withholds mould 31, nut sleeve on described right mould ball screw mandrel 61 is fixed on the bottom that the described 3rd withholds mould 51, described 2nd withholds mould 32 withholds mould 31 by described first and links motion, and the described 4th withholds mould 52 withholds mould 51 by the described 3rd and link motion; Described first withholds mould 31, the 2nd withholds mould 32 and withholds mould 51, the 4th with the described 3rd and withhold mould 52 and be symmetrical set respectively on described left mould worktable 4 and right mould worktable 6.
Please refer to accompanying drawing 3, accompanying drawing 6, accompanying drawing 8, accompanying drawing 9, described left mould side is withheld mould 33 and is comprised side and withhold mould servomotor 331, side withholds mould ball screw mandrel 332, side withholds mould bar 333, side withholds 334, mould bar is flexibly connected cover 335, mould bar rotates cover 336, mould bar rotary cylinder 337, mould bar supports seat 338, described mould bar support seat 338 is fixed on described first and withholds on mould 31 front end, described side is withheld mould bar 333 front end and is supported seat 338 through described mould bar, described side is withheld mould bar 333 and is enclosed within described side and withholds in mould ball screw mandrel 332 and the nut sleeve that coordinates with it, and withhold mould servomotor 331 drive described side to withhold mould ball screw mandrel 332 to rotate to drive and coordinate with it and be flexibly connected cover 335 by described mould bar and withhold nut sleeve that mould bar 333 is connected with described side and move by being fixed on the described first side withheld on mould 31 sidewall, described mould bar be flexibly connected cover 335 inner withhold with described side mould bar 333 end be provided with the hasp tooth 3351 cooperatively interacted make described side withhold mould bar 333 described mould bar be flexibly connected overlap in 335 free to rotate, described mould bar flexible connection cover 335 is fixed on described side and withholds in the nut sleeve on mould ball screw mandrel 332 and then promote described side to withhold motion before and after mould bar 333 work, described mould bar flexible connection cover 335 is provided with withholds mould 31 sidewall tangent plane bonded to each other with described first, described side is withheld mould bar 333 and is provided with revotating card groove 3331, described mould bar rotates in cover 336 and is provided with the rotation latch 3361 coordinated with it, described mould bar rotates cover 336 and is enclosed within described side and withholds on mould bar 333 and promote and rotate by being fixed on the mould bar rotary cylinder 337 that described mould bar supports on seat 338 and then drive described side to withhold the rotation of mould bar 333, described mould bar rotates and is also provided with the rotation angle range that caging bolt limits described mould bar rotation cover 336 on cover 336 and described mould bar support seat 338, described side is withheld 334 and is located at described side and withholds mould bar 333 front end, and can pad as required one piece of cushion block to adjust described side withhold a relative height for 334 relatively described core support seats 7, it is identical that the structure that described right mould side withholds mould 53 withholds mould 33 structure with described left mould side, it is located at the described 3rd to withhold on the rear wall of mould 51.
Please refer to accompanying drawing 1, accompanying drawing 2, described hydroecium compresses mould 2 and is provided with hydroecium compression cylinder 21, it is provided with hydroecium bottom described hydroecium compression cylinder 21 piston rod rod end and compresses cushion 22, described hydroecium is compressed mould 2 two ends and is flexibly connected with described frame 1 by optical axis 23, and described hydroecium compresses mould 2 and moves left and right by screw rod 24 control being located at above described frame 1; For the radiator core body of different size and withholding of hydroecium 9, control described hydroecium by described screw rod 24 and compress the position of the relatively described core support seat 7 of mould 2 thus compress hydroecium 9, be convenient to withhold.
Please refer to accompanying drawing 3, accompanying drawing 4, accompanying drawing 5, described left mould worktable 4 is arranged in described frame 1 by left mould worktable slide rail 11 and the left mould worktable slide block 12 that coordinates with it, described left mould worktable 4 by the left mould worktable servomotor 46 being located in described frame 1 by synchronously with 49 control two synchronously wheel 47 driving two left mould worktable ball screw mandrels 45 rotate and drive the nut sleeve coordinated with it and be fixed on described left mould worktable 4 and move, and the tensioning degree of described synchronous band 49 is regulated by two tightening pulleys 48 being located at adjustable position in described frame 1, for the radiator core body of different size and withholding of hydroecium 9, adjust the position of described left mould worktable 4 by PLC 8, thus adjust the spacing of described core support seat 71 with described core support seat 72, to adapt to the arrangement of the core body of different in width.
Described PLC 8 is located in described frame 1, described PLC 8 and described hydroecium compression cylinder 21, left mould servomotor 42, left mould worktable servomotor 46, right mould servomotor 62, described first withholds mould 31, 2nd withholds mould 32, 3rd withholds mould 51, 4th withholds withholding mould Sliding partitions cylinder 315 and withholding block cylinder 316 on mould 52, described left mould side withholds mould 33, the side that right mould side is withheld on mould 53 withholds mould servomotor 331 and mould bar rotary cylinder 337 connects and controls described hydroecium compression cylinder 21, left mould servomotor 42, left mould worktable servomotor 46, right mould servomotor 62, withhold mould Sliding partitions cylinder 315, withhold block cylinder 316, side withholds mould servomotor 331, the operation of mould bar rotary cylinder 337.
In addition, when withholding the hydroecium 9 of relatively large gauge, also can arranging core body supplemental support seat on described left mould worktable 4, right mould worktable 6, to support radiator core body two ends, facilitate side to withhold, protection core body is not bent damage.
Operation of withholding of the present utility model is: is placed on core support seat 7 after being first manually connected with core body mainboard by radiator water chamber 9 and is directed at left mould 3, after the automatic inlaid program of the zero position of right mould 5 �� startup PLC 8, left mould worktable servomotor 46 action makes left mould worktable 4 mould worktable 6 moves and clamps on core support seat 7 core body mainboard and hydroecium 9 to the right, then hydroecium compression cylinder 21 action that hydroecium compresses on mould 2 makes hydroecium compression cushion 22 compress hydroecium 9 and withholds mould 31 with core body �� the first, 2nd withholds mould 32, 3rd withholds mould 51, 4th action while of withholding mould Sliding partitions cylinder 315 withheld on mould 52 makes to withhold mould Sliding partitions 312 propelling and drives 314 top of withholding on it to the pawl tooth on the long limit of core body mainboard, pawl tooth to be bent, then withhold block cylinder 316 action to make to withhold 314 and curved inwardly further by the pawl tooth on core body mainboard and withhold block cylinder 316 after tightly hooking the limit pin of hydroecium 9 and reset, then withhold mould Sliding partitions cylinder 315 reset �� side withholds mould servomotor 331 and controls left mould side and withhold mould 33 and advance and make side withhold the first left pawl teeth on 334 alignment mainboard front end sides, left mould servomotor 42 controls the side that the motion of left mould 3 makes the left mould side on it withhold mould 33 and withholds 334 tops and to the pawl tooth on the side of core body mainboard front end, pawl tooth is bent, then mould bar rotary cylinder 337 action is rotated side and is withheld mould bar 333 and make side withhold 334 to be curved inwardly further by the pawl tooth on core body mainboard side and the limit pin rear mold bar rotary cylinder 337 that tightly hooks hydroecium 9 resets, then left mould servomotor 42 controls left mould 3 and resets, then side withhold mould servomotor 331 control again left mould side withhold the pawl tooth that mould 33 carries out on the side of next core body mainboard front end withhold until last pawl tooth of side withhold terminate back side edge withhold mould servomotor 331 control again left mould side withhold mould 33 reset return �� left mould servomotor 42 with right mould servomotor 62 with the left mould 3 of control, the motion of right mould 5 carry out mainboard long limit pawl tooth withhold until last on rear end, mainboard long limit pawl tooth has been withheld �� right mould side withholds mould 53 and withholds, according to left mould side, the action that mould 33 withholds mainboard front end side pawl tooth, the pawl tooth of mainboard rear end side is withheld �� mainboard on pawl tooth all withhold terminate after the hydroecium compression cylinder 21 that compresses on mould 2 of hydroecium reset, left mould 3 and right mould 5 reset simultaneously is return zero position �� left mould worktable 4 and is resetted, unclamp the core body hydroecium after withholding, take off core body hydroecium, withhold operation to complete.
Above-mentioned automatic inlaid operation is programmed for sequential operation mode by electrical equipment PLC, after having set parameter according to core body and hydroecium 9 specification, the startup button that workman only need to press in PLC 8 can start above-mentioned each step and withhold action automatically and complete withholding of core body and hydroecium 9.
The utility model adopts import touch-screen and PLC system, and display and set device working order (cloth distance and rate of advance etc.), can store several data parameter, and can call arbitrarily, and the workpiece hydroecium being particularly suitable for multi items is withheld; Equipment adopts Taiwan inlet servo motor and servo-driver, drives ball screw mandrel, and make-up pressing mold carries out driving and controlling, make to withhold mould linearly slide rail accurately realize stepping; Withhold mould when withholding action, can realize according to workpiece water chamber shape dodging and the action such as advance; Thus the mainboard on radiator core body and gasket and plastic water chamber three are combined, the pawl tooth on mainboard is bent, and tightly hooks the limit pin of hydroecium, hydroecium and core body are closely combined integral, form an airtight container; The utility model is simple to operate, by the automatic inlaid of PLC system control reality hydroecium and core body mainboard, and also can withhold machine according to the specification adjustment of workpiece hydroecium and withhold assembling demand to adapt to the hydroecium of plurality of specifications, and it is fast to withhold speed, what on average within each minute, just can complete a radiator water chamber and core body withholds operation, compare manual withholding, substantially increase working (machining) efficiency, and reduce the work intensity of workman.
The above, the present embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although the utility model being described in detail with reference to previous embodiment, it will be understood by those within the art that: the technical scheme described in previous embodiment still can be modified by it, or part technology feature wherein is carried out equivalent replacement; And these amendments or replacement; appropriate technical solution is not made to depart from the spirit and scope of the utility model embodiment technical scheme; therefore those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to protection domain of the present utility model.
Claims (7)
1. a radiator water chamber withholds machine, comprise frame (1), it is characterized in that, described radiator water chamber is withheld machine and is also comprised hydroecium compression mould (2), left mould (3), left mould worktable (4), right mould (5), right mould worktable (6), core support seat (7), PLC (8), described hydroecium compresses mould (2) and is located at described frame (1) top, described left mould worktable (4) is located at the left side of described frame (1), described right mould worktable (6) is located at the right side of described frame (1), described left mould (3) is arranged on described left mould worktable (4) by left mould slide rail (43) and the left mode slider (44) that coordinates with it, described left mould (3) drives left mould ball screw mandrel (41) to rotate by the left mould servomotor (42) being located on described left mould worktable (4) and drives the nut sleeve coordinated with it and be fixed on described left mould (3) and move, described right mould (5) is arranged on described right mould worktable (6) by right mould slide rail (63) and the right mode slider (64) that coordinates with it, described right mould (5) drives right mould ball screw mandrel (61) to rotate by the right mould servomotor (62) being located on described right mould worktable (6) and drives the nut sleeve coordinated with it and be fixed on described right mould (5) and move, described left mould (3) comprises first and withholds mould (31), 2nd withholds mould (32), left mould side withholds mould (33), described left mould side is withheld mould (33) and is located at described first and withholds on mould (31), described right mould (5) comprises the 3rd and withholds mould (51), 4th withholds mould (52), right mould side withholds mould (53), described right mould side is withheld mould (53) and is located at the described 3rd and withholds on mould (51), described core support seat (7) comprises the left seat of core support (71), the right seat of core support (72), the left seat of described core support (71) is located on described left mould worktable (4), the right seat of described core support (72) is located on described right mould worktable (6).
2. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, described first withholds mould (31) comprises and withholds die holder (311), withhold mould Sliding partitions (312), withhold block (313), withhold head (314), withhold mould Sliding partitions cylinder (315), withhold block cylinder (316), worm gear worm screw (317), described withhold side in die holder (311) two and it is provided with chute, described mould Sliding partitions (312) of withholding promotes motion before and after work by being fixed on mould Sliding partitions cylinder (315) of withholding withholding on die holder (311) outside on chute, and can withhold described in being fixed on withhold described in the fine setting of the worm gear worm screw (317) on mould Sliding partitions (312) mould Sliding partitions (312) relatively described in withhold the position of mould Sliding partitions cylinder (315), described block (313) front end of withholding is flexibly connected with described die holder (311) of withholding by rotating shaft, described withhold block (313) end withhold described in being fixed on mould Sliding partitions (312) bottom withhold block cylinder (316) promote move up and down, described withhold head (314) be locked in by bolt described in withhold on block (313) front end, described 2nd withholds mould (32), 3rd withholds mould (51), it is identical that 4th structure withholding mould (52) withholds mould (31) structure with described first.
3. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, nut sleeve on described left mould ball screw mandrel (41) is fixed on the bottom that described first withholds mould (31), nut sleeve on described right mould ball screw mandrel (61) is fixed on the bottom that the described 3rd withholds mould (51), described 2nd withholds mould (32) withholds mould (31) linkage motion by described first, and the described 4th withholds mould (52) withholds mould (51) linkage motion by the described 3rd.
4. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, described left mould side is withheld mould (33) and is comprised side and withhold mould servomotor (331), side withholds mould ball screw mandrel (332), side withholds mould bar (333), side withholds head (334), mould bar is flexibly connected cover (335), mould bar rotates cover (336), mould bar rotary cylinder (337), mould bar supports seat (338), described mould bar support seat (338) is fixed on described first and withholds on mould (31) front end, described side is withheld mould bar (333) front end and is supported seat (338) through described mould bar, described side is withheld mould bar (333) and is enclosed within described side and withholds in mould ball screw mandrel (332) and the nut sleeve that coordinates with it, and withhold mould servomotor (331) drive described side to withhold mould ball screw mandrel (332) to rotate to drive and coordinate with it and be flexibly connected cover (335) by described mould bar and withhold nut sleeve that mould bar (333) is connected with described side and move by being fixed on the described first side withheld on mould (31) sidewall, described mould bar is flexibly connected inner mould bar (333) end of withholding with described side of cover (335) and is provided with the hasp tooth (3351) cooperatively interacted and makes described side withhold mould bar (333) to be flexibly connected in cover (335) free to rotate at described mould bar, described mould bar flexible connection cover (335) is fixed on described side and withholds in the nut sleeve on mould ball screw mandrel (332) and then promote described side to withhold motion before and after mould bar (333) work, described mould bar flexible connection cover (335) is provided with withholds mould (31) sidewall tangent plane bonded to each other with described first, described side is withheld mould bar (333) and is provided with revotating card groove (3331), described mould bar rotates in cover (336) and is provided with the rotation latch (3361) coordinated with it, described mould bar rotates cover (336) and is enclosed within described side to withhold mould bar (333) upper and support mould bar rotary cylinder (337) on seat (338) and promote by being fixed on described mould bar and rotate and then drive described side to withhold the rotation of mould bar (333), described side is withheld head (334) and is located at described side and withholds mould bar (333) front end, it is identical that the structure that described right mould side withholds mould (53) withholds mould (33) structure with described left mould side, it is located at the described 3rd to withhold on the outer side wall of mould (51).
5. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, described hydroecium compresses mould (2) and is provided with hydroecium compression cylinder (21), it is provided with hydroecium bottom described hydroecium compression cylinder (21) piston rod rod end and compresses cushion (22), described hydroecium is compressed mould (2) two ends and is flexibly connected with described frame (1) by optical axis (23), and described hydroecium compresses mould (2) and moves left and right by screw rod (24) control being located at described frame (1) top.
6. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, described left mould worktable (4) is arranged in described frame (1) by left mould worktable slide rail (11) and left mould worktable slide block (12) that coordinates with it, described left mould worktable (4) drives two left moulds worktable ball screw mandrel (45) to rotate by left mould worktable servomotor (46) being located in described frame (1) by the synchronous synchronous wheel (47) of band (49) control two and drives the nut sleeve coordinated with it and be fixed on described left mould worktable (4) and move, and the tensioning degree of described synchronous band (49) is regulated by two tightening pulleys (48) being located at the upper adjustable position of described frame (1).
7. a kind of radiator water chamber according to claim 1 withholds machine, it is characterized in that, described PLC (8) is located in described frame (1), described PLC (8) and described hydroecium compression cylinder (21), left mould servomotor (42), left mould worktable servomotor (46), right mould servomotor (62), withhold mould Sliding partitions cylinder (315), withhold block cylinder (316), side withholds mould servomotor (331), mould bar rotary cylinder (337) connects and controls described hydroecium compression cylinder (21), left mould servomotor (42), left mould worktable servomotor (46), right mould servomotor (62), withhold mould Sliding partitions cylinder (315), withhold block cylinder (316), side withholds mould servomotor (331), the operation of mould bar rotary cylinder (337).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620072610.7U CN205291587U (en) | 2016-01-26 | 2016-01-26 | Machine is withheld to radiator hydroecium |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620072610.7U CN205291587U (en) | 2016-01-26 | 2016-01-26 | Machine is withheld to radiator hydroecium |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205291587U true CN205291587U (en) | 2016-06-08 |
Family
ID=56426841
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620072610.7U Active CN205291587U (en) | 2016-01-26 | 2016-01-26 | Machine is withheld to radiator hydroecium |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205291587U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105599291A (en) * | 2016-01-26 | 2016-05-25 | 福建意格机械设备有限公司 | Crimping machine for radiator water chamber |
-
2016
- 2016-01-26 CN CN201620072610.7U patent/CN205291587U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105599291A (en) * | 2016-01-26 | 2016-05-25 | 福建意格机械设备有限公司 | Crimping machine for radiator water chamber |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN210819801U (en) | Be applied to glyptic location frock of foam mold | |
CN204018439U (en) | A kind of shell shaper of R bending structure | |
CN205291587U (en) | Machine is withheld to radiator hydroecium | |
CN201109184Y (en) | Tire tread numerically controlled fraise machine | |
CN105436302A (en) | Numerically-controlled processing integrated machine for copper bar | |
CN103331901B (en) | Variable-pitch device of bottle blowing machine | |
CN216633467U (en) | Plastic mould finish milling mechanism with constant head tank | |
CN203344301U (en) | Pitch-changing device for bottle blowing machine | |
CN206048720U (en) | Milling automatic gate machine | |
CN205346308U (en) | Brim of a hat automatic feeding subassembly | |
CN212169870U (en) | Sheet metal die burr grinding device | |
CN212420438U (en) | Fixing device is used in mould processing | |
CN204817851U (en) | Drive arrangement is used in heating of pin jumping -up | |
CN211190773U (en) | Four-station semi-automatic glue spreader | |
CN105599291A (en) | Crimping machine for radiator water chamber | |
CN209616755U (en) | A kind of rear-mounted carving machine with positioning mechanism | |
CN219484948U (en) | Quick positioner that mould processing was used | |
CN218487157U (en) | Sand box convenient to extract sand piece | |
CN207345144U (en) | A kind of moulding press with positioning fixture | |
CN220838992U (en) | Clamp for die machining | |
CN221474562U (en) | Edging device is used in injection mold production and processing | |
CN221064123U (en) | Refrigerator front and rear plate stamping die with discharging function | |
CN220825825U (en) | Polishing structure for surface polishing of injection mold | |
CN217393673U (en) | Improved molding sand core deburring device | |
CN218169812U (en) | High temperature forging grinding device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |