CN209467801U - Flexible production line and its lifting mechanism - Google Patents

Abstract

The utility model discloses a kind of flexible production line and its lifting mechanisms, the lifting mechanism includes the first lifting mould group and the second lifting mould group, first lifting mould group and the second lifting mould group are correspondingly arranged at the two sides of transmission mould group, first is lifted the first arm that mould group includes the first telescoping cylinder and connect with the cylinder rod of the first telescoping cylinder, second is lifted the second arm that mould group includes the second telescoping cylinder and connect with the cylinder rod of the second telescoping cylinder, the first lifting end and the second lifting end are arranged at intervals on first arm, third lifting end and the 4th lifting end are arranged at intervals on second arm, first lifting end is correspondingly arranged with third lifting end, second lifting end is correspondingly arranged with the 4th lifting end.Above-mentioned lifting mechanism structure is simple, and tooling shares a set of mechanism when entering and leaving processing mould group, effectively reduces the cost of equipment, simultaneously, it can be realized lifting and the drop action of tooling using a set of lifting mechanism, to effectively improve the efficiency of production, reduce the cost of manufacture.

Description

Flexible production line and its lifting mechanism

Technical field

The utility model relates to processing technique field more particularly to a kind of lifting mechanisms.The utility model further relates to one kind Flexible production line.

Background technique

In modern processing field, in order to meet the diversification of the market demand, the cycle time of successive generations of products is Rapid change for adapting to manufacturing operation and production environment needs quickly to adjust production line, and flexible production line obtains extensively Application.

Flexible production line carries out assembling combination by multiple Working mould groups, to effectively meet production requirement adjusted. There are multiple processing mould groups on flexible production line, and the transmission mould group that will be connected between each processing mould group, work piece exist It is transported to next processing mould group by transmitting mould group after one processing mould group processing, to realize the processing and manufacturing of product.

When processing mould group is processed, workpiece to be added flows into the position of processing mould group by transmission mould group, using lift Rising mould group is lifted to machined part, and work piece is made to be detached from transmission mould group, after the processing is completed, will using blowing mould group It is flowed out in the transmission mould group that workpiece after processing reapposes.But the lifting movement of workpiece and blowing action needs are set Zhi Liangtao mechanism, structure is complicated, and manufacturing cost is high, so that production efficiency is low.

Utility model content

Purpose of the utility model is to solve at least one above-mentioned problem, which is by following technology What scheme was realized.

The utility model provides a kind of lifting mechanism, including the first lifting mould group and the second lifting mould group, and described first Lifting mould group and the second lifting mould group are correspondingly arranged at the two sides of transmission mould group, and the first lifting mould group is stretched including first Contracting cylinder and the first arm being connect with the cylinder rod of first telescoping cylinder, it is described second lifting mould group include the second telescoping cylinder and The second arm connecting with the cylinder rod of second telescoping cylinder is arranged at intervals with the first lifting end and the second lifting on first arm It holds, third lifting end and the 4th lifting end, the first lifting end and third lifting is arranged at intervals on second arm End is correspondingly arranged, and the second lifting end is correspondingly arranged with the 4th lifting end.

Optionally, first arm includes first connecting portion, the first lifting portion and the second lifting portion, the first connecting portion Middle part and the cylinder rod of first telescoping cylinder it is vertical affixed, first lifting portion is fixed in the one of the first connecting portion End, second lifting portion is fixed in the other end of the first connecting portion, first lifting portion and second lifting portion It splits in the two sides of first telescoping cylinder, first lifting end is arranged in first lifting portion, second lifting End is arranged in second lifting portion.

Optionally, first lifting end is the first L-type slot being provided in first lifting portion, first L-type The length direction of slot is consistent with the transmission direction of motion of mould group.

Optionally, second lifting end is the second L-type slot being provided in second lifting portion, second L-type The length direction of slot is consistent with the transmission direction of motion of mould group, the slot bottom of the second L-type slot and the first L-type slot Slot bottom is concordant.

Optionally, first telescoping cylinder is cylinder.

Optionally, second arm includes second connecting portion, third lifting portion and the 4th lifting portion, the second connecting portion Middle part and the cylinder rod of second telescoping cylinder it is vertical affixed, third lifting portion is fixed in the one of the second connecting portion End, the 4th lifting portion is fixed in the other end of the second connecting portion, third lifting portion and the 4th lifting portion It splits in the two sides of second telescoping cylinder, third lifting end is arranged in third lifting portion, the 4th lifting End is arranged in the 4th lifting portion.

Optionally, third lifting end is the third L-type slot being provided in third lifting portion, the third L-type The length direction of slot is consistent with the transmission direction of motion of mould group.

Optionally, the 4th lifting end is the 4th L-type slot being provided in the 4th lifting portion, the 4th L-type The length direction of slot is consistent with the transmission direction of motion of mould group, slot bottom and the third L-type slot of the 4th L-type slot Slot bottom is concordant.

Optionally, second telescoping cylinder is cylinder.

The utility model also provides a kind of flexible production line, including processing mould group and transmission mould group, the transmission mould group Tooling can be delivered to the processing mould group, and the tooling can be transported out of to the processing mould group, the flexible production Line further includes corresponding to the lifting mechanism of the position setting of the processing mould group in the transmission mould group, and the lifting mechanism is above-mentioned Lifting mechanism.

Lifting mechanism provided by the utility model, including the first lifting mould group and the second lifting mould group, the first lifting mould Group and the second lifting mould group are correspondingly arranged at the two sides of transmission mould group, and the first lifting mould group includes the first telescoping cylinder and with first First arm of the cylinder rod connection of telescoping cylinder, the second lifting mould group include the second telescoping cylinder and connect with the cylinder rod of the second telescoping cylinder The second arm, the first lifting end and the second lifting end are arranged at intervals on the first arm, is arranged at intervals with third lifting on the second arm End and the 4th lifting end, the first lifting end are correspondingly arranged with third lifting end, and the second lifting end is correspondingly arranged with the 4th lifting end. Flexible production line has processing mould group and transmission mould group, and transmission mould group passes through processing mould group, and lifting mechanism setting is in transmission mould group On, and lifting mechanism, not with transmission mould group movement, the setting position for being lifted mould group is corresponding with processing mould group, and workpiece is placed on biography In defeated mould group, transmission mould group drives workpiece to enter processing mould group from the side of processing mould group, and lifting mechanism lifts workpiece, makes work Part leaves transmission mould group, and processing mould group processes workpiece, and after the completion of workpiece is processed, lifting mould group puts workpiece again It sets in transmission mould group, transmission mould group drives the other side of the processed mould group of workpiece completed the process to leave processing mould group.

Specifically, transmission mould group includes two tracks of parallel interval setting and has power between two tracks The sliding block of device, the first telescoping cylinder and a track are affixed, and the second telescoping cylinder and another track are affixed, and the first telescoping cylinder Corresponding with the position of the second telescoping cylinder, the first arm is fixed in the cylinder rod of the first telescoping cylinder, the length direction and rail of the first arm The length direction in road is consistent, and the second arm is fixed in the cylinder rod of the second telescoping cylinder, the length direction of the second arm and the length of track Direction is consistent, and the first arm is parallel with the second arm, and the two is in sustained height, in the first lifting end and the second arm of the first arm Third is lifted end and forms the first lifting position, and the second lifting end of the first arm and the 4th lifting end of the second arm form the second lifting Position, the first lifting position and the second lifting position are respectively used to place the tooling with workpiece, and the first lifting position is located at processing mould group Outlet side, the second lifting position are located at the approaching side of processing mould group.

Specific work process are as follows: the two sides of tooling are separately positioned on two tracks of transmission mould group, and sliding block is located at second It is lifted position bottom, transmission mould group starting, the side of the processed mould group of first tooling is sent into second by two track synchronous operations It is lifted position, two tracks are out of service, the power device starting of sliding block, and sliding block send the first tooling to the first lifting position (at this time First tooling and two tracks are in discrete state), two tracks are again started up, and the second tooling is admitted to the second lifting position, rail Road is out of service, and the first telescoping cylinder stretches out simultaneously with the second telescoping cylinder, and the first arm and the second arm are simultaneously to close to processing mould group Direction movement, the first lifting position and the second lifting position drive the first tooling and the second tooling to carry out lifting movement respectively and (move at this time Power device drives sliding block to reach the second lower section for being lifted position), processing module aligning is processed in the workpiece in the first tooling, is added After the completion of work, the first telescoping cylinder and the second telescoping cylinder are withdrawn simultaneously, and the first arm and the second arm are simultaneously to the side far from processing mould group To movement, the first tooling is fallen on two tracks, and the second tooling is fallen on sliding block, and two track startings, the first tooling is by two Track takes away the position of processing mould group, meanwhile, sliding block drives the second tooling to enter the first lifting position, and third tooling is with two tracks Into the second lifting position, above-mentioned movement is repeated, thus the lifting processing for carrying out workpiece and the movement for falling output.

Above-mentioned lifting mechanism structure is simple, and tooling shares a set of mechanism when entering and leaving processing mould group, is effectively reduced The cost of equipment, meanwhile, it can be realized lifting and the drop action of tooling using a set of lifting mechanism, to effectively improve life The efficiency of production reduces the cost of manufacture.

Detailed description of the invention

By reading the following detailed description of the preferred embodiment, various other advantages and benefits are common for this field Technical staff will become clear.The drawings are only for the purpose of illustrating a preferred embodiment, and is not considered as practical to this Novel limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings:

Fig. 1 is that lifting mechanism provided by the utility model applies the structural schematic diagram on flexible production line (part is soft Property production line)；

Fig. 2 is the enlarged view of lifting mechanism shown in Fig. 1；

Fig. 3 is that lifting mechanism provided by the utility model applies the structural schematic diagram on flexible production line (part is soft Property production line, and tooling is not shown)；

Fig. 4 is the structural schematic diagram of the first lifting mould group shown in Fig. 3；

Fig. 5 is the structural schematic diagram of the first lifting mould group shown in Fig. 3.

Appended drawing reference

100 be lifting mechanism, and 200 be transmission mould group, and 300 be processing mould group, and 400 be the first tooling, and 500 be workpiece, 600 be the second tooling；

10 are lifted mould group for first, and 101 be the first telescoping cylinder, and 102 be the first arm, and 1021 be first connecting portion, and 1022 are First lifting portion, 10221 be the first L-type slot, and 1023 be the second lifting portion, and 10231 be the second L-type slot；

11 be the second lifting mould group, and 111 be the second telescoping cylinder, and 112 be the second arm, and 1121 be the 4th lifting portion, and 11211 are 4th L-type slot, 1122 be second connecting portion, and 1123 be third lifting portion, and 11231 be third L-type slot；

21 be sliding block.

Specific embodiment

The illustrative embodiments of the disclosure are more fully described below with reference to accompanying drawings.Although showing this public affairs in attached drawing The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure without the reality that should be illustrated here The mode of applying is limited.It is to be able to thoroughly understand the disclosure on the contrary, providing these embodiments, and can be by this public affairs The range opened is fully disclosed to those skilled in the art.

In a specific embodiment, Fig. 1 and Fig. 2 are please referred to, the utility model provides a kind of lifting mechanism 100, Including the first lifting mould group 10 and the second lifting mould group 11, the first lifting mould group 10 and the second lifting mould group 11 are correspondingly arranged at biography The two sides of defeated mould group 200, the first lifting mould group 10 include the first telescoping cylinder 101 and connect with the cylinder rod of the first telescoping cylinder 101 The first arm 102, the second lifting mould group 11 include the second telescoping cylinder 111 and connect with the cylinder rod of the second telescoping cylinder 111 the Two arms 112 are arranged at intervals with the first lifting end and the second lifting end on first arm 102, and the is arranged at intervals on the second arm 112 Three lifting ends and the 4th lifting end, the first lifting end are correspondingly arranged with third lifting end, the second lifting end and the 4th lifting end pair It should be arranged.Flexible production line has processing mould group 300 and transmission mould group 200, and transmission mould group 200 passes through processing mould group 300, lifting The setting of mechanism 100 is in transmission mould group 200, and lifting mechanism 100 is not moved with transmission mould group 200, is lifted the setting of mould group Position is corresponding with processing mould group 300, and workpiece 500 is placed in transmission mould group 200, and transmission mould group 200 drives workpiece 500 from processing The side of mould group 300 enters processing mould group 300, and lifting mechanism 100 lifts workpiece 500, and workpiece 500 is made to leave transmission mould group 200, processing mould group 300 processes workpiece 500, when workpiece 500 be processed after the completion of, be lifted mould group by workpiece 500 again It is placed into transmission mould group 200, transmission mould group 200 drives the other side of the processed mould group 300 of workpiece 500 completed the process to leave Processing mould group 300.

Specifically, Fig. 3, Fig. 4 and Fig. 5 are please referred to, transmission mould group 200 includes two tracks of parallel interval setting and is located at The sliding block 21 with power device between two tracks, the first telescoping cylinder 101 and a track are affixed, the second telescoping cylinder 111 It is affixed with another track, and the first telescoping cylinder 101 is corresponding with the position of the second telescoping cylinder 111, and the first arm 102 is fixed in In the cylinder rod of first telescoping cylinder 101, the length direction of the first arm 102 is consistent with the length direction of track, and the second arm 112 is affixed In the cylinder rod of the second telescoping cylinder 111, the length direction of the second arm 112 is consistent with the length direction of track, the first arm 102 and Two arms 112 are parallel, and the two is in sustained height, are lifted at the first lifting end of the first arm 102 and the third of the second arm 112 End forms the first lifting position, and the second lifting end of the first arm 102 and the 4th lifting end of the second arm 112 form the second lifting position, First lifting position and the second lifting position are respectively used to place the tooling with workpiece 500, and the first lifting position is located at processing mould group 300 Outlet side, the second lifting position is located at the approaching side of processing mould group 300.

Specific work process are as follows: the two sides of tooling are separately positioned on two tracks of transmission mould group 200, and sliding block 21 is located at Second lifting position bottom, transmission mould group 200 start, two track synchronous operations, by the one of the processed mould group 300 of first tooling The second lifting position is sent into side, and two tracks are out of service, and the power device starting of sliding block 21, sliding block 21 send the first tooling 400 To the first lifting position (the first tooling 400 and two tracks are in discrete state at this time), two tracks are again started up, the second tooling 600 are admitted to the second lifting position, and track is out of service, and the first telescoping cylinder 101 stretches out simultaneously with the second telescoping cylinder 111, the first arm 102 and second arm 112 move simultaneously to the direction close to processing mould group 300, the first lifting position and second is lifted position and drives respectively First tooling 400 and the second tooling 600 carry out lifting movement, and (sliding block 21 of power device driving at this time reaches under the second lifting position Side), processing mould group 300 processes the workpiece 500 being located in the first tooling 400, after processing is completed, the first telescoping cylinder 101 It being withdrawn simultaneously with the second telescoping cylinder 111, the first arm 102 and the second arm 112 are moved to the direction far from processing mould group 300 simultaneously, First tooling 400 is fallen on two tracks, and the second tooling 600 is fallen on sliding block 21, two track startings, 400 quilt of the first tooling Two tracks take away the position of processing mould group 300, meanwhile, sliding block 21 drives the second tooling 600 to enter the first lifting position, third work It fills (not shown) and enters the second lifting position with two tracks, repeat above-mentioned movement, to carry out the lifting processing of workpiece 500 With the movement for falling output.

Above-mentioned 100 structure of lifting mechanism is simple, and tooling shares a set of mechanism when entering and leaving processing mould group 300, has Effect reduces the cost of equipment, meanwhile, it can be realized lifting and the drop action of tooling using a set of lifting mechanism 100, thus The efficiency for effectively improving production reduces the cost of manufacture.

It is to be appreciated that being provided with working position in above-mentioned tooling, workpiece 500 is positioned on working position, passes through tooling Be lifted and processing mould group 300 enabled to process workpiece 500, meanwhile, machining position in tooling can be it is multiple, can be with The processing once lifted and carry out multi-work piece 500 is realized, to effectively increase the efficiency of production.

It should be pointed out that above-mentioned first telescoping cylinder 101 and the second telescoping cylinder 111 can be cylinder or oil cylinder etc., and The quantity of first telescoping cylinder 101 and the second telescoping cylinder 111 all can be one or more；Meanwhile above-mentioned transmission mould group 200 Two tracks have driving device, which drives two track synchronous operations.

It is further understood that, with continued reference to FIG. 4, the first arm 102 includes first connecting portion 1021, the first lifting portion 1022 and the second lifting portion 1023, the middle part of first connecting portion 1021 and the cylinder rod of the first telescoping cylinder 101 are vertical affixed, and first Lifting portion 1022 is fixed in one end of first connecting portion 1021, and the second lifting portion 1023 is fixed in the another of first connecting portion 1021 End, the first lifting portion 1022 and the second lifting portion 1023 are split in the two sides of the first telescoping cylinder 101, and the first lifting end setting exists In first lifting portion 1022, the second lifting end is arranged in the second lifting portion 1023.Specifically, first connecting portion 1021 is rod-shaped Structure, the outer surface at 1021 middle part of first connecting portion and the cylinder rod of the first telescoping cylinder 101 are vertical affixed, that is to say, that when first After interconnecting piece 1021 is connect with the cylinder rod of the first telescoping cylinder 101, the two forms T-type structure, and the first lifting portion 1022 and second is lifted Ascending part 1023 is separately positioned on the two sides of first connecting portion 1021.When in use, distinguish on the first lifting end and the second lifting end Place different toolings, by separating two lifting ends, can effectively be spaced two toolings, avoid two toolings into Row is lifted or the case where being displaced or colliding occurs during falling, to ensure that the machining accuracy of processing mould group 300.

It is to be appreciated that when the first telescoping cylinder 101 is in and does not extend out state, the first lifting portion 1022 and the second lifting Portion 1023 is respectively at the cylinder body two sides of the first telescoping cylinder 101, so that both the first lifting end and the second lifting end utilize first The cylinder body of telescoping cylinder 101 is isolated, to avoid the work with the tooling of the first lifting end cooperation and with the second lifting end cooperation Dress efficiently separates, and then two toolings is avoided to be contacted, and improves the machining accuracy of processing mould group 300.

Further, with continued reference to FIG. 4, the first lifting end is the first L-type slot being provided in the first lifting portion 1022 10221, the length direction of the first L-type slot 10221 is consistent with the transmission direction of motion of mould group 200.The one of first L-type slot 10221 A side wall is parallel with lifting direction, another side wall of the first L-type slot 10221 (side wall is arranged far from the second lifting mould group 11) Parallel with lifting direction, when tooling is with the first lifting end cooperation, the edge of tooling is in the inside of the first L-type slot 10221, with It is lifted the vertical side wall support tooling in direction, the side wall parallel with lifting direction limits tooling, avoids tooling and lifting Structure separation.It can effectively ensure that tooling in lifting and the stability in dropping process, avoids tooling from generating position with this configuration The case where moving influence machining accuracy occurs.

Further, with continued reference to FIG. 4, the second lifting end is the second L-type slot being provided in the second lifting portion 1023 10231, the length direction of the second L-type slot 10231 is consistent with the transmission direction of motion of mould group 200, the slot of the second L-type slot 10231 Bottom is concordant with the slot bottom of the first L-type slot 10221.One side wall of the second L-type slot 10231 is parallel with lifting direction, the second L-type Another side wall (side wall is arranged far from the second lifting mould group 11) of slot 10231 is parallel with lifting direction, when tooling and second When being lifted end cooperation, the edge of tooling is in the inside of the second L-type slot 10231, the side wall support tooling vertical with lifting direction, The side wall parallel with lifting direction limits tooling, avoids tooling from separating with lifting structure, enables to this configuration The case where can effectively ensure that stability of the tooling in lifting and dropping process, tooling avoided to generate Influence of Displacement machining accuracy Occur；Meanwhile second L-type slot 10231 slot bottom it is concordant with the slot bottom of the first L-type slot 10221, when tooling respectively with the first L-type When slot 10221 and the second L-type slot 10231 cooperate, can guarantee that tooling is in same level, avoid the first lifting mould group 10 by Power unevenness causes unbalance loading to be worn, and improves the service life of equipment used.

Further, the first telescoping cylinder 101 is cylinder, and the structure of cylinder is simple, and selection is at low cost, meanwhile, cylinder is being transported It is swift in response during row, the rate that can be effectively improved tooling lifting and fall reduces system to improve production efficiency The cost made.

Specifically understand, with continued reference to FIG. 5, the second arm 112 includes second connecting portion 1122, third lifting portion 1123 and the 4th lifting portion 1121, the middle part of second connecting portion 1122 and the cylinder rod of the second telescoping cylinder 111 are vertical affixed, third Lifting portion 1123 is fixed in one end of second connecting portion 1122, and the 4th lifting portion 1121 is fixed in the another of second connecting portion 1122 End, third lifting portion 1123 and the 4th lifting portion 1121 are split in the two sides of the second telescoping cylinder 111, and third is lifted end setting and exists In third lifting portion 1123, the 4th lifting end is arranged in the 4th lifting portion 1121.Specifically, second connecting portion 1122 is rod-shaped Structure, the outer surface at 1122 middle part of second connecting portion and the cylinder rod of the second telescoping cylinder 111 are vertical affixed, that is to say, that when second After interconnecting piece 1122 is connect with the cylinder rod of the second telescoping cylinder 111, the two forms T-type structure, and third lifting portion 1123 and the 4th lift Ascending part 1121 is separately positioned on the two sides of second connecting portion 1122.When in use, distinguish on third lifting end and the 4th lifting end Place different toolings, by separating two lifting ends, can effectively be spaced two toolings, avoid two toolings into Row is lifted or the case where being displaced or colliding occurs during falling, to ensure that the machining accuracy of processing mould group 300.

It is to be appreciated that when the second telescoping cylinder 111 is in and does not extend out state, third lifting portion 1123 and the 4th lifting Portion 1121 is respectively at the cylinder body two sides of the second telescoping cylinder 111, so that both third lifting end and the 4th lifting end utilize second The cylinder body of telescoping cylinder 111 is isolated, to avoid the tooling for being lifted end cooperation with third and the work with the 4th lifting end cooperation Dress efficiently separates, and then two toolings is avoided to be contacted, and improves the machining accuracy of processing mould group 300.

Specifically, with continued reference to FIG. 5, third lifting end is the third L-type slot being provided in third lifting portion 1123 11231, the length direction of third L-type slot 11231 is consistent with the transmission direction of motion of mould group 200.The one of third L-type slot 11231 A side wall is parallel with lifting direction, another side wall of third L-type slot 11231 (side wall is arranged far from the first lifting mould group 10) Parallel with lifting direction, when tooling and third lifting end cooperation, the edge of tooling is in the inside of third L-type slot 11231, with It is lifted the vertical side wall support tooling in direction, the side wall parallel with lifting direction limits tooling, avoids tooling and lifting Structure separation.It can effectively ensure that tooling in lifting and the stability in dropping process, avoids tooling from generating position with this configuration The case where moving influence machining accuracy occurs.

Specifically, with continued reference to FIG. 5, the 4th lifting end is the 4th L-type slot being provided in the 4th lifting portion 1121 11211, the length direction of the 4th L-type slot 11211 is consistent with the transmission direction of motion of mould group 200, the slot of the 4th L-type slot 11211 Bottom is concordant with the slot bottom of third L-type slot 11231.One side wall of the 4th L-type slot 11211 is parallel with lifting direction, the 4th L-type Another side wall (side wall is arranged far from the first lifting mould group 10) of slot 11211 is parallel with lifting direction, when tooling and the 4th When being lifted end cooperation, the edge of tooling is in the inside of the 4th L-type slot 11211, the side wall support tooling vertical with lifting direction, The side wall parallel with lifting direction limits tooling, avoids tooling from separating with lifting structure, enables to this configuration The case where can effectively ensure that stability of the tooling in lifting and dropping process, tooling avoided to generate Influence of Displacement machining accuracy Occur；Meanwhile the 4th L-type slot 11211 slot bottom it is concordant with the slot bottom of third L-type slot 11231, when tooling respectively with third L-type When slot 11231 and the 4th L-type slot 11211 cooperate, can guarantee that tooling is in same level, avoid the first lifting mould group 10 by Power unevenness causes unbalance loading to be worn, and improves the service life of equipment used.

It should be pointed out that the slot bottom plane (side wall vertical with lifting direction) and the first L-type of third L-type slot 11231 Concordantly, tooling is generally plate structure to the slot bottom plane (with the vertical side wall in lifting direction) of slot 10221, when tooling is respectively with the When one L-type slot 10221 and third L-type slot 11231 cooperate, it can guarantee during lifting, tooling is able to maintain horizontal State, so that the machined surface on workpiece 500 is towards processing mould group 300, to be further ensured that the precision that workpiece 500 is processed；4th L The slot bottom plane (side wall vertical with lifting direction) of type groove 11211 and the slot bottom plane of the second L-type slot 10231 are (with lifting side To vertical side wall) concordantly, tooling is generally plate structure, when tooling respectively with the second L-type slot 10231 and the 4th L-type slot When 11211 cooperation, it can guarantee during lifting, tooling is able to maintain horizontality, so that the machined surface on workpiece 500 Towards processing mould group 300, to be further ensured that the precision that workpiece 500 is processed.

Optionally, the second telescoping cylinder 111 is cylinder, and the structure of cylinder is simple, and selection is at low cost, meanwhile, cylinder is being run It is swift in response in the process, the rate that can be effectively improved tooling lifting and fall reduces manufacture to improve production efficiency Cost.

In addition to above-mentioned lifting mechanism 100, the utility model also provides a kind of flexible production line, which includes processing mould Group 300 and transmission mould group 200, tooling can be delivered to processing mould group 300 by transmission mould group 200, and can transport tooling From processing mould group 300, flexible production line further includes the lifting machine in the position setting of the corresponding processing mould group 300 of transmission mould group 200 Structure, the lifting mechanism are above-mentioned lifting mechanism 100, and refer to the prior art for other Each parts of the flexible production line, The application repeats no more herein.

It should be understood that although multiple element, portion can be described using term first, second, third, etc. in the text Part, region, layer and/or section still these component, assembly units, region, layer and/or are limited by these terms than Duan Buying. These terms can only be used to a component, assembly unit, region, layer or section and another component, assembly unit, region, layer or section It distinguishes.Unless context is it is manifestly intended that otherwise the term and other numerical terms of such as " first ", " second " etc exist Sequence or order is not implied that when using in text.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in Change or replacement, should be covered within the scope of the utility model.Therefore, the protection scope of the utility model answers institute It states and is subject to the protection scope in claims.

Claims (10)

1. a kind of lifting mechanism, which is characterized in that including the first lifting mould group and the second lifting mould group, the first lifting mould group With it is described second lifting mould group be correspondingly arranged at transmission mould group two sides, it is described first lifting mould group include the first telescoping cylinder and The first arm connecting with the cylinder rod of first telescoping cylinder, the second lifting mould group include the second telescoping cylinder and with described the Second arm of the cylinder rod connection of two telescoping cylinders is arranged at intervals with the first lifting end and the second lifting end on first arm, described It is arranged at intervals with third lifting end and the 4th lifting end on second arm, the first lifting end and the third are lifted that end is corresponding to be set It sets, the second lifting end is correspondingly arranged with the 4th lifting end.

2. lifting mechanism according to claim 1, which is characterized in that first arm includes first connecting portion, the first act Ascending part and the second lifting portion, the middle part of the first connecting portion and the cylinder rod of first telescoping cylinder are vertical affixed, and described first Lifting portion is fixed in one end of the first connecting portion, and second lifting portion is fixed in the other end of the first connecting portion, First lifting portion and second lifting part are set in the two sides of first telescoping cylinder, and first lifting end setting exists In first lifting portion, second lifting end is arranged in second lifting portion.

3. lifting mechanism according to claim 2, which is characterized in that first lifting end is to be provided with described first to lift The first L-type slot on ascending part, the length direction of the first L-type slot are consistent with the transmission direction of motion of mould group.

4. lifting mechanism according to claim 3, which is characterized in that second lifting end is to be provided with described second to lift The second L-type slot on ascending part, the length direction of the second L-type slot is consistent with the transmission direction of motion of mould group, and described The slot bottom of two L-type slots is concordant with the slot bottom of the first L-type slot.

5. lifting mechanism according to claim 1 or 2, which is characterized in that first telescoping cylinder is cylinder.

6. lifting mechanism according to claim 1, which is characterized in that second arm includes second connecting portion, third act Ascending part and the 4th lifting portion, the middle part of the second connecting portion and the cylinder rod of second telescoping cylinder are vertical affixed, the third Lifting portion is fixed in one end of the second connecting portion, and the 4th lifting portion is fixed in the other end of the second connecting portion, Third lifting portion and the 4th lifting part are set in the two sides of second telescoping cylinder, and third lifting end setting exists In third lifting portion, the 4th lifting end is arranged in the 4th lifting portion.

7. lifting mechanism according to claim 6, which is characterized in that third lifting end is to be provided with the third to lift Third L-type slot on ascending part, the length direction of the third L-type slot are consistent with the transmission direction of motion of mould group.

8. lifting mechanism according to claim 7, which is characterized in that the 4th lifting end is to be provided with the described 4th to lift The 4th L-type slot on ascending part, the length direction of the 4th L-type slot is consistent with the transmission direction of motion of mould group, and described The slot bottom of four L-type slots is concordant with the slot bottom of the third L-type slot.

9. lifting mechanism according to claim 1 or 6, which is characterized in that second telescoping cylinder is cylinder.

10. tooling can be delivered to institute by a kind of flexible production line, including processing mould group and transmission mould group, the transmission mould group Processing mould group is stated, and the tooling can be transported out of to the processing mould group, which is characterized in that the flexible production line further includes The lifting mechanism of the position setting of the processing mould group is corresponded in the transmission mould group, the lifting mechanism is according to claim The described in any item lifting mechanisms of 1-9.