CN109203401A - A kind of exchanging structure optimizing densely arranged hydraulic cylinder connection oil circuit - Google Patents

Abstract

The invention discloses a kind of exchanging structures for optimizing densely arranged hydraulic cylinder connection oil circuit, it mainly include L-shaped pinboard, core pulling hydraulic circuit is equipped in pinboard, lock pin hydraulic circuit and cooling duct, this pinboard is for carrying several oil cylinders, the oil inlet of multiple asphalt channels is in the same side, then oil pipeline connects oil cylinder by pinboard, compared to the design of the direct downlink connection oil cylinder of oil pipeline, the cabling of oil pipeline is just succinct convenient in the extreme in this way, for example straight oil pipe can be used, improve maintenance efficiency, and it does not need to open up complicated mounting groove, improve the intensity of cover half cage plate, avoid the deformation of cover half set or explosion.The invention is used for cylinder control device field.

Description

A kind of exchanging structure optimizing densely arranged hydraulic cylinder connection oil circuit

Technical field

The present invention relates to cylinder control device fields, connect oil circuit more particularly to a kind of densely arranged hydraulic cylinder of optimization Exchanging structure.

Background technique

In mold injection process, it is often necessary to use the flexible of hydraulic circuit control hydraulic stem, wherein oil cylinder plays biography It passs hydraulic oil and adjusts the effect of hydraulic bar state.In order to allow hydraulic oil by oil cylinder, set usually between oil pump and oil cylinder There is oil pipeline, if when the hydraulic stem cooperating of extremely complex needs eight of a mold or more, the quantity of oil pipeline It is very more, safeguard that difficulty is big.

Current way is that mounting groove is equipped on cover half cage plate, then in oil pipeline indentation mounting groove.Due to not having There is the method for combining multiple oil cylinders well, causes oil pipeline distribution more scattered, need to open up on cover half cage plate at this time More mounting groove, the disadvantage is that cover half cage plate is unsightly, cabling is troublesome and intensity declines, or even deformation or explosion.

Summary of the invention

The purpose of the present invention is to provide one kind can entire multiple hydraulic cylinders, optimize densely arranged hydraulic cylinder connection The exchanging structure of oil circuit.

The technical solution used in the present invention is:

A kind of exchanging structure optimizing densely arranged hydraulic cylinder connection oil circuit, the pinboard including L shape, pinboard packet The riser for including horizontal positioned transverse slat and placing vertically, pinboard is interior to be equipped with several independent asphalt channels, and every oil circuit is logical Road all has oil inlet and at least two oil outlets, oil inlet is located at the side of riser outwardly, and oil outlet is located at transverse slat upward Side, the cooling duct for being passed through cooling water is additionally provided in pinboard, and cooling duct entrance and cooling duct outlet are respectively positioned on On transverse slat.

As an improvement of the above scheme, pinboard includes left supporting plate, intermediate supporting plate and right supporting plate, and left supporting plate and right supporting plate divide Not Wei Yu intermediate supporting plate the left and right sides, one and sequence is arranged through left supporting plate, intermediate supporting plate and right support in cooling duct at this time Plate, asphalt channel are divided into core pulling hydraulic circuit and lock pin hydraulic circuit, and core pulling hydraulic circuit and lock pin hydraulic circuit are in transverse slat There are Some routes to be in different height to mutually stagger, cooling duct is hydraulic in core pulling hydraulic circuit and lock pin in transverse slat The lower section in circuit.

As an improvement of the above scheme, a core pulling hydraulic circuit and a lock pin are provided in left supporting plate and right supporting plate Hydraulic circuit, core pulling hydraulic circuit and lock pin hydraulic circuit all have an oil inlet and two oil outlets, core pulling hydraulic circuit The then horizontal extension in transverse slat is extended downwardly in riser, then core pulling hydraulic circuit extends upward branch simultaneously in transverse slat Oil outlet is formed, lock pin hydraulic circuit extends downwardly the then horizontal extension in transverse slat in riser, then lock pin hydraulic circuit Branch is extended upward in transverse slat and forms oil outlet；Three core pulling hydraulic circuits and three lock pins are provided in intermediate supporting plate Hydraulic circuit, core pulling hydraulic circuit and lock pin hydraulic circuit all have an oil inlet and two oil outlets, core pulling hydraulic circuit The then horizontal extension in transverse slat is extended downwardly in riser, then core pulling hydraulic circuit extends upward branch simultaneously in transverse slat Oil outlet is formed, lock pin hydraulic circuit extends downwardly the then horizontal extension in transverse slat in riser, then lock pin hydraulic circuit Branch is extended upward in transverse slat and forms oil outlet.

As an improvement of the above scheme, the transverse slat of pinboard is equipped with several and is easily installed the connecting hole of oil cylinder, oil circuit The position of connecting hole is avoided in channel and cooling duct.

As an improvement of the above scheme, for tool there are two connecting hole, there are six connecting holes for tool on intermediate supporting plate, right on left supporting plate There are two connecting hole, ten connecting holes are divided into two rows five and arrange tool on supporting plate.

As an improvement of the above scheme, then the cooling duct in left supporting plate enters from the front of pinboard around connecting hole point Cloth, cooling duct are pierced by the side of transverse slat, are turned back again into transverse slat by extraneous transition conduit, cooling duct is again around another One connection pore size distribution, is then extend to riser；Cooling duct entrance in intermediate supporting plate is located on riser, the cooling of left supporting plate Channel is communicated to intermediate supporting plate by extraneous transition conduit, and cooling duct is extended downwardly along riser, is then diverged in transverse slat Two by-paths for surrounding two rows connecting hole respectively out, two by-paths finally merge into cooling duct and extend to riser and wear Out；Cooling duct entrance in right supporting plate is located on riser, and the cooling duct of intermediate supporting plate passes through extraneous transition passage connection To right supporting plate, cooling duct is extended downwardly along riser, is reached transverse slat and is surrounded connection pore size distribution later, cooling duct is pierced by right supporting plate Side then pass through transition passage and turn back into transverse slat, again around another connection pore size distribution, cooling duct finally from The front of pinboard is pierced by.

Beneficial effects of the present invention: this pinboard for carrying several oil cylinders, locate by the oil inlet of multiple asphalt channels In the same side, then oil pipeline connects oil cylinder by pinboard, compared to the design of the direct downlink connection oil cylinder of oil pipeline, in this way The cabling of oil pipeline is just succinct convenient in the extreme, improves maintenance efficiency, and does not need to open up complicated mounting groove, and it is fixed to avoid Die sleeve deformation or explosion.

Detailed description of the invention

The present invention will be further explained below with reference to the attached drawings:

Fig. 1 is the perspective view of exchanging structure；

Fig. 2 is that exchanging structure inner core pulling hydraulic circuit moves towards figure；

Fig. 3 is that exchanging structure interpolation core hydraulic oil circuit moves towards figure；

Fig. 4 is that cooling water channel moves towards figure in exchanging structure；

Fig. 5 is the perspective view after exchanging structure combined oil cylinder；

Fig. 6 is the perspective view of entire hydraulic cylinder control system cabling.

Specific embodiment

Referring to figs. 1 to Fig. 6, the present invention is a kind of exchanging structure for optimizing densely arranged hydraulic cylinder and connecting oil circuit.Specifically Referring to Fig. 6, which is mounted on the middle position of cover half cage plate 1, connects oil pump by oil pipeline.

In principle, exchanging structure includes the pinboard that cross section is L shape, and pinboard includes horizontal positioned cross Plate 32 and the riser 31 placed vertically, are equipped with several independent asphalt channels in pinboard, every asphalt channel all have into Hydraulic fluid port 41 and at least two oil outlets 42, oil inlet 41 are located at the side of riser 31 outwardly, the upper right corner are directed towards in terms of Fig. 1, out Hydraulic fluid port 42 is located at the side of transverse slat 32 upward, the cooling duct for being passed through cooling water is additionally provided in pinboard, cooling duct enters Mouth 43 and cooling duct outlet 44 are respectively positioned on transverse slat 32.Overstriking dotted line of the Fig. 2 into Fig. 4 indicates to move towards, and pinboard side Multiple holes belong to fabrication hole, can be blocked after internal runner processing.

Pinboard includes that left supporting plate 5, intermediate supporting plate 6 and right supporting plate 7, left supporting plate 5 and right supporting plate 7 are located at intermediate supporting plate 6 left and right sides passes through concave-convex contoured fit splicing between adjacent supporting plate.Cooling duct is arranged one at this time and sequence is passed through It wears left supporting plate 5, intermediate supporting plate 6 and right supporting plate 7, asphalt channel and is divided into core pulling hydraulic circuit and lock pin hydraulic circuit, core pulling is hydraulic Circuit and lock pin hydraulic circuit have Some routes to be in different height to mutually stagger in transverse slat 32, but cooling duct exists The lower section of core pulling hydraulic circuit and lock pin hydraulic circuit is in transverse slat 32.

In order to make core pulling hydraulic circuit and lock pin hydraulic circuit have in transverse slat 32 Some routes be in different height so as to It mutually staggers, core pulling hydraulic circuit can first be higher than core pulling hydraulic circuit, return sustained height again after crossing intersection.Reference The core pulling hydraulic circuit of Fig. 1 and Fig. 2, left supporting plate 5 are constantly in sustained height；And the lock pin hydraulic circuit of left supporting plate 5 has one section Higher than core pulling hydraulic circuit, the lock pin hydraulic circuit of left supporting plate 5 realizes the friendship of upper-lower height in wherein 42 position of oil outlet It replaces, the core pulling hydraulic circuit of the concordant left supporting plate 5 of the lock pin hydraulic circuit of this rear left supporting plate 5.

Overstriking dotted line in Fig. 2, Fig. 3 and Fig. 4 indicates the trend of runner, and the dotted line of not overstriking indicates that fabrication hole will seal Stifled place；Oil inlet 41 and oil outlet 42 are indicated in Fig. 2 and Fig. 3 by taking left supporting plate 5 as an example, intermediate supporting plate 6 and right supporting plate 7 are similarly Deducibility comes out.A core pulling hydraulic circuit and a lock pin hydraulic circuit, core pulling are provided in left supporting plate 5 and right supporting plate 7 Hydraulic circuit and lock pin hydraulic circuit all have an oil inlet 41 and two oil outlets 42, and core pulling hydraulic circuit is in riser 31 The then horizontal extension in transverse slat 32 is extended downwardly, then core pulling hydraulic circuit extends upward branch and formed in transverse slat 32 Oil outlet 42, lock pin hydraulic circuit extend downwardly then horizontal extension, then hydraulic time of lock pin in transverse slat 32 in riser 31 Road extends upward branch in transverse slat 32 and forms oil outlet 42.Be provided in intermediate supporting plate 6 three core pulling hydraulic circuits and Three lock pin hydraulic circuits, core pulling hydraulic circuit and lock pin hydraulic circuit all have an oil inlet 41 and two oil outlets 42, Core pulling hydraulic circuit extends downwardly the then horizontal extension in transverse slat 32 in riser 31, and then core pulling hydraulic circuit is in transverse slat 32 It inside extends upward branch and forms oil outlet 42, lock pin hydraulic circuit extends downwardly the then water in transverse slat 32 in riser 31 Flat to extend, then lock pin hydraulic circuit extends upward branch in transverse slat 32 and forms oil outlet 42.

As an improvement of the above scheme, the transverse slat 32 of pinboard is equipped with several and is easily installed the connecting hole 2 of oil cylinder 9, The position of connecting hole 2 is avoided in asphalt channel and cooling duct.Wherein, there are two connecting hole 2, intermediate supporting plates 6 for tool on left supporting plate 5 Upper tool is there are six connecting hole 2, and tool is there are two connecting hole 2 on right supporting plate 7, and ten connecting holes 2 are divided into two rows five and arrange, naturally oil cylinder 9, which are also provided with into two rows five, arranges.

A connecting hole 2 opening of left supporting plate 5 is towards lower-left, the opening of another connecting hole 2 is towards upper left；Right supporting plate 7 A connecting hole 2 opening towards lower-left, the opening of another connecting hole 2 is towards bottom right.It is labelled in Fig. 1 and Fig. 4 cooling logical The position of road entrance 43 and cooling duct outlet 44, it should be clear that ground, cooling duct entrance 43 and cooling duct export 44 positions It can also exchange.Since cooling duct needs to avoid connecting hole 2, as an improvement of the above scheme, the cooling duct in left supporting plate 5 Enter from the front of pinboard and be then distributed around connecting hole 2, is in U-shape, cooling duct is pierced by the side of transverse slat 32, passes through the external world Transition conduit 8 is turned back again into transverse slat 32, and cooling duct is distributed around another connecting hole 2 again, is in U-shape, is then extend to Riser 31.Cooling duct entrance in intermediate supporting plate 6 is located on riser 31, and the cooling duct of left supporting plate 5 passes through extraneous transition Pipeline 8 is communicated to intermediate supporting plate 6, and cooling duct is extended downwardly along riser 31, then diverges out in transverse slat 32 two and encloses respectively Around the by-path of two rows connecting hole 2, wherein a by-path is along lineal layout, another by-path wave bending distribution, two branch Road finally merges into cooling duct and extends to riser 31 and be pierced by；Cooling duct entrance in right supporting plate 7 is located on riser 31, in Between the cooling duct of supporting plate 6 right supporting plate 7 is connected to by extraneous transition passage, cooling duct extends downwardly along riser 31, arrives It is distributed up to after transverse slat 32 around connecting hole 2, cooling duct is pierced by the side of right supporting plate 7 and then passes through transition passage and turns back entrance In transverse slat 32, it is distributed again around another connecting hole 2, cooling duct is finally pierced by from the front of pinboard.It is just shown in Fig. 5 Go out a transition passage to be similarly arranged as the transition passage of the other side；Transition passage on riser 31 also uses similar upper State the bridge joint of structure.

Referring to Fig. 5, for carrying several oil cylinders 9, the oil inlet 41 of multiple asphalt channels is in same this pinboard Side, then oil pipeline connects oil cylinder 9 by pinboard, compared to the design of the direct downlink connection oil cylinder 9 of oil pipeline, such oil transportation The cabling of pipeline is just succinct convenient in the extreme, for example can use straight oil pipe, improves maintenance efficiency, and do not need to open up Complicated mounting groove improves the intensity of cover half cage plate 1, avoids the deformation of cover half set or explosion.

Certainly, the design creation is not limited to above embodiment, and the combination of the various embodiments described above different characteristic can also To reach good effect.Those skilled in the art can also make equivalent change on the premise of without prejudice to spirit of the invention Shape or replacement, these equivalent variation or replacement are all included in the scope defined by the claims of the present application.

Claims (6)

1. a kind of exchanging structure for optimizing densely arranged hydraulic cylinder connection oil circuit, it is characterised in that: the switching including L shape Plate, pinboard include horizontal positioned transverse slat (32) and the riser (31) placed vertically, and several are equipped in the pinboard solely Vertical asphalt channel, every asphalt channel all have oil inlet (41) and at least two oil outlets (42), the oil inlet (41) Positioned at the side of riser (31) outwardly, the oil outlet (42) is located at the side of transverse slat (32) upward, also sets in the pinboard There is the cooling duct for being passed through cooling water, cooling duct entrance (43) and cooling duct outlet (44) are respectively positioned on transverse slat (32) On.

2. the exchanging structure of the densely arranged hydraulic cylinder connection oil circuit of optimization according to claim 1, it is characterised in that: institute Stating pinboard includes that left supporting plate (5), intermediate supporting plate (6) and right supporting plate (7), left supporting plate (5) and right supporting plate (7) are located at centre The left and right sides of supporting plate (6), cooling duct is arranged one at this time and sequence runs through left supporting plate (5), intermediate supporting plate (6) and right supporting plate (7), asphalt channel is divided into core pulling hydraulic circuit and lock pin hydraulic circuit, and core pulling hydraulic circuit and lock pin hydraulic circuit are in transverse slat (32) Some routes are in different height to mutually stagger in, cooling duct is in core pulling hydraulic circuit in transverse slat (32) With the lower section of lock pin hydraulic circuit.

3. the exchanging structure of the densely arranged hydraulic cylinder connection oil circuit of optimization according to claim 2, it is characterised in that:

A core pulling hydraulic circuit and a lock pin hydraulic circuit, core pulling are provided in the left supporting plate (5) and right supporting plate (7) Hydraulic circuit and lock pin hydraulic circuit all have an oil inlet (41) and two oil outlets (42), and core pulling hydraulic circuit is in riser (31) it is extended downwardly in then in transverse slat (32) interior horizontal extension, then core pulling hydraulic circuit extends upward in transverse slat (32) Branch is simultaneously formed oil outlet (42), and lock pin hydraulic circuit extends downwardly in riser (31) then to be prolonged in transverse slat (32) interior level It stretches, then lock pin hydraulic circuit extends upward branch in transverse slat (32) and forms oil outlet (42)；

Be provided with three core pulling hydraulic circuits and three lock pin hydraulic circuits in the intermediate supporting plate (6), core pulling hydraulic circuit and Lock pin hydraulic circuit all has an oil inlet (41) and two oil outlets (42), and core pulling hydraulic circuit is downward in riser (31) Extend then in transverse slat (32) interior horizontal extension, then core pulling hydraulic circuit extends upward branch in transverse slat (32) and formed Oil outlet (42), lock pin hydraulic circuit extend downwardly in the riser (31) then in transverse slat (32) interior horizontal extension, then lock pin Hydraulic circuit extends upward branch in transverse slat (32) and forms oil outlet (42).

4. the exchanging structure of the densely arranged hydraulic cylinder connection oil circuit of optimization according to claim 3, it is characterised in that: institute The transverse slat (32) for stating pinboard is equipped with several and is easily installed the connecting hole (2) of oil cylinder (9), and asphalt channel and cooling duct are equal Avoid the position of connecting hole (2).

5. the exchanging structure of the densely arranged hydraulic cylinder connection oil circuit of optimization according to claim 4, it is characterised in that: left On supporting plate (5) there are two tools connecting hole (2), on intermediate supporting plate (6) there are six tools connecting hole (2), on right supporting plate (7) there are two tools Connecting hole (2), ten connecting holes (2) are divided into two rows five and arrange.

6. the exchanging structure of the densely arranged hydraulic cylinder connection oil circuit of optimization according to claim 5, it is characterised in that:

Then cooling duct in the left supporting plate (5) enters from the front of pinboard to be distributed around connecting hole (2), cooling duct is worn The side of transverse slat (32) out is turned back by extraneous transition conduit (8) into transverse slat (32) again, and cooling duct is again around another A connecting hole (2) distribution, is then extend to riser (31)；

Cooling duct entrance in the intermediate supporting plate (6) is located on riser (31), and the cooling duct of left supporting plate (5) passes through the external world Transition conduit (8) be communicated to intermediate supporting plate (6), cooling duct is extended downwardly along riser (31), then in transverse slat (32) point Branch off two by-paths for surrounding two rows connecting hole (2) respectively out, two by-paths finally merge into cooling duct and extend to riser (31) it and is pierced by；

Cooling duct entrance in the right supporting plate (7) is located on riser (31), and the cooling duct of intermediate supporting plate (6) passes through the external world Transition passage be connected to right supporting plate (7), cooling duct is extended downwardly along riser (31), reach transverse slat (32) after around connection Hole (2) distribution, cooling duct are pierced by the side of right supporting plate (7) and then pass through transition passage and turn back into transverse slat (32), again It is distributed around another connecting hole (2), cooling duct is finally pierced by from the front of pinboard.