CN206912194U - A kind of double-station horizontal parting device - Google Patents

Abstract

A kind of double-station horizontal parting device is the utility model is related to, including：Bracket component, cart component, sandbox component, set on the parting device and penetrate sand compacting station, first drawing station and the second drawing station, the sand of penetrating is compacted station between the first drawing station and the second drawing station, the cart component can drive the sandbox component to penetrate sand compacting station described, moved between first drawing station and the second drawing station, when the sandbox component by penetrate sand compacting station be moved to the first drawing station or the second drawing station during, the sandbox component is changed into being vertically arranged from horizontally disposed, vertical extrusion forming can be completed, to produce the uniform sand mold of hardness, the shortcomings that parts density for overcoming Action of Gravity Field during pouring in vertically clamped moulds to bring is uneven, the shortcomings that vertical-parting machine is not easy to place when solution is placed for big core, realize seamless production, improve production efficiency.

Description

A kind of double-station horizontal parting device

Technical field

It the utility model is related to universal machine field, particularly a kind of device for sand mo(u)ld extrusion forming.

Background technology

After molding sand is by moulding machine extrusion forming, it is necessary to which sand mo(u)ld mould assembly is completed to pour into a mould.

Traditional moulding machine sand mold after moulding room extrudes can not invert and can only complete mould assembly simultaneously on the direction of extruding Cast, such mould assembly cast shortcoming is due to that the molten iron of thawing makes the iron below model in casting process due to the effect of gravity Water density is more than the density above model, and parts density is uneven so as to caused by, even more big especially for thin-walled parts percent defective Big increase.

Utility model content

In order to solve the above technical problems, the utility model is directed to a kind of double-station horizontal parting device, can complete to hang down Straight moulding, and horizontal parting can be completed, level puts core, the technological requirement of horizontal mould assembly cast, realize seamless production.

A kind of double-station horizontal parting device is the utility model is related to, including：Bracket component, cart component, sandbox component, Set on the parting device and penetrate sand compacting station, the first drawing station and the second drawing station, it is described to penetrate sand compacting station position Between the first drawing station and the second drawing station, the cart component can drive the sandbox component to penetrate sand described Moved between compacting station, the first drawing station and the second drawing station；When the sandbox component is by penetrating sand compacting station movement To the first drawing station or the second drawing station, the sandbox component is changed into being vertically arranged from horizontally disposed； When the sandbox component be moved to by the first drawing station or the second drawing station it is described penetrate sand compacting station during, The sandbox component is changed into horizontally disposed from being vertically arranged.

Further, in addition to system for compacting, the system for compacting penetrate sand compacting station positioned at described.

Further, the system for compacting includes compression frame, squeezing cylinder, squeeze board and squeeze board lead；Compression frame is pacified On the bracket component, squeezing cylinder is arranged on compression frame, and the piston rod of squeezing cylinder is connected with squeeze board, with driving Squeeze board moves forward and backward, and the squeeze board lead described in motion process, which rises, is oriented to booster action.

Further, including positioned at the first sandbox composition of the first drawing station and the second sand positioned at the second drawing station Case forms, and the first and second sandboxes composition is articulated with the first pin joint and second with the both ends of cart component and is hinged respectively Point, so as to be rotated in the presence of outside force relative to cart component, rotatable angle is more than or equal to 90 °.

Further, the first sandbox composition and second sandbox composition include：

Substrate, the pin joint with the cart member hinges is provided with the substrate；The first sandbox composition and institute Stating each that the second sandbox forms includes two the first sandboxes and the second sandbox being mounted opposite；

Guiding mechanism, first sandbox and the second sandbox can relatively move along the guiding mechanism.

Further, including the first drawing component installed in the first drawing station and installed in second drawing Second drawing component of station, the first drawing component and the second drawing component are all secured on the bracket component, and energy Enough molding sand is set to be separated from sandbox.

Further, the first drawing component and the second drawing component are comprising drawing support, oil cylinder, driving plate And guide pillar；Support is connected with the crossbeam of bracket component, and oil cylinder is rack-mount, and the piston rod of oil cylinder is connected with driving plate Connect, driving plate can move up and down in the presence of driving force, and guide pillar plays a part of auxiliary guiding during up and down motion.

Further, in addition to connect box assembly installed in the first of the first drawing station and taken off installed in described second The second of case station connects box assembly, and described first connects box assembly and second connects the bottom plate that box assembly is all secured to the bracket component On, and the molding sand that the first and second drawings components apart comes out can be caught.

Further, first connect box assembly and second connect box assembly include connect box bracket, connect case oil cylinder, connect boxboard and connect Case guide pillar；Connect box bracket with the bottom plate of bracket component to be connected, it is rack-mount and connect the piston of case oil cylinder to connect case oil cylinder Bar is connected with connecing boxboard, and boxboard is connect in the presence of hydraulic coupling to move up and down, and case guide pillar is connect during up and down motion Play a part of auxiliary to be oriented to,

Further, described first connect box assembly and described second and connect box assembly and also include, sand mold removes cylinder, when being connected to sand During type, connect boxboard and move downwardly to lowest order, remove cylinder installed in the sand mold connect on box bracket and remove the sand mold made to sand mold On conveying assembly.

Double-station horizontal parting device of the present utility model, vertical extrusion forming can be completed, it is uniform to produce hardness Sand mold；The cast of horizontal mould assembly can be completed, the shortcomings that parts density that Action of Gravity Field during overcoming pouring in vertically clamped moulds is brought is uneven； Can horizontal parting, when solving to place for big core vertical-parting machine be not easy placement the shortcomings that；Two station alternatings can be completed Work, seamless production is realized, improve production efficiency.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding to of the present utility model, forms the part of the application, Schematic description and description of the present utility model is used to explain the utility model, does not form to of the present utility model improper Limit.In the accompanying drawings：

Fig. 1 is the schematic diagram of a specific embodiment of double of the present utility model.

Fig. 2 is a specific embodiment of the sandbox component of one station of double-station horizontal parting device of the present utility model Schematic diagram.

Fig. 3 is a specific implementation of the sandbox component of double-station horizontal parting device of the present utility model another station The schematic diagram of example.

Fig. 4 is the tool of one of them of two groups of relative system for compacting of double-station horizontal parting device of the present utility model The schematic diagram of body embodiment.

Fig. 5 is the other in which of two groups of relative system for compacting of double-station horizontal parting device of the present utility model The schematic diagram of specific embodiment.

Fig. 6 is a specific embodiment of the drawing component of one station of double-station horizontal parting device of the present utility model Schematic diagram.

Fig. 7 is a specific implementation of the drawing component of double-station horizontal parting device of the present utility model another station The schematic diagram of example.

Fig. 8 is one that the connects box assembly specific implementation of one station of double-station horizontal parting device of the present utility model The schematic diagram of example.

Fig. 9 is one that connects box assembly specific implementation of another station of double-station horizontal parting device of the present utility model The schematic diagram of example.

Figure 10 is showing for a specific embodiment of double-station horizontal parting device sand mold conveying assembly of the present utility model It is intended to.

Embodiment

Below in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.

As shown in figure 1, it is a kind of double-station horizontal parting machine device of the present utility model.

Specifically, it includes bracket component, in one embodiment, for the support 1 of a welding；Cylindrical guide 8 is installed In on support 1；Cart 6 is arranged on cylindrical guide 8, can the side-to-side movement on cylindrical guide 8；Set and penetrate on the parting device Sand compacting station, the first drawing station A and the second drawing station B, sandbox component 4A are arranged on the station A on cart 6, sandbox group Part 4B is arranged on the station B on cart 6；And sandbox component 4A and sandbox component 4B relative can do certain angle with cart 6 Rotation, to realize the utility model purpose, the anglec of rotation is preferably greater than or equal to 90 degree.

Station A sandbox composition 4A and station B sandbox composition 4B be articulated with respectively with the both ends of cart component SA points with SB points, 4A and 4B can do 0 degree of rotation arrived more than or equal to 90 degree in the presence of outer active force with cart component 6；Referring to figure Contain substrate 4A-2 in 2, sandbox component 4A, it is the installation foundation of whole sandbox component, and having on the basis of being somebody's turn to do can be hinged with cart 6 S points；Two sandbox 4A-3 being mounted opposite and 4A-6 can be along being fixed on 4A-2 in the presence of oil cylinder 4A-4 and oil cylinder 4A-5 On two guide pillar 4A-1 slide；Referring to Fig. 3, the sandbox composition 4B that same structure can be explained at station B also has 4A work( Energy.

In addition, setting a pair of system for compacting 5A and 5B on support 1, system for compacting 5A and 5B are arranged on station A and station B Between.In one embodiment, system for compacting 5A and both 5B structures are same or like；Two groups of relative system for compacting 5A and 5B It is arranged in a manner of perpendicular to cylindrical guide 8 on bracket component 1；Referring to Fig. 4, system for compacting 5A, in contain compression frame 5A-1, Squeezing cylinder 5A-2, squeeze board 5A-3, squeeze board lead 5A-4.In compression frame 5A-1 installations and bracket component 1, squeezing cylinder 5A-2 On compression frame 5A-1, and the piston rod of squeezing cylinder is connected with squeeze board 5A-3, the squeeze board in the presence of driving force 5A-3 can be moved forward and backward, and can be had squeeze board lead 5A-4 to rise in motion process and be oriented to booster action.Referring to Fig. 5, compacting machine Structure 5B has a same structure, system for compacting 5B, in contain compression frame 5B-1, squeezing cylinder 5B-2, squeeze board 5B-3, squeeze board is led To post 5B-4.In compression frame 5B-1 installations and bracket component 1, in squeezing cylinder 5B-2 installations and compression frame 5B-1, and squeezing cylinder Piston rod be connected with squeeze board 5B-3, squeeze board 5B-3 can be moved forward and backward in the presence of driving force, can in motion process There is squeeze board lead 5B-4 to rise and be oriented to booster action, it is known that the function similarly with system for compacting 5A.

Cylindrical guide 3 on support 1；For the ease of being molded, the mould of side-to-side movement can be set on cylindrical guide 3 Has device 7；Specifically, die assembly 7 is arranged on cylindrical guide 3, and two cylindrical guides 3 are fixed on bracket component 1, mould Model 13 is housed on tool component 7, die assembly 7 can be along the side-to-side movement of guide rail 3.

At station A on support 1, drawing component 2A and station B drawing component 2B are installed；Installed in station A's Drawing component 2A, the drawing component 2B with installed in station B, is separately fixed on the crossbeam of bracket component 1；Referring to Fig. 6, drawing Support 2A-1, drawing oil cylinder 2A-2, drawing plate 2A-3, drawing guide pillar 2A-4 are included in component 2A.Support 2A-1 and bracket component 1 Crossbeam be connected, drawing oil cylinder 2A-2 installations with support 2A-1 and the piston rod of drawing oil cylinder is connected with drawing plate 2A-3 Connect, drawing plate can move up and down in the presence of hydraulic coupling, and drawing guide pillar 2A-4 plays auxiliary and led during up and down motion To effect；Referring to Fig. 7, drawing component 2B has same structure, and support 2B-1, drawing oil cylinder are included in drawing component 2B 2B-2, drawing plate 2B-3, drawing guide pillar 2B-4.Support 2B-1 is connected with the crossbeam of bracket component 1, drawing oil cylinder 2B-2 installations With on support 2B-1 and the piston rod of drawing oil cylinder is connected with drawing plate 2B-3, in the presence of the hydraulic coupling drawing plate can on Lower motion, drawing guide pillar 2B-4 plays a part of auxiliary guiding during up and down motion, so as to equally also have drawing group Part 2A function.

Station A on support 1 meet box assembly 10A and station B meet box assembly 10B；Installed in connecing for station A Box assembly 10A, with meeting box assembly 10B installed in station B, it is separately fixed on the bottom plate of bracket component 1.Referring to Fig. 8, case is connect In component 10A comprising support 10A-1, meet case oil cylinder 10A-2, meet boxboard 10A-3, meet case guide pillar 10A-4 and sand mold removes cylinder 10A-5.Support 10A-1 is connected with the bottom plate of bracket component 1, connects on case oil cylinder 10A-2 installations and support 10A-1 and connects case The piston rod of oil cylinder is connected with meeting boxboard 10A-3, and boxboard is connect in the presence of hydraulic coupling to move up and down, in up and down motion During connect case guide pillar 10A-4 play a part of auxiliary be oriented to, when being connected to sand mold, connect boxboard and move downwardly to lowest order, so The sand mold being arranged on afterwards on support 10A-1 removes cylinder 10A-5 makes piston rod move right in the presence of hydraulic coupling, removes and makes Sand mold to sand mold conveying assembly 12 on.Referring to Fig. 9, meeting box assembly 10B has same structure, and case is connect installed in station B Component 10B, with meeting box assembly 10A installed in station A, it is separately fixed on the bottom plate of bracket component 1.Referring to Fig. 9, case group is connect In part 10B comprising support 10B-1, meet case oil cylinder 10B-2, meet boxboard 10B-3, meet case guide pillar 10B-4 and sand mold removes cylinder 10B- 5.Support 10B-1 is connected with the bottom plate of bracket component 1, connects on case oil cylinder 10B-2 installations and support 10B-1 and connects case oil cylinder Piston rod be connected with meeting boxboard 10B-3, boxboard is connect in the presence of hydraulic coupling to move up and down, in the process of up and down motion In connect case guide pillar 10B-4 play a part of auxiliary be oriented to, when being connected to sand mold, connect boxboard and move downwardly to lowest order, Ran Houan Sand mold on support 10B-1 removes cylinder 10B-5 makes piston rod move right in the presence of hydraulic coupling, removes the sand made On type to sand mold conveying assembly 12.Understand that equally also there is the function of meeting box assembly 10A.

In addition, in one embodiment, including the molding sand cylinder 11 on support 1, the position of sand cylinder 11, which is located at, penetrates sand It is compacted station；Sand cartridge module 11 is arranged on two crossbeams of bracket component 1 in sand cylinder equipped with the molding sand being blended, to be sent into In the sandbox of sandbox component, to complete moulding.

For the ease of the sand mold of conveying shaping, connecing sand mold conveying assembly 12 is installed between box assembly 10A and 10B；Support Component 1 is welded by section bar and steel plate.As shown in Figure 10, in a specific embodiment, sand mold conveying assembly 12 is arranged on On ground level among 10A and 10B, sand mold conveying assembly 12 includes conveying machine platform 12-1, Oil cylinder 12-2 is conveyed, with conveying Machine oil cylinder piston rod connected conveyer push pedal 12-3, the mould assembly sand mold 12-4 of completion.Sand mold 12-4 by connect box assembly 10A or 10B is accepted and pushed on conveying machine platform 12-1, and conveying Oil cylinder promotes conveyer push pedal 12-3 handles in the effect of driving force Sand mold is pushed on teeming line station.

The operating method of the device is further described below：

The first step：Mould enters position

As shown in figure 1, make the compacting that die assembly is moved to the left among sandbox 4B-3 and 4B-6 in the presence of external force Station.

Second step：Penetrate sand process

As shown in figure 1, sandbox part 4B is being compacted station, molding sand now is filled in sand cylinder 11, in the effect of compressed air Under, in sand bucket 11 molding sand through having been rotated into horizontal level sandbox component 4B two sandboxes of sandbox 4B-3 and 4B-6 Rectangle add sand mouth to be blown into compacting station has got togather 4B-3 and the 4B-6 sandbox of sandbox.

3rd step：It is compacted process

Squeezing cylinder 5A-2 and 5B-2 piston rod start to transport to sandbox direction in the presence of hydraulic coupling after second the end of the step It is dynamic that molding sand in sandbox is extruded, terminate after reaching pressure set points.

4th step：Stripping process

Squeezing cylinder 5A-2 and 5B-2 piston rod in the presence of hydraulic coupling is compacted after process terminates to start to compacting process Opposite direction is moved, at the same time in the presence of hydraulic coupling oil cylinder 4B-4 and 4B-5 driving sandbox 4B-3 and 4B-6 also begin to Relative direction motion, makes sand mold leave the model 13 in mould 7.

5th step：Drawing process

Cart component 6 drives sandbox component 4B to be moved to station B until reaching in the presence of external force after 4th the end of the step After specified location, sandbox 4B starts to do with cart into 90 degree of rotation in the presence of outer active force, stops rotation after reaching 90 degree Turn, the boxboard 10B-3 that connects at the same time connect in box assembly has moved up to sand in 4B-3 and 4B-6 in the presence of 10B-5 The bottom of type, now drawing component 2B start-up operations, in the presence of oil cylinder 2B-2, promote the sand mold in sandbox 4B-3 and 4B-6 To the movement of box assembly 10B square chests is connect, until sand mold falls within and connect on boxboard 10B-3, station B drawing is completed.

6th step：Send type process

After completing the 5th step, connect box assembly and drive sand mold to start after being displaced downwardly to specified location, the oil cylinder in type machine 10B is sent Sand mold is delivered on sand mold conveying assembly 12 under 10B-5 promotion, then had in sand mold conveying assembly 12 in the presence of oil cylinder 12-2 Sand mold is delivered into cast region.

Now the sandbox component 4A at station A, which has been completed, penetrates sand compacting process.Cart drives sandbox 4B again to penetrating sand Station is compacted, sand compacting is penetrated in wait.Sandbox 4A moves to A stations and completes drawing process, send type process.

Especially, after the 5th step is completed, sandbox component is the conjunction that can rotate to horizontal level and sandbox 4B-3 and 4B-6 Case works, and prepares to penetrate sand so that cart is moved to compacting station.

Before penetrating sand process and carrying out, the squeeze board 5A-3 and 5B-3 in two compacting oil cylinder 5A and 5B has moved to sandbox Two of 4B-3 and 4B-6 are suitable for reading, to seal sandbox, done homework to sand is penetrated.

Carried out also while again when station B series of processes is carried out, at station A：Drawing process, connect case process and send type Process.

The work for penetrating sand process, compacting process sandbox component 4A and 4B only completed in compacting station is alternately Except, the work on other A, B stations is non-interference, is independently carried out, and to save the time, improves production efficiency.

, can be with horizontal positioned core when two sand molds separate when A stations or B stations carry out drawing, this, which is compared, vertically puts Put that core is more convenient, sand mold will not come off from sand mold.

Finally it should be noted that：Above example is only illustrating the technical solution of the utility model rather than it is limited System；Although the utility model is described in detail with reference to preferred embodiment, those of ordinary skill in the art should Understand：Specific embodiment of the present utility model can still be modified or some technical characteristics are equally replaced Change；Without departing from the spirit of technical solutions of the utility model, it all should cover in the claimed technical scheme of the utility model Among scope.

Finally it should be noted that：Above example is only illustrating the technical solution of the utility model rather than it is limited System；Although the utility model is described in detail with reference to preferred embodiment, those of ordinary skill in the art should Understand：Specific embodiment of the present utility model can still be modified or some technical characteristics are equally replaced Change；Without departing from the spirit of technical solutions of the utility model, it all should cover in the claimed technical scheme of the utility model Among scope.

Claims (10)

1. A kind of 1. double-station horizontal parting device, it is characterised in that including：Bracket component, cart component, sandbox component, it is described Set on parting device and penetrate sand compacting station, the first drawing station and the second drawing station, the sand compacting station of penetrating is located at institute State between the first drawing station and the second drawing station, the cart component can drive the sandbox component to penetrate sand compacting described Moved between station, the first drawing station and the second drawing station；When the sandbox component is moved to institute by penetrating sand compacting station During stating the first drawing station or the second drawing station, the sandbox component is changed into being vertically arranged from horizontally disposed；Work as institute State sandbox component by the first drawing station or the second drawing station be moved to it is described penetrate sand compacting station during, it is described Sandbox component is changed into horizontally disposed from being vertically arranged.
2. 2. double-station horizontal parting device as claimed in claim 1, it is characterised in that also including system for compacting, the compacting Sand compacting station is penetrated positioned at described by mechanism.
3. 3. double-station horizontal parting device as claimed in claim 2, it is characterised in that the system for compacting include compression frame, Squeezing cylinder, squeeze board and squeeze board lead；Compression frame is arranged on the bracket component, and squeezing cylinder is arranged on compression frame, And the piston rod of squeezing cylinder is connected with squeeze board, to drive squeeze board to move forward and backward, squeeze board is led described in motion process Xiang Zhuqi is oriented to booster action.
4. 4. double-station horizontal parting device as claimed in claim 1, it is characterised in that including positioned at the of the first drawing station One sandbox forms to be formed with the second sandbox positioned at the second drawing station, first and second sandbox composition respectively with cart group The both ends of part are articulated with the first pin joint and the second pin joint, so as in the presence of outside force relative to cart component Rotation, rotatable angle are more than or equal to 90 °.
5. 5. double-station horizontal parting device as claimed in claim 4, it is characterised in that first sandbox composition and described the Two sandboxes composition it is at least one including：

   Substrate, the pin joint with the cart member hinges is provided with the substrate；First sandbox composition and described the Each of two sandboxes composition includes two the first sandboxes and the second sandbox being mounted opposite；

   Guiding mechanism, first sandbox and the second sandbox can relatively move along the guiding mechanism.
6. 6. double-station horizontal parting device as claimed in claim 1, it is characterised in that including installed in the first drawing work The the first drawing component and the second drawing component installed in the second drawing station of position, the first drawing component and second Drawing component is all secured on the bracket component, and molding sand can be made to be separated from sandbox.
7. 7. double-station horizontal parting device as claimed in claim 6, it is characterised in that the first drawing component and described Two drawing components are at least one to include drawing support, oil cylinder, driving plate and guide pillar；Support is connected with the crossbeam of bracket component, Oil cylinder is rack-mount, and the piston rod of oil cylinder is connected with driving plate, and driving plate can transport up and down in the presence of driving force Dynamic, guide pillar plays a part of auxiliary guiding during up and down motion.
8. 8. double-station horizontal parting device as claimed in claim 6, it is characterised in that also include being arranged on first drawing The first of station connects box assembly and connects box assembly installed in the second of the second drawing station, and described first connects box assembly and Two, which connect box assembly, is all secured on the bottom plate of the bracket component, and can catch the first and second drawings components apart and go out The molding sand come.
9. 9. double-station horizontal parting device as claimed in claim 8, it is characterised in that first, which connects box assembly and second, connects case group Part includes connecing box bracket, connecing case oil cylinder, connect boxboard and connect case guide pillar；Connect box bracket with the bottom plate of bracket component to be connected, connect Case oil cylinder is rack-mount and connects the piston rod of case oil cylinder and is connected with connecing boxboard, and connecing boxboard in the presence of hydraulic coupling can Move up and down, case guide pillar is connect during up and down motion and plays a part of auxiliary guiding.
10. 10. double-station horizontal parting device as claimed in claim 9, it is characterised in that described first connects box assembly and described Second, which connects box assembly, also includes, and sand mold removes cylinder, when being connected to sand mold, connects boxboard and moves downwardly to lowest order, installed in connecing Sand mold on box bracket is removed cylinder and removed on sand mold to the sand mold conveying assembly made.