CN106994504A - A kind of method of the overweight upper machine of mould partition - Google Patents

Abstract

The invention discloses a kind of method of the overweight upper machine of mould partition, including：Base module is lifted on required installation site；Main body module is lifted and is arranged on base module so that base module is assembled into dynamic model with main body module；Dynamic model and cover half are assembled.By individually being lifted after dynamic model is divided into two modules that can connect cooperation, dynamic model is enabled to complete lifting in the case of the load-bearing scope no more than crane, two integral modules both can guarantee that safety and stability was reliable when upper machine is connected, also it can guarantee that safe ready is split before lower machine, moreover it is possible to park and maintain after convenient lower machine.The present invention is applied to mould applications.

Description

A kind of method of the overweight upper machine of mould partition

Technical field

The present invention relates to mould applications, more particularly to a kind of method of the overweight upper machine of mould partition.

Background technology

Mold weight is result in, it is necessary to mold design is obtained sturdy because some products are larger, and according to products characteristics Beyond the crane weight capacity scope of die casting factory client.For example, the crane capacity of client's crane is 20T, and mould dynamic model side Mould weight is 24.2T, and cover half side form weight is 14.2T, and dynamic model side is completely out of the crane capacity of driving.The production of client's upper mould need from The outer slinging work for employing loop wheel machine to complete upper stamping die tool is, it is necessary to which vacating space to external loop wheel machine to park, in addition it is also necessary to spend Manpower empties place, and time-intensive, expensive is laborious.

The content of the invention

, will be dynamic it is an object of the invention to provide a kind of method of the overweight upper machine of mould partition in order to solve the above problems Mould is split into the module of two entirety so that the two integral modules are no more than crane load-bearing scope.

The technical solution adopted in the present invention is：A kind of method of the overweight upper machine of mould partition, comprises the following steps：

A. base module is lifted on required installation site；

B. main body module is lifted and is arranged on base module so that base module is assembled into dynamic model with main body module；

C. dynamic model and cover half are assembled.

As the further improvement of such scheme, in step b, by the aligned portions and base module on main body module Location division assembling positioning completes the positioning of base module and main body module.

As the further improvement of such scheme, realized and led using two or more aligned portions and quantity identical location division The positioning of module and base module.

As the further improvement of such scheme, lift before base module, the supporting part passed through on base module supports bottom Seat module, location division is on supporting part.

As the further improvement of such scheme, the supporting part includes the lower cushion block module on top and the support of bottom Bridge, the support bridge support base module is stood up, lower cushion block block supports main body module, location division respectively lower cushion block module with Support bridge top.

As the further improvement of such scheme, during lifting main body module, the main body of main body module is hooked by upper cushion block In lower cushion block module, aligned portions are respectively in main body and the bottom of upper cushion block.

As the further improvement of such scheme, lift before main body module, the support feet passed through on main body module supports master Module traverse is stood up.

As the further improvement of such scheme, trapezoidal bar and dovetail groove are processed into the location division respectively with aligned portions.

As the further improvement of such scheme, in step b, push pedal and main body module are locked.

As the further improvement of such scheme, during lifting main body module, fixed and led by the latch segment on main body module Push pedal on module.

The beneficial effects of the invention are as follows：The present invention is by the way that dynamic model is divided into after two modules that can connect cooperation individually Lifting so that dynamic model can complete lifting in the case of the load-bearing scope no more than crane, two integral modules both can guarantee that When upper machine is connected, safety and stability is reliable, also can guarantee that safe ready is split before lower machine, moreover it is possible to parks and repairs after convenient lower machine Maintenance.

Brief description of the drawings

The present invention is further described with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is the positive axonometric drawing of base module of the present invention；

Fig. 2 is the reverse axonometric drawing of base module of the present invention；

Fig. 3 is the vertical axonometric drawing of main body module of the present invention；

Fig. 4 is that main body module of the present invention swings to axonometric drawing.

Embodiment

The method of the upper machine of overweight mould partition as Figure 1-4, the mould of use includes the cover half being mutually arranged with moving Mould, dynamic model, which includes base, can connect the base module 1 that can be split with merging and main body module 2, base module 1 and main body mould It is respectively equipped with block 2 and lifting portion (not shown), base module 1 is able to independent lifting with main body module 2.

Upper machine step is：Base module is lifted on required installation site；Main body module is lifted and base mold is arranged on On block so that base module is assembled into dynamic model with main body module；Dynamic model and cover half are assembled.

Individually lifted after dynamic model is divided into two modules that can connect cooperation so that dynamic model can be no more than crane Load-bearing scope in the case of complete lifting, two integral modules both can guarantee that when upper machine connect that safety and stability reliably, also could Ensure that safe ready is split before lower machine, moreover it is possible to park and maintain after convenient lower machine.

It is preferred that, base module 1 is provided with location division, and main body module 2 is provided with aligned portions, and location division is relative with to preparing It and should mutually agree with, during lifting main body module 2, base module 1 and main body mould completed by aligned portions and location division assembling positioning The positioning of block 2.

It is preferred that, utilize two or more aligned portions and quantity identical location division realization body module 2 and base module 1 Positioning, enable with more preferable locating effect.

It is preferred that, with reference to Fig. 1 and Fig. 2, base module 1 includes pedestal 11 and supporting part, and supporting part is connected on the base 11, Lift before base module 1, by supporting part support base module, location division is on supporting part.

It is preferred that, the lower cushion block module 121 of supporting part including top and the support bridge 122 of bottom, support bridge 122 can be The lifting front support base module 1 of base module 1 is stood up, the supportive body module 2 of lower cushion block module 121, and location division is respectively provided at down The top of cushion block module 121 and support bridge 122.

Pedestal 11 is " returning " shape structure, the " u "-shaped structure that lower cushion block module 121 is made up of a horizontal block and two vertical blocks Location division is designed with the top of cube, two vertical blocks, " returning " word mouthful of pedestal 11 is connected with " U " word mouthful of lower cushion block module 121 The recess on base module 1 is constituted, support bridge 122 is longitudinally disposed two pieces of cubes of plates below pedestal 11 and horizontal block, support The top of a part for bridge 122 supports pedestal 11 and horizontal block simultaneously, and the top of another part is location division.

It is preferred that, with reference to Fig. 3 and Fig. 4, main body module 2 includes main body 21, and main body 21 is provided with upper cushion block 22, lifts main body During module 2, main body 21 is ridden against in lower cushion block module 121 by upper cushion block 22, and aligned portions are respectively in main body and the bottom of upper cushion block End.The bottom of main body 21 and upper cushion block 22 is designed with aligned portions, aligned portions 262 and the top of support bridge 122 of the bottom of main body 21 Location division 131 coordinates, and the aligned portions 261 of the upper bottom of cushion block 22 and the location division 132 at the top of lower cushion block module 121 coordinate.

It is preferred that, it is removably connected with main body 21 before support feet 23, lifting main body module 2, the supportive body of support feet 23 The traverse of module 2 is stood up.Because the volume of main body module 2, weight are larger, support feet 23 can prevent the machine on not of main body module 2 When be placed on behind ground because own wt causes the circuit that weares and teares or break, support feet 23 can make with the upper mating reaction of cushion block 22 The traverse of main body module 2, the independent role of support feet 23 can stand up main body module 2.In the lifting of main body module 2 before machine, work Making personnel first will disassemble support feet 23.

It is preferred that, trapezoidal bar and dovetail groove are processed into location division respectively with aligned portions.The location division of trapezium structure and alignment Portion can make main body module 2 be more prone to positioning in connection procedure with base module 1, be effectively prevented sideslip.

It is preferred that, push pedal 24 is slidably connected on main body module 2, during lifting main body module, by push pedal 24 and main body module 2 Locking, anti-thrust plate slides in hoisting process.

It is preferred that, main body module 2 is provided with latch segment 25, and during lifting main body module 2, push pedal is fixed by latch segment 25 24.The one end of latch segment 25 is detachably connected in main body 21, the other end detachably insertion is connected in push pedal 24, make main body 21 with Formed and be rigidly connected between push pedal 24, be in order to prevent that push pedal 24 slides main body module 2 during machine in lifting, in main body Module 2 is completed after upper machine, and staff disassembles latch segment 25.

With reference to Fig. 1-Fig. 4, the course of work of the present embodiment：When mould starts upper machine, by crane first by base module 1 Installed in required position, then lifting main body module 2, lifting main body module 2 before, staff dismantle in advance main body 21 with Connecting screw between support feet 23, and installation locking block 25；Subsequent main body module 2 is lifted by crane, and staff manually adjusts main body The position of module 2 so that the aligned portions on main body module 2 are mutually agreed with the location division on base module 1, it is solid by connecting screw Determine base module 1 and main body module 2, subsequent staff dismantles latch segment 25, complete the installation of dynamic model, subsequently complete cover half With the assembling of dynamic model.

Claims (10)

1. a kind of method of the overweight upper machine of mould partition, it is characterised in that comprise the following steps：

A. base module is lifted on required installation site；

B. main body module is lifted and is arranged on base module so that base module is assembled into dynamic model with main body module；

C. dynamic model and cover half are assembled.

2. the method that overweight mould decouples upper machine according to claim 1, it is characterised in that：In step b, pass through main body module On aligned portions and base module on location division assembling positioning complete the positioning of base module and main body module.

3. the method that overweight mould decouples upper machine according to claim 2, it is characterised in that：Utilize two or more aligned portions With the positioning of quantity identical location division realization body module and base module.

4. the method that overweight mould decouples upper machine according to claim 3, it is characterised in that：Lift before base module, pass through Supporting part support base module on base module, location division is on supporting part.

5. the method that overweight mould decouples upper machine according to claim 4, it is characterised in that：The supporting part includes top Lower cushion block module and the support bridge of bottom, the support bridge support base module are stood up, lower cushion block block supports main body module, fixed Bit position is not in lower cushion block module and support bridge top.

6. the method that overweight mould decouples upper machine according to claim 5, it is characterised in that：The main body of main body module passes through upper Cushion block is ridden against in lower cushion block module, and aligned portions are respectively in main body and the bottom of upper cushion block.

7. the method that overweight mould decouples upper machine according to claim 6, it is characterised in that：Lift before main body module, pass through Support feet supportive body module traverse on main body module is stood up.

8. the method that upper machine is decoupled according to any one of claim 2 to the 7 overweight mould, it is characterised in that：The location division It is processed into trapezoidal bar and dovetail groove respectively with aligned portions.

9. the method that upper machine is decoupled according to any one of claim 2 to the 7 overweight mould, it is characterised in that：, will in step b Push pedal is locked with main body module.

10. the method that overweight mould decouples upper machine is stated according to claim 9, it is characterised in that：Pass through the locking on main body module Push pedal in block stationary body module.