CN212019085U - Condenser collecting pipe die - Google Patents

Abstract

Compared with the original mold structure, the condenser collecting pipe mold is provided with a first machining device for machining a collecting pipe positioning notch and a pipe inlet and outlet hole, a second machining device for machining a collecting pipe partition plate groove and a third machining device for machining a collecting pipe flat pipe groove; simultaneously cooperate first material returned device, the second material returned device, the third material returned device, first manipulator, the second manipulator, the third manipulator, the automated production of pressure manifold processing has been realized promptly, and in the third process mould, change the disconnect-type core bar structure and utilize mould bottom liftout cylinder to push up the superficial material piece and take off the material to the third core bar, can be in order to solve among the prior art, need lead to the condition that the internal diameter diminishes and lead to taking off the material difficulty because of dashing flat tub, thereby it can automatic drawing of patterns material core bar and material returned device to make the totally closed product of cylindric appearance to increase automatic production mould in order to realize that automatic production mould can automatic drawing of patterns material core bar advances material returned, thereby realized the automatic online production mode of product.

Description

Condenser collecting pipe die

Technical Field

The utility model relates to a pressure manifold mould field indicates a condenser pressure manifold mould especially.

Background

The collecting pipe is an essential part of a household air conditioner of an automobile air conditioner. In the past die manufacturing industry, because the collecting pipe is a profile, the cooling and forming processes are carried out in the profile processing, and the inner diameter dimension of the flow pipe is unstable due to the influence of the temperature environment in the cooling process, so the processes adopted in the past production process are all processed by a single-process die and are transferred and positioned manually, the efficiency is low, and the unstable factors of the product are caused by the human factor problem of an operator.

The existing die process causes that the core bar cannot realize the automatic core pulling function during automatic production, and the inner diameter of the collecting pipe becomes small after the flat pipe groove is punched, the strength of the core bar is insufficient, and the core bar cannot be made into a split structure, so that the automatic core pulling function cannot be realized to achieve the operation mode that the die is matched with automatic equipment to carry out automatic production to process products.

SUMMERY OF THE UTILITY MODEL

For solving the problem, the utility model provides a condenser pressure manifold mould has realized the automated production of pressure manifold processing promptly, can solve prior art, needs because flat tub of dashing leads to the internal diameter to diminish and leads to taking off the condition of material difficulty, thereby has increased automatic core pulling rod and material returned device and has made the complete closed product of cylindric appearance can automatic drawing of patterns advance material returned in order to realize the automated production mould to product automation line production mode has been realized.

In order to achieve the above object, the utility model adopts the following technical scheme: a condenser collecting pipe die comprises a first machining device, a second machining device and a third machining device, wherein the first machining device is used for machining a collecting pipe positioning notch and an inlet and outlet pipe hole, the second machining device is used for machining a collecting pipe partition plate groove, and the third machining device is used for machining a collecting pipe flat pipe groove; the first processing device comprises a first mechanical arm, a first procedure die, a first stamping device arranged above the first procedure die and a first material returning device arranged on one side of the first procedure die, wherein the first procedure die is provided with a first processing groove for placing a collecting pipe, the collecting pipe is clamped to the first processing groove by the first mechanical arm, a first processing cutter for processing a positioning notch and a pipe inlet and outlet hole is arranged on the first stamping device, the first stamping device drives the first processing cutter to process the collecting pipe placed in the first processing groove, and the first material returning device moves along the direction of the first processing groove and pushes the collecting pipe out of the first processing groove to realize material returning; the second processing device comprises a second mechanical arm, a second procedure die, a second stamping device arranged above the second procedure die and a second material returning device arranged on one side of the second procedure die, the second procedure die is provided with a second processing groove for placing a collecting pipe, the collecting pipe is clamped to the second processing groove by the second mechanical arm, a second processing cutter for processing a partition plate groove is arranged on the second stamping device, the second stamping device drives the second processing cutter to process the collecting pipe placed in the second processing groove, and the second material returning device moves along the direction of the second processing groove and pushes the collecting pipe out of the second processing groove to realize material returning; the third processing device comprises a third manipulator, a third procedure die, a third stamping device arranged above the third procedure die, a third material returning device arranged on one side of the third procedure die, a material ejecting cylinder arranged below the third procedure die and a core pulling cylinder arranged on one side of the third procedure die, wherein the third procedure die is provided with a third processing groove for placing the collecting pipe; the third process die is provided with a third core bar positioned in a third processing groove, the third manipulator clamps the collecting pipe to the third processing groove and enables the collecting pipe to be sleeved in the third core bar, a third processing cutter for processing the flat pipe groove is arranged on the third stamping device, the third stamping device drives the third processing cutter to process the collecting pipe placed in the third processing groove, the third core bar comprises a third lower core bar and a third upper core bar which is fixed on the third process die and positioned above the third lower core bar, and the core pulling cylinder is in driving connection with the third lower core bar and drives the third lower core bar to enter or leave the third processing groove; the movable end of the material ejection cylinder extends to the third machining groove and jacks up a collecting pipe placed in the third machining groove, and the third material returning device moves along the direction of the third machining groove and pushes the collecting pipe out of the third machining groove to return materials.

Further, the first procedure die comprises a first procedure upper die and a first procedure lower die, wherein a first upper semicircular processing groove is formed in the bottom of the first procedure upper die, a first lower semicircular processing groove is formed in the surface of the first procedure lower die, and the first upper semicircular processing groove and the first lower semicircular processing groove form a first processing groove for placing the collecting pipe; the first machining tool comprises a first tool fixing plate and a first stamping tool, and the first stamping tool is fixedly arranged at the bottom of the first tool fixing plate; the surface of the first procedure upper die is provided with a first tool hole which corresponds to a first stamping tool and is communicated with the first upper semicircular processing groove, the surface of the first procedure upper die is fixedly provided with a plurality of first guide rods, the first guide rods extend along the vertical direction and penetrate through a first tool fixing plate, the tail ends of the first guide rods penetrating through the first tool fixing plate are provided with first limiting lugs, and the first tool fixing plate is movably connected with the first guide rods and can move along the direction of the first guide rods; the first stamping device is fixedly connected with the first tool fixing plate and drives the first tool fixing plate and the first procedure upper die to move in a direction close to or far away from the first procedure lower die.

Further, the first material returning device comprises a first material returning cylinder and a first material pushing rake, the first material returning cylinder is arranged on one side of the first procedure die, the movable end of the first material returning cylinder is fixedly connected with the first material pushing rake, the first material returning cylinder drives the first material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the first lower semicircular processing groove to realize material returning.

Further, the second procedure die comprises a second procedure upper die and a second procedure lower die, a second upper semicircular processing groove is formed in the bottom of the second procedure upper die, a second lower semicircular processing groove is formed in the surface of the second procedure lower die, and the second upper semicircular processing groove and the second lower semicircular processing groove form a second processing groove for placing the collecting pipe; the second machining cutter comprises a second cutter fixing plate and a second stamping cutter, and the second stamping cutter is fixedly arranged at the bottom of the second cutter fixing plate; the surface of the second procedure upper die is provided with a second tool hole which corresponds to a second stamping tool and is communicated with the second upper semicircular processing groove, the surface of the second procedure upper die is fixedly provided with a plurality of second guide rods, the second guide rods extend along the vertical direction and penetrate through a second tool fixing plate, the tail ends of the second guide rods penetrating through the second tool fixing plate are provided with second limiting lugs, and the second tool fixing plate is movably connected with the second guide rods and can move along the direction of the second guide rods; the second punching device is fixedly connected with the second cutter fixing plate and drives the second cutter fixing plate and the second procedure upper die to move in the direction close to or far away from the second procedure lower die.

Further, the second material returning device comprises a second material returning cylinder and a second material pushing rake, the second material returning cylinder is arranged on one side of the second procedure die, the movable end of the second material returning cylinder is fixedly connected with the second material pushing rake, the second material returning cylinder drives the second material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the second lower semicircular processing groove to return materials.

Further, the third-procedure die comprises a third-procedure upper die and a third-procedure lower die, a third upper semicircular processing groove is formed in the bottom of the third-procedure upper die, a strip-shaped floating block is arranged on the third-procedure lower die, a third lower semicircular processing groove corresponding to the third upper semicircular processing groove is formed in the surface of the floating block, and the third upper semicircular processing groove and the third lower semicircular processing groove enclose a third processing groove for placing the collecting pipe; the movable end of the material ejecting cylinder is connected with the floating block and used for ejecting the collecting pipe placed in the third machining groove; the third machining cutter comprises a third cutter fixing plate and a third stamping cutter, and the third stamping cutter is fixedly arranged at the bottom of the third cutter fixing plate; a third tool hole which corresponds to a third stamping tool and is communicated with a third semicircular processing groove is formed in the surface of the upper die in the third procedure, a plurality of third guide rods are fixedly arranged on the surface of the upper die in the third procedure, the third guide rods extend in the vertical direction and penetrate through a third tool fixing plate, third limiting lugs are arranged at the tail ends of the third guide rods, which penetrate through the third tool fixing plate, and the third tool fixing plate is movably connected with the third guide rods and can move in the direction of the third guide rods; and the third punching device is fixedly connected with the third cutter fixing plate and drives the third cutter fixing plate and the third procedure upper die to move along the direction close to or far away from the third procedure lower die.

Further, the third material returning device comprises a third material returning cylinder and a third material pushing rake, the third material returning cylinder is arranged on one side of the third procedure die, the movable end of the third material returning cylinder is fixedly connected with the third material pushing rake, the third material returning cylinder drives the third material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the third lower semicircular processing groove to realize material returning.

The beneficial effects of the utility model reside in that: compared with the original mold structure, the mold structure is provided with a first machining device for machining a locating notch and an inlet and outlet pipe hole of the collecting pipe, a second machining device for machining a collecting pipe partition plate groove and a third machining device for machining a collecting pipe flat pipe groove; simultaneously cooperate first material returned device, the second material returned device, the third material returned device, first manipulator, the second manipulator, the third manipulator, the automated production of pressure manifold processing has been realized promptly, and in the third process mould, change the disconnect-type core bar structure and utilize mould bottom liftout cylinder to push up the superficial material piece and take off the material to the third core bar, can be in order to solve among the prior art, need lead to the condition that the internal diameter diminishes and lead to taking off the material difficulty because of dashing flat tub, thereby it can automatic drawing of patterns material core bar and material returned device to make the totally closed product of cylindric appearance to increase automatic production mould in order to realize that automatic production mould can automatic drawing of patterns material core bar advances material returned, thereby realized the automatic online production mode of product.

Drawings

Fig. 1 is a schematic diagram of the overall component distribution in the present invention.

Fig. 2 is the structure schematic diagram of the first process mold, the second process mold and the third process mold in the present invention.

Fig. 3 is a schematic structural view of the first process mold of the present invention.

Fig. 4 is a schematic structural view of a third process die of the present invention.

Fig. 5 is a schematic structural view of the third step die of the present invention without a third pressing device.

Fig. 6 is a schematic structural view of the third-step die of the present invention, in which the third press device and the third-step upper die are omitted.

Fig. 7 is a schematic front view of the structure of fig. 6.

The reference numbers illustrate: 1. a first processing device; 11. a first process mold; 111. a first procedure lower die; 1111. a first lower semicircle processing groove; 112. a first step of upper die; 1121. a first upper semicircular processing groove; 113. a first punching tool; 114. a first tool fixing plate; 115. a first material returning cylinder; 12. a first manipulator; 2. a second processing device; 21. a second step of molding; 22. a second manipulator; 3. a third processing device; 31. a third step of molding; 32. a third manipulator; 311, a third procedure lower die; 312. a third step of upper die; 313. a third stamping tool; 314. a third tool holding plate; 315. a third material returning cylinder; 316. a core pulling cylinder; 317. a material ejection cylinder; 318. a third guide bar; 319. a third upper core bar; 3110. a third lower core bar; 3101. a third pushing rake; 3111. a slider is provided.

Detailed Description

Referring to fig. 1-7, the present invention relates to a condenser header pipe mold, and more particularly to a condenser header pipe mold, which comprises a first processing device 1, a second processing device 2, and a third processing device 3, wherein the first processing device 1, the second processing device 2, and the third processing device are sequentially arranged for processing a header pipe positioning notch and an inlet/outlet pipe hole;

the first processing device 1 comprises a first procedure die 11, a first stamping device, a first material returning device, a first processing cutter and a first manipulator 12, wherein the first procedure die 11 comprises a first procedure upper die 112 and a first procedure lower die 111, a first upper semicircular processing groove 1121 is formed in the bottom of the first procedure upper die 112, a first lower semicircular processing groove 1111 is formed in the surface of the first procedure lower die 111, and the first upper semicircular processing groove 1121 and the first lower semicircular processing groove 1111 enclose a first processing groove for placing a collecting pipe; the first machining tool comprises a first tool fixing plate 114 and a first stamping tool 113, and the first stamping tool 113 is fixedly arranged at the bottom of the first tool fixing plate 114; a first tool hole corresponding to the first stamping tool 113 and communicated with the first upper semicircular processing groove 1121 is formed in the surface of the first procedure upper die 112, a plurality of first guide rods are fixedly arranged on the surface of the first procedure upper die 112, the first guide rods extend in the vertical direction and penetrate through a first tool fixing plate 114, a limiting bump is arranged at the tail end of each first guide rod penetrating through the first tool fixing plate 114, and the first tool fixing plate 114 is movably connected with the first guide rods and can move in the direction of the first guide rods; wherein the first stamping device is fixedly connected with the first tool fixing plate 114; the first material returning device comprises a first material returning cylinder 115 and a first material pushing rake, wherein the first material returning cylinder 115 is arranged on one side of the first working procedure die 11, and the movable end of the first material returning cylinder 115 is fixedly connected with the first material pushing rake.

The first processing device 1 specifically works as follows:

the first manipulator 12 places the original collecting pipe circular tube in the first lower semicircular machining groove 1111 of the first process lower die 111, the first stamping device drives the first tool fixing plate 114 to be close to the first process lower die 111, and the first process upper die 112 and the first process lower die 111 are firstly closed (the first machining groove is enclosed, but stamping machining is not started yet); the first stamping device continues to drive the first cutter fixing plate 114 to move downwards along the direction of the first guide rod, so that the first stamping cutter 113 moves downwards, penetrates through the first cutter hole and enters the first machining groove, and simultaneously stamps the collecting pipe positioned in the first machining groove and machines a positioning notch and a pipe inlet and outlet hole; when the machining is completed, the first stamping device drives the first tool fixing plate 114 to be far away from the first procedure lower die 111, namely, the first tool leaves the first machining groove first, and along with the continuous rising of the first tool fixing plate 114, the first stamping device can drive the first procedure upper die 112 to be far away from the first procedure lower die 111 due to the action of the limiting bump, so that the die opening is realized; at this time, the first material returning cylinder 115 drives the first material pushing rake and pushes the collecting main out of the first lower semicircular processing groove 1111.

The second processing device 2 comprises a second procedure die 21, a second stamping device, a second material returning device, a second processing cutter and a second manipulator 22, the second procedure die 21 comprises a second procedure upper die and a second procedure lower die, a second upper semicircular processing groove is formed in the bottom of the second procedure upper die, a second lower semicircular processing groove is formed in the surface of the second procedure lower die, and the second upper semicircular processing groove and the second lower semicircular processing groove form a second processing groove for placing the collecting pipe; the second machining cutter comprises a second cutter fixing plate and a second stamping cutter, and the second stamping cutter is fixedly arranged at the bottom of the second cutter fixing plate; the surface of the second procedure upper die is provided with a second tool hole which corresponds to a second stamping tool and is communicated with the second upper semicircular processing groove, the surface of the second procedure upper die is fixedly provided with a plurality of second guide rods, the second guide rods extend along the vertical direction and penetrate through a second tool fixing plate, the tail ends of the second guide rods penetrating through the second tool fixing plate are also provided with limiting lugs, and the second tool fixing plate is movably connected with the second guide rods and can move along the direction of the second guide rods; the second stamping device is fixedly connected with the second cutter fixing plate; the second material returning device comprises a second material returning cylinder and a second material pushing rake, the second material returning cylinder is arranged on one side of the second procedure die 21, and the movable end of the second material returning cylinder is fixedly connected with the second material pushing rake. (the second processing device 2 is constructed substantially identically to the first processing device 1, with the difference that the tools used are different, reference is made to the construction of the first processing device 1 in figures 1-3)

The working process of the second machining device 2 is specifically as follows:

the second manipulator 22 places the collecting pipe processed by the first processing device 1 in a second lower semicircular processing groove of the second procedure lower die, the second punching device drives a second cutter fixing plate to be close to the second procedure lower die, and the second procedure upper die and the second procedure lower die are firstly closed (a second processing groove is enclosed, but punching processing is not started yet); the second punching device continues to drive the second cutter fixing plate to move downwards along the direction of the second guide rod, so that the second punching cutter moves downwards, penetrates through the second cutter hole and enters the second machining groove, and meanwhile, punching is realized on the collecting pipe positioned in the second machining groove and a partition plate groove is machined; when the processing is finished, the second punching device drives the second cutter fixing plate to be far away from the second procedure lower die, namely, the second cutter leaves the second processing groove firstly, and then the second punching device can drive the second procedure upper die to be far away from the second procedure lower die due to the action of the limiting lug, so that the die opening is realized; at the moment, the second material returning cylinder drives the second material pushing rake and pushes the collecting pipe out of the second lower semicircular processing groove.

Referring to fig. 4-7, the third processing device 3 includes a third process mold 31, a third stamping device, a third material returning device, a third processing tool, a third manipulator 32, a material ejecting device, a core pulling cylinder 316, and a third core rod, where the third process mold 31 includes a third process upper mold 312 and a third process lower mold 311, a third upper semicircular processing groove is disposed at the bottom of the third process upper mold 312, a strip-shaped floating block 3111 is disposed on the third process lower mold 311, a third lower semicircular processing groove corresponding to the third upper semicircular processing groove is disposed on the surface of the floating block 3111, and the third upper semicircular processing groove and the third lower semicircular processing groove enclose a third processing groove for placing a collecting pipe; the third core rod comprises a third lower core rod 3110 placed in the third lower semicircular processing groove and a third upper core rod 319 fixed on the third process lower die 311 and located above the third lower core rod 3110, wherein the core pulling cylinder 316 is in driving connection with the third lower core rod 3110 and drives the third lower core rod 3110 to move along the third lower semicircular processing groove, so that the third lower core rod 3110 can enter or leave the third lower semicircular processing groove; the movable end of the material ejecting device is in driving connection with the floating block 3111, and the floating block 3111 is enabled to move in the vertical direction; the third machining tool comprises a third tool fixing plate 314 and a third stamping tool 313, and the third stamping tool 313 is fixedly arranged at the bottom of the third tool fixing plate 314; a third tool hole corresponding to the third stamping tool 313 and communicated with the third semicircular processing groove is formed in the surface of the third-procedure upper die 312, a plurality of third guide rods 318 are fixedly arranged on the surface of the third-procedure upper die 312, the third guide rods 318 extend in the vertical direction and penetrate through a third tool fixing plate 314, a limiting bump is also arranged at the tail end of each third guide rod 318 penetrating through the third tool fixing plate 314, and the third tool fixing plate 314 is movably connected with the third guide rods 318 and can move in the direction of the third guide rods 318; wherein the third stamping device is fixedly connected with a third tool fixing plate 314; the third material returning device comprises a third material returning cylinder 315 and a third material pushing rake 3101, wherein the third material returning cylinder 315 is arranged on one side of the third working procedure die 31, and the movable end of the third material returning cylinder 315 is fixedly connected with the third material pushing rake 3101.

The specific working process of the third processing device 3 is as follows:

the third manipulator 32 clamps and places the collecting pipe processed in the second procedure in a third lower semicircle processing groove of the lower die 311 in the third procedure, and ensures that the collecting pipe is sleeved in the third core rod; the third press device drives the third tool fixing plate 314 to approach the third step lower die 311, and first, the third step upper die 312 and the third step lower die 311 are closed (a third processing groove is enclosed, but press processing has not yet started); the third punching device continues to drive the third tool fixing plate 314 to move downwards along the direction of the third guide rod 318, so that the third punching tool 313 moves downwards, penetrates through the third tool hole and enters a third machining groove, and meanwhile, the collecting pipe in the third machining groove is punched and a flat pipe groove is machined; when the machining is completed, the third punching device drives the third tool fixing plate 314 to be away from the third process lower die 311, that is, the third tool leaves the third machining groove first, and as the third tool fixing plate 314 continues to rise, the third punching device drives the third process upper die 312 to be away from the third process lower die 311 due to the action of the limiting bump, so that the die opening is realized; because the internal diameter that processing flat tub can make the pressure manifold diminishes, then can not directly realize the material returned like first processingequipment 1 and second processingequipment 2, so first through the cylinder 316 of loosing core take out core pole 3110 under with the third and leave the pressure manifold, the third core pole only goes up core pole 319 and is located the pressure manifold (there is the vacancy this moment in the pressure manifold), then the liftout device shifts up whole slider 3111 drive, slider 3111 held the pressure manifold and shifts up this moment, the third material returned device removes and pushes out the realization material returned along the length direction of its pressure manifold and with the pressure manifold.

In summary, compared with the original mold structure, the mold structure of the present invention adopts the first processing device 1 for processing the positioning notch and the pipe inlet and outlet hole of the collecting pipe, the second processing device 2 for processing the baffle groove of the collecting pipe, and the third processing device 3 for processing the flat pipe groove of the collecting pipe; simultaneously cooperate first returned material device, the second returned material device, the third returned material device, first manipulator 12, second manipulator 22, third manipulator 32, the automated production of pressure manifold processing has been realized promptly, and in third process mould 31, change the disconnect-type core bar structure to the third core bar and utilize mould bottom liftout cylinder 317 to push up the superficial material piece and take off the material, can be in order to solve the prior art, need lead to the internal diameter to diminish the condition that leads to taking off the material difficulty owing to dash flat tub, thereby it can automatic drawing of patterns to make the totally closed product of cylindric appearance advance to return the material to increase automatic core bar and returned material device in order to realize the automated production mould, thereby realized the automatic online production mode of product.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (7)

1. A condenser manifold mould which characterized in that: the device comprises a first processing device, a second processing device and a third processing device, wherein the first processing device is used for processing a collecting pipe positioning notch and a pipe inlet and outlet hole, the second processing device is used for processing a collecting pipe partition plate groove, and the third processing device is used for processing a collecting pipe flat pipe groove;

the first processing device comprises a first mechanical arm, a first procedure die, a first stamping device arranged above the first procedure die and a first material returning device arranged on one side of the first procedure die, wherein the first procedure die is provided with a first processing groove for placing a collecting pipe, the collecting pipe is clamped to the first processing groove by the first mechanical arm, a first processing cutter for processing a positioning notch and a pipe inlet and outlet hole is arranged on the first stamping device, the first stamping device drives the first processing cutter to process the collecting pipe placed in the first processing groove, and the first material returning device moves along the direction of the first processing groove and pushes the collecting pipe out of the first processing groove to realize material returning; the second processing device comprises a second mechanical arm, a second procedure die, a second stamping device arranged above the second procedure die and a second material returning device arranged on one side of the second procedure die, the second procedure die is provided with a second processing groove for placing a collecting pipe, the collecting pipe is clamped to the second processing groove by the second mechanical arm, a second processing cutter for processing a partition plate groove is arranged on the second stamping device, the second stamping device drives the second processing cutter to process the collecting pipe placed in the second processing groove, and the second material returning device moves along the direction of the second processing groove and pushes the collecting pipe out of the second processing groove to realize material returning;

the third processing device comprises a third manipulator, a third procedure die, a third stamping device arranged above the third procedure die, a third material returning device arranged on one side of the third procedure die, a material ejecting cylinder arranged below the third procedure die and a core pulling cylinder arranged on one side of the third procedure die, wherein the third procedure die is provided with a third processing groove for placing the collecting pipe; the third process die is provided with a third core bar positioned in a third processing groove, the third manipulator clamps the collecting pipe to the third processing groove and enables the collecting pipe to be sleeved in the third core bar, a third processing cutter for processing the flat pipe groove is arranged on the third stamping device, the third stamping device drives the third processing cutter to process the collecting pipe placed in the third processing groove, the third core bar comprises a third lower core bar and a third upper core bar which is fixed on the third process die and positioned above the third lower core bar, and the core pulling cylinder is in driving connection with the third lower core bar and drives the third lower core bar to enter or leave the third processing groove; the movable end of the material ejection cylinder extends to the third machining groove and jacks up a collecting pipe placed in the third machining groove, and the third material returning device moves along the direction of the third machining groove and pushes the collecting pipe out of the third machining groove to return materials.

2. A condenser manifold mold as claimed in claim 1, wherein: the first working procedure die comprises a first working procedure upper die and a first working procedure lower die, wherein a first upper semicircular processing groove is formed in the bottom of the first working procedure upper die, a first lower semicircular processing groove is formed in the surface of the first working procedure lower die, and the first upper semicircular processing groove and the first lower semicircular processing groove form a first processing groove for placing the collecting pipe; the first machining tool comprises a first tool fixing plate and a first stamping tool, and the first stamping tool is fixedly arranged at the bottom of the first tool fixing plate; the surface of the first procedure upper die is provided with a first tool hole which corresponds to a first stamping tool and is communicated with the first upper semicircular processing groove, the surface of the first procedure upper die is fixedly provided with a plurality of first guide rods, the first guide rods extend along the vertical direction and penetrate through a first tool fixing plate, the tail ends of the first guide rods penetrating through the first tool fixing plate are provided with first limiting lugs, and the first tool fixing plate is movably connected with the first guide rods and can move along the direction of the first guide rods; the first stamping device is fixedly connected with the first tool fixing plate and drives the first tool fixing plate and the first procedure upper die to move in a direction close to or far away from the first procedure lower die.

3. A condenser manifold mold as claimed in claim 2, wherein: the first material returning device comprises a first material returning cylinder and a first material pushing rake, the first material returning cylinder is arranged on one side of the first procedure die, the movable end of the first material returning cylinder is fixedly connected with the first material pushing rake, the first material returning cylinder drives the first material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the first lower semicircular processing groove to achieve material returning.

4. A condenser manifold mold as claimed in claim 1, wherein: the second procedure die comprises a second procedure upper die and a second procedure lower die, a second upper semicircular processing groove is formed in the bottom of the second procedure upper die, a second lower semicircular processing groove is formed in the surface of the second procedure lower die, and the second upper semicircular processing groove and the second lower semicircular processing groove form a second processing groove for the collecting pipe to be placed in; the second machining cutter comprises a second cutter fixing plate and a second stamping cutter, and the second stamping cutter is fixedly arranged at the bottom of the second cutter fixing plate; the surface of the second procedure upper die is provided with a second tool hole which corresponds to a second stamping tool and is communicated with the second upper semicircular processing groove, the surface of the second procedure upper die is fixedly provided with a plurality of second guide rods, the second guide rods extend along the vertical direction and penetrate through a second tool fixing plate, the tail ends of the second guide rods penetrating through the second tool fixing plate are provided with second limiting lugs, and the second tool fixing plate is movably connected with the second guide rods and can move along the direction of the second guide rods; the second punching device is fixedly connected with the second cutter fixing plate and drives the second cutter fixing plate and the second procedure upper die to move in the direction close to or far away from the second procedure lower die.

5. The condenser manifold mold of claim 4, wherein: the second material returning device comprises a second material returning cylinder and a second material pushing rake, the second material returning cylinder is arranged on one side of the second process die, the movable end of the second material returning cylinder is fixedly connected with the second material pushing rake, the second material returning cylinder drives the second material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the second lower semicircular processing groove to realize material returning.

6. A condenser manifold mold as claimed in claim 1, wherein: the third working procedure die comprises a third working procedure upper die and a third working procedure lower die, wherein a third upper semicircular processing groove is formed in the bottom of the third working procedure upper die, a strip-shaped floating block is arranged on the third working procedure lower die, a third lower semicircular processing groove corresponding to the third upper semicircular processing groove is formed in the surface of the floating block, and the third upper semicircular processing groove and the third lower semicircular processing groove are encircled to form a third processing groove for placing the collecting pipe; the movable end of the material ejecting cylinder is connected with the floating block and used for ejecting the collecting pipe placed in the third machining groove; the third machining cutter comprises a third cutter fixing plate and a third stamping cutter, and the third stamping cutter is fixedly arranged at the bottom of the third cutter fixing plate; a third tool hole which corresponds to a third stamping tool and is communicated with a third semicircular processing groove is formed in the surface of the upper die in the third procedure, a plurality of third guide rods are fixedly arranged on the surface of the upper die in the third procedure, the third guide rods extend in the vertical direction and penetrate through a third tool fixing plate, third limiting lugs are arranged at the tail ends of the third guide rods, which penetrate through the third tool fixing plate, and the third tool fixing plate is movably connected with the third guide rods and can move in the direction of the third guide rods; and the third punching device is fixedly connected with the third cutter fixing plate and drives the third cutter fixing plate and the third procedure upper die to move along the direction close to or far away from the third procedure lower die.

7. The condenser manifold mold of claim 6, wherein: the third material returning device comprises a third material returning cylinder and a third material pushing rake, the third material returning cylinder is arranged on one side of the third process die, the movable end of the third material returning cylinder is fixedly connected with the third material pushing rake, the third material returning cylinder drives the third material pushing rake to move along the length direction of the collecting pipe, and the collecting pipe is pushed out of the third lower semicircular processing groove to realize material returning.

Images