CN216828522U - Mould is used in production of support arm about sunroof part - Google Patents

Abstract

The utility model discloses a mould is used in production of support arm about sunroof part, including die holder, lower mould, upper die base and last mould, be provided with the S-shaped runner of bending repeatedly in the lower mould, and the S-shaped runner includes liquid supply port and leakage fluid dram, the last lateral wall of die holder is provided with the confession liquid mechanism that is used for carrying out the liquid supply in the S-shaped runner. This kind of mould is used in support arm production about sunroof part, through set up the S-shaped runner of bending repeatedly in the bed die, after the casting is accomplished, utilize the removal of last mould, make the automatic S-shaped runner that gets into of coolant liquid in the liquid reserve tank, sunroof part after the casting is accomplished cools off fast, guarantee its refrigerated efficiency and effect, thereby improve the production efficiency of support arm about sunroof part, it is more convenient to use, energy-conservation, and, can be in the casting process, the removal of mould is gone up in the utilization, with the automatic discharge of coolant liquid in the S-shaped runner, guarantee the quality of casting.

Description

Mould is used in production of support arm about sunroof part

Technical Field

The utility model relates to the technical field of mold, especially, relate to a mould is used in support arm production about sunroof part.

Background

The left and right supporting arms of the automobile skylight component are important components of the skylight component and are used for controlling the running track of the skylight, the skylight is ensured to run synchronously without abnormal sound, and the left and right supporting arms need to be cast by using a mold during production.

However, when the existing mold for producing the left and right supporting arms is used, the cooling speed is slow after casting is finished, and the production efficiency is affected.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model adopts the following technical scheme: a mold for producing left and right support arms of an automobile skylight component comprises a lower mold base, a lower mold, an upper mold base and an upper mold, wherein an S-shaped flow passage which is bent repeatedly is arranged in the lower mold, the S-shaped flow passage comprises a liquid supply port and a liquid discharge port, a liquid supply mechanism for supplying liquid into the S-shaped flow passage is arranged on the upper side wall of the lower mold base, and a liquid discharge mechanism for discharging liquid into the S-shaped flow passage is arranged on the upper side wall of the lower mold base;

the feed mechanism includes the first backup pad of fixed connection lateral wall on the die holder, and the first connecting plate of lateral wall fixedly connected with of first backup pad, the first working pipe of lateral wall fixedly connected with of first connecting plate, and the bottom fixedly connected with feed liquor pipe of first working pipe, the lateral wall fixedly connected with liquid reserve tank of die holder, and the other end of feed liquor pipe is fixed with the lateral wall of liquid reserve tank, the intraductal first check valve that is provided with of feed liquor, and the lateral wall fixedly connected with feed pipe of second working pipe, the other end and the feed liquid mouth of feed pipe are fixed, and are provided with the second check valve in the feed pipe, sliding connection has first piston in the first working pipe, and the lateral wall of first backup pad is provided with and is used for promoting first pushing mechanism that first piston carries out the removal.

Preferably, the drainage mechanism includes the second backup pad of fixed connection lateral wall on the die holder, and the lateral wall fixedly connected with second connecting plate of second backup pad, the lateral wall fixedly connected with second work tube of second connecting plate, and the bottom fixedly connected with drain pipe of second work tube, the other end of drain pipe is fixed with the lateral wall of liquid reserve tank, and is provided with the third check valve in the drain pipe, the lateral wall fixedly connected with fluid-discharge tube of second work tube, and the other end of fluid-discharge tube is fixed with the leakage fluid dram, be provided with the fourth check valve in the fluid-discharge tube, sliding connection has the second piston in the second work tube, and the lateral wall of second backup pad is provided with the second pushing mechanism who is used for promoting the second piston to carry out the removal.

Preferably, first pushing mechanism includes and rotates the first rotary disk of connection on first backup pad lateral wall through first pivot, and the first lug that a plurality of arrays of lateral wall fixedly connected with of first rotary disk set up, the first slide bar of the last lateral wall fixedly connected with of first piston, the lateral wall cover of first slide bar is equipped with first spring, and the upper end of first slide bar runs through the top of first working tube and slides at the lateral wall of first lug, the rotation of first pivot drives through first actuating mechanism.

Preferably, the first driving mechanism comprises a first fixing plate fixedly connected to the top of the upper die base, a first mounting plate fixedly connected to the lower side wall of the first fixing plate, a first strip-shaped opening is formed in the side wall of the first mounting plate, a first sliding plate is connected to the first strip-shaped opening through a telescopic assembly, a first fixing block arranged in a plurality of arrays is fixedly connected to the side wall of the first sliding plate, the first fixing block comprises a first limiting face and a first inclined face, a second rotating disc is fixedly connected to the other end of the first rotating shaft, and a first convex strip arranged in a plurality of arrays is fixedly connected to the side wall of the second rotating disc.

Preferably, the second pushing mechanism comprises a third rotating disc connected to the side wall of the second supporting plate in a rotating mode through a second rotating shaft, a second protruding block is fixedly connected to the side wall of the third rotating disc and provided with a plurality of arrays, a second sliding rod is fixedly connected to the upper side wall of the second piston, a second spring is sleeved on the side wall of the second sliding rod, the upper end of the second sliding rod penetrates through the top end of the second working pipe and slides on the side wall of the second protruding block, and the second rotating shaft is driven through a second driving mechanism.

Preferably, the second driving mechanism comprises a second fixed plate fixedly connected to the top of the upper die base, a second fixed plate fixedly connected to the lower side wall of the second fixed plate, a second strip-shaped opening is formed in the side wall of the second fixed plate, a second sliding plate is connected to the second strip-shaped opening through a telescopic assembly, a second fixed block arranged in a plurality of arrays is fixedly connected to the side wall of the second sliding plate, the second fixed block comprises a second limiting face and a second inclined face, a fourth rotating disc is fixedly connected to the other end of the second rotating shaft, and second raised bars arranged in a plurality of arrays are fixedly connected to the side wall of the fourth rotating disc.

Preferably, the telescopic assembly comprises a sleeve, a sleeve rod is inserted into the sleeve, and a third spring is sleeved on the side wall of the sleeve.

The utility model provides a beneficial effect that technical scheme brought is:

1. the utility model discloses a mould is used in production of sunroof part left and right sides support arm, through setting up flowing back mechanism etc. when casting, the mould moves down, make mould and lower mould carry out the casting shaping after laminating, meanwhile, when the mould moves down, drive first mounting panel and second mounting panel and move down in step, first sand grip slides on first inclined plane, at this moment, the second rolling disc does not rotate, and, make the second spacing face offset with the second sand grip, thereby make the fourth rolling disc rotate, the rotation of fourth rolling disc drives the rotation of second pivot and third rolling disc, when the second lug offsets with the upper end of second slide bar, promote second slide bar and second piston to move down, simultaneously, the second slide bar slides on the lateral wall of second lug, the second spring is stretched, and, when the second lug crosses the second slide bar, under the action of a second spring, the second sliding rod and the second piston move upwards to reset, so that the second piston slides in a second working pipe in a reciprocating mode, when the second piston moves upwards, negative pressure is generated in the second working pipe, meanwhile, a fourth one-way valve is opened, a third one-way valve is closed, at the moment, cooling liquid in the S-shaped flow channel is sucked into the second working pipe through a liquid discharge pipe, when the second piston moves downwards, the cooling liquid in the second working pipe is extruded, meanwhile, the fourth one-way valve is closed, the third one-way valve is opened, at the moment, the cooling liquid in the second working pipe enters a liquid storage tank through a liquid discharge pipe after being extruded, and the cooling liquid in the S-shaped flow channel can be automatically discharged through the movement of an upper die in the casting process, so that the casting quality is guaranteed;

2. the utility model discloses a mould is used in production of sunroof part left and right sides support arm, through setting up liquid supply mechanism etc. after the casting is accomplished, go up the mould and move upward with the lower mould separation, meanwhile, when last mould moved upward, drive first mounting panel and second mounting panel synchronous upward movement, the second sand grip slides on the second inclined plane, at this moment, the fourth rolling disc does not rotate, and, make first spacing face offset with first sand grip, thereby make the second rolling disc rotate, the same with drainage mechanism principle, when the second rolling disc rotates, can feed the coolant liquid in the liquid storage tank into S-shaped runner, make after the casting is accomplished, utilize the removal of last mould, make the coolant liquid in the liquid storage tank automatically enter into S-shaped runner, carry out quick cooling to sunroof part after the casting is accomplished, guarantee its refrigerated efficiency and effect, thereby improve the production efficiency of sunroof part left and right sides support arm, moreover, the use is more convenient and energy-saving.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

FIG. 3 is a schematic view of the internal structure of the first working pipe of the present invention;

FIG. 4 is a schematic view of the internal structure of the second working tube of the present invention;

FIG. 5 is a schematic cross-sectional view of the middle and lower dies of the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 7 is an enlarged schematic view of the structure at B in FIG. 3;

FIG. 8 is an enlarged schematic view of the structure at C in FIG. 4;

fig. 9 is an enlarged schematic view of the structure at D in fig. 4.

In the figure: 101. a lower die holder; 102. a lower die; 103. an upper die holder; 104. an upper die; 201. a first support plate; 202. a first connecting plate; 203. a first working pipe; 204. a liquid supply tube; 205. a liquid inlet pipe; 206. a liquid storage tank; 207. a first piston; 301. a second support plate; 302. a second connecting plate; 303. a second working pipe; 304. a liquid discharge pipe; 305. a liquid outlet pipe; 306. a second piston; 401. a first rotating shaft; 402. a first rotating disk; 403. a first bump; 404. a first slide bar; 405. a first spring; 501. a first fixing plate; 502. a first mounting plate; 503. a first bar-shaped opening; 504. a first sliding plate; 505. a first fixed block; 506. a first limiting surface; 507. a first inclined plane; 508. a second rotating disk; 509. a first rib; 601. a second rotating shaft; 602. a third rotating disk; 603. a second bump; 604. a second slide bar; 605. a second spring; 701. a second fixing plate; 702. a second mounting plate; 703. a second strip-shaped opening; 704. a second sliding plate; 705. a second fixed block; 706. a second limiting surface; 707. a second inclined plane; 708. a fourth rotating disk; 709. a second convex strip; 801. a sleeve; 802. a loop bar; 803. a third spring; 9. an S-shaped flow channel; 901. a liquid supply port; 902. and a liquid outlet.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

In the following description, for clarity and conciseness of description, not all of the various components shown in the figures are described. The various components shown in the figures provide those skilled in the art with a fully enabled disclosure of the invention. The operation of many of the components is familiar and obvious to those skilled in the art.

The embodiment is as follows:

as shown in fig. 1 to 9, the embodiment provides a mold for producing a left and right support arm of an automobile skylight component, which includes a lower mold base 101, a lower mold 102, an upper mold base 103 and an upper mold 104, wherein a repeatedly curved S-shaped flow channel 9 is disposed in the lower mold 102, the S-shaped flow channel 9 includes a liquid supply port 901 and a liquid discharge port 902, a liquid supply mechanism for supplying liquid into the S-shaped flow channel 9 is disposed on an upper side wall of the lower mold base 101, a liquid discharge mechanism for discharging liquid into the S-shaped flow channel 9 is disposed on an upper side wall of the lower mold base 101, by disposing the repeatedly curved S-shaped flow channel 9 in the lower mold 102, after casting is completed, by using movement of the upper mold 104, cooling liquid in the liquid storage tank 206 automatically enters the S-shaped flow channel 9, the automobile skylight component after casting is rapidly cooled, so as to ensure cooling efficiency and effect thereof, thereby improving production efficiency of the left and right support arm of the automobile skylight component, the use is more convenient and energy-saving, and the cooling liquid in the S-shaped flow passage 9 can be automatically discharged by the movement of the upper die 104 in the casting process, so that the casting quality is ensured;

the liquid supply mechanism includes a first support plate 201 fixedly connected to the upper side wall of the lower die holder 101, and a first support plate 202 fixedly connected to the side wall of the first support plate 201, a first working tube 203 fixedly connected to the side wall of the first support plate 202, and a liquid inlet tube 205 fixedly connected to the bottom of the first working tube 203, a liquid storage tank 206 fixedly connected to the side wall of the lower die holder 101, and the other end of the liquid inlet tube 205 is fixed to the side wall of the liquid storage tank 206, a first check valve is arranged in the liquid inlet tube 205, the conduction direction of the first check valve is from the liquid storage tank 206 to the first working tube 203, and a liquid supply tube 204 fixedly connected to the side wall of the second working tube 303, the other end of the liquid supply tube 204 is fixed to the liquid supply port 901, and a second check valve is arranged in the liquid supply tube 204, the conduction direction of the second check valve is from the first working tube 203 to the S-shaped flow passage 9, a first piston 207 is slidably connected to the first working tube 203, and a first pushing mechanism 201 for pushing the first piston 207 to move is arranged on the side wall of the first support plate 201 After the casting is finished, the cooling liquid in the liquid storage tank 206 automatically enters the S-shaped flow channel 9 by utilizing the movement of the upper die 104, the automobile skylight component after the casting is finished is rapidly cooled, the cooling efficiency and the cooling effect are ensured, the production efficiency of the left and right supporting arms of the automobile skylight component is improved, and the automobile skylight component is more convenient and energy-saving to use.

Preferably, the liquid discharge mechanism comprises a second support plate 301 fixedly connected to the upper side wall of the lower die holder 101, the side wall of the second support plate 301 is fixedly connected with a second connecting plate 302, the side wall of the second connecting plate 302 is fixedly connected with a second working tube 303, the bottom of the second working tube 303 is fixedly connected with a liquid outlet tube 305, the other end of the liquid outlet tube 305 is fixed with the side wall of the liquid storage tank 206, a third check valve is arranged in the liquid outlet tube 305, the conduction direction of the third check valve is from the second working tube 303 to the liquid storage tank 206, the side wall of the second working tube 303 is fixedly connected with a liquid discharge tube 304, the other end of the liquid discharge tube 304 is fixed with a liquid discharge port 902, a fourth check valve is arranged in the liquid discharge tube 304, the conduction direction of the fourth check valve is from the S-shaped flow passage 9 to the liquid storage tank 206, a second piston 306 is slidably connected with the second working tube 303, and a second pushing mechanism for pushing the second piston 306 to move is arranged on the side wall of the second support plate 301, the cooling liquid in the S-shaped flow passage 9 can be automatically discharged by the movement of the upper die 104 in the casting process, and the casting quality is ensured.

Preferably, the first pushing mechanism includes a first rotating disk 402 rotatably connected to the side wall of the first support plate 201 by a first rotating shaft 401, the side wall of the first rotating disk 402 is fixedly connected with a plurality of first protrusions 403 arranged in an array, the upper side wall of the first piston 207 is fixedly connected with a first sliding rod 404, the side wall of the first sliding rod 404 is sleeved with a first spring 405, the upper end of the first sliding rod 404 penetrates through the top end of the first working tube 203 and slides on the side wall of the first protrusion 403, the side wall of the first protrusion 403 is provided with a rounded corner, the rotation of the first rotating shaft 401 is driven by a first driving mechanism, the rotation of the first rotating disk 402, when the first protrusion abuts against the upper end of the first sliding rod 404, the first sliding rod 404 drives the first piston 207 to move downwards, and at the same time, the first spring 405 is stretched, when the first protrusion 403 passes over the first sliding rod 404, the first sliding rod 404 and the first piston 207 are under the action of the first spring 405, the upward movement is reset, thereby achieving the reciprocating movement of the first piston 207.

Preferably, the first driving mechanism includes a first fixing plate 501 fixedly connected to the top of the upper die holder 103, a first mounting plate 502 is fixedly connected to the lower sidewall of the first fixing plate 501, a first strip-shaped opening 503 is formed in the sidewall of the first mounting plate 502, a first sliding plate 504 is connected to the first strip-shaped opening 503 through a telescopic assembly, a plurality of first fixing blocks 505 arranged in an array are fixedly connected to the sidewall of the first sliding plate 504, the first fixing blocks 505 include a first limiting surface 506 and a first inclined surface 507, a second rotating disc 508 is fixedly connected to the other end of the first rotating shaft 401, a plurality of first protruding strips 509 arranged in an array are fixedly connected to the sidewall of the second rotating disc 508, when casting, the upper die 104 moves downward, so that the upper die 104 and the lower die 102 are attached to form the casting, and at the same time, when the upper die 104 moves downward, the first mounting plate 502 and the second mounting plate 702 are driven to move downward synchronously, the first protrusion 509 slides on the first slope 507, and at this time, the second rotary disk 508 does not rotate, and after the casting is completed, the upper die 104 moves upward to be separated from the lower die 102, and at the same time, when the upper die 104 moves upward, the first stopper surface 506 abuts against the first protrusion 509, so that the second rotary disk 508 rotates.

Preferably, the second pushing mechanism includes a third rotating disc 602 rotatably connected to the side wall of the second supporting plate 301 through a second rotating shaft 601, and the side wall of the third rotating disc 602 is fixedly connected with a plurality of second protrusions 603 arranged in an array, the upper side wall of the second piston 306 is fixedly connected with a second sliding rod 604, the side wall of the second sliding rod 604 is sleeved with a second spring 605, and the upper end of the second sliding rod 604 penetrates through the top end of the second working tube 303 and slides on the side wall of the second protrusion 603, the side wall of the second protrusion 603 is provided with a round corner, the rotation of the second rotating shaft 601 is driven by the second driving mechanism, the rotation of the fourth rotating disc 708 drives the second rotating shaft 601 and the third rotating disc 602 to rotate, when the second protrusion 603 abuts against the upper end of the second sliding rod 604, the second sliding rod 604 and the second piston 306 are pushed to move downwards, and at the same time, the second sliding rod 604 slides on the side wall of the second protrusion 603, the second spring 605 is stretched, and when the second projection 603 passes over the second sliding rod 604, the second sliding rod 604 and the second piston 306 are moved upward and returned by the second spring 605, so that the second piston 306 slides back and forth in the second working tube 303.

Preferably, the second driving mechanism includes a second fixing plate 701 fixedly connected to the top of the upper die base 103, a second mounting plate 702 is fixedly connected to the lower sidewall of the second fixing plate 701, a second strip-shaped opening 703 is formed in the sidewall of the second mounting plate 702, a second sliding plate 704 is connected to the second strip-shaped opening 703 through a telescopic assembly, a plurality of second fixing blocks 705 arranged in an array are fixedly connected to the sidewall of the second sliding plate 704, the second fixing blocks 705 include a second limiting surface 706 and a second inclined surface 707, a fourth rotating disc 708 is fixedly connected to the other end of the second rotating shaft 601, a plurality of second protruding strips 709 arranged in an array are fixedly connected to the sidewall of the fourth rotating disc 708, when casting is performed, the upper die 104 moves downward, so that the upper die 104 and the lower die 102 are attached to perform casting molding, and at the same time, when the upper die 104 moves downward, the first mounting plate 502 and the second mounting plate 702 are driven to move downward synchronously, the second limiting surface 706 abuts against the second protruding strip 709, so that the fourth rotating disc 708 rotates, the rotation of the fourth rotating disc 708 drives the second rotating shaft 601 and the third rotating disc 602 to rotate, after the casting is completed, the upper die 104 moves upwards to separate from the lower die 102, meanwhile, when the upper die 104 moves upwards, the first mounting plate 502 and the second mounting plate 702 are driven to move upwards synchronously, the second protruding strip 709 slides on the second inclined surface 707, and at this time, the fourth rotating disc 708 does not rotate.

Preferably, the telescopic assembly comprises a sleeve 801, a sleeve rod 802 is inserted into the sleeve 801, and a third spring 803 is sleeved on the side wall of the sleeve 801 to play a role in guiding and resetting.

The working principle is as follows: in use, firstly, during casting, the upper die 104 moves downwards to make the upper die 104 and the lower die 102 fit together for casting, meanwhile, when the upper die 104 moves downwards, the first mounting plate 502 and the second mounting plate 702 are driven to move downwards synchronously, the first convex strip 509 slides on the first inclined surface 507, at this time, the second rotary disc 508 does not rotate, and the second limit surface 706 abuts against the second convex strip 709, so that the fourth rotary disc 708 rotates, the rotation of the fourth rotary disc 708 drives the rotation of the second rotary shaft 601 and the third rotary disc 602, when the second convex block 603 abuts against the upper end of the second sliding rod 604, the second sliding rod 604 and the second piston 306 are pushed to move downwards, meanwhile, the second sliding rod 604 slides on the side wall of the second convex block 603, the second spring 605 is stretched, and when the second convex block 603 goes over the second sliding rod 604, under the action of the second spring 605, the second sliding rod 604 and the second piston 306 move upwards and return to the original position, so that the second piston 306 slides back and forth in the second working tube 303, when the second piston 306 moves upwards, negative pressure is generated in the second working tube 303, meanwhile, the fourth check valve is opened, the third check valve is closed, at this time, the cooling liquid in the S-shaped flow channel 9 is sucked into the second working tube 303 through the liquid discharge pipe 304, when the second piston 306 moves downwards, the cooling liquid in the second working tube 303 is squeezed, at the same time, the fourth check valve is closed, the third check valve is opened, at this time, the cooling liquid in the second working tube 303 enters the liquid storage tank 206 through the liquid discharge pipe 305 after being squeezed, and the cooling liquid in the S-shaped flow channel 9 can be automatically discharged by the movement of the upper die 104 in the casting process, so that the casting quality is ensured;

after casting, the upper die 104 moves upward to separate from the lower die 102, meanwhile, when the upper die 104 moves upward, the first mounting plate 502 and the second mounting plate 702 are driven to move upward synchronously, the second raised strip 709 slides on the second inclined surface 707, at this time, the fourth rotary disc 708 does not rotate, and the first limit surface 506 abuts against the first raised strip 509, so that the second rotary disc 508 rotates, as with the principle of a liquid discharge mechanism, when the second rotary disc 508 rotates, the cooling liquid in the liquid storage tank 206 can be supplied into the S-shaped flow channel 9, so that after casting, the cooling liquid in the liquid storage tank 206 can automatically enter the S-shaped flow channel 9 by using the movement of the upper die 104, the cast sunroof component can be rapidly cooled, the cooling efficiency and effect can be ensured, and the production efficiency of the left and right support arms of the sunroof component can be improved, moreover, the use is more convenient and energy-saving.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The mold for producing the left and right supporting arms of the automobile skylight component comprises a lower mold base (101), a lower mold (102), an upper mold base (103) and an upper mold (104), and is characterized in that an S-shaped flow channel (9) which is bent repeatedly is arranged in the lower mold (102), the S-shaped flow channel (9) comprises a liquid supply port (901) and a liquid discharge port (902), a liquid supply mechanism for supplying liquid into the S-shaped flow channel (9) is arranged on the upper side wall of the lower mold base (101), and a liquid discharge mechanism for discharging liquid into the S-shaped flow channel (9) is arranged on the upper side wall of the lower mold base (101);

the liquid supply mechanism comprises a first supporting plate (201) fixedly connected to the upper side wall of the lower die holder (101), the side wall of the first supporting plate (201) is fixedly connected with a first connecting plate (202), the side wall of the first connecting plate (202) is fixedly connected with a first working pipe (203), the bottom of the first working pipe (203) is fixedly connected with a liquid inlet pipe (205), the side wall of the lower die holder (101) is fixedly connected with a liquid storage tank (206), the other end of the liquid inlet pipe (205) is fixed with the side wall of the liquid storage tank (206), a first one-way valve is arranged in the liquid inlet pipe (205), the side wall of a second working pipe (303) is fixedly connected with a liquid supply pipe (204), the other end of the liquid supply pipe (204) is fixed with a liquid supply port (901), a second one-way valve is arranged in the liquid supply pipe (204), a first piston (207) is slidably connected in the first working pipe (203), and the side wall of the first supporting plate (201) is provided with a first pushing mechanism for pushing the first piston (207) to move.

2. The mold for producing the left and right support arms of the sunroof part according to claim 1, wherein: the liquid discharge mechanism comprises a second supporting plate (301) fixedly connected with the upper side wall of the lower die holder (101), the side wall of the second supporting plate (301) is fixedly connected with a second connecting plate (302), the side wall of the second connecting plate (302) is fixedly connected with a second working pipe (303), the bottom of the second working pipe (303) is fixedly connected with a liquid outlet pipe (305), the other end of the liquid outlet pipe (305) is fixed with the side wall of the liquid storage tank (206), a third one-way valve is arranged in the liquid outlet pipe (305), the side wall of the second working pipe (303) is fixedly connected with a liquid discharge pipe (304), the other end of the liquid discharge pipe (304) is fixed with a liquid discharge port (902), a fourth one-way valve is arranged in the liquid discharge pipe (304), a second piston (306) is connected in the second working pipe (303) in a sliding way, and the side wall of the second supporting plate (301) is provided with a second pushing mechanism for pushing the second piston (306) to move.

3. The mold for producing the left and right support arms of the sunroof part according to claim 1, wherein: first pushing mechanism includes rotates first rotary disk (402) of connection on first backup pad (201) lateral wall through first pivot (401), and first lug (403) that a plurality of arrays of lateral wall fixedly connected with of first rotary disk (402) set up, the first slide bar (404) of the last lateral wall fixedly connected with of first piston (207), the lateral wall cover of first slide bar (404) is equipped with first spring (405), and the upper end of first slide bar (404) runs through the top of first work tube (203) and slides at the lateral wall of first lug (403), the rotation of first pivot (401) drives through a actuating mechanism.

4. The mold for producing the left and right support arms of the sunroof part according to claim 3, wherein: the first driving mechanism comprises a first fixing plate (501) fixedly connected to the top of the upper die holder (103), a first mounting plate (502) fixedly connected to the lower side wall of the first fixing plate (501), a first strip-shaped opening (503) is formed in the side wall of the first mounting plate (502), a first sliding plate (504) is connected to the first strip-shaped opening (503) through a telescopic assembly, a first fixing block (505) arranged in a plurality of arrays is fixedly connected to the side wall of the first sliding plate (504), the first fixing block (505) comprises a first limiting face (506) and a first inclined face (507), a second rotating disc (508) is fixedly connected to the other end of the first rotating shaft (401), and a first protruding strip (509) arranged in a plurality of arrays is fixedly connected to the side wall of the second rotating disc (508).

5. The mold for producing the left and right support arms of the sunroof part according to claim 2, wherein: the second pushing mechanism comprises a third rotating disc (602) which is rotatably connected to the side wall of the second supporting plate (301) through a second rotating shaft (601), a plurality of second protruding blocks (603) which are arranged in an array are fixedly connected to the side wall of the third rotating disc (602), a second sliding rod (604) is fixedly connected to the upper side wall of the second piston (306), a second spring (605) is sleeved on the side wall of the second sliding rod (604), the upper end of the second sliding rod (604) penetrates through the top end of the second working tube (303) and slides on the side wall of the second protruding block (603), and the second rotating shaft (601) is driven through a second driving mechanism.

6. The mold for producing the left and right support arms of the sunroof part according to claim 5, wherein: the second driving mechanism comprises a second fixing plate (701) fixedly connected to the top of the upper die holder (103), a second mounting plate (702) is fixedly connected to the lower side wall of the second fixing plate (701), a second strip-shaped opening (703) is formed in the side wall of the second mounting plate (702), a second sliding plate (704) is connected to the interior of the second strip-shaped opening (703) through a telescopic assembly, a second fixing block (705) which is fixedly connected to the side wall of the second sliding plate (704) and provided with a plurality of arrays is connected to the side wall of the second sliding plate, the second fixing block (705) comprises a second limiting face (706) and a second inclined face (707), a fourth rotating disc (708) is fixedly connected to the other end of the second rotating shaft (601), and a second protruding strip (709) which is fixedly connected to the side wall of the fourth rotating disc (708) and provided with a plurality of arrays is connected to the side wall of the fourth rotating disc (708).

7. The mold for producing the left and right support arms of the sunroof part according to claim 6, wherein: the telescopic assembly comprises a sleeve (801), a sleeve rod (802) is inserted into the sleeve (801), and a third spring (803) is sleeved on the side wall of the sleeve (801).

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