CN210501245U - Pitched roof module and automobile bumper mould - Google Patents

Abstract

The utility model provides a push up module and car bumper mould to one side, wherein push up the module to one side and include bottom plate, base plate, big kicking block, a plurality of guide pin bushing and a plurality of oblique top link rod, the cover is equipped with at least one guide pin bushing on the oblique top link rod. The utility model discloses technical scheme passes through this and sets up the pentroof subassembly between bottom plate and base plate, and adopt a plurality of pentroof link rods, the first end of pentroof link rod runs through the base plate and is connected with big kicking block, the second end of pentroof link rod is connected with the bottom plate, the cover is equipped with at least one guide pin bushing on the pentroof link rod, when the bottom plate during towards the base plate upward movement, the pentroof link rod is along the guide pin bushing with big kicking block jack-up, the slide channel of guide pin bushing conduct pentroof link rod, prevent pentroof link rod and base plate direct contact, prevent to prop up the in-process atress rupture of big kicking block. The utility model also provides an automobile bumper mould carries out the die sinking operation through pushing up the module to one side.

Description

Pitched roof module and automobile bumper mould

Technical Field

The utility model relates to a mould equipment technical field, in particular to push up module and car bumper mould to one side.

Background

The front end and the rear end of the automobile are provided with bumpers which not only have the decoration function, but also are more important to be safety devices which absorb and buffer the external impact force and protect the automobile body and passengers. Therefore, the required injection mold structure is different according to different shapes of the automobile bumper, and the requirements of people on the appearance of automobile products are higher and higher. Among them, the weight of a mold for producing an injection molded bumper for an automobile is several hundred kilograms, and several tens kilograms are available even for a small part, and therefore, a supporting mechanism and an ejection mechanism are required to open and support the several hundred kilograms of molds during the demolding process. However, the conventional supporting mechanism and/or ejecting mechanism has a single structure, and is easily broken when the mold and the supporting mold are ejected, thereby causing an injection accident.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a push up module and car bumper mould to one side, aim at solving traditional supporting mechanism and/or ejection mechanism single structure, when ejecting mould and supporting die utensil, break easily, cause the technical problem of the accident of moulding plastics.

In order to achieve the above object, the utility model provides a set up module to one side, including bottom plate, base plate, big kicking block and push up the subassembly to one side, the base plate set up in on the bottom plate and the interval sets up, big kicking block set up in on the base plate, the subassembly that pushes up to one side includes:

a plurality of guide sleeves;

the first ends of the pitched roof link rods penetrate through the substrate and are connected with the large roof block, the second ends of the pitched roof link rods are connected with the bottom plate, and at least one guide sleeve is sleeved on each pitched roof link rod;

when the bottom plate moves towards the base plate, the inclined ejector connecting rod ejects the large ejector block along the guide sleeve.

Preferably, the inclined top link is provided with two guide sleeves, and at least one guide sleeve is fixed with the large top block.

Preferably, a guide groove is formed in a side of the base plate facing the bottom plate, and the lifter assembly further includes:

the guide block is arranged in the guide groove in a sliding mode, the pitched roof connecting rod penetrates through the guide block and the base plate and is connected to the large roof block, at least one guide sleeve is arranged at the joint between the first end of the pitched roof connecting rod and the guide block, and the second end of the pitched roof connecting rod is hinged to the base plate relatively.

Preferably, the pitched roof link rod and the movement direction of the substrate are arranged in an included angle, and the inclined angle of each pitched roof link rod is the same and the inclined directions are consistent.

Preferably, the pentroof module further comprises:

the upper ejector plate is arranged on the bottom plate and positioned between the base plate and the bottom plate, and a sliding groove is formed in the upper ejector plate;

the sliding block is arranged in the sliding groove in a sliding manner, the second end of the pitched roof connecting rod is hinged on the sliding block,

when the upper ejector plate moves relative to the base plate, the guide block moves upwards, the second end of the pitched roof link rod drives the sliding block to move relatively, and the first end of the pitched roof link rod jacks up the large ejector block along the guide sleeve.

Preferably, the pentroof module further comprises:

lower thimble board, lower thimble board set up in on the bottom plate and be located go up the thimble board with between the bottom plate, the oblique top subassembly still includes:

and the two ends of the supporting heads are respectively arranged on the sliding block and the lower ejector plate.

Preferably, the pentroof module further comprises:

the auxiliary rod penetrates through the upper ejector plate and the sliding block, the auxiliary rod is arranged in an inclined mode, the inclined angle of the auxiliary rod is the same as that of the inclined ejector connecting rod, the inclined direction of the auxiliary rod is consistent, and two ends of the auxiliary rod are hinged to the lower ejector plate and the guide block respectively.

Preferably, the included angle between the inclined top connecting rod and the displacement direction of the bottom plate is 3-20 degrees.

Preferably, the surface roughness of the guide block and the roughness of the groove wall of the guide groove are ± 0.01 mm.

The utility model also provides an automobile bumper mould, which comprises any one of the inclined top module and the inclined top module,

a plurality of square irons;

the square irons are arranged between the bottom plate and the base plate and used for fixing the base plate on the bottom plate.

The utility model discloses technical scheme passes through this and sets up the pentroof subassembly between bottom plate and base plate, and adopt a plurality of pentroof link rods, the first end of pentroof link rod runs through the base plate and is connected with big kicking block, the second end of pentroof link rod is connected with the bottom plate, the cover is equipped with at least one guide pin bushing on the pentroof link rod, when the bottom plate during towards the base plate upward movement, the pentroof link rod is along the guide pin bushing with big kicking block jack-up, the slide channel of guide pin bushing conduct pentroof link rod, prevent pentroof link rod and base plate direct contact, prevent to prop up the in-process atress rupture of big kicking block.

Drawings

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

Fig. 1 is a schematic structural view of an embodiment of a lifter module according to the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

fig. 4 is a schematic view of an internal structure of an embodiment of the lifter module according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at N;

FIG. 6 is an enlarged view of a portion of FIG. 4 at M;

FIG. 7 is an enlarged view of a portion of FIG. 4 at K;

fig. 8 is a schematic view of the internal structure of another embodiment of the angle lifter module of the present invention;

fig. 9 is a schematic view of an internal structure of another embodiment of the angle lifter module of the present invention;

fig. 10 is a schematic structural view of a lifter assembly according to an embodiment of the lifter module of the present invention;

fig. 11 is an exploded schematic view of a lifter assembly according to an embodiment of the lifter module of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Base plate	20	Substrate
30	Large top block	40	Pitched roof assembly
				41	Guide sleeve	42	Pitched roof connecting rod
43	Guide block	44	Sliding block
				45	Support head	46	Auxiliary rod
50	Upper thimble plate	60	Lower ejector plate
				70	Square iron	A	Guide groove
B	Sliding chute

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely 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 belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a push up module to one side.

As shown in fig. 1 to 11, an inclined top module includes a bottom plate 10, a substrate 20, a large top block 30 and an inclined top assembly 40, wherein the substrate 20 is disposed on the bottom plate 10 and spaced apart from the substrate, the large top block 30 is disposed on the substrate 20, and the inclined top assembly 40 includes: a plurality of guide sleeves 41; a plurality of pitched roof link rods 42, wherein the first ends of the pitched roof link rods 42 penetrate through the base plate 20 and are connected with the large roof block 30, the second ends of the pitched roof link rods 42 are connected with the bottom plate 10, and at least one guide sleeve 41 is sleeved on the pitched roof link rods 42; when the bottom plate 10 moves towards the base plate 20, the pitched roof link 42 jacks up the large roof block 30 along the guide sleeve 41.

As is well known, the structure of an automobile bumper is complex, besides a multi-curved-surface structure, some buckle structures used for clamping or buckling the bumper on an automobile are arranged, therefore, a mold for injection molding of the automobile bumper needs a plurality of parts to be spliced, besides the characteristic of complex structure, the weight of each part is also heavier, wherein the weight of the large mold of the part reaches hundreds of kilograms, even if the part is a small part, the weight of the small part also has dozens of kilograms, in the demolding process, some jacking mechanisms are needed, and the upper mold and the lower mold of the automobile bumper mold are opened to perform demolding operation.

The bottom plate 10, the base plate 20, the large top block 30 and the inclined top assembly 40 of the utility model form a demoulding mechanism, wherein, the base plate 20 is arranged on the upper part of the base plate 10 at intervals, and the base plate 10 can be lifted relative to the base plate 20, the upper end of the base plate 20 is provided with a large top block 30, the upper surface of the large top block 30 is provided with a corresponding die cavity, the base plate 20 is used as a supporting die body of the large top block 30, in a complete mold, a fixed mold fixing plate (not shown in the figure) provided with a mold cavity corresponding to the upper surface of the large top block 30 is needed, the fixed mold fixing plate is used for carrying out mold assembly with the large top block 30, so that the mold cavity on the lower surface of the fixed mold fixing plate and the mold cavity on the upper surface of the large top block 30 are assembled to form a complete injection molding cavity, after injection molding liquid with strong pressure is injected, the injection molding liquid fills all injection molding cavities, and after cooling, the fixed die fixing plate is opened for demolding operation.

In view of this, the utility model arranges the lifter assembly 40 between the base plate 20 and the bottom plate 10, and adopts a plurality of lifter links 42, the first end of the lifter link 42 penetrates through the base plate 20 and is fixed with the large top block 30, the second end of the lifter link 42 is connected with the bottom plate 10, the second end of the lifter link 42 can be directly hinged with the bottom plate 10, or an elevating plate can be arranged on the bottom plate 10, the second end of the lifter link 42 is hinged with the elevating plate, the elevating plate can be detachably arranged with the bottom plate 10, or after the second end of the lifter link 42 is hinged with the elevating plate, the elevating plate is connected with the bottom plate 10 in a sliding way, and at least one guide sleeve 41 is sleeved on the lifter link 42, when the bottom plate 10 moves upwards towards the base plate 20, the lifter link 42 jacks up the large top block 30 along the guide sleeve 41, and the force borne by the lifter link 42 is large under the condition that the gravity of the large top block 30 is several kilograms, the pitched roof link rod 42 is easily bent, and the guide sleeve 41 is used as a sliding channel of the pitched roof link rod 42, so that the pitched roof link rod 42 is prevented from being in direct contact with the base plate 20, and the large roof block 30 is prevented from being broken by stress in the process of being supported.

Preferably, the lifter link 42 may be disposed at an angle with respect to the moving direction of the base plate 10, or the inclined direction of the lifter link 42 is the same as the moving direction of the base plate 10, the guide sleeve 41 may be a long sleeve, a first end of the guide sleeve 41 is fixed to the large top block 30, a second end of the guide sleeve 41 is fixed to the base plate 20, when the base plate 10 moves upward toward the base plate 20, and the gravity of the large top block 30 is several hundred kilograms, the force borne by the lifter link 42 is large, so that the lifter link 42 is easily bent, and the guide sleeve 41 serves as a sliding channel of the lifter link 42, thereby preventing the lifter link 42 from directly contacting the base plate 20 and being broken due to force during the process of lifting the large top block 30.

As another preferable aspect, the number of the pentroof links 42 is preferably at least two.

It can be understood that the aforesaid regards as the application scene with the car bumper product, is convenient for describe the explanation the utility model discloses a push up module to one side, above-mentioned push up module to one side except being used for the car bumper on the field of moulding plastics, can be used for moulding plastics other products equally, consequently, the utility model discloses a push up module to one side is applicable to other injection moulding products equally, does not do the restriction here.

Specifically, the two guide sleeves 41 are arranged on the pitched roof link rod 42, and at least one guide sleeve 41 is fixed with the large roof block 30. Preferably, the guide sleeve 41 may be a short sleeve, at least one guide sleeve 41 is sleeved on a first end of the lifter link 42, the guide sleeve 41 is fixed to the large top block 30, the other guide sleeve 41 is a part of the lifter assembly 40, the lifter assembly 40 is disposed between the base plate 10 and the base plate 20, and therefore, the other guide sleeve 41 is fixed to the base plate 20, of course, if the lifter assembly 40 and the base plate 20 are relatively slidable, and the lifter assembly 40 moves up and down relative to the base plate 20 through the base plate 10, the other guide sleeve 41 is fixed to the base plate 10, and therefore, the two guide sleeves 41 form a long sliding channel as the sliding channel of the lifter link 42, and when the gravity of the large top block 30 is up to several hundred kilograms, the force borne by the lifter link 42 is large, the lifter link 42 is easily bent, and the guide sleeve 41 serves as the sliding channel of the lifter link 42, the inclined top link rod 42 is prevented from being in direct contact with the base plate 20, and the large top block 30 is prevented from being broken by force in the process of supporting.

Specifically, one side of the substrate 20 facing the bottom plate 10 is provided with a guide groove a, and the lifter assembly 40 further includes: the guide block 43 is slidably disposed in the guide groove a, the lifter link 42 penetrates through the guide block 43 and the base plate 20 and is connected to the large top block 30, at least one guide sleeve 41 is disposed at a connection between a first end of the lifter link 42 and the guide block 43, and a second end of the lifter link 42 is hinged to the base plate 10. Based on the above structure, the pentroof assembly 40 further includes a guide block 43, the side of the base plate 20 facing the base plate 10 is provided with a guide groove a, when the base plate 10 moves upward toward the base plate 20, the guide block 43 is slidably connected with a groove wall of the guide groove a, wherein the pentroof link 42 penetrates through the guide block 43 and the base plate 20 and is fixed on the large roof block 30, a connection between a first end of the pentroof link 42 and the guide block 43 is provided with at least one guide bushing 41, the guide bushing 41 is fixed on the guide block 43, a second end of the pentroof link 42 is hinged opposite to the base plate 10, when the base plate 10 moves upward toward the base plate 20, the guide block 43 slides upward, if the oblique direction of the pentroof link 42 is consistent with the moving direction of the base plate 10, the pentroof link 42 jacks up the large roof block 30 along the guide bushing 41, if the pentroof link 42 is disposed at an included angle with the moving direction of the base plate 10, the guide, the second end of the pitched roof connecting rod 42 is stressed to rotate, so that the pitched roof connecting rod 42 obliquely and upwards supports the large jacking block 30, and the two ends of the pitched roof connecting rod 42 are prevented from being locked by stress and even broken.

Specifically, the pentroof links 42 and the movement direction of the substrate 20 form an included angle, and the inclination angle of each pentroof link 42 is the same and the inclination direction is the same. Preferably, the angle between the slanted ejecting link 42 and the moving direction of the base plate 20 is set, and the second end of the slanted ejecting link 42 rotates along with the displacement of the guide block 43, so that the slanted ejecting link 42 obliquely upwards supports the large ejecting block 30, preventing the two ends of the slanted ejecting link 42 from being locked by force and even broken, and in addition, the large ejecting block 30 can be ejected upwards for demolding, and meanwhile, the large ejecting block 30 can be ejected leftwards or rightwards for demolding, so that the large ejecting block 30 can be ejected from two directions for demolding in the whole demolding process, and the demolding efficiency is higher.

Specifically, the oblique top module still includes: the upper ejector plate 50 is arranged on the bottom plate 10 and positioned between the base plate 20 and the bottom plate 10, and a sliding groove B is formed in the upper ejector plate 50; and the sliding blocks 44 are slidably arranged in the sliding grooves B, and the second ends of the pitched roof links 42 are hinged to the sliding blocks 44, wherein when the upper ejector plate 50 moves relative to the base plate 20, the guide blocks 43 move upwards, the second ends of the pitched roof links 42 drive the sliding blocks 44 to move relatively, and the first ends of the pitched roof links 42 jack up the large ejector block 30 along the guide sleeve 41. Based on the structure, the upper ejector plate 50 is arranged on the bottom plate 10, the sliding groove B is arranged on the upper ejector plate 50, the sliding block 44 is arranged in the sliding groove B and is in sliding connection with the groove wall of the sliding groove B, the sliding direction of the sliding block 44 and the inclined direction of the pitched roof connecting rod 42 form an included angle, the second end of the pitched roof connecting rod 42 is hinged on the sliding block 44, when the upper ejector plate 50 moves relative to the base plate 20, the guide block 43 moves upwards, the second end of the pitched roof connecting rod 42 drives the sliding block 44 to move relatively, and the first end of the pitched roof connecting rod 42 jacks the large ejector block 30 along the guide sleeve 41.

Specifically, the oblique top module still includes: a lower ejector plate 60, the lower ejector plate 60 set up in on the bottom plate 10 and be located the upper ejector plate 50 with between the bottom plate 10, the lifter assembly 40 further includes: a plurality of supporting heads 45, every supporting head 45 all runs through go up thimble board 50, the both ends of supporting head 45 set up respectively in slider 44 with on the thimble board 60 down. Preferably, a lower ejector plate 60 is arranged between the upper ejector plate 50 and the bottom plate 10, two ends of a supporting head 45 are respectively arranged on the slider 44 and the lower ejector plate 60, a guide block 43 is fixedly connected with the lower ejector plate 60 through the supporting head 45, when the lower ejector plate 60 moves relative to the base plate 20, the guide block 43 is driven to move towards the base plate 20, a first end of an inclined ejector link 42 pushes up the large ejector block 30 along a guide sleeve 41, the process can be defined as first ejection demoulding, when the upper ejector plate 50 moves relative to the base plate 20 again after the lower ejector plate 60 is stationary, a second end of the inclined ejector link 42 drives the slider 44 to move relatively, and the first end of the inclined ejector link 42 pushes up the large ejector block 30 along the guide sleeve 41, the process can be defined as second ejection demoulding.

Specifically, the oblique top module still includes: and the auxiliary rod 46 penetrates through the upper ejector plate 50 and the sliding block 44, the auxiliary rod 46 is obliquely arranged, the inclination angle of the auxiliary rod 46 is the same as that of the inclined ejector link rod 42, the inclination direction of the auxiliary rod 46 is consistent, and two ends of the auxiliary rod 46 are respectively hinged on the lower ejector plate 60 and the guide block 43. Preferably, since the large top block 30 is a large part in the mold, and the weight of the large top block is up to several hundred kilograms, in order to improve the stability of the pitched top assembly 40 after supporting the large top block 30, an auxiliary rod 46 is adopted, the auxiliary rod 46 penetrates through the upper ejector plate 50 and the slide block 44, the inclination angle of the auxiliary rod 46 is the same as that of the pitched top link rod 42, and the inclination direction of the auxiliary rod 46 is consistent, both ends of the auxiliary rod 46 are respectively hinged on the lower ejector plate 60 and the guide block 43, when the second end of the pitched top link rod 42 drives the slide block 44 to relatively displace, the auxiliary rod 46 synchronously inclines, supports the guide block 43, provides the supporting force, and improves the stability.

Specifically, the included angle between the pitched roof connecting rod 42 and the displacement direction of the bottom plate 10 is 3-20 degrees. Preferably, the angle between the pitched roof connecting rod 42 and the displacement direction of the bottom plate 10 is 3 degrees to 20 degrees, so that the stress is more uniform when the pitched roof connecting rod 42 jacks up the large jacking block 30, and if the angle is too large, the more gravity towards the direction of the center of the earth is received by the pitched roof connecting rod 42, the more easily the pitched roof connecting rod 42 is broken.

Specifically, the surface roughness of the guide block 43 and the groove wall roughness of the guide groove a are ± 0.01 mm. Preferably, the roughness of the surface of the guide block 43 and the roughness of the groove wall of the guide groove a are ± 0.01mm in order to ensure smoother sliding between the guide block 43 and the groove wall of the guide groove a.

The utility model discloses still provide an automobile bumper mould, including a plurality of square irons 70 (not shown in the figure), and the utility model discloses a to one side the module, the concrete structure of this to one side top module refers to above-mentioned embodiment, because this to one side the module has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer given here. The square irons 70 are disposed between the base plate 10 and the base plate 20 to fix the base plate 20 to the base plate 10.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a push up module to one side which characterized in that, includes bottom plate, base plate, big kicking block and pushes up the subassembly to one side, the base plate set up in on the bottom plate and the interval sets up, big kicking block set up in on the base plate, the subassembly that pushes up to one side includes:

a plurality of guide sleeves;

the first ends of the pitched roof link rods penetrate through the substrate and are connected with the large roof block, the second ends of the pitched roof link rods are connected with the bottom plate, and at least one guide sleeve is sleeved on each pitched roof link rod;

when the bottom plate moves towards the base plate, the inclined ejector connecting rod ejects the large ejector block along the guide sleeve.

2. The angle ejector die set according to claim 1, wherein two guide sleeves are arranged on the angle ejector link rod, and at least one guide sleeve is fixed with the large ejector block.

3. The angle ejector module of claim 1, wherein a side of the base plate facing the base plate is provided with a guide groove, the angle ejector assembly further comprising:

the guide block is arranged in the guide groove in a sliding mode, the pitched roof connecting rod penetrates through the guide block and the base plate and is connected to the large roof block, at least one guide sleeve is arranged at the joint between the first end of the pitched roof connecting rod and the guide block, and the second end of the pitched roof connecting rod is hinged to the base plate relatively.

4. The angle ejector module of claim 3, wherein the angle between the angle of the angle ejector links and the direction of motion of the substrate is the same, and the angle of inclination of each angle ejector link is the same and the direction of inclination is the same.

5. The tilt-top module defined in claim 4, further comprising:

the upper ejector plate is arranged on the bottom plate and positioned between the base plate and the bottom plate, and a sliding groove is formed in the upper ejector plate;

the sliding block is arranged in the sliding groove in a sliding manner, the second end of the pitched roof connecting rod is hinged on the sliding block,

when the upper ejector plate moves relative to the base plate, the guide block moves upwards, the second end of the pitched roof link rod drives the sliding block to move relatively, and the first end of the pitched roof link rod jacks up the large ejector block along the guide sleeve.

6. The tilt-top module defined in claim 5, further comprising:

lower thimble board, lower thimble board set up in on the bottom plate and be located go up the thimble board with between the bottom plate, the oblique top subassembly still includes:

and the two ends of the supporting heads are respectively arranged on the sliding block and the lower ejector plate.

7. The tilt-top module defined in claim 6, further comprising:

the auxiliary rod penetrates through the upper ejector plate and the sliding block, the auxiliary rod is arranged in an inclined mode, the inclined angle of the auxiliary rod is the same as that of the inclined ejector connecting rod, the inclined direction of the auxiliary rod is consistent, and two ends of the auxiliary rod are hinged to the lower ejector plate and the guide block respectively.

8. The angle ejector module of any one of claims 3-7, wherein the angle between the angle of the angle ejector link and the direction of displacement of the base plate is 3 ° -20 °.

9. The angle die set of any one of claims 3 to 7, wherein the surface roughness of the guide block and the roughness of the groove wall of the guide groove are ± 0.01 mm.

10. An automobile bumper mold, comprising the lifter die set according to any one of claims 1 to 9, and,

a plurality of square irons;

the square irons are arranged between the bottom plate and the base plate and used for fixing the base plate on the bottom plate.

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