CN223186913U - Processing molds for electronic products - Google Patents

Abstract

The utility model discloses a processing die of an electronic product, which comprises an upper die plate provided with an upper die core, a lower die plate provided with a lower die core, a bottom base plate arranged below the lower die plate, a first side drawing sliding block and a second side drawing sliding block which are arranged in opposite directions, wherein an installation through hole is formed in the upper surface of the lower die core and positioned in the area between the first side drawing sliding block and the second side drawing sliding block, an inclined drawing sliding block is arranged in the installation through hole, the lower end of the inclined drawing sliding block penetrates through the installation through hole and is in sliding connection with an inclined drawing sliding block seat, an inclined drawing sliding groove which is arranged in an inclined way is arranged at one end of the inclined drawing sliding block seat and is close to the inclined drawing sliding block, a limiting sleeve is arranged on the lower die plate, the lower end of a limiting spring is connected with the bottom of the limiting sleeve, and the upper end of the limiting spring is sleeved outside a limiting pin. According to the utility model, the 3 groups of core-pulling sliding blocks meet the precision appearance requirement of the molded product, and meanwhile, the position precision of the inclined-pulling sliding blocks in the repeated mold opening and closing process can be improved, so that the yield and consistency of the product are improved.

Description

Processing mould of electronic product

Technical Field

The utility model relates to a processing die of an electronic product, and belongs to the technical field of injection dies.

Background

In the process of producing the earphone, the earphone shell needs to be subjected to injection molding, an injection mold is generally suitable for thermoplastic plastic heating molding, molten plastic is injected into a cavity of the mold through an injection molding machine by utilizing the hot melting principle of the thermoplastic plastic, then the mold is cooled and shaped, and a plastic product is taken out after the mold is opened. Because the requirement on the appearance is higher, the die structure in the prior art cannot meet the high requirement of the earphone on the appearance.

Disclosure of utility model

The utility model aims to provide a processing die of an electronic product, which can improve the position precision of an oblique drawing slide block in the repeated mold opening and closing process while meeting the precision appearance requirement of the molded product through 3 groups of core-pulling slide blocks, thereby improving the product yield and consistency.

The technical scheme includes that the processing die comprises an upper die plate provided with an upper die core, a lower die plate provided with a lower die core, a base substrate arranged below the lower die plate, a first side drawing slide block and a second side drawing slide block which are arranged in opposite directions, wherein the lower die plate is connected with the base substrate through 2 support bars arranged at intervals, the first side drawing slide block and the second side drawing slide block are respectively and slidably arranged on the lower die plate and can be mutually close to or far away from each other along the horizontal direction, 2 slide block shovel bases which are correspondingly matched with the first side drawing slide block and the second side drawing slide block are arranged on the upper die plate, one ends, close to each other, of the first side drawing slide block and the second side drawing slide block are respectively and slidably embedded into the lower die core, an inclined and downwardly extending mounting through hole is formed in a region between the first side drawing slide block and the second side drawing slide block, and when the inclined upper side drawing slide block is in a die clamping state, the inclined upper end of the inclined drawing slide block is used for forming a die cavity, and the second side drawing slide block can be mutually close to the upper die core and the second side drawing slide block is embedded into a die cavity;

The lower end of the oblique sliding block penetrates out of the mounting through hole and is in sliding connection with an oblique sliding block seat capable of sliding in the horizontal direction, an oblique sliding groove which is obliquely arranged is formed in one end of the oblique sliding block seat, which is close to the oblique sliding block, one end, which is embedded in the lower end of the oblique sliding block, of the oblique sliding groove is lower than the other end, one end, which is close to the lower die core, of the oblique sliding groove, the lower end face is in sliding contact with the bottom face of the oblique sliding groove, the side wall of the oblique sliding block seat is connected with the side wall of the oblique sliding groove through at least one group of guide convex blocks, a limit sleeve is arranged on the lower die plate and below the oblique sliding block seat, the lower end of a vertically extending limit spring is connected with the bottom of the limit sleeve, the upper end of the limit spring is sleeved on the outer side of a limit pin, a flange part which is radially outwards arranged is in a pressing contact with the upper end face of the limit spring, an inner convex part which is matched with the flange part is arranged on the inner wall of the limit sleeve, 2 limit grooves which are arranged along the movement direction of the lower face of the oblique sliding block seat are arranged at intervals, and the limit pin can be embedded in the limit groove which can move along the upper end face of the upper end of the limit pin.

The further improved scheme in the technical scheme is as follows:

1. In the above scheme, the first side drawing slide block and the second side drawing slide block are respectively arranged on the end face of one end of the inclined drawing slide block and are positioned at the outer side of the cavity area, a through hole for embedding the 2 oppositely arranged lugs is formed in the inclined drawing slide block, and in the die assembly process, the 2 mutually close lugs are synchronously embedded into the through holes on the inclined drawing slide block.

2. In the above scheme, the cross section of the limit groove is triangular, and the upper end of the limit groove is arranged to be in a sharp cone shape.

3. When the die is in a die closing state, the upper end of the limiting pin is embedded into the limiting groove far away from the oblique drawing sliding block.

4. In the above scheme, the lower die core, the first side drawing sliding block, the second side drawing sliding block and the inclined drawing sliding block seat are respectively embedded and installed in a lower accommodating groove formed in the upper surface of the lower die plate.

5. In the above scheme, at least one group of mutually matched positioning convex blocks and positioning grooves are arranged between the first side drawing sliding block and the second side drawing sliding block, and when the mold is in a mold closing state, the positioning convex blocks are correspondingly embedded into the positioning grooves.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

The utility model discloses a processing mould of an electronic product, wherein the lower end of an oblique drawing sliding block penetrates out of a mounting through hole and is in sliding connection with an oblique drawing sliding block seat capable of sliding in the horizontal direction, one end of the oblique drawing sliding block seat, which is close to the oblique drawing sliding block, is provided with an oblique drawing sliding groove which is obliquely arranged, one end of the oblique drawing sliding groove, which is used for embedding the lower end of the oblique drawing sliding block, is lower than the other end, the lower end surface of the oblique drawing sliding block is in sliding contact with the bottom surface of the oblique drawing sliding groove, the oblique drawing sliding block and the side wall of the oblique drawing sliding groove are in matched connection through at least one group of guide convex blocks, a limit sleeve is arranged on the lower template and below the oblique drawing sliding block seat, the lower end of a vertically extending limit spring is connected with the bottom of the limit sleeve, the upper end of the limit spring is sleeved outside a limit pin, the limit pin is provided with a flange part which is radially outwards, an inner convex part which is in extrusion contact with the upper end surface of the limit spring is arranged on the inner wall of the limit sleeve, the lower surface of the limit sleeve is provided with an inner convex part which is matched with the flange part, the lower surface of the limit sliding groove is provided with 2 limit grooves which are arranged at intervals along the movement direction, and when the upper end surface of the limit pin is matched with the inner convex part of the limit sleeve in the inner wall of the limit sleeve in the direction, and the limit pin can be matched with the limit pin in the limit position of the limit sleeve in the vertical direction, and the limit pin, the limit position of the limit sleeve can be well-shaped in the process, and the process of the limit position can be matched with the limit position of the limit pin can be well-finished, and the product can be formed in the process when the accuracy is in the process 3; furthermore, the first side drawing sliding block and the second side drawing sliding block are respectively provided with a convex block on the end face of one end of the inclined drawing sliding block and positioned at the outer side of the cavity area, the inclined drawing sliding block is provided with a through hole for embedding 2 convex blocks which are oppositely arranged, in the die assembly process, 2 mutually close convex blocks are synchronously embedded into through holes on the oblique drawing sliding blocks, so that the position accuracy of die assembly of the 3 core-pulling sliding blocks is improved, the phenomenon that obvious clamping lines appear on a molded product due to the fact that a plurality of core-pulling sliding blocks relatively move to form a small tolerance during die assembly is avoided, the stability of the section difference of the molded product is improved, the consistency and the attractiveness of the appearance are ensured, and the precise molding effect that the clamping lines cannot be seen is realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a processing mold of an electronic product according to the present utility model;

FIG. 2 is a schematic side view of FIG. 1 taken along DD';

FIG. 3 is a schematic diagram showing the whole injection structure of the processing mold of the electronic product of the utility model

Fig. 4 is an enlarged partial schematic view at a in fig. 2.

In the drawings, 1, an upper die plate, 2, a lower die plate, 3, an upper die core, 31, a glue injection channel, 4, a lower die core, 41, a mounting through hole, 42, a stop step surface, 51, a first side drawing sliding block, 52, a second side drawing sliding block, 53, a positioning convex block, 54, a positioning groove, 6, a sliding block shovel base, 7, an oblique drawing sliding block, 71, a flange surface, 8, an oblique drawing sliding block seat, 81, an oblique drawing sliding groove, 91, a guiding convex block, 92, a guiding groove, 10, a cavity, 11, a base substrate, 12, a supporting bar, 13, a thimble plate, 131, a thimble, 132, a needle return spring, 133, a needle return guide post, 141, a guiding post, 142, a guide sleeve, 15, a convex block, 16, a through hole, 17, a limiting sleeve, 171, an inner convex part, 18, a limiting spring, 19, a limiting pin, 191, a flange part, 20 and a limiting groove.

Detailed Description

The utility model will be further understood by the specific examples given below, which are not intended to limit the utility model.

The embodiment 1 comprises an upper die plate 1 provided with an upper die core 3, a lower die plate 2 provided with a lower die core 4, a bottom base plate 11 arranged below the lower die plate 2, a first side drawing slide block 51 and a second side drawing slide block 52 which are arranged oppositely, wherein the lower die plate 2 and the bottom base plate 11 are connected through 2 support bars 12 which are arranged at intervals, the first side drawing slide block 51 and the second side drawing slide block 52 are respectively arranged on the lower die plate 2 in a sliding manner and can be mutually close to or far away from each other along the horizontal direction, 2 slide block shovel bases 6 which are correspondingly matched with the first side drawing slide block 51 and the second side drawing slide block 52 are arranged on the upper die plate 1, one ends of the first side drawing slide block 51 and the second side drawing slide block 52 which are mutually close to each other are respectively embedded into the lower die core 4 in a sliding manner, an installation through hole 41 which is obliquely and downwardly extends is formed in the area between the first side drawing slide block 51 and the second side drawing slide block 52, a die core 7 is slidably arranged in the installation through hole 41, and when the upper end of the upper die core 4 is obliquely arranged, and the upper die core 10 is obliquely arranged between the upper die core 4 and the upper die core 10 and the lower die core 52, and the die core 10 is formed, and the die core 10 is obliquely arranged;

The lower end of the oblique sliding block 7 penetrates through the installation through hole 41 and is in sliding connection with an oblique sliding block seat 8 capable of sliding in the horizontal direction, one end, close to the oblique sliding block 7, of the oblique sliding block seat 8 is provided with an oblique sliding groove 81 which is arranged in an inclined mode, one end, close to the lower die core 4, of the oblique sliding groove 81 for embedding the lower end of the oblique sliding block 7 is lower than the other end, the lower end face is in sliding contact with the bottom face of the oblique sliding groove 81, the oblique sliding block 7 is matched and connected with a guide groove 92 through at least one group of guide lugs 91, a limit sleeve 17 is arranged on the lower die plate 2 and located below the oblique sliding block seat 8, the lower end of a vertically extending limit spring 18 is connected with the bottom of the limit sleeve 17, the upper end of the limit spring 18 is sleeved on the outer side of a limit pin 19, a flange portion 191 which is in radial outward pressing contact with the upper end face of the limit spring 18 is arranged above the flange portion 191 and located on the inner wall of the limit sleeve 17, a protrusion portion 171 which is matched with the upper end face of the limit sleeve 17 is arranged in the inner side face of the limit sleeve 19, and the limit pin 19 is arranged in the direction of the inner flange portion of the limit sleeve 19, and the limit sleeve is in the direction of the limit sleeve 19, and the limit sleeve is arranged in the direction of the limit sleeve 19, and the limit sleeve is in the direction of the limit sleeve position of the upper end face of the limit sleeve 17, and the limit sleeve is in which the limit sleeve position of the limit sleeve 19 is in the direction of the upper end of the limit sleeve.

The first side drawing slide block 51 and the second side drawing slide block 52 are respectively provided with a bump 15 facing the end face of one end of the oblique drawing slide block 7 and located at the outer side of the cavity 10 area, the oblique drawing slide block 7 is provided with a through hole 16 for embedding 2 bumps 15 which are oppositely arranged, and in the mold closing process, 2 bumps 15 which are mutually close are synchronously embedded into the through holes 16 on the oblique drawing slide block 7.

The cross section of the limiting groove 20 is triangular, and the upper end of the limiting groove 20 is provided with a sharp cone shape.

When in the die closing state, the upper end of the limiting pin 19 is embedded into the limiting groove 20 far away from the oblique drawing sliding block 7.

The lower core 4, the first side drawing slide block 51, the second side drawing slide block 52 and the inclined drawing slide block seat 8 are respectively embedded and installed in a lower accommodating groove formed on the upper surface of the lower die plate 2.

At least one set of positioning protruding blocks 53 and positioning grooves 54 which are matched with each other are arranged between the first side drawing sliding block 51 and the second side drawing sliding block 52, and when the mold is in a mold closing state, the positioning protruding blocks 53 are correspondingly embedded into the positioning grooves 54.

The embodiment 2 comprises an upper die plate 1 provided with an upper die core 3, a lower die plate 2 provided with a lower die core 4, a bottom base plate 11 arranged below the lower die plate 2, a first side drawing slide block 51 and a second side drawing slide block 52 which are arranged oppositely, wherein the lower die plate 2 and the bottom base plate 11 are connected through 2 support bars 12 which are arranged at intervals, the first side drawing slide block 51 and the second side drawing slide block 52 are respectively arranged on the lower die plate 2 in a sliding manner and can be mutually close to or far away from each other along the horizontal direction, 2 slide block shovel bases 6 which are correspondingly matched with the first side drawing slide block 51 and the second side drawing slide block 52 are arranged on the upper die plate 1, one ends of the first side drawing slide block 51 and the second side drawing slide block 52 which are mutually close to each other are respectively embedded into the lower die core 4 in a sliding manner, an installation through hole 41 which is obliquely and downwardly extends is formed in the area between the first side drawing slide block 51 and the second side drawing slide block 52, a die core 7 is slidably arranged in the installation through hole 41, and when the upper die core 4 is obliquely arranged, and the upper die core end 10 is obliquely arranged between the upper die core 4 and the lower die core 10 is formed, and the die core 10 is obliquely arranged at the end of the die core 10;

The lower end of the oblique sliding block 7 penetrates through the installation through hole 41 and is in sliding connection with an oblique sliding block seat 8 capable of sliding in the horizontal direction, one end, close to the oblique sliding block 7, of the oblique sliding block seat 8 is provided with an oblique sliding groove 81 which is arranged in an inclined mode, one end, close to the lower die core 4, of the oblique sliding groove 81 for embedding the lower end of the oblique sliding block 7 is lower than the other end, the lower end face is in sliding contact with the bottom face of the oblique sliding groove 81, the oblique sliding block 7 is matched and connected with a guide groove 92 through at least one group of guide lugs 91, a limit sleeve 17 is arranged on the lower die plate 2 and located below the oblique sliding block seat 8, the lower end of a vertically extending limit spring 18 is connected with the bottom of the limit sleeve 17, the upper end of the limit spring 18 is sleeved on the outer side of a limit pin 19, a flange portion 191 which is in radial outward pressing contact with the upper end face of the limit spring 18 is arranged above the flange portion 191 and located on the inner wall of the limit sleeve 17, a protrusion portion 171 which is matched with the upper end face of the limit sleeve 17 is arranged in the inner side face of the limit sleeve 19, and the limit pin 19 is arranged in the direction of the inner flange portion of the limit sleeve 19, and the limit sleeve is in the direction of the limit sleeve 19, and the limit sleeve is arranged in the direction of the limit sleeve 19, and the limit sleeve is in the direction of the limit sleeve position of the upper end face of the limit sleeve 17, and the limit sleeve is in which the limit sleeve position of the limit sleeve 19 is in the direction of the upper end of the limit sleeve.

The first side drawing slide block 51 and the second side drawing slide block 52 are respectively provided with a bump 15 facing the end face of one end of the oblique drawing slide block 7 and located at the outer side of the cavity 10 area, the oblique drawing slide block 7 is provided with a through hole 16 for embedding 2 bumps 15 which are oppositely arranged, and in the mold closing process, 2 bumps 15 which are mutually close are synchronously embedded into the through holes 16 on the oblique drawing slide block 7.

The cross section of the limiting groove 20 is triangular, and the upper end of the limiting groove 20 is provided with a sharp cone shape.

At least one set of positioning protruding blocks 53 and positioning grooves 54 which are matched with each other are arranged between the first side drawing sliding block 51 and the second side drawing sliding block 52, and when the mold is in a mold closing state, the positioning protruding blocks 53 are correspondingly embedded into the positioning grooves 54.

When the mold is in a mold closing state, the oblique drawing slide block is positioned at the uppermost part of the stroke, the upper mold core and the lower mold core are mutually close in the vertical direction, the first side drawing slide block and the second side drawing slide block are mutually close in the horizontal direction, the convex blocks on the first side drawing slide block and the second side drawing slide block are respectively and correspondingly embedded into the through holes on the oblique drawing slide block, and glue liquid in a molten state is injected into a cavity surrounded by the oblique drawing slide block, the upper mold core, the lower mold core, the first side drawing slide block and the second side drawing slide block through a glue injection channel, so that injection molding, cooling and molding are carried out on a product to be processed;

after cooling and molding the product, opening the mold;

The main process of die opening is as follows:

Firstly, driving an upper die plate to move upwards along a vertical direction and away from a lower die plate, wherein in the process, an upper die core and a sliding block shovel base both move along with the upper die plate, so that the upper die core and the lower die core are separated to realize demolding, and a first side drawing sliding block and a second side drawing sliding block are driven by the sliding block shovel base to move away from each other along a horizontal direction to realize demolding;

Then, driving the oblique drawing sliding block seat to be far away from the lower die core along the horizontal direction until the upper end of the limiting pin is embedded into a limiting groove on the oblique drawing sliding block seat, which is close to the oblique drawing sliding block, in the process, through the cooperation of a guide convex block and a guide groove in the oblique drawing sliding groove, the oblique drawing sliding block is pulled by the oblique drawing sliding block seat to slide downwards and backwards in an installation through hole on the lower die core so as to realize demoulding;

Closing the die again to process and shape the next product;

The main process of die assembly is as follows:

The oblique drawing sliding block seat is close to the lower die core along the horizontal direction until the upper end of the limiting pin is embedded into a limiting groove on the oblique drawing sliding block seat, which is far away from the oblique drawing sliding block, and the oblique drawing sliding block slides forwards and upwards in the installation through hole on the lower die core under the reverse pushing of the oblique drawing sliding block seat until the flange surface on the oblique drawing sliding block is in abutting contact with the stop step surface in the installation through hole;

The upper die plate is driven to move downwards along the vertical direction to be close to the lower die plate, in the process, the upper die core and the slider shovel base move downwards along with the upper die plate, so that the upper die core and the lower die core are mutually close to each other in the vertical direction, the first side drawing slider and the second side drawing slider are mutually close to each other along the horizontal direction under the driving of the slider shovel base, 2 mutually close protruding blocks are synchronously embedded into through holes on the inclined drawing slider to realize die assembly, glue liquid in a molten state is injected into a cavity surrounded by the inclined drawing slider, the upper die core, the lower die core, the first side drawing slider and the second side drawing slider through a glue injection channel, and products to be processed are subjected to injection molding, cooling and forming.

When the processing mould of the electronic product is adopted, the precision appearance requirement of the formed product is met through 3 groups of core-pulling sliding blocks, and meanwhile, the position precision of the oblique-pulling sliding blocks in the repeated mould opening and closing process can be improved, so that the yield and consistency of the product are improved;

Further, the position accuracy of the die assembly of the 3 core-pulling sliding blocks is improved, the phenomenon that a plurality of core-pulling sliding blocks relatively move to form a small tolerance when the die assembly is carried out to cause obvious clamping lines on a formed product is avoided, the stability of the section difference of the formed product is improved, the consistency and the attractiveness of the appearance are ensured, and the precise forming effect that the clamping lines cannot be seen is realized.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (6)

1. The processing die for the electronic product comprises an upper die plate (1) provided with an upper die core (3), a lower die plate (2) provided with a lower die core (4), a base substrate (11) arranged below the lower die plate (2) and a first side drawing slide block (51) and a second side drawing slide block (52) which are arranged in opposite directions, wherein the lower die plate (2) and the base substrate (11) are connected through support bars (12) arranged at intervals of 2, the first side drawing slide block (51) and the second side drawing slide block (52) are respectively slidably provided with the lower die plate (2) and can be mutually close to or far away from each other along the horizontal direction, 2 slide block shovel bases (6) which are correspondingly matched with the first side drawing slide block (51) and the second side drawing slide block (52) are arranged on the upper die plate (1), one end, which is mutually close to each other, of the first side drawing slide block (51) and the second side drawing slide block (52) can be slidably embedded into the lower die core (4), the upper surface of the lower die core (4) is positioned on the upper surface of the first side drawing slide block (51) and is positioned in an inclined direction, and the upper die core (41) is arranged in an inclined die opening region (41) and is arranged at the inclined die opening end (7) and is arranged in the inclined die opening region (7) A cavity (10) for molding a product is formed between a first side drawing sliding block (51) and a second side drawing sliding block (52) which are close to each other, and the upper end of a thimble (131) can be embedded into the cavity (10);

The lower end of the oblique sliding block (7) penetrates through the mounting through hole (41) and is in sliding connection with an oblique sliding block seat (8) capable of sliding in the horizontal direction, one end of the oblique sliding block seat (8) close to the oblique sliding block (7) is provided with an oblique sliding groove (81) which is obliquely arranged, one end of the oblique sliding groove (81) for embedding the lower end of the oblique sliding block (7) is lower than the other end of the oblique sliding groove (81) close to the lower die core (4), the oblique sliding block (7) with the lower end face in sliding contact with the bottom surface of the oblique sliding groove (81) is connected with the side wall of the oblique sliding groove (81) in a matched manner through at least one group of guide convex blocks (91), a limit sleeve (17) is arranged on the lower die plate (2) and below the oblique sliding block seat (8), the lower end of a vertically extending limit spring (18) is connected with the bottom of the limit sleeve (17), the upper end of the limit spring (18) is sleeved on the outer side of a limit pin (19), the limit pin (19) is provided with a flange part which is in radial contact with an upper flange part (191) of the limit sleeve (191) which is arranged on the upper surface of the upper flange (191), the lower surface of the oblique sliding block seat (8) is provided with 2 limiting grooves (20) which are arranged at intervals along the movement direction of the oblique sliding block seat, and when the upper end face of the upper flange part (191) of the limiting pin (19) is attached to the lower end face of the inner convex part (171) on the inner wall of the limiting sleeve (17), the upper end of the limiting pin (19) which can move in the vertical direction is embedded into any one of the limiting grooves (20).

2. The processing mold of electronic product according to claim 1, wherein the first side drawing slide block (51) and the second side drawing slide block (52) are respectively provided with a bump (15) facing the end face of one end of the oblique drawing slide block (7) and located at the outer side of the area of the cavity (10), the oblique drawing slide block (7) is provided with a through hole (16) for embedding 2 bumps (15) which are oppositely arranged, and in the mold clamping process, 2 bumps (15) which are mutually close are synchronously embedded into the through holes (16) on the oblique drawing slide block (7).

3. The processing mold for electronic products according to claim 1, wherein the cross section of the limiting groove (20) is triangular, and the upper end of the limiting groove (20) is provided with a sharp cone shape.

4. The processing mold for electronic products according to claim 1, wherein the upper end of the limit pin (19) is embedded into a limit groove (20) far away from the oblique drawing slide block (7) when the mold is in a mold closing state.

5. The processing mold of an electronic product according to claim 1, wherein the lower mold core (4), the first side drawing slide block (51), the second side drawing slide block (52) and the inclined drawing slide block seat (8) are respectively embedded and installed in a lower accommodating groove formed on the upper surface of the lower mold plate (2).

6. The processing mold for electronic products according to claim 1, wherein at least one set of positioning protruding blocks (53) and positioning grooves (54) which are matched with each other are arranged between the first side drawing sliding block (51) and the second side drawing sliding block (52), and when the mold is in a mold closing state, the positioning protruding blocks (53) are correspondingly embedded into the positioning grooves (54).