CN110340984B - Division bar slotting die of hollow glass shutter - Google Patents

Abstract

The invention discloses a parting bead slotting die of a hollow glass shutter, which is arranged on a base and comprises an upper die, wherein the upper die comprises an upper die body and a cutter arranged at the bottom of the upper die body; the lower die comprises a lower die body, two clamping grooves which are arranged on the lower die body in parallel, and a support module arranged between the two clamping grooves; at least one of the upper die or the lower die can move along the direction close to the other of the upper die or the lower die, and the projection of the cutter in the moving direction of the upper die or the lower die can simultaneously pass through the second side edges of the two parting bead monomers and form two corresponding notches on the two second side edges, and the two notches are combined to form a rope groove. The parting bead slotting die of the hollow glass shutter can simultaneously open two matched notches at the corresponding positions of two parting bead monomers, so that the waste of materials is avoided, the cost is saved, and the parting bead slotting die is simple in structure and convenient to operate.

Description

Division bar slotting die of hollow glass shutter

Technical Field

The invention relates to the field of hollow glass manufacturing, in particular to a parting bead grooving die of a hollow glass shutter.

Background

The hollow glass shutter is a new product with the shutter installed in the hollow glass cavity, and the shutter in the hollow glass can be randomly adjusted in angle to enable the shutter to be transparent, semi-transparent or light-shielding, and simultaneously can be pulled up to be a transparent window. The glass has the advantages of unique heat preservation, sound insulation, dust pollution prevention, safety and the like, and is an optimal ideal product for solving the sunshade performance of the building window.

As shown in fig. 1, the hollow glass shutter generally comprises a hollow glass (1), four hollow parting strips (2) surrounding the periphery of the hollow glass (1), a shutter (3) arranged in the hollow glass (1), and a blade retracting mechanism and a blade turning mechanism (4) for the shutter (3), wherein the blade turning mechanism (4) comprises a shutter shaft (4 a) arranged in parallel with the parting strips (2), a shutter control wheel (4 b) arranged on the shutter shaft (4 a), and a shutter pull rope (4 c) connected to the shutter control wheel (4 b), wherein the shutter pull rope (4 c) is connected to a bottom beam of the shutter (3) after being connected one by one, and the shutter pull rope (4 c) is driven to realize the turning of the shutter (3) by rotating the shutter shaft (4 a).

At present, a page turning shaft (4 a) is usually installed in a parting bead (2) on the upper side of a hollow glass (1), and as a page turning pull rope (4 c) needs to be wound on a page turning control wheel (4 b) and the winding radius of the page turning pull rope is larger than the wheel diameter of the page turning control wheel (4 b), the wound page turning pull rope (4 c) needs to partially penetrate out of the parting bead (2) and be connected with a blade of a blind (3) to finish linkage, and therefore a rope groove (6) needs to be formed in the parting bead (3) for the page turning pull rope (4 c) to be linked with the blade of the blind (3). In the prior art, the corresponding positions of two parting bead monomers (2 a) of the parting bead (2) are milled with milling machines to form notches (6 a), then the two parting bead monomers (2 a) are assembled into the parting bead (2), and the two notches (6 a) at the corresponding positions of the two parting bead monomers (2 a) can be combined into a rope groove (6). However, the notch (6 a) is respectively milled on the two parting bead monomers (2 a), deviation is easy to occur in the opening position and opening size of the notch (6 a), so that the two notches (6 a) combined into the rope groove (6) cannot be effectively matched, and the linkage of the page turning stay rope (4 c) and the blades of the blind (3) is greatly influenced; and the quality of the two parting bead monomers (2 a) which cannot be matched with the notch (6 a) is poor, the service life is short, and the two parting bead monomers are seriously and possibly scrapped directly, so that the cost is greatly increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the parting bead slotting die for the hollow glass shutter, which can simultaneously open two matched notches at the corresponding positions of two parting bead monomers, thereby avoiding the waste of materials, saving the cost, and has simple structure and convenient operation.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the hollow glass shutter comprises hollow glass, four hollow partition strips surrounding the periphery of the hollow glass, a shutter curtain arranged in the hollow glass, and a blade retracting mechanism and a blade turning mechanism for the shutter curtain, wherein the partition strips comprise two partition strip monomers with a first side edge and a second side edge which are perpendicular to each other, the two partition strip monomers can be mutually matched and combined together, the blade turning mechanism comprises a shutter shaft arranged in the partition strip at the upper side of the hollow glass, a plurality of shutter control wheels arranged on the shutter shaft at intervals along the extending direction of the shutter shaft, and shutter pull ropes connected to the shutter control wheels, the shutter pull ropes are connected to a bottom beam of the shutter curtain one by one after being connected with the shutter curtain blades, the partition strip grooving mold is arranged on a base, and is used for opening rope grooves for the shutter curtain and the shutter curtain on the upper side of the hollow glass,

the parting bead slotting die comprises

The upper die comprises an upper die body and a cutter arranged at the bottom of the upper die body;

the lower die comprises a lower die body, two clamping grooves which are arranged on the lower die body in parallel and used for clamping and embedding the first side edges of the two parting bead monomers, and a supporting module which is arranged between the two clamping grooves and used for supporting the second side edges of the two parting bead monomers;

at least one of the upper die or the lower die can move along the direction approaching to the other of the upper die or the lower die, the projection of the cutter on the moving direction of the upper die or the lower die can simultaneously pass through the second side edges of the two parting bead monomers, two corresponding notches are formed in the two second side edges, and the two notches are combined to form the rope groove.

Preferably, the upper die is movable in a direction approaching the lower die.

Preferably, the number of the supporting modules is two, and the supporting modules are arranged at intervals along the extending direction of the clamping groove.

Further preferably, a knife slot is formed between the two support modules, and the cutter can be embedded in the knife slot in a matched manner.

Preferably, the parting bead slotting die further comprises a positioning assembly arranged on one side of the lower die, the positioning assembly comprises two positioning rods arranged along the extending directions of the two clamping grooves respectively, and positioning clamping plates arranged along the extending directions of the positioning rods vertically and two ends of the positioning clamping plates are connected with the two positioning rods respectively, positioning grooves are formed in the positioning rods, and parting bead monomers can sequentially pass through the clamping grooves and the positioning grooves along the axial directions of the parting bead monomers and are abutted to the positioning clamping plates.

Further preferably, the positioning clamping plate is slidably arranged on the positioning rod along the extending direction of the positioning rod.

Preferably, the parting bead slotting die further comprises a guide rod arranged at the bottom of the upper die and extending towards the direction close to the lower die, and a guide post arranged on the lower die, wherein the guide rod can be axially penetrated in the guide post.

Further preferably, the number of the guide posts is two, and the guide posts are respectively located at two sides of the support module parallel to the extending direction of the clamping groove, and correspondingly, the number of the guide rods is two, and the guide posts are arranged in one-to-one correspondence with the two guide posts.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages: according to the parting bead slotting die for the hollow glass shutter, the upper die and the lower die are arranged, the cutter is arranged on the upper die, the two clamping grooves which are parallel to each other and used for clamping the first side edges of the parting bead monomers and the supporting module used for supporting the second side edges of the parting bead monomers are arranged on the lower die, the cutter can simultaneously open two matched notches at the corresponding positions of the two second side edges on the supporting module, waste of materials is avoided, cost is saved, and the parting bead slotting die is simple in structure and convenient to operate.

Drawings

FIG. 1 is a schematic view of a hollow glass blind;

FIG. 2 is a schematic structural view of a parting bead slotting die in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view in section from A-A in FIG. 2;

FIG. 4 is a schematic view of the structure of FIG. 2 in the direction B;

FIG. 5 is a schematic diagram of the structure of a division bar monomer.

Wherein: 1. hollow glass; 2. a parting bead; 2a, parting bead monomers; 2a1, a first side; 2a2, a second side; 3. a blind; 4. a blade turning mechanism; 4a, a page turning shaft; 4b, a page turning control wheel; 4c, turning the page and pulling the rope; 5. a base; 6. rope grooves; 6a, a notch; 7. an upper die; 7a, an upper die body; 7b, a cutter; 8. a lower die; 8a, a lower die body; 8b, a clamping groove; 8c, supporting the module; 8d, a knife slot; 9. a positioning assembly; 9a, positioning rods; 9b, positioning clamping plates; 9c, positioning grooves; 10. a guide rod; 11. and a guide post.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Referring to fig. 1-5, a spacer slotting die of a hollow glass shutter comprises a hollow glass 1, four hollow spacer strips 2 enclosing the periphery of the hollow glass 1, a shutter 3 arranged in the hollow glass 1, a blade retracting mechanism and a blade turning mechanism 4 for the shutter 3, wherein the spacer strips 2 comprise two spacer strip single bodies 2a with a first side edge 2a1 and a second side edge 2a2 which are perpendicular to each other, the two spacer strip single bodies 2a can be mutually matched and combined together, the blade turning mechanism 4 comprises a shutter shaft 4a arranged in the spacer strip 2 on the upper side of the hollow glass 1, a plurality of shutter control wheels 4b arranged on the shutter shaft 4a at intervals along the extending direction of the shutter shaft 4a, and shutter pulling ropes 4c connected to the shutter control wheels 4b, the shutter pulling ropes 4c are connected to a bottom beam of the shutter 3 after being connected with blades of the shutter 3, and the spacer slotting die is arranged on a base 5 for opening rope grooves 6 for the shutter 3 c of the shutter strips 2 on the upper side of the hollow glass 1 one by one. Here, when the two division bar units 2a are combined together, the two first side edges 2a1 are positioned in the same plane and connected to each other, and the two second side edges 2a2 are parallel to each other.

The parting bead slotting die comprises an upper die 7, wherein the upper die 7 comprises an upper die body 7a and a cutter 7b arranged at the bottom of the upper die body 7 a; the lower die 8 comprises a lower die body 8a, two clamping grooves 8b which are parallel to each other and are arranged on the lower die body 8a and used for clamping and embedding the first side edges 2a1 of the two parting bead monomers 2a, and a supporting module 8c which is arranged between the two clamping grooves 8b and used for supporting the second side edges 2a2 of the two parting bead monomers 2 a; at least one of the upper die 7 or the lower die 8 can move along the direction approaching the other, the projection of the cutter 7b on the moving direction of the upper die 7 or the lower die 8 can simultaneously pass through the second side edges 2a2 of the two parting bead monomers 2a, two corresponding notches 6a are formed on the two second side edges 2a2, and the two notches 6a are combined to form the rope groove 6.

Here, through setting up upper die 7 and lower mould 8, set up cutter 7b on upper die 7, set up two draw-in grooves 8b that are parallel to each other that are used for inlay card parting bead monomer 2 a's first side 2a1 and be used for supporting parting bead monomer 2 a's second side 2a 2's support module 8c, can open two assorted notch 6a to the corresponding position of two second sides 2a2 on support module 8c simultaneously through cutter 7b, avoided the waste of material, practiced thrift the cost, and this parting bead slotting die simple structure, convenient operation.

In the present embodiment, the upper die 7 is movable in a direction approaching the lower die 8. Here, the parting bead slotting die is fixedly arranged on the electric punching machine, wherein the base 5 is fixedly arranged on the base of the electric punching machine, the upper die 7 is connected to the punch of the electric punching machine, and the punch of the electric punching machine drives the upper die 7 to move. The electric punching machine is a double-pegboard punching machine tool, which is the prior art, and the specific structure is not repeated.

The support modules 8c are arranged at intervals along the extending direction of the clamping groove 8 b. A cutter groove 8d is formed between the two support modules 8c, and the cutter 7b can be clamped in the cutter groove 8d in a matched manner. Here, by providing the cutter groove 8d, the cutter 7b can cut the second side edge 2a2 more easily and penetrate into the cutter groove 8d, improving the grooving efficiency.

In this embodiment, the parting bead slotting die further comprises a positioning assembly 9 arranged at one side of the lower die 8, the positioning assembly 9 comprises two positioning rods 9a respectively arranged along the extending direction of the two clamping grooves 8b, and a positioning clamping plate 9b respectively arranged along the extending direction of the vertical positioning rods 9a and two ends of which are respectively connected with the two positioning rods 9a, the positioning rods 9a are provided with positioning grooves 9c, and the parting bead monomers 2a can sequentially pass through the clamping grooves 8b and the positioning grooves 9c along the axial direction and are abutted against the positioning clamping plate 9 b. Wherein the positioning clamping plate 9b is slidably arranged on the positioning rod 9a along the extending direction of the positioning rod 9 a. Through the setting of location cardboard 9b, can be better fix a position the fluting position on two parting bead monomers 2a, avoid the unmatched condition of notch 6a on two parting bead monomers 2 a.

The parting bead slotting die further comprises a guide rod 10 arranged at the bottom of the upper die 7 and extending towards the direction close to the lower die 8, and a guide post 11 arranged on the lower die 8, wherein the guide rod 10 can be axially penetrated into the guide post 11. The guide posts 11 are two, and are respectively located at two sides of the support module 8c parallel to the extending direction of the clamping groove 8b, and correspondingly, the guide rods 10 are two and are arranged in one-to-one correspondence with the two guide posts 11. The arrangement of the guide rod 10 and the guide post 11 ensures the die assembly direction of the upper die 7 and the lower die 8.

The working procedure of this embodiment is specifically described below: when slotting is needed, the first side edge 2a1 of the two parting bead monomers 2a are respectively clamped in the two clamping grooves 8b, the second side edge 2a2 is lapped on the supporting module 8c, the position of the positioning clamping plate 9b is adjusted, the parting bead monomers 2a are moved to prop against the positioning clamping plate 9b, then the punching machine is started, the cutter 7b moves downwards, corresponding notches 6a are formed in corresponding positions on the two second side edges 2a, the positioning clamping plate 9b is slid to the other position, the parting bead monomers 2a are moved again to prop against the positioning clamping plate 9b, then the punching machine is started again, the cutter 7b moves downwards, corresponding notches 6a are formed in the other positions on the two second side edges 2a2, the operation is repeated until all notches 6a on the second side edges 2a are slotted, slotting is finished, then the two parting bead monomers 2a are combined to form parting bead monomers 2, and a plurality of notches 6a on each parting bead monomer 2a are respectively combined with a plurality of notches 6a on the other parting bead monomers 2a to form rope grooves 6 one by one.

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

Claims (6)

1. The hollow glass shutter comprises a hollow glass (1), four hollow partition strips (2) enclosing the periphery of the hollow glass (1), a shutter (3) arranged in the hollow glass (1), a blade retracting mechanism and a blade turning mechanism (4) for the shutter (3), wherein the partition strips (2) comprise two partition strip monomers (2 a) with a first side edge (2 a 1) and a second side edge (2 a 2) which are mutually perpendicular, the two partition strip monomers (2 a) can be mutually matched and combined together, the blade turning mechanism (4) comprises a shutter shaft (4 a) arranged on the upper side of the hollow glass (1) in the partition strip (2), a plurality of shutter control wheels (4 b) arranged on the shutter shaft (4 a) at intervals along the extending direction of the shutter shaft (4 a), a shutter blade (4 c) connected to the control wheels (4 b) and a shutter (3) and a pull rope (3) are connected with a groove (3) of the shutter (3) one another, the shutter (4 c) is arranged on the shutter (3) and the hollow glass shutter (1) and the partition strip (3) are connected with a groove (3), the method is characterized in that:

the parting bead slotting die comprises

The upper die (7) comprises an upper die body (7 a) and a cutter (7 b) arranged at the bottom of the upper die body (7 a);

the lower die (8) comprises a lower die body (8 a), two clamping grooves (8 b) which are arranged on the lower die body (8 a) and are parallel to each other and used for clamping the first side edges (2 a 1) of the two parting bead monomers (2 a), and a supporting module (8 c) which is arranged between the two clamping grooves (8 b) and is used for supporting the second side edges (2 a 2) of the two parting bead monomers (2 a);

at least one of the upper die (7) or the lower die (8) can move along the direction approaching to the other of the upper die (7) or the lower die (8), and the projection of the cutter (7 b) in the moving direction of the upper die (7) or the lower die (8) can simultaneously pass through the second side edges (2 a 2) of the two parting bead monomers (2 a) and two corresponding notches (6 a) are formed on the two second side edges (2 a 2), and the two notches (6 a) are combined to form the rope groove (6);

the upper die (7) can move along the direction approaching the lower die (8);

the parting bead slotting die is characterized by further comprising a positioning assembly (9) arranged on one side of the lower die (8), wherein the positioning assembly (9) comprises two positioning rods (9 a) which are respectively arranged along the extending directions of the two clamping grooves (8 b), and a positioning clamping plate (9 b) which is respectively arranged along the extending directions of the positioning rods (9 a) and is respectively connected with the two positioning rods (9 a) at two ends, the positioning rods (9 a) are provided with positioning grooves (9 c), and parting bead monomers (2 a) can sequentially pass through the clamping grooves (8 b) and the positioning grooves (9 c) along the axial direction of the parting bead monomers and are abutted to the positioning clamping plate (9 b).

2. The spacer slotting die of a hollow glass blind according to claim 1, wherein: the number of the supporting modules (8 c) is two, and the supporting modules are arranged at intervals along the extending direction of the clamping groove (8 b).

3. The spacer slotting die of a hollow glass blind according to claim 2, wherein: a knife groove (8 d) is formed between the two support modules (8 c), and the cutter (7 b) can be matched and clamped in the knife groove (8 d).

4. The spacer slotting die of a hollow glass blind according to claim 1, wherein: the locating clamping plate (9 b) is slidably arranged on the locating rod (9 a) along the extending direction of the locating rod (9 a).

5. The spacer slotting die of a hollow glass blind according to claim 1, wherein: the parting bead slotting die further comprises a guide rod (10) arranged at the bottom of the upper die (7) and extending towards the direction close to the lower die (8), and a guide column (11) arranged on the lower die (8), wherein the guide rod (10) can penetrate through the guide column (11) along the axial direction of the guide rod.

6. The spacer slotting die of a hollow glass blind according to claim 5, wherein: the guide posts (11) are two, are respectively positioned on two sides of the supporting module (8 c) parallel to the extending direction of the clamping groove (8 b), and correspondingly, the guide rods (10) are two and are arranged in one-to-one correspondence with the two guide posts (11).