CN213134768U

CN213134768U - Microwave circulator forming device

Info

Publication number: CN213134768U
Application number: CN202022079815.7U
Authority: CN
Inventors: 王慧卉
Original assignee: Zhuzhou Huayi Microwave Technology Co ltd
Current assignee: Zhuzhou Huayi Microwave Technology Co ltd
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2021-05-07
Anticipated expiration: 2030-09-22

Abstract

The utility model provides a microwave circulator forming device, which comprises a storage box and a press, wherein one end of an inner cavity of the storage box is obliquely provided with a conveyer belt, the top of the conveyer belt extends upwards out of the storage box to form an output end, both sides of the conveying direction of the conveyer belt are provided with lateral baffles, a guide rod is obliquely arranged between the upper parts of the two lateral baffles, the surface of the conveyer belt is provided with a feeding supporting plate along the conveying direction, the upper part of one lateral baffle is provided with a support leading-out port, the support leading-out port is positioned below the higher end of the guide rod, and a discharging plate is fixed outside; the lower die assembly is mounted on a processing table of the press, the upper die is mounted at the bottom of the lifting arm above the lower die assembly, and the material pushing assembly is arranged on one side of the lower die assembly. Rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation are high.

Description

Microwave circulator forming device

Technical Field

The utility model belongs to the technical field of the microwave circulator technique and specifically relates to indicate a microwave circulator forming device.

Background

When traditional circulator core lid and circulator main part were made up, adopt the delivery sheet to send the circulator main part to the lower mould of press usually, rethread manual with tweezers clamp up the core lid, put the core lid in the main part, promote tweezers and make the core lid centering, rethread press-fit after the centering, this kind of mode has intensity of labour big, the shortcoming of inefficiency, the press is when the pressfitting simultaneously, artifical security can't be ensured.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a microwave circulator forming device rational in infrastructure, excellent in use effect, degree of automation is high.

In order to achieve the above object, the present invention provides a technical solution: a microwave circulator forming device comprises a storage box and a press, wherein a conveying belt is obliquely arranged at one end of an inner cavity of the storage box, the top of the conveying belt extends upwards out of the storage box to form an output end, lateral baffles are arranged on two sides of the conveying direction of the conveying belt, a guide rod is obliquely arranged between the upper parts of the two lateral baffles, the surface of the conveying belt is provided with feeding support plates of which the number is more than 10 along the conveying direction, the length direction of each feeding support plate is consistent with the width direction of the conveying belt, a support guide outlet is arranged on the upper part of one lateral baffle, the support guide outlet is positioned below the higher end of the guide rod, and a discharge plate; the lower die assembly is mounted on a processing table of the press, the upper die is mounted at the bottom of the lifting arm above the lower die assembly, and the material pushing assembly is arranged on one side of the lower die assembly.

The lower die assembly comprises a lower die base, a pressing block and a positioning plate, wherein two sides of the bottom of the lower die base horizontally extend outwards to form the pressing block, the pressing block is installed in a processing table of a press through a screw rod, a buffer cavity formed by sinking is formed in the top of the lower die base, a return spring is installed at the bottom of the buffer cavity, the positioning plate is movably installed in the buffer cavity at the top of the return spring, a cavity formed by sinking is formed in the center of the top of the positioning plate, a feed inlet in the top of the installed positioning plate is flush with the surface of the processing table, centering push plates are arranged on two sides of the cavity inner cavity, a centering assembly is arranged on the pressing block and connected with the centering push plates, a material ejecting groove is formed in the positioning; the locating plate lower part activity cartridge is in the cushion chamber, and locating plate middle part both sides are fixed with the deflector, and die holder top edge is fixed with vertical ascending guide pillar, and the guide pillar top upwards passes the deflector and forms the extension end.

Centering subassembly including centering ejector pin, centering connecting rod, centering push rod, wherein, centering ejector pin is vertical to be fixed at the briquetting top, centering ejector pin top is installed and is touched the wheel, centering connecting rod one end is articulated with the die holder of conflict wheel top, the centering connecting rod other end upwards bends and forms the push rod hinge arm, centering push rod one end is articulated with push rod hinge arm one end, the centering push rod other end is articulated with push pedal rod one end, the push pedal rod other end passes the die holder and is connected with centering push pedal one side, form centering locating area between two centering push pedals after the installation, push rod hinge arm bottom is connected with the hinge arm spring, hinge arm spring bottom is connected with the briquetting top downwards, conflict wheel face and centering connecting rod bottom after the installation are contradicted.

The width of row's flitch entry end be less than the width of exit end, the entry end is connected with the side direction baffle of support export bottom, row flitch both sides upwards extend and form the spacing limit of side direction, the spacing edge of side direction of storage case one side is equipped with the flash mouth, the flash mouth outside is connected with the flash baffle, the flash baffle export extends downwards in the storage case, the spacing limit of side direction of opposite side distorts gradually and becomes the level by vertical, it has the layer board passageway to reserve between leading bar inboard and the conveyer belt bearing surface, the width of layer board passageway is greater than the width of material loading layer board.

The material pushing assembly comprises a feeding plate, a material ejecting cylinder and a material ejecting push plate, wherein the material ejecting cylinder is horizontally arranged on a processing table at one side of the lower die assembly, the material ejecting push plate is arranged on a piston rod of the material ejecting cylinder, the material ejecting push plate is opposite to one side of the lower die assembly, the feeding plate is arranged at the other side of the lower die assembly, a longitudinal discharging plate is fixed at one side of the processing table between the material ejecting cylinder and the lower die assembly, a discharging outlet of the longitudinal discharging plate is positioned between the lower die assembly and the material ejecting cylinder, a material pushing fixed plate is arranged on the processing table, a material stripping cylinder is horizontally arranged on the material pushing fixed plate, a material stripping push plate is arranged on a piston rod of the material stripping cylinder, and the; the material ejecting push plate, the material feeding plate and the material stripping push plate are respectively positioned at the left side, the right side and the front side of the lower die assembly; one end of the ejection push plate is connected with the ejection cylinder, the side wall of the ejection push plate on one side of the discharge outlet extends towards the ejection cylinder to form a limiting baffle, and the side wall of the other side of the ejection push plate extends towards the lower die assembly to form a limiting push plate.

After adopting the above scheme, the utility model, circulator core lid is placed in the storage case, drive through the conveyer belt and arrange the material to arrange the flitch on, the circulator main part is delivered to the lower mould subassembly through the delivery sheet in, the circulator core lid is arranged the material through arranging the flitch and is delivered to and push away the material subassembly in, the rethread pushes away the material subassembly and pushes away the circulator core lid to the circulator main part in, rethread press drive go up the mould and carry out the pressfitting with the circulator main part with the circulator core lid, rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the connection between the flash port and the flash guide plate of the present invention.

Fig. 3 is a schematic view of the lower mold assembly of the present invention.

Fig. 4 is a schematic view of the centering assembly of the present invention.

Fig. 5 is a schematic view of the structure of the discharging plate of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 5, the microwave circulator forming device described in this embodiment includes a storage box 1 and a press 30, a conveying belt 2 is obliquely installed at one end of an inner cavity of the storage box 1, the top of the conveying belt 2 extends upwards out of the storage box 1 to form an output end, lateral baffles 3 are arranged at two sides of the conveying direction of the conveying belt 2, a guide rod 5 is obliquely installed between the upper parts of the two lateral baffles 3, feeding support plates 4 with the number larger than 10 are arranged on the surface of the conveying belt 2 along the conveying direction, the length direction of the feeding support plates 4 is consistent with the width direction of the conveying belt 2, a support guide outlet 7 is arranged at the upper part of one of the lateral baffles 3, the support guide outlet 7 is located below the higher end of the guide rod 5, and a discharge; a lower die assembly is arranged on a processing table of the press 30, an upper die 102 is arranged at the bottom of the lifting arm above the lower die assembly, and a material pushing assembly is arranged on one side of the lower die assembly.

The lower die assembly comprises a lower die base 101, a pressing block 103 and a positioning plate 105, wherein two sides of the bottom of the lower die base 101 extend outwards horizontally to form the pressing block 103, the pressing block 103 is installed in a processing table of the press 30 through a screw, a buffer cavity 1017 formed by sinking is formed in the top of the lower die base 101, a return spring 104 is installed at the bottom of the buffer cavity 1017, the positioning plate 105 is movably installed in the buffer cavity 1017 at the top of the return spring 104, a cavity 108 formed by sinking is formed in the center of the top of the positioning plate 105, a feed inlet at the top of the installed positioning plate 105 is flush with the surface of the processing table, centering push plates 109 are arranged on two sides of an inner cavity of the cavity 108, a centering assembly is arranged on the pressing block 103 and connected with the centering push plates 109, a jacking groove is formed in the positioning plate 105 at; the lower part of the positioning plate 105 is movably inserted into the buffer cavity 1017, guide plates 106 are fixed on two sides of the middle part of the positioning plate 105, a vertical upward guide pillar 107 is fixed on the edge of the top of the lower die holder 101, and the top of the guide pillar 107 upwards penetrates through the guide plates 106 to form an extending end.

The centering assembly comprises a centering top rod 1012, a centering connecting rod 1013 and a centering push rod 1014, wherein the centering top rod 1012 is vertically fixed on the top of the pressing block 103, a contact wheel 1015 is installed on the top of the centering top rod 1012, one end of the centering connecting rod 1013 is hinged with the lower die holder 101 above the contact wheel 1015, the other end of the centering connecting rod 1013 is bent upwards to form a push rod hinged arm, one end of the centering push rod 1014 is hinged with one end of the push rod hinged arm, the other end of the centering push rod 1014 is hinged with one end of the push rod 1018, the other end of the push rod 1018 penetrates through the lower die holder 101 to be connected with one side of the centering push plate 109, a centering positioning area is formed between the two centering push plates 109 after installation, the bottom of the push rod hinged arm is connected with a hinged arm spring 1016, the bottom.

Arrange the width of the 6 entry ends of flitch and be less than the width of exit end, the entry end is connected with the side direction baffle 3 of the 7 bottoms of support leading-out mouth, arrange the 6 both sides of flitch and upwards extend and form the spacing limit of side direction, the spacing edge of side direction of storage case 1 one side is equipped with flash 8, the 8 outside of flash is connected with flash baffle 9, the export of flash baffle 9 extends downwards in the storage case 1, the spacing limit of side direction of opposite side distorts gradually and becomes the level by vertical, it has the layer board passageway to reserve between 5 inboards of guide bar and the 2 bearing surfaces of conveyer belt, the width of layer board passageway is greater than.

The material pushing assembly comprises a feeding plate 206, a material ejecting cylinder 204 and a material ejecting push plate 205, wherein the material ejecting cylinder 204 is horizontally arranged on a processing table at one side of the lower die assembly, the material ejecting push plate 205 is arranged on a piston rod of the material ejecting cylinder 204, the material ejecting push plate 205 is right opposite to one side of the lower die assembly, the feeding plate 206 is arranged at the other side of the lower die assembly, a longitudinal discharging plate 203 is fixed at one side of the processing table between the material ejecting cylinder 204 and the lower die assembly, a discharging outlet of the longitudinal discharging plate 203 is positioned between the lower die assembly and the material ejecting cylinder 204, a material pushing fixing plate 207 is arranged on the processing table, a material stripping cylinder 208 is horizontally arranged on the material pushing fixing plate 207, a material stripping push plate is arranged on a piston rod of the material stripping cylinder 208; the material ejecting push plate 205, the material feeding plate 206 and the material stripping push plate are respectively positioned at the left side and the right side and the front side of the lower die assembly; one end of the ejection push plate 205 is connected with the ejection cylinder 204, the side wall of the ejection push plate 205 on one side of the discharge outlet extends towards the ejection cylinder 204 to form a limiting baffle 2010, and the side wall on the other side of the ejection push plate 205 extends towards the lower die assembly to form a limiting push plate 209.

The front and back of the cavity of the positioning plate are designed to be penetrated so as to be convenient for material removal, the core cover and the main body respectively enter from the left side and the right side of the positioning plate, the size of the storage box is designed according to the requirement, the width of the feeding supporting plate is smaller than the thickness of the core cover of the microwave circulator, the width of the supporting plate channel (the distance between the inner side of the guide rod and the bearing surface of the conveying belt) is larger than the width of the feeding supporting plate and smaller than the thickness of the core cover of the microwave circulator, the conveying belt runs through the feeding supporting plate to support the core cover of the microwave circulator in the storage box and conveys the core cover upwards, when the core cover runs to the guide rod, the core cover of the microwave circulator runs to the higher end of the guide rod under the action of the inclined guide rod and the limiting action, the core cover is sequentially arranged to the discharging plate from the guide outlet of the bracket, the gradually twisted discharging plate is adopted so that the core cover entering the, under the pushing of the subsequent microwave circulator core cover, the microwave circulator core cover overflows from the flash port, falls onto the flash guide plate and returns into the storage box through the flash guide plate;

the corner of the front end of the ejection push plate on one side of the discharge outlet in the conveying direction adopts arc smooth transition, the damage to the subsequent microwave circulator core cover when the ejection push plate advances is prevented, the ejection cylinder in the original state contracts, the ejection push plate and the rear discharge outlet are arranged outside, the limiting push plate is right opposite to the discharge outlet, a station to be pushed is formed between the limiting push plate and the discharge outlet, the microwave circulator core covers are arranged and conveyed through a longitudinal discharge plate, the microwave circulator core cover closest to a processing table enters the station to be pushed, the end part of the microwave circulator core cover is blocked by the limiting push plate, the circulator main body is conveyed into a cavity through a feeding plate and is supported by an ejection block (the surface of the circulator main body is flush with the surface of the processing table, the circulator main body is positioned through the cavity, which is not improved in the prior mechanism), when the circulator main body enters, the ejection cylinder piston rod extends out to push the ejection push plate, the ejection push plate synchronously pushes the core cover of the microwave circulator in the station to be pushed to the top of the circulator main body, the ejection push plate drives the limiting baffle to be blocked at the discharge outlet while moving forwards, and the core cover of the microwave circulator enters;

the upper die starts to be pressed downwards, the centering connecting rod is always abutted against the abutting wheel under the tension of the hinged arm spring, after the guide pressing plate at the bottom of the upper die is contacted with the positioning plate, the positioning plate moves downwards under the pressure of the guide pressing plate, the return spring is stressed and compressed, under the action of the abutting force of the centering connecting rod and the abutting wheel, the push rod hinged arms at the outer ends of the centering connecting rods at two sides of the positioning plate move upwards, the centering push rods are pushed when the push rod hinged arms move upwards, the centering push rods drive the two centering push plates to move oppositely through the push rod, so that the core cover of the microwave circulator is pushed into the circulator main body to be centered and positioned, the upper die continues to move downwards to press the core cover into the main body through the upper die core, when the core cover is pressed into the material ejecting groove, the ejecting spring is stressed and compressed, after the processing is finished, the upper die moves upwards to leave, the outer end of the centering connecting rod goes downwards at the same time, the centering push rod is pulled outwards, the centering push rod synchronously drives the centering push plate to move outwards through the push plate rod, and meanwhile, the material ejecting spring loses pressure, pushes the material ejecting block upwards, and ejects the microwave circulator main body through the material ejecting block; at the moment, the piston rod of the stripping cylinder extends out to drive the stripping push plate to advance, and the stripping push plate pushes out the microwave circulator main body to finish stripping.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a microwave circulator forming device, it is including storage case (1), press (30), its characterized in that: a conveying belt (2) is obliquely installed at one end of an inner cavity of the storage box (1), the top of the conveying belt (2) extends upwards out of the storage box (1) to form an output end, lateral baffles (3) are arranged on two sides of the conveying direction of the conveying belt (2), a guide rod (5) is obliquely installed between the upper portions of the two lateral baffles (3), the surface of the conveying belt (2) is provided with feeding support plates (4) of which the number is more than 10 along the conveying direction, the length direction of the feeding support plates (4) is consistent with the width direction of the conveying belt (2), a support guide outlet (7) is arranged on the upper portion of one lateral baffle (3), the support guide outlet (7) is positioned below the higher end of the guide rod (5), and a discharge plate (6) is; a lower die assembly is arranged on a processing table of the press (30), an upper die (102) is arranged at the bottom of the extension arm above the lower die assembly, and a material pushing assembly is arranged on one side of the lower die assembly.

2. A microwave circulator shaping device as claimed in claim 1, wherein: the lower die component comprises a lower die seat (101), a pressing block (103) and a positioning plate (105), wherein two sides of the bottom of the lower die seat (101) extend outwards horizontally to form the pressing block (103), the pressing block (103) is installed in a processing table of a press (30) through a screw, a buffer cavity (1017) formed by sinking is arranged at the top of the lower die seat (101), a reset spring (104) is installed at the bottom of the buffer cavity (1017), the positioning plate (105) is movably installed in the buffer cavity (1017) at the top of the reset spring (104), a cavity (108) formed by sinking is arranged at the center of the top of the positioning plate (105), a feed inlet at the top of the installed positioning plate (105) is flush with the surface of the processing table, centering push plates (109) are arranged at two sides of the inner cavity of the cavity (108), centering components are arranged on the pressing block (103), the centering components are connected with, a material ejecting block (1010) is movably arranged in the material ejecting groove, and an ejecting spring (1011) is arranged at the bottom of the material ejecting block (1010); the lower part of the positioning plate (105) is movably inserted into the buffer cavity (1017), guide plates (106) are fixed to two sides of the middle of the positioning plate (105), a vertical upward guide pillar (107) is fixed to the edge of the top of the lower die holder (101), and the top of the guide pillar (107) upwards penetrates through the guide plates (106) to form an extending end.

3. A microwave circulator shaping device as claimed in claim 2, wherein: the centering component comprises a centering ejector rod (1012), a centering connecting rod (1013) and a centering push rod (1014), wherein, the centering top rod (1012) is vertically fixed on the top of the pressing block (103), the top of the centering top rod (1012) is provided with a contact wheel (1015), one end of the centering connecting rod (1013) is hinged with the lower die seat (101) above the contact wheel (1015), the other end of the centering connecting rod (1013) is bent upwards to form a push rod hinged arm, one end of the centering push rod (1014) is hinged with one end of the push rod hinged arm, the other end of the centering push rod (1014) is hinged to one end of a push plate rod (1018), the other end of the push plate rod (1018) penetrates through the lower die holder (101) to be connected with one side of the centering push plate (109), a centering positioning area is formed between the two installed centering push plates (109), the bottom of a hinged arm of the push rod is connected with a hinged arm spring (1016), the bottom of the hinged arm spring (1016) is downwards connected with the top of the pressing block (103), and the wheel face of the top of the contact wheel (1015) after installation is abutted against the bottom of the centering connecting rod (1013).

4. A microwave circulator shaping device as claimed in claim 1, wherein: arrange the width of flitch (6) entry end and be less than the width of exit end, the entry end is connected with side direction baffle (3) of support export (7) bottom, it forms the spacing limit of side direction to arrange flitch (6) both sides upwards to extend, the spacing edge of side direction of storage case (1) one side is equipped with flash (8), flash (8) outside is connected with flash baffle (9), flash baffle (9) export downwardly extending in storage case (1), the spacing limit of side direction of opposite side distorts gradually and becomes the level by vertical, it has the layer board passageway to reserve between guide bar (5) inboard and conveyer belt (2) bearing surface, the width of layer board passageway is greater than the width of material loading layer board (4).

5. A microwave circulator shaping device as claimed in claim 1, wherein: the material pushing assembly comprises a feeding plate (206), a material ejecting cylinder (204) and a material ejecting push plate (205), wherein the material ejecting cylinder (204) is horizontally arranged on a processing table on one side of the lower die assembly, the material ejecting push plate (205) is arranged on a piston rod of the material ejecting cylinder (204), the material ejecting push plate (205) is right opposite to one side of the lower die assembly, the feeding plate (206) is arranged on the other side of the lower die assembly, a longitudinal discharging plate (203) is fixed on one side of the processing table between the material ejecting cylinder (204) and the lower die assembly, a discharging outlet of the longitudinal discharging plate (203) is positioned between the lower die assembly and the material ejecting cylinder (204), a material pushing fixing plate (207) is arranged on the processing table, a material stripping cylinder (208) is horizontally arranged on the material pushing fixing plate (207), a material stripping push plate is arranged on a piston rod of the material stripping; the material ejecting push plate (205), the material feeding plate (206) and the material stripping push plate are respectively positioned at the left side, the right side and the front side of the lower die assembly; one end of the ejection push plate (205) is connected with the ejection cylinder (204), the side wall of the ejection push plate (205) on one side of the discharge outlet extends towards the ejection cylinder (204) to form a limiting baffle (2010), and the side wall of the other side of the ejection push plate (205) extends towards the lower die assembly to form a limiting push plate (209).