CN214358466U - Protective sleeve material loading selection is to device - Google Patents

Protective sleeve material loading selection is to device Download PDF

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Publication number
CN214358466U
CN214358466U CN202022563702.4U CN202022563702U CN214358466U CN 214358466 U CN214358466 U CN 214358466U CN 202022563702 U CN202022563702 U CN 202022563702U CN 214358466 U CN214358466 U CN 214358466U
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China
Prior art keywords
protective sleeve
block
mounting
plate
mounting plate
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CN202022563702.4U
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Chinese (zh)
Inventor
陈浩然
刘继冰
任振军
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AVIC Shenyang Xinghua Aero Electrical Appliance Co Ltd
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AVIC Shenyang Xinghua Aero Electrical Appliance Co Ltd
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Priority to CN202022563702.4U priority Critical patent/CN214358466U/en
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Abstract

The utility model provides a protective case material loading is selected to device, the device include feed portion to and install the detection of installing in feed portion one side and select to portion, feed portion includes first bottom plate, protective case vibration dish and protective case delivery track, protective case vibration dish is installed on first bottom plate, and protective case delivery track installs at protective case vibration dish discharge end for carry protective case to detect the selection to portion. The utility model discloses can arrange the material loading according to the direction that requires with protective case fast and accurately, improve production efficiency and accuracy.

Description

Protective sleeve material loading selection is to device
Technical Field
The utility model belongs to the technical field of the assembly of electric connector part, a protective case material loading selection is to device is related to.
Background
At present, the jack and the protective sleeve are assembled manually, the jack (100) shown in fig. 4 has an open end at one end, the protective sleeve (200) has a closed end (200-1) at one end, and during assembly, the open end of the jack (100) needs to be inserted into the reverse end of the closed end (200-1) of the protective sleeve (200) as shown in fig. 5. The four-point extruding position of the jack (100) is in interference fit with the inner wall of the protective sleeve (200), so that riveting and pressing are needed during assembly, and four-point extruding is carried out at the four-point extruding position shown in figure 5 after pressing, so that the protective sleeve (200) and the jack (100) cannot be separated, and the assembly is firm.
At present, the assembly process is manually assembled through a tool, the jack is manually placed in a positioning tool, the direction of the protective sleeve is manually determined and then inserted, the protective sleeve is tapped with a small hammer and is simultaneously visually observed until the protective sleeve is in place, and then the protective sleeve is placed on a squeezing point tool and is regulated to the required squeezing point position for squeezing. Therefore, the manual operation efficiency of the protection sleeve direction selection is low, and judgment errors are easy to occur.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides a protective case material loading selects to the device, can arrange protective case material loading according to the direction that requires fast and accurately, has improved production efficiency and accuracy.
In order to achieve the above purpose, the utility model adopts the following technical scheme: a protective sleeve feeding direction selection device comprises a feeding portion and a detection direction selection portion, wherein the detection direction selection portion is installed on one side of the feeding portion, the feeding portion comprises a first bottom plate, a protective sleeve vibration disc and a protective sleeve conveying track, the protective sleeve vibration disc is installed on the first bottom plate, and the protective sleeve conveying track is installed at the discharge end of the protective sleeve vibration disc and used for conveying protective sleeves to the detection direction selection portion;
the detection direction selection part comprises a second bottom plate;
the 2 vertical supports are fixed on the second bottom plate in a front-back parallel mode;
the bracket mounting plate is horizontally mounted on the 2 vertical brackets;
the first linear guide rail is arranged on 1 vertical bracket at the front position in the 2 vertical brackets along the vertical direction;
the sliding block is connected with the first linear guide rail in a sliding manner;
the sliding block connecting plate is fixedly installed with the sliding block;
the vertical moving cylinder is arranged at the bottom end of the sliding block connecting plate;
the first buffer is arranged at the front end of the bracket mounting plate;
a second buffer installed below the first linear guide;
the supporting plate is fixed on the upper front end face of the sliding block mounting plate;
the bearing seat mounting plate is horizontally arranged above the supporting plate;
the bearing seat is arranged on the bearing seat mounting plate;
the motor mounting plate is vertically arranged at the front end of the bearing seat mounting plate;
the motor is arranged on the motor mounting plate and is connected with the bearing seat through a coupler;
the clamping jaw air cylinder connecting shaft is connected with the bearing seat;
the protective sleeve clamping jaw air cylinder is connected with the clamping jaw air cylinder connecting shaft;
2 protective sleeve clamping jaws are arranged on a protective sleeve clamping jaw cylinder one above the other, and the protective sleeve clamping jaw cylinder drives the 2 protective sleeve clamping jaws to open and close;
the mounting seat is mounted on the support mounting plate and is provided with a square through hole;
the guide shaft is vertically fixed on the support mounting plate and is arranged in the square through hole;
the first spring is sleeved on the guide shaft;
the protective sleeve conveying rail comprises a baffle plate, a guide shaft, a protective sleeve conveying rail, a mounting seat, a protective sleeve conveying rail, a boss and a first spring, wherein the baffle plate is arranged in a square through hole in the vertical direction, the top end of the guide shaft penetrates into the baffle plate, the top end of the first spring is in contact with the bottom end of the baffle plate, the baffle plate can move up and down in the square through hole along the guide shaft under the elastic acting force of the first spring, the top end of the baffle plate is provided with the U-shaped opening for a protective sleeve to pass through, the boss is arranged on the inner side end face of the baffle plate, the 2 protective sleeve clamping jaws are arranged above the boss, in the initial state, the first spring is in a natural state, the top end of the baffle plate extends out of the mounting seat to block an outlet of the protective sleeve conveying rail, and the 2 protective sleeve clamping jaws are all arranged above the boss of the baffle plate;
the material detecting block is arranged above the mounting seat and is arranged on the right side of the square through hole, and a track for conveying the protective sleeve is arranged above the material detecting block;
the photoelectric sensor is arranged between the material detection block and the protective sleeve clamping jaw, the left end of the material detection block is arranged above the photoelectric sensor, and the photoelectric sensor is used for detecting whether the protective sleeve enters the material detection block or not;
and the direction selection assembly is arranged at the tail end of the mounting seat and is used for realizing the direction selection of the protective sleeve.
Furthermore, the direction selecting assembly comprises a guide rail mounting plate which is transversely fixed at the tail end above the mounting seat, and the rear end of the guide rail mounting plate is provided with an opening;
the second linear guide rail is transversely erected above the left end and the right end of the guide rail mounting plate;
the 2 optical fiber mounting block assemblies are respectively arranged at the left end and the right end of the opening of the guide rail mounting plate and are slidably mounted on the second linear guide rail;
2 cylinder connecting blocks which are respectively slidably mounted with the second linear guide rail and vertically fixed with the optical fiber mounting block component;
the detection cylinder is arranged below the guide rail mounting plate and horizontally mounted on one of the cylinder connecting blocks, the extending end of the detection cylinder is connected with the other cylinder connecting block, and when the detection cylinder is closed, the 2 optical fiber mounting block assemblies move oppositely along the second linear guide rail.
Furthermore, the direction selecting assembly further comprises a limiting block which is fixed on the inner side of any one of the 2 optical fiber installation block assemblies and used for limiting the moving positions of the 2 optical fiber installation block assemblies.
Further, the optical fiber installation block assembly comprises an installation block body, an optical fiber, a light blocking block, a second spring and a detection needle, wherein the optical fiber is arranged in the installation block body, a groove is formed in the front end of the installation block body, a through hole corresponding to the position of the optical fiber is formed in the end face of the groove, the detection needle transversely penetrates through two ends of the groove, the second spring and the light blocking block are sleeved on the detection needle, the two ends of the detection needle protrude out of the end face of the installation block body in the initial state, and the light blocking block is arranged on the outer side of the through hole under the elastic action of the second spring.
Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses a protective case material loading selection can realize arranging protective case material loading according to the direction that requires fast and accurately to the device, has improved production efficiency and accuracy.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is a schematic structural view of a fiber mounting block assembly;
FIG. 3 is an exploded view of a part in which a mounting seat, a striker plate, a guide shaft, a photoelectric sensor, a detection block, a protective sleeve clamping jaw cylinder and a protective sleeve clamping jaw of a protective sleeve direction selection assembly are mounted;
FIG. 4 is a schematic view of an unassembled socket and protective sleeve;
FIG. 5 is a schematic view of the assembled socket and protective sleeve;
in the figure: 100. a jack 200, a protective sleeve 200-1, a closed end,
1. a first base plate; 2. protecting the sleeve vibrating disk; 3. protecting the sleeve conveying track; 4. a second base plate; 5. a vertical support; 6. a first linear guide rail; 7. a slider; 8. a slider connecting plate; 9. a vertical moving cylinder; 10. a first buffer; 11. a second buffer; 12. a support plate; 13. a bearing seat mounting plate; 14. a bearing seat; 15. a motor mounting plate; 16. a motor; 17. A clamping jaw cylinder connecting shaft; 18. a protective sleeve clamping jaw cylinder; 19. a protective sleeve jaw; 20. A mounting seat; 21. a guide shaft; 22. a first spring;
23. a striker plate; 231. a U-shaped opening; 232. a boss;
24. a material detecting block; 25. a photosensor; 26. a guide rail mounting plate; 27. a second linear guide;
28. an optical fiber mounting block assembly; 281. a mounting block body; 282. an optical fiber; 283. a light blocking block; 284. a second spring; 285. a detection pin;
29. a cylinder connecting block; 30. detecting a cylinder; 31. a limiting block; 32. and (7) mounting a bracket.
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 work belong to the protection scope of the present invention.
Examples
Referring to fig. 1-3, a protective sleeve feeding direction selection device comprises a feeding portion and a detection direction selection portion installed on one side of the feeding portion, wherein the feeding portion comprises a first bottom plate 1, a protective sleeve vibration plate 2 and a protective sleeve conveying rail 3, the protective sleeve vibration plate 2 is installed on the first bottom plate 1, and the protective sleeve conveying rail 3 is installed at the discharge end of the protective sleeve vibration plate 2 and used for conveying protective sleeves to the detection direction selection portion;
the detection direction selection part comprises a second bottom plate 4;
the 2 vertical supports 5 are fixed on the second bottom plate 4 in a front-back parallel mode;
a bracket mounting plate 32 horizontally mounted on the 2 vertical brackets 5;
a first linear guide 6 vertically installed on 1 vertical bracket 5 located at a front position among the 2 vertical brackets 5;
the sliding block 7 is connected with the first linear guide rail 6 in a sliding manner;
the sliding block connecting plate 8 is fixedly installed with the sliding block 7;
the vertical moving cylinder 9 is arranged at the bottom end of the sliding block connecting plate 8;
a first damper 10 mounted on a front end of the bracket mounting plate 32;
a second buffer 11 installed below the first linear guide 6;
the supporting plate 12 is fixed on the upper front end face of the slider mounting plate;
a bearing housing mounting plate 13 horizontally mounted above the support plate 12;
a bearing housing 14 mounted on the bearing housing mounting plate 13;
the motor mounting plate 15 is vertically arranged at the front end of the bearing seat mounting plate 13;
the motor 16 is arranged on the motor mounting plate 15 and is connected with the bearing seat 14 through a coupler;
a clamping jaw cylinder connecting shaft 17 connected with the bearing seat 14;
a protective sleeve clamping jaw air cylinder 18 connected with the clamping jaw air cylinder connecting shaft 17;
2 protective sleeve clamping jaws 19 are arranged on a protective sleeve clamping jaw cylinder 18 one above the other, and the protective sleeve clamping jaw cylinder 18 drives the opening and closing of the 2 protective sleeve clamping jaws 19;
the mounting seat 20 is mounted on the bracket mounting plate 32, and a square through hole is formed in the mounting seat 20;
the guide shaft 21 is vertically fixed on the bracket mounting plate 32 and is arranged in the square through hole;
a first spring 22 fitted around the guide shaft 21;
the striker plate 23 is arranged in the square through hole in the vertical direction, the top end of the guide shaft 21 penetrates into the striker plate 23, the top end of the first spring 22 is in contact with the bottom end of the striker plate 23, the striker plate 23 can move up and down in the square through hole along the guide shaft 21 under the elastic action of the first spring 22, the top end of the striker plate 23 is provided with a U-shaped opening 231 for a protective sleeve to pass through, the inner side end face of the striker plate 23 is provided with a boss 232, the 2 protective sleeve clamping jaws 19 are arranged above the boss 232, in an initial state, the first spring 22 is in a natural state, the top end of the striker plate 23 extends out of the mounting seat 20 to block an outlet of the protective sleeve conveying rail 3, and the 2 protective sleeve clamping jaws 19 are all arranged above the boss 232 of the striker plate 23;
the material detecting block 24 is arranged above the mounting seat 20 and is arranged on the right side of the square through hole, and a track for conveying the protective sleeve is arranged above the material detecting block 24;
the photoelectric sensor 25 is arranged between the material detecting block 24 and the protective sleeve clamping jaw 19, the left end of the material detecting block 24 is arranged above the photoelectric sensor 25, and the photoelectric sensor 25 is used for detecting whether a protective sleeve enters the material detecting block 24 or not;
and the direction selection assembly is arranged at the tail end of the mounting seat 20 and is used for realizing the direction selection of the protective sleeve.
The direction selecting assembly comprises a guide rail mounting plate 26 which is transversely fixed at the tail end above the mounting base 20, and an opening is formed in the rear end of the guide rail mounting plate 26;
a second linear guide 27 transversely mounted above the left and right ends of the guide mounting plate 26;
2 optical fiber mounting block assemblies 28 respectively disposed at the left and right ends of the opening of the guide rail mounting plate 26 and slidably mounted on the second linear guide rail 27;
2 cylinder connecting blocks 29 which are slidably mounted with the second linear guide rail 27 and are vertically fixed with the optical fiber mounting block assembly 28;
the detection cylinder 30 is arranged below the guide rail mounting plate and horizontally mounted on one cylinder connecting block 29, the extending end of the detection cylinder 30 is connected with the other cylinder connecting block 29, and when the detection cylinder 30 is closed, the 2 optical fiber mounting block assemblies 28 move oppositely along the second linear guide rail 27;
a stopper 31 fixed to the inner side of any one of the 2 optical fiber mounting block assemblies 28, for limiting the moving position of the 2 optical fiber mounting block assemblies 28;
the optical fiber installation block assembly 28 comprises an installation block body 281, an optical fiber 282, a light blocking block 283, a second spring 284 and a detection needle 285, wherein the optical fiber 282 is arranged in the installation block body 281, a groove is formed in the front end of the installation block body 281, a through hole corresponding to the position of the optical fiber 282 is formed in the end face of the groove, the detection needle 285 transversely penetrates through two ends of the groove, the second spring 284 and the light blocking block 283 are sleeved on the detection needle 285, in an initial state, two ends of the detection needle 285 protrude out of the end face of the installation block body 281, and the light blocking block 283 is arranged on the outer side of the through hole under the elastic force action of the second spring 284.
The utility model discloses a work flow: in the initial state, the vertical moving cylinder 9 is in an extending state, the protective sleeve clamping jaw cylinder 18 is in a closing state, the detection cylinder 30 is in an extending state, and the motor 16 drives the protective sleeve clamping jaw 19 to be in a vertical state. The protective sleeve 200 is placed inside the protective sleeve vibratory pan 2 and transported through the protective sleeve transport track 3. Firstly, the vertical moving cylinder 9 is retracted to drive the motor 16 and the protective sleeve clamping jaw cylinder 18 to fall down, then the protective sleeve clamping jaw cylinder 18 is opened to drive the protective sleeve clamping jaw 19 to press down the striker plate 23 through the boss 232, and the protective sleeve enters the detecting block 24 through the U-shaped opening 231 of the striker plate 23; then after the photoelectric sensor 25 outside the material detecting block 24 detects the incoming material, the protective sleeve clamping jaw air cylinder 18 is closed, the first spring 22 arranged on the lower side of the material baffle plate 23 bounces under the action of elastic force, and the material channel of the protective sleeve vibrating disk 2 is blocked, so that the subsequent protective sleeve 200 cannot move forwards continuously; then the vertical moving cylinder 9 extends out to drive the protective sleeve clamping jaw cylinder 18 and the motor 16 to move upwards, so that the protective sleeve 200 and the detection needle 285 are coaxial; then the detection cylinder 30 is closed to drive the two installation block bodies 281 to move oppositely at the same time, the two installation block bodies 281 drive the detection needle 285 to move until the detection needle contacts the protective sleeve 200, because one side of the protective sleeve 200 is provided with a closed end 200-1, the detection needle 285 at one side of the closed end 200-1 can not enter the protective sleeve 200, the detection needle 285 at the end is fixed to move reversely, thereby driving the light blocking block 283 to move reversely, blocking the optical fiber 282 installed in the corresponding installation block body 281, thereby judging the direction as the closed end 200-1 of the protective sleeve, then the detection cylinder 30 is opened, the light blocking block 283 drives the detection needle 285 to return to the initial position under the action of the second spring 284, the motor 16 drives the protective sleeve clamping jaw 19 to rotate, the inner closing port of the protective sleeve 200 is vertically placed upwards, and then the action is finished, each cylinder and the motor 16 return to the initial position, ready for the next cycle of action.
The utility model discloses can realize judging the protective case 200's of internal binding off direction to make the direction of requirement, towards a certain assigned position or direction, improve production efficiency and accuracy. The principle and the implementation of the present invention are explained herein by using specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (4)

1. A protective sleeve feeding direction selection device is characterized by comprising a feeding portion and a detection direction selection portion arranged on one side of the feeding portion, wherein the feeding portion comprises a first bottom plate, a protective sleeve vibration disc and a protective sleeve conveying rail;
the detection direction selection part comprises a second bottom plate;
the 2 vertical supports are fixed on the second bottom plate in a front-back parallel mode;
the bracket mounting plate is horizontally mounted on the 2 vertical brackets;
the first linear guide rail is arranged on 1 vertical bracket at the front position in the 2 vertical brackets along the vertical direction;
the sliding block is connected with the first linear guide rail in a sliding manner;
the sliding block connecting plate is fixedly installed with the sliding block;
the vertical moving cylinder is arranged at the bottom end of the sliding block connecting plate;
the first buffer is arranged at the front end of the bracket mounting plate;
a second buffer installed below the first linear guide;
the supporting plate is fixed on the upper front end face of the sliding block mounting plate;
the bearing seat mounting plate is horizontally arranged above the supporting plate;
the bearing seat is arranged on the bearing seat mounting plate;
the motor mounting plate is vertically arranged at the front end of the bearing seat mounting plate;
the motor is arranged on the motor mounting plate and is connected with the bearing seat through a coupler;
the clamping jaw air cylinder connecting shaft is connected with the bearing seat;
the protective sleeve clamping jaw air cylinder is connected with the clamping jaw air cylinder connecting shaft;
2 protective sleeve clamping jaws are arranged on a protective sleeve clamping jaw cylinder one above the other, and the protective sleeve clamping jaw cylinder drives the 2 protective sleeve clamping jaws to open and close;
the mounting seat is mounted on the support mounting plate and is provided with a square through hole;
the guide shaft is vertically fixed on the support mounting plate and is arranged in the square through hole;
the first spring is sleeved on the guide shaft;
the protective sleeve conveying rail comprises a baffle plate, a guide shaft, a protective sleeve conveying rail, a mounting seat, a protective sleeve conveying rail, a boss and a first spring, wherein the baffle plate is arranged in a square through hole in the vertical direction, the top end of the guide shaft penetrates into the baffle plate, the top end of the first spring is in contact with the bottom end of the baffle plate, the baffle plate can move up and down in the square through hole along the guide shaft under the elastic acting force of the first spring, the top end of the baffle plate is provided with the U-shaped opening for a protective sleeve to pass through, the boss is arranged on the inner side end face of the baffle plate, the 2 protective sleeve clamping jaws are arranged above the boss, in the initial state, the first spring is in a natural state, the top end of the baffle plate extends out of the mounting seat to block an outlet of the protective sleeve conveying rail, and the 2 protective sleeve clamping jaws are all arranged above the boss of the baffle plate;
the material detecting block is arranged above the mounting seat and is arranged on the right side of the square through hole, and a track for conveying the protective sleeve is arranged above the material detecting block;
the photoelectric sensor is arranged between the material detection block and the protective sleeve clamping jaw, the left end of the material detection block is arranged above the photoelectric sensor, and the photoelectric sensor is used for detecting whether the protective sleeve enters the material detection block or not;
and the direction selection assembly is arranged at the tail end of the mounting seat and is used for realizing the direction selection of the protective sleeve.
2. The protective sleeve feeding direction-selecting device as claimed in claim 1, wherein the direction-selecting assembly comprises a guide rail mounting plate transversely fixed at the upper end of the mounting base, and an opening is formed at the rear end of the guide rail mounting plate;
the second linear guide rail is transversely erected above the left end and the right end of the guide rail mounting plate;
the 2 optical fiber mounting block assemblies are respectively arranged at the left end and the right end of the opening of the guide rail mounting plate and are slidably mounted on the second linear guide rail;
2 cylinder connecting blocks which are respectively slidably mounted with the second linear guide rail and vertically fixed with the optical fiber mounting block component;
the detection cylinder is arranged below the guide rail mounting plate and horizontally mounted on one of the cylinder connecting blocks, the extending end of the detection cylinder is connected with the other cylinder connecting block, and when the detection cylinder is closed, the 2 optical fiber mounting block assemblies move oppositely along the second linear guide rail.
3. The protective sleeve feeding and direction-selecting device as claimed in claim 1, wherein the direction-selecting assembly further comprises a limiting block fixed inside any one of the 2 optical fiber mounting block assemblies for limiting the moving positions of the 2 optical fiber mounting block assemblies.
4. The protective sleeve feeding and direction-selecting device as claimed in claim 2, wherein the optical fiber mounting block assembly includes a mounting block body, an optical fiber, a light blocking block, a second spring and a detection pin, the optical fiber is disposed in the mounting block body, a groove is disposed at the front end of the mounting block body, a through hole corresponding to the position of the optical fiber is disposed on the end surface of the groove, the detection pin is transversely disposed at two ends of the groove, the second spring and the light blocking block are sleeved on the detection pin, in an initial state, two ends of the detection pin protrude out of the end surface of the mounting block body, and the light blocking block is disposed outside the through hole under the elastic force of the second spring.
CN202022563702.4U 2020-11-09 2020-11-09 Protective sleeve material loading selection is to device Active CN214358466U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022563702.4U CN214358466U (en) 2020-11-09 2020-11-09 Protective sleeve material loading selection is to device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022563702.4U CN214358466U (en) 2020-11-09 2020-11-09 Protective sleeve material loading selection is to device

Publications (1)

Publication Number Publication Date
CN214358466U true CN214358466U (en) 2021-10-08

Family

ID=77976828

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022563702.4U Active CN214358466U (en) 2020-11-09 2020-11-09 Protective sleeve material loading selection is to device

Country Status (1)

Country Link
CN (1) CN214358466U (en)

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