CN219767352U - Automatic assembling equipment for extracting pipe - Google Patents
Automatic assembling equipment for extracting pipe Download PDFInfo
- Publication number
- CN219767352U CN219767352U CN202321203620.6U CN202321203620U CN219767352U CN 219767352 U CN219767352 U CN 219767352U CN 202321203620 U CN202321203620 U CN 202321203620U CN 219767352 U CN219767352 U CN 219767352U
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- Prior art keywords
- lower cover
- upper cover
- assembly
- seat
- cylinder
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- 238000000605 extraction Methods 0.000 claims abstract description 13
- 238000007599 discharging Methods 0.000 claims abstract description 10
- 230000000903 blocking effect Effects 0.000 claims description 31
- 230000007704 transition Effects 0.000 claims description 18
- 238000007664 blowing Methods 0.000 claims description 6
- 230000000694 effects Effects 0.000 claims description 2
- 230000000149 penetrating effect Effects 0.000 claims description 2
- 238000000034 method Methods 0.000 abstract description 3
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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- Automatic Assembly (AREA)
Abstract
The utility model discloses automatic assembling equipment for an extraction pipe, which comprises a frame, a lower cover feeding mechanism, an upper cover feeding mechanism, a lower cover vibration disc, a lower cover direct vibration, an upper cover vibration disc, an upper cover direct vibration, a front portal frame, an assembling mechanism and a blanking barrel, wherein the lower cover vibration disc, the upper cover vibration disc, the front portal frame, the assembling mechanism and the blanking barrel are arranged on the top surface of the front portal frame, the discharging end of the lower cover vibration disc is connected with the feeding end of the lower cover direct vibration, the discharging end of the lower cover direct vibration is connected with the lower cover feeding mechanism, the discharging end of the upper cover vibration disc is connected with the feeding end of the upper cover direct vibration, and the discharging end of the upper cover direct vibration is connected with the upper cover feeding mechanism. Because the lower cover and the upper cover are respectively and directly conveyed to the lower cover feeding mechanism and the upper cover feeding mechanism by the lower cover and the upper cover vibration, the assembly mechanism is used for sleeving the upper cover and rotationally assembling the upper cover on the lower cover, thereby completing the threaded assembly of the upper cover and the lower cover, and the whole assembly process is automatically completed.
Description
Technical Field
The utility model relates to assembly equipment, in particular to automatic assembly equipment for an extraction pipe.
Background
As shown in fig. 1, the extraction tube 100 is assembled by an upper cover 101 and a lower cover 102, and the upper cover 101 and the lower cover 102 are connected by threads, so that the problem of rotational connection needs to be solved in the assembly process.
Disclosure of Invention
The utility model aims to provide automatic extraction pipe assembling equipment capable of completing threaded assembly of products.
In order to achieve the above object, the technical solution of the present utility model is:
the utility model relates to automatic assembling equipment for an extraction pipe, which comprises a frame, a lower cover vibration disc, a lower cover direct vibration disc, an upper cover direct vibration disc, a front portal frame, a lower cover feeding mechanism, an upper cover feeding mechanism, an assembling mechanism and a blanking cylinder, wherein the frame is provided with a lower cover vibration disc;
the lower cover vibration disk, the lower cover direct vibration, the upper cover vibration disk, the upper cover direct vibration, the front portal frame, the assembly mechanism and the blanking cylinder are all installed on the frame, the lower cover feeding mechanism and the upper cover feeding mechanism are installed on the top surface of the front portal frame, the discharge end of the lower cover vibration disk is connected with the feed end of the lower cover direct vibration, the discharge end of the lower cover direct vibration is connected with the lower cover feeding mechanism, the discharge end of the upper cover vibration disk is connected with the feed end of the upper cover direct vibration, the discharge end of the upper cover direct vibration is connected with the upper cover feeding mechanism, and the blanking cylinder is installed right below the front portal frame.
The lower cover feeding mechanism comprises an assembly seat, a lower cover sliding table cylinder, a pulling block, a blocking cylinder and a blocking rod; the assembly seat, the cylinder body of the lower cover sliding table cylinder and the cylinder body of the blocking cylinder are all installed on the top surface of the front portal frame, the piston rod end of the lower cover sliding table cylinder is connected with the outer end of the pulling block, the inner end of the pulling block is connected in the assembly seat in a sliding mode, the piston rod end of the blocking cylinder is connected with the outer end of the blocking rod, and the inner end of the blocking rod is movably arranged in the assembly seat in a penetrating mode.
The middle part of the assembly seat is provided with a long groove, the side wall of the long groove is provided with a blocking hole, the inner end of the pulling block is slidingly connected in the long groove of the assembly seat, and the inner end of the blocking rod movably penetrates through the blocking hole of the assembly seat and stretches into the long groove.
The pulling block comprises a pulling body and a tail block; the material pulling body is provided with a blanking groove on the outer side, the blanking groove is located above the blanking cylinder, the tail block is fixed on the inner side of the material pulling body and is an L-shaped component, and the inner side of the tail block is suspended so that the blocking rod penetrates.
The upper cover feeding mechanism comprises a discharging seat, an upper cover sliding table cylinder and a pulling rod; the cylinder body of blowing seat and upper cover slip table jar is all installed at the top surface of preceding portal frame and blowing seat and lower cover feeding mechanism's assembly seat parallel arrangement, and the piston rod end of upper cover slip table jar is connected with the outer end of pull rod, and the inner of pull rod stretches into the blowing seat, has a storage tank that is used for placing the upper cover at the pull rod inner.
The assembly mechanism comprises an assembly frame, an assembly sliding table cylinder, a motor seat, a rotary motor and a rotary sleeve mechanism; the lower extreme of assembly frame is fixed in the frame, and the cylinder body of assembly slip table jar is fixed at the top surface of assembly frame, and the piston rod end of assembly slip table jar is connected with the motor seat, and rotary motor installs on the motor seat, and the upper end of cover mechanism soon is fixed on rotary motor's output shaft, and cover mechanism soon's lower extreme stretches downwards to lower cover feeding mechanism soon.
The rotating sleeve mechanism comprises a transition shaft, a rotating sleeve, a rotating spring and a limiting bolt; the upper end of the transition shaft is connected with an output shaft of the rotary motor, the upper end of the rotary sleeve is movably sleeved in a central hole of the transition shaft, the rotary spring is arranged in the central hole of the transition shaft, two ends of the rotary spring respectively lean against the top surface of the central hole and the top surface of the rotary sleeve, the limit bolts are in threaded holes on two sides of the transition shaft in a threaded manner, and the limit bolts penetrate through the threaded holes of the transition shaft and then are inserted into long grooves on two sides of the rotary sleeve in a clearance manner, so that the effect of limiting the moving distance of the rotary sleeve is achieved. After the scheme is adopted, the upper cover vibration disc sends the upper cover to the upper cover feeding mechanism through the upper cover direct vibration, and the assembly mechanism is rotationally assembled on the lower cover after the upper cover is sleeved by the assembly mechanism, so that the threaded rotation assembly of the upper cover and the lower cover is completed, and the whole assembly process is automatically completed.
The utility model will be further described with reference to the drawings and the specific examples.
Drawings
FIG. 1 is an isometric view of an extraction tube;
FIG. 2 is an isometric view of the present utility model;
FIG. 3 is an isometric view of the present utility model with the vibration plate removed;
FIG. 4 is an isometric view of a lower cap feed mechanism and an upper cap feed mechanism of the present utility model;
FIG. 5 is an exploded perspective view of the lower cover feed mechanism of the present utility model;
FIG. 6 is an isometric view of a pull block in the lower cap feed mechanism of the present utility model;
FIG. 7 is an isometric view of the assembly mechanism of the present utility model;
fig. 8 is a cross-sectional view of the swivel mechanism in the assembly mechanism of the present utility model.
Detailed Description
As shown in fig. 2 and 3, the utility model relates to automatic assembling equipment for an extraction tube, which comprises a frame 1, a lower cover vibration disc 2, a lower cover direct vibration 3, an upper cover vibration disc 4, an upper cover direct vibration 5, a front portal frame 6, a lower cover feeding mechanism 7, an upper cover feeding mechanism 8, an assembling mechanism 9 and a blanking cylinder 10.
The cover vibration disk 2, the lower cover direct vibration 3, the upper cover vibration disk 4, the upper cover direct vibration 5, the front portal frame 6, the assembly mechanism 9 and the blanking cylinder 10 are all installed on the frame 1, the lower cover feeding mechanism 7 and the upper cover feeding mechanism 8 are installed on the top surface of the front portal frame 6, the discharge end of the lower cover vibration disk 2 is connected with the feed end of the lower cover direct vibration 3, the discharge end of the lower cover direct vibration 3 is connected with the lower cover feeding mechanism 7, the discharge end of the upper cover vibration disk 4 is connected with the feed end of the upper cover direct vibration 5, the discharge end of the upper cover direct vibration 5 is connected with the upper cover feeding mechanism 8, and the blanking cylinder 10 is installed right below the front portal frame.
As shown in fig. 4-6, the lower cover feeding mechanism 7 comprises an assembly seat 71, a lower cover sliding table cylinder 72, a pulling block 73, a blocking cylinder 74 and a blocking rod 75; the assembly seat 71, the cylinder body of the lower cover sliding table cylinder 72 and the cylinder body of the blocking cylinder 74 are all arranged on the top surface of the front portal frame 6, the rod end of the piston rod of the lower cover sliding table cylinder 72 is connected with the outer end of the pulling block 73, the inner end of the pulling block 73 is slidingly connected in the assembly seat 71, the rod end of the piston rod of the blocking cylinder 74 is connected with the outer end of the blocking rod 75, and the inner end of the blocking rod 75 movably penetrates through the assembly seat 71.
The middle part of the assembly seat 71 is provided with a long groove 711, the side wall of the long groove 711 is provided with a blocking hole 712, the inner end of the pulling block 73 is slidingly connected in the long groove 711 of the assembly seat 71, and the inner end of the blocking rod 75 movably penetrates through the blocking hole 712 of the assembly seat 71 and extends into the long groove 711.
The pulling block 73 comprises a pulling body 731 and a tail block 732; the outside of the pulling body 731 is provided with a blanking groove 7311, the blanking groove 7311 is located above the blanking tube 10, the tail block 732 is fixed on the inside of the pulling body 731, the tail block 732 is an L-shaped member, and the inside of the tail block 732 is suspended 7321 so as to allow the blocking rod 75 to penetrate.
The upper cover feeding mechanism 8 comprises a discharging seat 81, an upper cover sliding table cylinder 82 and a pulling rod 83; the cylinder bodies of the discharging seat 81 and the upper cover sliding table cylinder 82 are both arranged on the top surface of the front portal frame 6, the discharging seat 81 and the assembly seat 71 of the lower cover feeding mechanism 7 are arranged in parallel, the rod end of the piston rod of the upper cover sliding table cylinder 82 is connected with the outer end of the pulling rod 83, the inner end of the pulling rod 83 stretches into the discharging seat 81, and a material placing groove 831 for placing the upper cover 101 is arranged at the inner end of the pulling rod 83.
As shown in fig. 7 and 8, the assembling mechanism 9 includes an assembling frame 91, an assembling slide cylinder 92, a motor seat 93, a rotary motor 94, and a rotary sleeve mechanism 95; the lower extreme of assembly frame 91 is fixed on frame 1, and the cylinder body of assembly slip table jar 92 is fixed at the top surface of assembly frame 91, and the piston rod end of assembly slip table jar 92 is connected with motor seat 93, and rotary motor 94 installs on motor seat 93, and the upper end of cover mechanism 95 is fixed on rotary motor 94's output shaft, and the lower extreme of cover mechanism 95 stretches downwards to lower cover feeding mechanism 7 soon.
The rotating sleeve mechanism 95 comprises a transition shaft 951, a rotating sleeve 952, a rotating spring 953 and two limiting bolts 954; the upper end of the transition shaft 951 is connected with the output shaft of the rotary motor 94, the upper end of the rotary sleeve 952 is movably sleeved in the central hole 9511 of the transition shaft 951, the rotary spring 953 is installed in the central hole 9511 of the transition shaft 951, two ends of the rotary spring 953 respectively lean against the top surface of the central hole 9511 and the top surface of the rotary sleeve 952, two limit bolts 953 are respectively screwed into screw holes 9512 on two sides of the transition shaft 951, and the limit bolts 953 are inserted into long grooves 9521 on two sides of the rotary sleeve 952 through gaps after passing through the screw holes 9512 of the transition shaft 951, so that the movement distance of the rotary sleeve 952 is limited.
The working principle of the utility model is as follows: .
As shown in fig. 3, 4 and 7, the lower cover vibration plate 2 sends the lower cover 102 to the lower cover feeder 7 through the lower cover direct vibration 3, the upper cover vibration plate 4 sends the upper cover 101 to the upper cover feeding mechanism 8 through the upper cover direct vibration 5, the lower cover sliding table cylinder 72 on the lower cover feeder 7 drives the pulling block 73 to clamp the lower cover 102, meanwhile, the upper cover feeding mechanism 8 moves the upper cover 101 in place, the assembling sliding table cylinder 92 on the assembling mechanism 9 drives the motor seat 93 to move in place, the rotating motor 94 drives the rotating sleeve mechanism 95 to sleeve the upper cover 101 and rotationally assemble the upper cover 101 on the lower cover 102, after the assembling is completed, the lower cover sliding table cylinder 72 on the lower cover feeder 7 drives the pulling block 73 to loosen the upper cover 101 and the lower cover 102 assembled together, and the blocking rod 75 prevents the upper cover 101 and the lower cover 102 assembled together from moving, so that the upper cover 101 and the lower cover 102 fall into the blanking cylinder 10.
The foregoing description is only illustrative of the preferred embodiments of the present utility model, and is not intended to limit the scope of the utility model, i.e., the equivalent changes and modifications to the utility model as described in the claims and specification should be considered as falling within the scope of the utility model.
Claims (7)
1. An automatic equipment of extracting tube, its characterized in that: the device comprises a frame, a lower cover vibration disc, a lower cover direct vibration disc, an upper cover direct vibration disc, a front portal frame, a lower cover feeding mechanism, an upper cover feeding mechanism, an assembly mechanism and a blanking cylinder;
the lower cover vibration disk, the lower cover direct vibration, the upper cover vibration disk, the upper cover direct vibration, the front portal frame, the assembly mechanism and the blanking cylinder are all installed on the frame, the lower cover feeding mechanism and the upper cover feeding mechanism are installed on the top surface of the front portal frame, the discharge end of the lower cover vibration disk is connected with the feed end of the lower cover direct vibration, the discharge end of the lower cover direct vibration is connected with the lower cover feeding mechanism, the discharge end of the upper cover vibration disk is connected with the feed end of the upper cover direct vibration, the discharge end of the upper cover direct vibration is connected with the upper cover feeding mechanism, and the blanking cylinder is installed right below the front portal frame.
2. The extraction tube automatic assembly apparatus of claim 1, wherein: the lower cover feeding mechanism comprises an assembly seat, a lower cover sliding table cylinder, a pulling block, a blocking cylinder and a blocking rod; the assembly seat, the cylinder body of the lower cover sliding table cylinder and the cylinder body of the blocking cylinder are all installed on the top surface of the front portal frame, the piston rod end of the lower cover sliding table cylinder is connected with the outer end of the pulling block, the inner end of the pulling block is connected in the assembly seat in a sliding mode, the piston rod end of the blocking cylinder is connected with the outer end of the blocking rod, and the inner end of the blocking rod is movably arranged in the assembly seat in a penetrating mode.
3. The extraction tube automatic assembly apparatus of claim 2, wherein: the middle part of the assembly seat is provided with a long groove, the side wall of the long groove is provided with a blocking hole, the inner end of the pulling block is slidingly connected in the long groove of the assembly seat, and the inner end of the blocking rod movably penetrates through the blocking hole of the assembly seat and stretches into the long groove.
4. The extraction tube automatic assembly apparatus of claim 2, wherein: the pulling block comprises a pulling body and a tail block; the material pulling body is provided with a blanking groove on the outer side, the blanking groove is located above the blanking cylinder, the tail block is fixed on the inner side of the material pulling body and is an L-shaped component, and the inner side of the tail block is suspended so that the blocking rod penetrates.
5. The extraction tube automatic assembly apparatus of claim 1, wherein: the upper cover feeding mechanism comprises a discharging seat, an upper cover sliding table cylinder and a pulling rod; the cylinder body of blowing seat and upper cover slip table jar is all installed at the top surface of preceding portal frame and blowing seat and lower cover feeding mechanism's assembly seat parallel arrangement, and the piston rod end of upper cover slip table jar is connected with the outer end of pull rod, and the inner of pull rod stretches into the blowing seat, has a storage tank that is used for placing the upper cover at the pull rod inner.
6. The extraction tube automatic assembly apparatus of claim 1, wherein: the assembly mechanism comprises an assembly frame, an assembly sliding table cylinder, a motor seat, a rotary motor and a rotary sleeve mechanism; the lower extreme of assembly frame is fixed in the frame, and the cylinder body of assembly slip table jar is fixed at the top surface of assembly frame, and the piston rod end of assembly slip table jar is connected with the motor seat, and rotary motor installs on the motor seat, and the upper end of cover mechanism soon is fixed on rotary motor's output shaft, and cover mechanism soon's lower extreme stretches downwards to lower cover feeding mechanism soon.
7. The extraction tube automatic assembly apparatus of claim 6, wherein: the rotating sleeve mechanism comprises a transition shaft, a rotating sleeve, a rotating spring and a limiting bolt; the upper end of the transition shaft is connected with an output shaft of the rotary motor, the upper end of the rotary sleeve is movably sleeved in a central hole of the transition shaft, the rotary spring is arranged in the central hole of the transition shaft, two ends of the rotary spring respectively lean against the top surface of the central hole and the top surface of the rotary sleeve, the limit bolts are in threaded holes on two sides of the transition shaft in a threaded manner, and the limit bolts penetrate through the threaded holes of the transition shaft and then are inserted into long grooves on two sides of the rotary sleeve in a clearance manner, so that the effect of limiting the moving distance of the rotary sleeve is achieved.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321203620.6U CN219767352U (en) | 2023-05-18 | 2023-05-18 | Automatic assembling equipment for extracting pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321203620.6U CN219767352U (en) | 2023-05-18 | 2023-05-18 | Automatic assembling equipment for extracting pipe |
Publications (1)
Publication Number | Publication Date |
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CN219767352U true CN219767352U (en) | 2023-09-29 |
Family
ID=88109979
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202321203620.6U Active CN219767352U (en) | 2023-05-18 | 2023-05-18 | Automatic assembling equipment for extracting pipe |
Country Status (1)
Country | Link |
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CN (1) | CN219767352U (en) |
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2023
- 2023-05-18 CN CN202321203620.6U patent/CN219767352U/en active Active
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