CN218925164U - Dispensing assembly and packaging equipment - Google Patents

Abstract

The utility model discloses a dispensing assembly and packaging equipment, wherein the dispensing assembly is used for packaging equipment and is used for coating glue on an optical fiber in a beam combiner after primary packaging, and the dispensing assembly comprises a frame, a transfer seat and a dispensing part; the machine frame is arranged along the left and right directions, and is provided with a heating pad for heating and preserving heat of the beam combiner arranged on the machine frame; two mounting positions which are arranged side by side are formed on the end surface of one side of the transfer seat in the front-back direction, and the transfer seat is movably arranged on the frame and is used for enabling the two mounting positions to sequentially move to be positioned above the beam combiner; the glue dispensing part comprises a heat-dissipating glue dispensing part and a sealing glue dispensing part which are respectively arranged at two mounting positions, wherein the heat-dissipating glue dispensing part and the sealing glue dispensing part can move up and down, and are used for respectively moving down to the glue dispensing positions to glue optical fibers in the combiner when the corresponding mounting positions are positioned above the combiner; therefore, automatic dispensing is realized, the structure is simple, and the operation is simple and convenient.

Description

Dispensing assembly and packaging equipment

Technical Field

The utility model relates to the technical field of beam combiner packaging, in particular to a dispensing assembly and packaging equipment.

Background

The 6+1 device is used as an important component of an optical device optical fiber output line, the demand is huge, and in the whole 6+1 device secondary packaging process, the 6+1 device optical fiber is required to be packaged and fixed, wherein the dispensing and curing are critical to production. At present, a 6+1 device packaging process mostly adopts manual dispensing needle heads to dispense, and because the optical fibers are paved on the device, the needle heads of the device are easy to scratch the optical fibers during manual dispensing, the cost of the optical device is higher, and unnecessary scratch can cause larger loss.

Disclosure of Invention

The utility model mainly aims to provide a dispensing assembly and packaging equipment, and aims to solve the problems of increased cost and reduced product quality caused by product damage due to manual dispensing in the secondary packaging process of the traditional beam combiner.

In order to achieve the above object, the present utility model provides a dispensing assembly, which is used for packaging equipment and is used for gluing an optical fiber in a beam combiner after once packaging, the dispensing assembly includes:

the machine frame is arranged along the left-right direction, and is provided with a heating pad for heating and preserving heat of the beam combiner arranged on the machine frame;

the transfer seat is movably arranged on the frame and is used for enabling the two mounting positions to sequentially move to be positioned above the beam combiner; the method comprises the steps of,

The glue dispensing part comprises a heat dissipation glue dispensing part and a sealing glue dispensing part which are respectively arranged at two mounting positions, wherein the heat dissipation glue dispensing part and the sealing glue dispensing part can move up and down, and are used for respectively moving downwards to the glue dispensing positions to glue optical fibers in the combiner when the corresponding mounting positions are positioned above the combiner.

Optionally, the dispensing assembly further includes:

the heat dissipation rubber cylinder is used for containing heat dissipation rubber, a heat dissipation rubber nozzle used for spraying the heat dissipation rubber is arranged at the bottom of the heat dissipation rubber cylinder, and the heat dissipation rubber cylinder is movably arranged on the transfer seat along the up-down direction;

the sealing rubber cylinder is used for containing sealing rubber, the bottom of the sealing rubber cylinder is provided with a sealing rubber nozzle used for spraying the sealing rubber, and the sealing rubber cylinder is movably arranged on the transfer seat along the up-down direction and is arranged side by side with the heat dissipation rubber cylinder in the front-back direction; the method comprises the steps of,

the dispensing driving assembly is used for driving the piston of the heat dissipation rubber cylinder and the piston of the sealing rubber cylinder to move respectively and enabling the heat dissipation rubber and the sealing rubber to be sprayed out of the heat dissipation rubber nozzle and the sealing rubber nozzle respectively;

the heat dissipation glue dispensing part comprises the heat dissipation glue barrel, and the sealing glue dispensing part comprises the sealing glue barrel.

Optionally, the dispensing driving assembly includes:

the air pipe assembly comprises a main air pipe and two air distribution pipes, the air inlet end of the main air pipe is used for being connected with an external air pump, and the two air outlet ends of the two air distribution pipes are respectively connected with the heat dissipation rubber cylinder and the sealing rubber cylinder; the method comprises the steps of,

the valve body is connected between the air outlet end of the main air pipe and the two air inlet ends of the air distribution pipes, and is used for switching to enable the main air pipe to be respectively communicated with the two air distribution pipes so as to respectively supply air to the heat dissipation rubber cylinder and the sealing rubber cylinder and correspondingly drive the piston of the heat dissipation rubber cylinder or the piston of the sealing rubber cylinder to move.

Optionally, the dispensing assembly further includes:

the heat dissipation rubber cylinder driver is arranged on the transfer seat, and a heat dissipation rubber cylinder driving part of the heat dissipation rubber cylinder driver can move up and down and is in driving connection with the heat dissipation rubber cylinder; the method comprises the steps of,

the sealing rubber cylinder driver is arranged on the transfer seat, and a sealing rubber cylinder driving part of the sealing rubber cylinder driver can move up and down and is in driving connection with the sealing rubber cylinder.

Optionally, the dispensing assembly further comprises two rubber cylinder fixing frames, wherein the two rubber cylinder fixing frames are arranged on the transferring seat and are arranged side by side in the front-back direction;

The heat dissipation rubber cylinder and the sealing rubber cylinder are respectively and correspondingly arranged on the two rubber cylinder fixing frames.

Optionally, the dispensing assembly further includes two glue nozzle fixing seats, the two glue nozzle fixing seats are arranged on the transfer seat and are arranged in parallel in the front-back direction, two mounting holes are respectively formed in the upper end faces of the two glue nozzle fixing seats, and two inner walls of the two mounting holes are respectively matched with the outer wall of the heat dissipation glue nozzle and the outer wall of the sealing glue nozzle;

the heat dissipation glue nozzle and the sealant nozzle are respectively penetrated through the two mounting holes.

Optionally, the transfer seat further includes:

the transverse moving frame is movably arranged on the frame along the left-right direction, and the transverse moving frame extends along the front-back direction; the method comprises the steps of,

the longitudinal moving frame is movably arranged on the transverse moving frame along the front-back direction;

wherein, one side end face of the longitudinal moving frame is provided with two mounting positions.

Optionally, the dispensing assembly further includes:

the transverse moving driving part of the transverse moving driving device can move left and right and is used for driving and connecting the transverse moving frame; the method comprises the steps of,

the longitudinal movement driver is arranged on the transverse movement frame, and a longitudinal movement driving part of the longitudinal movement driver can move along the front and back directions and is used for driving and connecting the longitudinal movement frame.

Optionally, the dispensing assembly further includes a temperature detecting assembly disposed on the frame for detecting a temperature of the heating pad.

The utility model also provides packaging equipment, which comprises a dispensing assembly, wherein the dispensing assembly comprises:

the machine frame is arranged along the left-right direction, and is provided with a heating pad for heating and preserving heat of the beam combiner arranged on the machine frame;

the transfer seat is movably arranged on the frame and is used for enabling the two mounting positions to sequentially move to be positioned above the beam combiner; the method comprises the steps of,

the glue dispensing part comprises a heat dissipation glue dispensing part and a sealing glue dispensing part which are respectively arranged at two mounting positions, wherein the heat dissipation glue dispensing part and the sealing glue dispensing part can move up and down, and are used for respectively moving downwards to the glue dispensing positions to glue optical fibers in the combiner when the corresponding mounting positions are positioned above the combiner.

In the technical scheme of the utility model, the frame is provided with a heating pad for heating and preserving heat of the beam combiner arranged on the frame; two mounting positions which are arranged side by side are formed on the end surface of one side of the transfer seat in the front-back direction, and the transfer seat is movably arranged on the frame and is used for enabling the two mounting positions to sequentially move to be positioned above the beam combiner; the glue dispensing part comprises a heat-dissipating glue dispensing part and a sealing glue dispensing part which are respectively arranged at two mounting positions, wherein the heat-dissipating glue dispensing part and the sealing glue dispensing part can move up and down, and are used for respectively moving downwards to the glue dispensing positions to glue optical fibers in the combiner when the corresponding mounting positions are above the combiner; in the packaging process, the beam combiner after one-time packaging is required to be heated; the heat radiation glue dispensing part firstly carries out heat radiation glue coating operation on the positions of a plurality of input optical fibers in the combiner, and after the heat radiation glue coating is finished, the combiner is heated and kept stand for about 1 hour; then, the sealant dispensing part performs sealant coating operation on the positions of a plurality of input optical fibers and a single output optical fiber in the combiner, and after sealant coating is finished, the combiner is required to be heated again and kept stand for about 1 hour; by arranging the heating pad, the beam combiner can always maintain the preset temperature, so that the dispensing quality is improved, and the product packaging quality is further improved; the glue dispensing assembly can automatically glue the optical fibers in the combiner, so that the problem that the optical fibers are scratched when the glue is manually dispensed can be avoided, the problem of larger material loss can be avoided, and the production cost is reduced; and the quality of the product can be improved, and the stability of the quality characteristics of the product can be ensured.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an embodiment of a packaging apparatus according to the present utility model;

fig. 2 is a schematic structural view of the packaging apparatus (another view angle) in fig. 1;

FIG. 3 is a schematic diagram of the package assembly of FIG. 1;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is a schematic view of the structure of the encapsulation apparatus (frame plate open) in fig. 1;

FIG. 6 is an enlarged schematic view of portion B of FIG. 5;

fig. 7 is a schematic view of the structure of the cap discharging mechanism (cap stacked state) in fig. 5;

fig. 8 is a schematic view of the cap discharging mechanism (non-stacked cap state) in fig. 6.

Description of the embodiments of the utility model the reference numerals:

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the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" as it appears throughout includes three parallel schemes, for example "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The 6+1 device is used as an important component of an optical device optical fiber output line, the demand is huge, and in the whole 6+1 device secondary packaging process, the 6+1 device optical fiber is required to be packaged and fixed, wherein the dispensing and curing are critical to production. At present, a 6+1 device packaging process mostly adopts manual dispensing needle heads to dispense, and because the optical fibers are paved on the device, the needle heads of the device are easy to scratch the optical fibers during manual dispensing, the cost of the optical device is higher, and unnecessary scratch can cause larger loss.

In view of this, the present utility model provides a dispensing assembly and a packaging device. Fig. 1 to 8 are specific embodiments of a packaging apparatus provided by the present utility model.

Referring to fig. 1 to 2, the packaging apparatus 100 is configured to secondarily package the beam combiner 200 after primary packaging, and the packaging apparatus 100 includes a frame 1, a transfer base 2, and a packaging assembly 3; a packaging area is formed on the frame 1, and a bearing seat 11 is arranged on the position of the frame 1 corresponding to the packaging area and used for placing the beam combiner 200 to be packaged; the transfer seat 2 is movably arranged above the frame 1 and the bearing seat 11, and is used for enabling the three mounting parts to sequentially move to be above the beam combiner 200 on the moving stroke of the transfer seat 2; the package assembly 3 includes dispensing portions 31, a capping portion 32, and a fixing portion 33, which are respectively disposed on the three mounting portions, wherein the dispensing portions 31 are used for coating the optical fibers 300 in the combiner 200, the capping portion 32 is used for transferring the top cover 400 to the opening of the combiner 200, and the fixing portion 33 is used for driving fastening screws into the top cover 400 and the combiner 200.

In the technical scheme of the utility model, the packaging equipment 100 comprises a frame 1, a transfer seat 2 and a packaging assembly 3; the transferring seat 2 is movably arranged above the bearing seat 11 on the frame 1 and is arranged above the bearing seat 11 on the frame 1, and the three mounting parts are arranged side by side from left to right and are used for enabling the three mounting parts to sequentially move to be above the beam combiner 200 on the movable stroke; the package assembly 3 includes dispensing portions 31, a capping portion 32 and a fixing portion 33, which are respectively and correspondingly disposed on the three mounting portions, wherein the dispensing portions 31 are used for gluing the optical fibers 300 in the combiner 200, the capping portion 32 is used for transferring the top cover 400 to the opening of the combiner 200, and the fixing portion 33 is used for driving fastening screws into the top cover 400 and the combiner 200; in the packaging process, the transfer seat 2 moves to enable the dispensing part 31 to be positioned above the combiner 200, and the dispensing part 31 is used for gluing the optical fiber 300 in the combiner 200; after the glue application is completed, the transfer seat 2 moves leftwards, so that the cover 32 moves to be above the beam combiner 200, and the cover 32 is used for transferring the top cover 400 to the opening of the beam combiner 200; the transfer seat 2 moves leftwards again, so that the fixing part 33 moves to be positioned above the beam combiner 200, and the fixing part 33 is used for driving fastening screws on the top cover 400 and the beam combiner 200; that is, the automatic packaging of the beam combiner 200 is realized through automatic gluing, automatic capping and automatic screwing, the structure is simple, and the automatic packaging of the beam combiner 200 is smoother, so that the mass production yield of the beam combiner 200 is improved to meet the market demand; meanwhile, the optical fiber 300 in the beam combiner 200 replaces manual dispensing by the dispensing part 31, so that the problem that the optical fiber 300 is scratched when the manual dispensing is performed can be avoided, the problem of larger material loss can be avoided, and the production cost is reduced; and the quality of the product can be improved, and the stability of the quality characteristics of the product can be ensured.

Specifically, the packaging apparatus 100 further includes a working panel 14 provided on the rack 1, where the working panel 14 is disposed in a left-right direction; the bearing seat 11 is arranged on the upper end surface of the working panel 14.

In the present utility model, the packaging apparatus 100 further includes a heating pad 12 disposed on the carrying base 11, where the heating pad 12 is used for heating and preserving heat of the beam combiner 200 disposed thereon; the dispensing portion 31 includes a heat dissipation glue dispensing portion 311 and a sealant dispensing portion 312 disposed on the left side of the mounting portion, where the heat dissipation glue dispensing portion 311 and the sealant dispensing portion 312 are disposed at intervals in a front-rear direction, and are configured to be capable of moving to a position above the combiner 200 in sequence on a moving stroke of the transfer seat 2, so as to glue the optical fibers 300 in the combiner 200 in sequence; in the packaging process, the beam combiner 200 after the packaging is completed once needs to be heated; the heat-dissipating glue dispensing portion 311 performs a heat-dissipating glue coating operation on the positions of the plurality of input optical fibers in the combiner 200, and after the heat-dissipating glue coating is completed, the combiner 200 needs to be heated and kept stand for about 1 hour; then, the sealant dispensing portion 312 performs sealant coating operation on the positions of the plurality of input optical fibers and the single output optical fiber in the combiner 200, and after sealant coating is completed, the combiner 200 needs to be heated again and kept stand for about 1 hour; by arranging the heating pad 12, the beam combiner 200 can always maintain the preset temperature, so that the dispensing quality is improved, and the product packaging quality is further improved.

It should be noted that the temperature of the heating pad 12 is not limited in the present utility model, and the temperature of the heating pad 12 may be adjusted according to the actual type of the product, and in this embodiment, the heating temperature of the heating pad 12 is set to be 85±1 ℃.

Specifically, the heating pad 12 includes a pad body and a heater, the pad body is disposed on the carrying seat 11, a heating area is formed on the pad body, and the heater is disposed on the pad body and corresponds to the heating area, and is used for heating and preserving heat of the beam combiner 200 disposed thereon; the packaging apparatus 100 further includes a temperature detecting assembly and a control device, the control device includes a circuit board assembly, the circuit board assembly is electrically connected with the temperature detecting assembly and the heater, the temperature detecting assembly is used for detecting the temperature of the heating pad 12, and the control device is used for controlling the heater to adjust the heating operation when the temperature detecting assembly detects that the temperature of the heating pad 12 is abnormal; by the arrangement, the stability and the accuracy of the temperature of the heating pad 12 can be ensured, so that the dispensing quality of the beam combiner 200 is improved, and the production quality of products is further improved.

In order to facilitate maintenance of the device by a user, in the present utility model, the packaging device 100 further includes a tray 13, the tray 13 is detachably mounted on the upper end surface of the heating pad 12 by a positioning pin, and the tray 13 is used for placing the beam combiner 200; in this embodiment, the tray 13 can be replaced and taken out manually.

In this embodiment, the heating pad 12 is set to be a customized heating disc with a length of 1.2 meters, so as to heat the beam combiner 200 in real time, so as to ensure that the beam combiner 200 performs packaging operation at a temperature of 85±1 ℃, 3 trays 13 are detachably mounted above the customized heating disc, a silica gel pad is arranged on the upper end surface of the tray 13 and is used for placing the beam combiner 200, and the silica gel pad has a heat insulation function, so that the beam combiner 200 is prevented from being damaged due to direct contact with the customized heating disc and the tray 13, and the product quality is improved; the upper end face of the tray 13 is provided with a handle at the edge position, so that a user can conveniently disassemble and assemble the tray 13, 20 beam combiners 200 can be placed on each tray 13, and a limiting stop bar is detachably arranged on the tray 13 and used for limiting the beam combiners 200, so that the beam combiners 200 are arranged more regularly, and the packaging operation of the beam combiners 200 is smoother.

With further reference to fig. 2 to 4, the packaging assembly 3 further includes a heat dissipation glue cylinder 3111, a sealing glue cylinder 3121, and a dispensing driving assembly 313; the heat dissipation glue cylinder 3111 is configured to hold heat dissipation glue, and a heat dissipation glue nozzle 3112 for spraying the heat dissipation glue is disposed at the bottom of the heat dissipation glue cylinder 3111, and the heat dissipation glue cylinder 3111 is movably mounted on the mounting portion on the left side along the up-down direction, so that the heat dissipation glue nozzle 3112 can be moved down to a glue dispensing position when the transfer seat 2 moves to a position above the beam combiner 200; the sealing glue cylinder 3121 is used for containing sealing glue, the bottom of the sealing glue cylinder 3121 is provided with a sealing glue nozzle 3122 for injecting sealing glue, the sealing glue cylinder 3121 is movably installed on the left side of the installation part along the up-down direction and is arranged side by side with the heat dissipation glue cylinder 3111 in the front-back direction, so that when the transfer seat 2 moves to the position that the sealing glue cylinder 3121 is positioned above the beam combiner 200, the sealing glue nozzle 3122 can move down to the position that the sealing glue is positioned; the dispensing driving assembly 313 is configured to drive the piston of the heat dissipation glue cylinder 3111 and the piston of the sealing glue cylinder 3121 to move respectively, so that when the heat dissipation glue nozzle 3112 and the sealing glue nozzle 3122 are respectively located at the dispensing positions, the heat dissipation glue and the sealing glue can be sprayed from the heat dissipation glue nozzle 3112 and the sealing glue nozzle 3122 correspondingly; wherein, the heat dissipation glue dispensing part 311 comprises the heat dissipation glue cylinder 3111, and the sealing glue dispensing part 312 comprises the sealing glue cylinder 3121; in this embodiment, two mounting positions are formed on the left end face of the left mounting portion, the two mounting positions are arranged side by side in the front-rear direction, the heat dissipation glue barrel 3111 and the sealing glue barrel 3121 are respectively arranged on the two mounting positions, when the transfer seat 2 drives the mounting portion to move so that the heat dissipation glue barrel 3111 is above the beam combiner 200, the heat dissipation glue barrel 3111 moves down to the dispensing position, and the dispensing driving assembly 313 drives the piston of the heat dissipation glue barrel 3111 to move so that heat dissipation glue is sprayed out from the heat dissipation glue nozzle 3112 to spread heat dissipation glue on the positions of a plurality of input optical fibers in the beam combiner 200; when the transfer seat 2 drives the mounting portion to move so that the sealing rubber tube 3121 is above the combiner 200, the sealing rubber tube 3121 moves down to the dispensing position, and the dispensing driving assembly 313 drives the piston of the sealing rubber tube 3121 to move so that the sealing rubber is sprayed out from the sealing rubber nozzle 3122 to coat the positions of the plurality of input optical fibers and the single output optical fiber in the combiner 200 with the sealing rubber; the arrangement realizes automatic dispensing of the optical fiber 300 in the combiner 200; meanwhile, since the heat dissipation glue nozzle 3112 and the sealing glue nozzle 3122 perform glue spreading operation at the glue dispensing position, the problem that the optical fiber 300 is scratched by the head when glue is manually dispensed can be avoided, and not only the problem of larger material loss can be avoided, so that the production cost is reduced; the quality of the product can be improved, and the stability of the quality characteristics of the product can be ensured; meanwhile, the heat dissipation rubber cylinder 3111 and the sealing rubber cylinder 3121 are arranged for dispensing, so that a user can circularly use the empty rubber cylinder after injecting glue, and the material consumption and the production cost are reduced; furthermore, since the heat dissipation rubber cylinder 3111, the heat dissipation rubber nozzle 3112 and the piston thereof, and the seal rubber cylinder 3121, the seal rubber nozzle 3122 and the piston thereof are all consumable materials, the user can continue to use by replacing new components, thereby being convenient for manual disassembly and maintenance of equipment.

Specifically, the dispensing driving assembly 313 further includes an air tube assembly 3131 and a valve body; the air pipe assembly 3131 comprises a main air pipe and two air distribution pipes, wherein the air inlet end of the main air pipe is used for being connected with an external air pump, and the two air outlet ends of the two air distribution pipes are respectively connected with the heat dissipation rubber cylinder 3111 and the sealing rubber cylinder 3121; the valve body is connected between the air outlet end of the main air pipe and the two air inlet ends of the two air distribution pipes, and is used for switching to enable the main air pipe to be respectively communicated with the two air distribution pipes so as to respectively supply air or exhaust air to the heat dissipation rubber cylinder 3111 and the sealing rubber cylinder 3121, and correspondingly drive the piston of the heat dissipation rubber cylinder 3111 or the piston movement of the sealing rubber cylinder 3121 to move up and down respectively; that is, when the heat dissipating glue is required to be applied, the valve body is switched to communicate the main air pipe with the air distribution pipe connected to the heat dissipating glue cylinder 3111 to supply air to the heat dissipating glue cylinder 3111, so as to drive the piston of the heat dissipating glue cylinder 3111 to move downward, so that the heat dissipating glue is sprayed from the heat dissipating glue nozzle 3112 to apply the heat dissipating glue to the positions of the plurality of input optical fibers in the combiner 200; when the sealant needs to be coated, the valve body is switched to enable the main air pipe to be communicated with the air distribution pipe connected with the sealant cylinder 3121 so as to supply air to the sealant cylinder 3121, so that the piston of the sealant cylinder 3121 is driven to move downwards, the sealant is sprayed out from the sealant nozzle 3122, and the sealant is coated at the positions of a plurality of input optical fibers and a single output optical fiber in the combiner 200, so that the structure is simple, and the cost is low.

After the heat dissipation glue is applied, the external air pump is switched to pump air to the heat dissipation glue cylinder 3111, and the external air pump pumps air to move the piston of the heat dissipation glue cylinder 3111 upwards, so that glue solution at the heat dissipation glue nozzle 3112 is not dropped due to gravity, thereby ensuring proper heat dissipation glue application and preventing glue dropping from polluting the beam combiner 200; likewise, after the sealant is coated, the external air pump is switched to pump air to the sealant barrel 3121, and the external air pump is used to pump air to make the piston of the sealant barrel 3121 move upwards, so that the sealant at the sealant nozzle 3122 can not drip due to gravity, thereby ensuring proper sealant coating and preventing the sealant from polluting the beam combiner 200.

In order to further improve the dispensing quality, firstly, the dispensing track of the heat-dissipating glue cylinder 3111 is U-shaped, and the dispensing process is required to ensure that the heat-dissipating glue uniformly and completely covers the optical fiber and at the same time, excessive heat-dissipating glue cannot overflow; after the heat-dissipating glue is coated and kept stand on the heating pad 12 for about 1 hour, the glue dispensing track of the sealing glue cylinder 3121 is also U-shaped, and the glue dispensing process requires that the sealing glue uniformly and completely covers the heat-dissipating glue at a plurality of input fiber positions; at the position of a single output fiber, the sealing glue uniformly and completely covers the optical fiber part of the combiner 200, and meanwhile, more glue cannot overflow; after the sealant application was completed, the mixture was allowed to stand on the heating pad 12 for about 1 hour.

In the utility model, the packaging assembly 3 further comprises a heat dissipation rubber cylinder driver and a sealing rubber cylinder driver; the heat dissipation rubber cylinder driver is arranged on the transfer seat 2, and a driving part of the heat dissipation rubber cylinder 3111 can move up and down and is in driving connection with the heat dissipation rubber cylinder 3111; the sealing rubber cylinder driver is arranged on the transfer seat 2, and the driving part of the sealing rubber cylinder 3121 can move up and down and is in driving connection with the sealing rubber cylinder 3121; that is, the heat dissipation rubber cylinder 3111 and the sealing rubber cylinder 3121 are movable by the heat dissipation rubber cylinder driver and the sealing rubber cylinder driver, which is simple in structure, easy to operate and low in cost.

It should be noted that, the specific forms of the heat dissipation rubber cylinder driver and the sealing rubber cylinder driver are not limited, and a user can set the heat dissipation rubber cylinder driver and the sealing rubber cylinder driver according to actual use requirements.

In order to ensure the mounting stability of the dispensing portion 31, in the present utility model, the packaging assembly 3 further includes two glue cylinder fixing frames 314, and the two glue cylinder fixing frames 314 are disposed on the transfer seat 2 and are disposed side by side in a front-rear direction; the heat dissipation rubber cylinder 3111 and the sealing rubber cylinder 3121 are respectively and correspondingly arranged on the two rubber cylinder fixing frames 314.

In order to further ensure the mounting stability of the dispensing portion 31, in the present utility model, the packaging assembly 3 further includes two glue nozzle fixing seats 315, the two glue nozzle fixing seats 315 are disposed on the transfer seat 2 and are arranged side by side in front and back directions, two mounting holes are respectively formed in the upper end surfaces of the two glue nozzle fixing seats 315, and two inner walls of the two mounting holes are respectively adapted to the outer wall of the heat dissipation glue nozzle 3112 and the outer wall of the sealing glue nozzle 3122; the heat dissipation glue nozzle 3112 and the sealing glue nozzle 3122 are respectively arranged in the two mounting holes in a penetrating manner, and the glue cylinder fixing frame 314 and the glue nozzle fixing seat 315 are arranged, so that the mounting of the glue dispensing part 31 is more stable, and the glue dispensing precision is improved.

In the present utility model, the transfer base 2 includes a traverse frame 21 and a vertical frame 22; the transverse moving frame 21 is movably arranged on the frame 1 along the left-right direction, and the transverse moving frame 21 is arranged in a extending way along the front-back direction; the longitudinal moving frame 22 is movably mounted on the transverse moving frame 21 along the front-back direction; wherein, three said mounting portions are disposed side by side in the said vertical moving frame 22 sequentially from left to right; the transverse moving frame 21 and the longitudinal moving frame 22 realize the movement of the packaging assembly 3 in the front-back direction and the left-right direction, and the device is simple in structure and convenient to operate.

Specifically, the packaging apparatus 100 further includes a traverse driver 23 and a longitudinal movement driver 24; the transverse moving driver 23 is arranged on the frame 1, and a transverse moving driving part of the transverse moving driver can move left and right and is used for driving and connecting the transverse moving frame 21; the longitudinal movement driver 24 is arranged on the transverse movement frame 21, and a longitudinal movement driving part of the longitudinal movement driver can move along the left and right directions and is used for driving and connecting the longitudinal movement frame 22; the traversing drive 23 and the longitudinal moving drive 24 correspondingly drive the traversing frame 21 and the longitudinal moving frame 22 to move respectively, so that the displacement of the packaging assembly 3 is more accurate, and the packaging quality is improved.

The specific form of the traversing driver 23 and the longitudinal driver 24 is not limited in the present utility model, and the user may set the present utility model according to the actual requirement, specifically, in this embodiment, the traversing driver 23 and the longitudinal driver 24 are both provided as a linear module.

In the present utility model, referring to fig. 5 to 8, a discharging area is further formed on the frame 1, and the discharging area and the packaging area are arranged side by side in a left-right direction; the transfer seat 2 is used for transferring between the discharging area and the packaging area; the packaging device 100 further comprises a top cover discharging mechanism 4 arranged on the frame 1 and positioned in the discharging area, wherein the top cover discharging mechanism 4 is used for stacking a plurality of top covers 400; the packaging assembly 3 further comprises a sucker structure 321, wherein the sucker structure 321 is movably arranged at the middle mounting part along the up-down direction, and the sucker structure 321 is used for sucking a top cover 400 from the top cover discharging mechanism 4 and transferring the top cover 400 to the opening of the beam combiner 200; wherein the cover 32 includes the suction cup structure 321; that is, the top cover discharging mechanism 4 is disposed on the frame 1, the top cover discharging mechanism 4 is used for stacking a plurality of top covers 400, the sucker structure 321 is disposed on the mounting portion in the middle, after the heat dissipation glue barrel 3111 and the sealing glue barrel 3121 are used for dispensing the optical fibers 300 of the beam combiner 200, the transferring seat 2 drives the sucker structure 321 to move to the top cover discharging mechanism 4, the sucker structure 321 sucks a top cover 400 from the top cover discharging mechanism 4, the transferring seat 2 drives the sucker structure 321 to move above the beam combiner 200, and the sucker structure 321 places the top cover 400 on the opening of the beam combiner 200.

It should be noted that the suction cup structure 321 includes a suction cup seat movably disposed in the middle along the up-down direction, and two suction nozzles disposed at the bottom of the suction cup seat, where the two suction nozzles are disposed side by side along the front-back direction at intervals, and the two suction nozzles are communicated with the vacuum generator; the packaging assembly 3 further comprises a sucker driver, wherein a sucker driving part of the sucker driver is in driving connection with the sucker seat so as to drive the sucker seat to move up and down; that is, when the transfer seat 2 drives the suction cup seat to move to the top cover discharging mechanism 4, the suction cup driving part of the suction cup driver drives the suction cup seat to move downwards, and the vacuum generator is started, so that suction forces are generated at the two suction nozzles, and one top cover 400 can be sucked from the top cover discharging mechanism 4; the suction cup driving part of the suction cup driver drives the suction cup seat to move upwards, meanwhile, the transfer seat 2 drives the suction cup structure 321 to move to be positioned above the beam combiner 200, the suction cup driving part of the suction cup driver drives the suction cup seat to move downwards, the vacuum generator is closed, and the suction forces at the two suction nozzles disappear, so that the top cover 400 is placed at the opening of the beam combiner 200; so set up, accomplish the transfer of top cap 400, simple structure, easy and simple to handle to improve the volume production of beam combiner 200, in order to satisfy the market demand.

Specifically, the suction cup structure 321 further includes a spring disposed between the suction nozzle and the suction cup seat; when the suction nozzle absorbs the top cover 400, the suction nozzle can generate impact between the rigid connection structure and the top cover 400, so that the suction nozzle can be damaged, the top cover 400 can be damaged, the spring is arranged between the suction nozzle and the sucker seat, so that impact force generated by a user when the suction nozzle is in contact with the top cover 400 can be buffered, damage to the suction nozzle and the top cover 400 is reduced, packaging quality is improved, bad loss is reduced in the second stage, and production cost is reduced.

The utility model is not limited to the specific form of the suction cup driver, in particular, in this embodiment, the suction cup driver includes a suction cup driving cylinder, and a cylinder seat of the suction cup driving cylinder is disposed at the middle of the mounting portion; the piston rod of the sucker driving cylinder is arranged along the up-down direction and is in driving connection with the sucker seat so as to drive the sucker seat to move along the up-down direction.

Referring further to fig. 7 to 8, the top cover discharging mechanism 4 includes a material supporting seat 41, where the material supporting seat 41 has an installation groove with an upward opening, a carrying plate 42 for carrying a plurality of top covers 400 is disposed in the installation groove, and the carrying plate 42 can move up and down; the packaging apparatus 100 further comprises a pushing assembly 43 disposed on the frame 1, where the pushing assembly 43 includes a pushing rod 431 capable of moving up and down, the pushing rod 431 is located below the material supporting seat 41, and the top end of the pushing rod 431 passes through the bottom wall of the mounting groove and is in driving connection with the bearing plate 42, so that when the sucking disc structure 321 sucks a top cover 400 from the notch of the mounting groove, the bearing plate 42 can be driven to move up by one thickness of the top cover 400, so that the top cover 400 located on the upper layer can be always level with the notch of the mounting groove; in this embodiment, be equipped with in the mounting groove and be used for bearing a plurality of top caps 400 the loading board 42, the ejector pin 431 drive is connected the loading board 42 sucking disc structure 321 is followed when a top cap 400 is drawn to the notch department of mounting groove, the ejector pin 431 drive the loading board 42 moves a top cap 400 thickness upward for top cap 400 in the upper strata can with the notch parallel and level of mounting groove all the time, thereby be convenient for sucking disc structure 321 carries out next and absorbs, guarantees that top cap 400 removes going on smoothly of work, and then improves production efficiency.

More specifically, the material supporting seat 41 includes a material supporting plate 411 and two side plates 412; the material supporting plate 411 is arranged on the working panel 14 along the front-back direction; the two side plates 412 are arranged on the upper end surface of the material supporting plate 411 side by side, the two side plates 412 are arranged at intervals in the front-back direction, two limiting grooves are correspondingly formed on two opposite surfaces of the two side plates 412 respectively, the upper groove wall of each limiting groove penetrates through the two limiting grooves, and the mounting groove is defined between the two limiting grooves; wherein, the bearing plate 42 is located between two opposite groove walls of the two limiting grooves; so set up, simple structure, the dismouting is convenient.

In the utility model, the upper end surface of the working panel 14 is provided with an elongated avoidance hole, and the elongated avoidance hole extends along the front-back direction; the top cover discharging mechanism 4 further comprises a mounting frame 44 arranged at the bottom of the working panel 14, and the mounting frame 44 is arranged corresponding to the long avoidance hole; the material supporting plate 411 is disposed on the upper end surface of the mounting frame 44 and in the elongated avoidance hole, so that two side plates 412 protrude from the upper end surface of the working panel 14; wherein, the pushing component 43 is arranged at the bottom of the mounting frame 44, and the upper end of the pushing rod 431 sequentially passes through the bottom walls of the working panel 14 and the mounting groove and is in driving connection with the bearing plate 42; by this arrangement, the installation of the top cover discharging mechanism 4 is more compact, and the occupied space of the packaging equipment 100 is reduced.

Specifically, the material supporting plate 411 is detachably mounted on the upper end surface of the mounting frame 44 through a positioning pin; the material supporting plate 411 is configured to be detachable, so that the material supporting seat 41 is more convenient to disassemble and assemble, and is also convenient for a user to maintain and replace.

In the utility model, the top cover discharging mechanism 4 further comprises a pushing driving assembly 45, wherein the pushing driving assembly 45 is provided with a pushing driving part which is movably arranged, and the pushing driving part is in driving connection with the pushing rod 431; the pushing rod 431 is driven to move through the pushing driving assembly 45, so that the movable displacement of the pushing rod 431 is more accurate.

The utility model does not limit the specific form of the pushing driving assembly 45, the pushing driving assembly 45 may be configured as a pushing cylinder, a cylinder seat of the pushing cylinder is disposed on the frame 1, a piston rod of the pushing cylinder is disposed along an up-down direction and is in driving connection with the pushing rod 431, and the pushing driving portion includes a piston rod of the pushing cylinder; the pushing driving assembly 45 may be an electric push rod, the seat body of the electric push rod is mounted on the frame 1, the push rod of the electric push rod is disposed along the up-down direction and is in driving connection with the pushing rod 431, and the pushing driving portion includes a push rod of the electric push rod; specifically, in the present embodiment, the pushing driving assembly 45 includes a pushing motor 451 and a ball screw 452; the motor seat of the pushing motor 451 is disposed at the bottom of the working panel 14, and the output shaft thereof is disposed along the up-down direction; the ball screw 452 comprises a screw rod and a nut which are in threaded sleeve connection, the screw rod is arranged along the up-down direction and is rotatably arranged at the bottom of the working panel 14, the upper end of the screw rod is in driving connection with the output shaft, and a fixing plate is arranged on the periphery of the nut in an outward protruding manner; wherein, the lower end of the pushing rod 431 is mounted on the fixed plate, and the upper end sequentially passes through the working panel 14 and the bottom wall of the mounting groove and is in driving connection with the bearing plate 42; the pushing driving part comprises the output shaft; through setting up pushing away material motor 451 with ball 452, make the displacement of pushing away material pole 431 is more accurate, just can drive also the loading board 42 removes to accurate position, thereby make top cap 400 that is in the upper strata can all the time with the notch parallel and level of mounting groove, and then be convenient for sucking disc structure 321 absorbs next, guarantees going on smoothly of top cap 400 removal work, and then improves production efficiency.

In the utility model, the top cover discharging mechanism 4 further comprises a position detecting assembly 46, wherein the position detecting assembly 46 is used for detecting the displacement of the pushing rod 431; by providing the position detecting assembly 46 to detect the displacement of the pusher 431, not only can the movement of the pusher 431 be restricted within the maximum stroke range, but also the displacement of the pusher 431 can be made more accurate.

Specifically, a connecting plate 47 is arranged at the bottom of the working panel 14, and the connecting plate 47 is arranged along the up-down direction; the motor base of the pushing motor 451 and the ball screw 452 are disposed at the side of the connecting plate 47; the position detecting unit 46 includes a trigger portion 461 provided in the nut, and a plurality of sensing portions 462 provided in the connecting plate 47, the plurality of sensing portions 462 being arranged in parallel at vertical intervals; that is, when the nut moves up and down along the upper edge of the screw rod, the triggering portion 461 on the nut triggers the sensing portions 462 of the connecting plate 47 in sequence to generate a plurality of sensing signals, so that the displacement of the pushing rod 431 can be detected, and the device has a simple structure, is convenient to detect, and has low cost.

In the utility model, the top cover discharging mechanism 4 also comprises a top cover detection assembly; the top cover detection component is arranged at the notch of the mounting groove and used for detecting whether the top cover 400 is arranged at the notch of the mounting groove or not, and the top cover detection component is electrically connected with the circuit board component and the driving part; that is, the top cover detecting component is disposed at the notch of the mounting groove to detect whether the top cover 400 is located at the notch of the mounting groove, and because the top cover detecting component is electrically connected with the circuit board component and the driving portion, when the top cover detecting component detects that the top cover 400 is not located at the notch of the mounting groove, the driving portion is controlled to act, so as to drive the pushing rod 431 to drive the bearing plate 42 to move up by one thickness of the top cover 400, so that the top cover 400 located on the upper layer can be always flush with the notch of the mounting groove, thereby facilitating the next suction of the sucker structure 321, ensuring smooth moving work of the top cover 400, and further improving the production efficiency.

Specifically, the top cover detection assembly comprises an infrared correlation instrument arranged at the notch of the mounting groove; the infrared correlation instrument is arranged to detect whether the top cover 400 exists at the notch of the installation groove, and the infrared correlation instrument is simple in structure and low in cost.

In the present utility model, the packaging assembly 3 further includes a screw machine 331, wherein a screwdriver head of the screw machine 331 is configured to be disposed towards the carrying seat 11, and the screw machine 331 is movably mounted on the right side of the mounting portion along the up-down direction, so that when the transferring seat 2 is moved to a position where the screw machine 331 is located above the beam combiner 200, the screwdriver head of the screw machine 331 can be moved down to a fastening position, so that the screwdriver head of the screw machine 331 can drive fastening screws into the top cover 400 and the beam combiner 200; wherein the fixing part 33 includes the screw machine 331, so that fastening of the top cover 400 and the combiner 200 is achieved; meanwhile, the screw machine 331 is used for automatically screwing, so that not only can the yield be improved, but also the packaging quality can be improved.

The packaging component 3 further comprises a screw machine driving component, the screw machine driving component is arranged on the frame 1 and comprises a screw machine 331 driving part capable of moving up and down, and the screw machine 331 driving part is in driving connection with the screw machine 331 and is used for driving the screw machine 331 to move up and down.

The utility model is not limited to the specific form of the screw machine driving assembly, in this embodiment, the screw machine driving assembly is configured as the screw machine 331 driving cylinder, the cylinder seat of the screw machine 331 driving cylinder is disposed at the right side of the mounting portion, and the piston rod of the screw machine 331 driving cylinder is in driving connection with the screw machine 331; so set up, simple structure, the cost is lower.

Specifically, a discharging area is further formed on the frame 1, and the discharging area and the packaging area are arranged side by side in the left-right direction; the packaging apparatus 100 further includes a screw magazine 332 and a screw feeding assembly; the screw bin 332 is used for storing screws, and the screw bin 332 is provided with a discharge hole; the screw feeding assembly spans the discharging area and the packaging area and is used for transferring screws from the discharging hole to the screwdriver head of the screw machine 331; the screw bin 332 is connected to the screw machine 331 through a screw transfer air pipe; before screwing, the screws are blown to the head of the screw machine 331 from the screw bin 332 through the screw transfer air pipe, and the head of the screw machine 331 is driven by the driving air cylinder of the screw machine 331 to move downwards, so that the screws can be ensured to be aligned with the screw holes of the top cover 400 and the beam combiner 200 when screwing, and the screws are prevented from being knocked off; when the head of the screw machine 331 moves down to the screwing position, the head of the screw machine 331 rotates to screw the screws into the screw holes of the top cover 400 and the beam combiner 200, thereby completing the fastening of the top cover 400 and the beam combiner 200.

It should be noted that, in this embodiment, 6 screws are required to be driven by each pair of the top cover 400 and the beam combiner 200, and the transfer seat 2 moves according to the U-shaped track, so as to drive the screw machine 331 to drive the 6 screws into the screw holes of the top cover 400 and the beam combiner 200 according to the U-shaped track, so as to complete the packaging of the beam combiner 200.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the specification and drawings of the present utility model or direct/indirect application in other related technical fields are included in the scope of the present utility model.

Claims (10)

1. The utility model provides a subassembly is glued to point, its characterized in that, the subassembly is glued to point is used for encapsulation equipment for carry out the rubber coating to the optic fibre in the combiner after once encapsulation, the subassembly is glued to point includes:

the machine frame is arranged along the left-right direction, and is provided with a heating pad for heating and preserving heat of the beam combiner arranged on the machine frame;

the transfer seat is movably arranged on the frame and is used for enabling the two mounting positions to sequentially move to be positioned above the beam combiner; the method comprises the steps of,

The glue dispensing part comprises a heat dissipation glue dispensing part and a sealing glue dispensing part which are respectively arranged at two mounting positions, wherein the heat dissipation glue dispensing part and the sealing glue dispensing part can move up and down, and are used for respectively moving downwards to the glue dispensing positions to glue optical fibers in the combiner when the corresponding mounting positions are positioned above the combiner.

2. The dispensing assembly of claim 1, further comprising:

the heat dissipation rubber cylinder is used for containing heat dissipation rubber, a heat dissipation rubber nozzle used for spraying the heat dissipation rubber is arranged at the bottom of the heat dissipation rubber cylinder, and the heat dissipation rubber cylinder is movably arranged on the transfer seat along the up-down direction;

the sealing rubber cylinder is used for containing sealing rubber, the bottom of the sealing rubber cylinder is provided with a sealing rubber nozzle used for spraying the sealing rubber, and the sealing rubber cylinder is movably arranged on the transfer seat along the up-down direction and is arranged side by side with the heat dissipation rubber cylinder in the front-back direction; the method comprises the steps of,

the dispensing driving assembly is used for driving the piston of the heat dissipation rubber cylinder and the piston of the sealing rubber cylinder to move respectively and enabling the heat dissipation rubber and the sealing rubber to be sprayed out of the heat dissipation rubber nozzle and the sealing rubber nozzle respectively;

the heat dissipation glue dispensing part comprises the heat dissipation glue barrel, and the sealing glue dispensing part comprises the sealing glue barrel.

3. The dispensing assembly of claim 2, wherein the dispensing drive assembly comprises:

the air pipe assembly comprises a main air pipe and two air distribution pipes, the air inlet end of the main air pipe is used for being connected with an external air pump, and the two air outlet ends of the two air distribution pipes are respectively connected with the heat dissipation rubber cylinder and the sealing rubber cylinder; the method comprises the steps of,

the valve body is connected between the air outlet end of the main air pipe and the two air inlet ends of the air distribution pipes, and is used for switching to enable the main air pipe to be respectively communicated with the two air distribution pipes so as to respectively supply air to the heat dissipation rubber cylinder and the sealing rubber cylinder and correspondingly drive the piston of the heat dissipation rubber cylinder or the piston of the sealing rubber cylinder to move.

4. The dispensing assembly of claim 2, further comprising:

the heat dissipation rubber cylinder driver is arranged on the transfer seat, and a heat dissipation rubber cylinder driving part of the heat dissipation rubber cylinder driver can move up and down and is in driving connection with the heat dissipation rubber cylinder; the method comprises the steps of,

the sealing rubber cylinder driver is arranged on the transfer seat, and a sealing rubber cylinder driving part of the sealing rubber cylinder driver can move up and down and is in driving connection with the sealing rubber cylinder.

5. The dispensing assembly of claim 2, further comprising two cartridge holders, the two cartridge holders being disposed in the transfer seat and side-by-side in a front-to-back direction;

The heat dissipation rubber cylinder and the sealing rubber cylinder are respectively and correspondingly arranged on the two rubber cylinder fixing frames.

6. The dispensing assembly according to claim 2, wherein the dispensing assembly further comprises two nozzle holders, the two nozzle holders are arranged on the transfer seat and are arranged side by side in the front-back direction, two mounting holes are respectively formed in the upper end faces of the two nozzle holders, and two inner walls of the two mounting holes are respectively matched with the outer wall of the heat dissipation nozzle and the outer wall of the sealant nozzle;

the heat dissipation glue nozzle and the sealant nozzle are respectively penetrated through the two mounting holes.

7. The dispensing assembly of claim 1, wherein the transfer station further comprises:

the transverse moving frame is movably arranged on the frame along the left-right direction, and the transverse moving frame extends along the front-back direction; the method comprises the steps of,

the longitudinal moving frame is movably arranged on the transverse moving frame along the front-back direction;

wherein, one side end face of the longitudinal moving frame is provided with two mounting positions.

8. The dispensing assembly of claim 7, further comprising:

the transverse moving driving part of the transverse moving driving device can move left and right and is used for driving and connecting the transverse moving frame; the method comprises the steps of,

The longitudinal movement driver is arranged on the transverse movement frame, and a longitudinal movement driving part of the longitudinal movement driver can move along the front and back directions and is used for driving and connecting the longitudinal movement frame.

9. The dispensing assembly of claim 1, further comprising a temperature sensing assembly disposed on the housing for sensing the temperature of the heating pad.

10. A packaging apparatus comprising a dispensing assembly according to any one of claims 1 to 9.

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