CN114802855B - Automatic packaging equipment for optical filter switcher - Google Patents

Abstract

The present disclosure relates to automatic packaging devices, and particularly to an automatic packaging device for an optical filter switch. The invention provides automatic packaging equipment for the optical filter switcher, which can warn workers and improve the packaging effect. The automatic packaging equipment for the optical filter switcher comprises an outer connecting frame, wherein an opening is formed in the left rear side of the top of the outer connecting frame, and a square opening is formed in the middle of the rear side of the outer connecting frame; the inner connecting frame is connected with the middle inside the outer connecting frame, and the rear side of the left part of the inner connecting frame is provided with a through hole; the connecting frame is connected with the top and the bottom of the inner connecting frame. According to the invention, the sliding plate is driven to move backwards through the optical filter switcher, and then the pushing rod is driven to move backwards, so that the pushing rod extrudes the second clamping plate to move upwards, and therefore, a worker can be warned, and the optical filter switcher can be ensured to be positioned between the two sliding pressing plates, and the packaging effect of the optical filter switcher is improved.

Description

Automatic packaging equipment for optical filter switcher

Technical Field

The present disclosure relates to automatic packaging devices, and particularly to an automatic packaging device for an optical filter switch.

Background

After the optical filter switcher is produced, the optical filter switcher needs to be packaged, so that the optical filter switcher can be stored conveniently, the optical filter switcher can be protected, and the sales of the optical filter switcher is prevented from being influenced.

The utility model discloses a patent publication number is CN214357088U, a full-automatic encapsulation equipment is disclosed, including full-automatic encapsulation equipment, be equipped with the board on full-automatic encapsulation equipment, the inside of board is close to the top and is equipped with encapsulation film roller A, the central authorities of board upper surface are equipped with the seal groove, one side symmetry of seal groove is equipped with the layer board and promotes the cylinder, the layer board promotes the cylinder and pushes away epaxial layer board and seal groove cooperation installation, be equipped with the leading wheel on the support of board top both sides, the top support inside central authorities at top directly over the board are equipped with hydraulic cylinder, be equipped with the encapsulation frame linking bridge on hydraulic cylinder's the push away the axle, encapsulation frame linking bridge below is equipped with the encapsulation frame, the inside of encapsulation frame is equipped with scalds blank and cutter, be equipped with encapsulation film roller B and leading wheel on the connection cradling piece of top support top, this full-automatic encapsulation equipment can realize the automatic full package to the light filter switcher, have the integrative characteristics of encapsulation cutting. But this equipment is when packing the article, drives article through the conveyer belt and removes to the encapsulation frame below, encapsulates article through scalding the blank holder afterwards, but does not have the function that can warn the staff in this equipment, and then can't guarantee whether article just is under the encapsulation frame, leads to scalding the blank holder when packing article, leads to the encapsulation to be incomplete easily, and scalds the blank holder and can scald the blank holder together article when packing, leads to article and wrapping bag bonding together, and then leads to the encapsulation effect of article relatively poor.

In view of the foregoing, it is necessary to develop an automatic packaging device for an optical filter switcher, which can warn the staff and improve the packaging effect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the automatic packaging equipment for the optical filter switcher, which can warn the staff and improve the packaging effect, so as to overcome the defect that the working efficiency is lower because the existing packaging equipment can not warn the staff.

In order to achieve the above object, the present invention is realized by the following scheme: an automatic packaging device for an optical filter switcher comprises:

the left rear side of the top of the outer connecting frame is provided with an opening, and the middle of the rear side of the outer connecting frame is provided with a square opening;

the inner connecting frame is connected with the middle inside the outer connecting frame, and the rear side of the left part of the inner connecting frame is provided with a through hole;

the top and the bottom of the inner connecting frame are connected with connecting frames;

the middle parts of the two connecting frames are connected with sliding pressing plates for fixing the optical filter switcher in a sliding manner;

the first springs are connected between the front side and the rear side of the top of the sliding pressing plate at the upper side and the similar connecting frame, and the two first springs are connected between the front side and the rear side of the bottom of the sliding pressing plate at the lower side and the similar connecting frame;

the cylinder is connected with the middle of the inner top and the inner bottom of the outer connecting frame, and the ends of the telescopic rods of the two cylinders are connected with similar sliding pressing plates;

the button is arranged at the rear side of the upper cylinder in a sliding way, and the button is electrically connected with the two cylinders;

the support rods are symmetrically connected with one side of the two sliding pressing plates, which are opposite to each other, and are used for guiding;

the heater is connected between the two support rods on the upper side and the two support rods on the lower side in a sliding manner, and is used for packaging the optical filter switcher;

the second springs are connected between the left and right sides of the top of the heater at the upper side and the upper side of the adjacent supporting rod, and the second springs are also connected between the left and right sides of the bottom of the heater at the lower side and the lower side of the adjacent supporting rod;

the release mechanism is arranged between the two sliding pressing plates and used for limiting the heater;

the positioning driving mechanism is connected between the inner connecting frame and the heater and used for returning the packaged optical filter switcher.

More preferably, the release mechanism comprises:

the two sliding pressing plates are symmetrically connected with the first sliding sleeve plate from left to right on one side opposite to each other;

the four first sliding sleeve plates are connected with a first clamping plate for limiting the heater in a sliding manner;

the third springs are connected between the outer sides of the four first clamping plates and the outer sides of the similar first sliding sleeve plates;

the inner sides of the four first clamping plates are connected with first driving plates.

More preferably, the positioning driving mechanism comprises:

the rear sides of the two heaters are connected with two inclined plane driving plates for driving the heaters to reset;

the sliding plate is connected with the left side of the rear part of the inner connecting frame in a sliding way and is used for returning the packaged optical filter switcher;

the sliding plate is connected with the inner frame through a sliding plate, and the sliding plate is connected with the inner frame through a sliding plate;

the front side of the left part of the sliding plate is connected with a pushing rod for limiting the sliding plate;

an outer connecting plate is connected to the rear side of the left part of the sliding plate and used for limiting the inclined plane driving plate;

the left upper side of the rear part of the inner connecting frame is connected with a second sliding sleeve plate;

the rear side of the second sliding sleeve plate is connected with the second clamping plate in a sliding way;

and two fifth springs are connected between the lower part of the second clamping plate and the rear side of the bottom of the second sliding sleeve plate.

More preferably, still include the mechanism of adding film that is convenient for place membrane cloth, add the mechanism of film including:

the left side of the inside of the outer connecting frame is rotatably provided with two detachable winding wheels;

packaging films are sleeved on the two winding wheels;

the right side of the inner part of the outer connecting frame is connected with four fixing plates;

and the rotary rollers are rotationally connected between the left parts of the two fixing plates at the upper side and between the left parts of the two fixing plates at the lower side, and are used for driving the packaging film to move.

More preferably, the optical filter switching device further comprises a centering mechanism for preventing the optical filter switching device from being shifted, and the centering mechanism comprises:

the first driving rods are connected to one opposite sides of the two sliding pressing plates;

the left side and the right side of the inner part of the inner connecting frame are connected with the third sliding sleeve plate;

the clamping plates are connected to the two third sliding sleeve plates in a sliding manner and used for enabling the optical filter switcher to be in a centered position;

and the sixth springs are connected between the outer sides of the two clamping plates and the outer side of the similar third sliding sleeve plate.

More preferably, the automatic opening mechanism for automatically starting the cylinder is further included, and the automatic opening mechanism comprises:

the middle of the rear side of the inner top of the outer connecting frame is connected with a third connecting rod;

the middle part of the third connecting rod is connected with a second driving rod in a sliding way;

the front side of the right part of the second driving rod is connected with a second driving plate for pressing a button;

and two seventh springs are connected between the lower part of the third connecting rod and the second driving rod.

More preferably, the packaging film replacing device further comprises a film replacing mechanism for automatically replacing the packaging film, and the film replacing mechanism comprises:

the rear side of the inner part of the outer connecting frame is connected with two fourth connecting rods;

the rack is connected between the middle parts of the two fourth connecting rods in a sliding manner;

the left parts of the two fourth connecting rods are sleeved with the eighth springs, and the two ends of the two eighth springs are respectively connected with the external connecting frame and the rack;

the roller is rotatably connected with the middle of the rear side of the inner connecting frame;

the middle of the left side of the rack is connected with a pull rope, and one end of the pull rope bypasses the roller and passes through the inner connecting frame to be connected with the sliding plate;

the rear sides of the four rotary drums are connected with spur gears, and the two spur gears on the upper side and the two spur gears on the lower side are mutually meshed;

the one-way gear is connected with the rear sides of the two rotary drums in the middle through one-way clutches, and the two one-way gears are meshed with the rack.

More preferably, the front side of the outer connecting frame is provided with a feeding hole in the middle.

The invention has the following advantages: 1. according to the invention, the sliding plate is driven to move backwards through the optical filter switcher, and then the pushing rod is driven to move backwards, so that the pushing rod extrudes the second clamping plate to move upwards, and therefore, a worker can be warned, and the optical filter switcher can be ensured to be positioned between the two sliding pressing plates, and the packaging effect of the optical filter switcher is improved.

2. According to the invention, the packaging film is placed between the rotary rollers, and can be replaced by rotating the rotary rollers, so that the film cloth does not need to be manually placed, the operation difficulty of staff is reduced, the filter switcher can be conveniently packaged by the heater, and the working efficiency is improved.

3. According to the invention, under the reaction force of the sixth spring, the clamping plate can enable the optical filter switcher to be in a centered state, so that the optical filter switcher can be prevented from being shifted in position in the moving process.

4. According to the invention, the pushing rod moves backwards to drive the second driving rod and the second driving plate to move upwards, so that the second driving plate automatically presses the button, and therefore, the automatic starting of the cylinder in the feeding process can be realized, the manual starting of a worker is not required, and the operation trouble is reduced.

5. According to the invention, the rack frame moves left and right by pulling and loosening the pull rope, and the rotary roller can be driven to rotate by the unidirectional gear, so that the rotary roller drives the used packaging film to move right, the function of automatically replacing the packaging film can be realized, and the working efficiency can be improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of a first embodiment of the present invention.

Fig. 3 is a schematic cross-sectional perspective view of a second embodiment of the present invention.

Fig. 4 is a schematic view of a partially cut-away perspective structure of the present invention.

Fig. 5 is a schematic view showing a first perspective structure of the release mechanism of the present invention.

Fig. 6 is a schematic view showing a second perspective structure of the release mechanism of the present invention.

Fig. 7 is a schematic diagram of a first three-dimensional structure of the positioning driving mechanism of the present invention.

Fig. 8 is a schematic diagram of a second perspective structure of the positioning driving mechanism of the present invention.

Fig. 9 is a schematic view of a third perspective structure of the positioning driving mechanism of the present invention.

Fig. 10 is a schematic perspective view of a positioning driving mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a film feeding mechanism according to the present invention.

Fig. 12 is a schematic view of a first perspective of the centering mechanism of the present invention.

Fig. 13 is a schematic view of a second perspective of the centering mechanism of the present invention.

Fig. 14 is a schematic view showing a first perspective structure of the automatic opening mechanism of the present invention.

Fig. 15 is a schematic view showing a second perspective structure of the automatic opening mechanism of the present invention.

Fig. 16 is a schematic view of a first perspective structure of the film changing mechanism of the present invention.

Fig. 17 is a schematic diagram of a second perspective structure of the film changing mechanism of the present invention.

Fig. 18 is a schematic view of a part of a membrane exchanging mechanism of the present invention.

The marks of the components in the drawings are as follows: 1. an outer connecting frame 1001, a feed inlet 11001, an opening 11002, a square opening 2, an inner connecting frame 11003, a through hole 3, a connecting frame 4, a sliding pressing plate 5, a first spring 6, a cylinder 61, a button 7, a supporting rod 8, a heater 9, a second spring 10, a releasing mechanism 101, a first sliding sleeve plate 102, a first clamping plate 103, a third spring 104, a first driving plate 11, a positioning driving mechanism 1101, an inclined plane driving plate 1102, a sliding plate 1103, a fourth spring 1104, a pushing rod 1105, an external connecting plate 1106, a second sliding sleeve plate 1107, a second clamping plate, 1108, a fifth spring, 12, a film adding mechanism, 1201, a winding wheel, 1202, a packaging film, 1203, a fixing plate, 1204, a rotary roller, 13, a centering mechanism, 1301, a first driving rod, 1302, a third sliding sleeve plate, 1303, a clamping plate, 1304, a sixth spring, 14, an automatic opening mechanism, 1401, a third connecting rod, 1402, a second driving rod, 1403, a second driving plate, 1404, a seventh spring, 15, a film changing mechanism, 1501, a fourth connecting rod, 1502, a rack, 1503, an eighth spring, 1504, a roller, 1505, a pull rope, 1506, a spur gear, 1507 and a unidirectional gear.

Detailed Description

The invention will be further described with reference to the accompanying drawings and detailed description below:

example 1

Referring to FIGS. 1, 2, 3 and 4, the automatic packaging device for the optical filter switcher comprises an outer connecting frame 1, a feed inlet 1001, an opening 11001, a square opening 11002, an inner connecting frame 2, a through hole 11003, a connecting frame 3, a sliding pressure plate 4, a first spring 5, a cylinder 6, a button 61, a supporting rod 7, a heater 8, a second spring 9, a release mechanism 10 and a positioning driving mechanism 11, wherein the feed inlet 1001 is arranged in the middle of the front side of the outer connecting frame 1, the opening 11001 is arranged on the left rear side of the top of the outer connecting frame 1, the square opening 11002 is arranged in the middle of the rear side of the outer connecting frame 1, the inner connecting frame 2 is internally welded with the inner connecting frame 2, a through hole 11003 is arranged on the rear side of the left part of the inner connecting frame 2, the top and the bottom of the inner connecting frame 2 are welded with connecting frames 3, the middle parts of the two connecting frames 3 are connected with the sliding pressure plate 4 in a sliding manner, the sliding pressure plate 4 is used for fixing the optical filter switcher, two first springs 5 are connected between the front and the front side and the rear side of the connecting frame 4 and the near side of the connecting frame 3, the bottom of the lower side is also connected with the two side of the cylinder 6 and the front side of the supporting rod 6 is connected with the two side of the inner connecting frames 6 through the connecting frame 6, the two side of the upper side of the filter switcher 6 is connected with the end part of the filter switcher 6 is connected with the upper side 7 through the connecting rod 7 and the upper side of the connecting frame 6 and the end part of the filter switcher is connected with the upper side 7 is connected with the end part between the two side of the filter 6 and near side of the filter 6 and the filter case 6 is connected with the front side 6, a second spring 9 is connected between the left and right sides of the top of the upper heater 8 and the upper side of the similar supporting rod 7, a second spring 9 is also connected between the left and right sides of the bottom of the lower heater 8 and the lower side of the similar supporting rod 7, a release mechanism 10 is arranged between the two sliding pressing plates 4, the release mechanism 10 is used for limiting the heater 8, a positioning driving mechanism 11 is connected between the inner connecting frame 2 and the heater 8, and the positioning driving mechanism 11 is used for returning the packaged optical filter switcher.

Referring to fig. 2, 5 and 6, the release mechanism 10 includes a first sliding sleeve plate 101, a first clamping plate 102, a third spring 103 and a first driving plate 104, the first sliding sleeve plates 101 are symmetrically welded on opposite sides of the two sliding pressing plates 4, the four first sliding sleeve plates 101 are all located on inner sides of similar supporting rods 7, the four first sliding sleeve plates 101 are all slidably connected with the first clamping plate 102, the first clamping plate 102 is used for limiting the heater 8, outer sides of the four first clamping plates 102 are all in contact with the similar heater 8, the third spring 103 is connected between outer sides of the four first clamping plates 102 and outer sides of the similar first sliding sleeve plates 101, and the first driving plates 104 are welded on inner sides of the four first clamping plates 102.

Referring to fig. 2, fig. 7, fig. 8, fig. 9 and fig. 10, the positioning driving mechanism 11 includes a slant driving plate 1101, a sliding plate 1102, a fourth spring 1103, a pushing rod 1104, an external connection plate 1105, a second sliding sleeve 1106, a second clamping plate 1107 and a fifth spring 1108, two slant driving plates 1101 are welded at the rear sides of the two heaters 8, the slant driving plate 1101 is used for driving the heaters 8 to reset, the sliding plate 1102 is connected to the rear left side of the inner connection frame 2 in a sliding manner, the sliding plate 1102 is used for returning the packaged filter switcher, the sliding plate 1102 is located inside the inner connection frame 2, two fourth springs 1103 are connected between the front side of the left part of the sliding plate 1102 and the rear side of the inner connection frame 2, the pushing rod 1106 is welded at the front side of the left part of the sliding plate 1102 and is used for limiting the sliding plate 1102, the pushing rod 1104 passes through a through hole 11003, the external connection plate 1105 is welded at the rear side of the left part of the sliding plate 1102, the external connection plate 1101 is used for limiting the slant driving plate 1101, the external connection plate is contacted with the four slant driving plates 1105, the sliding plate 1105 moves in the inner connection plate 1105, the sliding plate 1105 passes through the second clamping plate 1107 and passes through the second sliding sleeve 1107, and is welded at the rear side of the left side of the sliding plate 1102 and the left side of the sliding plate 1107, and the second clamping plate 1107 passes through the second clamping plate 11001 is connected to the second clamping plate 1107, and the second clamping plate 1107 is welded to the second clamping plate and has a second clamping plate 1107.

When in use, the film is firstly manually arranged on the top of the sliding pressure plate 4 at the lower side, then the optical filter switcher to be packaged is manually arranged in the inner connecting frame 2 through the feeding hole 1001, the optical filter switcher drives the sliding plate 1102 to move backwards, and then the pushing rod 1104 is driven to move backwards, at the moment, the fourth spring 1103 is compressed, meanwhile, the sliding plate 1102 drives the outer connecting plate 1105 to move backwards to pass through the square opening 11002, so that the outer connecting plate 1105 does not block the inclined surface driving plate 1101 any more, when the pushing rod 1104 moves backwards to pass through the through hole 11003 and be in contact with the second clamping plate 1107, the pushing rod 1104 extrudes the second clamping plate 1107 to move upwards, at the moment, the fifth spring 1108 is compressed, the second clamping plate 1107 moves upwards to pass through the opening 11001, so that a worker can see the second clamping plate 1107, after the worker sees the second clamping plate to rise, the optical filter switcher is immediately stopped from pushing the optical filter switcher 1103, and the worker 1103 can be warned, and then the optical filter switcher is ensured to be positioned between the two sliding pressure plates 1107, so that the packaging effect of the optical filter switcher is improved, and the optical filter switcher is very large in gravity, the optical filter switcher is enabled to move backwards, the sliding plate 4 is driven by the sliding plate 6, the sliding plate 6 is driven by the sliding plate 6 to move the sliding plate 6, the optical filter switcher is driven by the sliding plate 6, the sliding plate is driven by the sliding plate 6, and the sliding plate 6 is moved down 6 is driven by the sliding plate 6, and the elastic plate is released, and the elastic force is released, and the sliding plate 6 is moved 6 is released, and the optical filter switcher is moved 6 is released, when the upper sliding pressing plate 4 moves down to contact with the sliding plate 1102, the upper sliding pressing plate 4 can press the sliding plate 1102 to move backwards, so that the sliding plate 1102 cannot block the stroke of the upper sliding pressing plate 4, when the upper sliding pressing plate 4 and the lower sliding pressing plate 4 cooperate to fix the filter switcher, the first driving plate 104 just moves to contact with the connecting frame 3, so that the first driving plate 104 moves inwards, the first driving plate 104 drives the first clamping plate 102 to move inwards, the third spring 103 is compressed, so that the first clamping plate 102 does not block the heater 8 any more, the second spring 9 in the initial state is reset, the heater 8 is driven to move towards each other, the inclined plane driving plate 1101 is driven to move towards each other, the two heaters 8 cooperate to heat the film cloth around the filter switcher, the packaging function is realized, the heater 8 is closed, the button 61 is pressed again, the telescopic rod of the air cylinder 6 is controlled to shrink for three seconds, the telescopic rod of the air cylinder 6 drives the sliding pressing plate 4 to move backwards, the first spring 5 is reset at the moment, the supporting rod 7, the heater 8, the first sliding sleeve plate 101, the first clamping plate 102 and the first driving plate 104 are driven to move backwards and reset, the sliding pressing plate 4 is not used for fixing the filter switcher, the packaged filter switcher is taken out, the fourth spring 1103 is reset at the moment, the sliding plate 1102, the pushing rod 1104 and the external plate 1105 are driven to move forwards and reset, the pushing rod 1104 is separated from the second clamping plate 1107, the fifth spring 1108 is reset at the moment, the second clamping plate 1107 is driven to move downwards and reset, when the external plate 1105 moves forwards to be in contact with the inclined plane driving plate 1101, the inclined plane driving plate 1101 is driven to move backwards and reset, and then drive heater 8 back to back and remove the reset, when heater 8 moves to with first cardboard 102 contact, the extrusion first cardboard 102 moves inwards, and third spring 103 is compressed this moment, and when heater 8 moved to crossing first cardboard 102, third spring 103 reset this moment, drive first cardboard 102 to move the reset outward and carry out spacing to heater 8, so, can realize automatic re-setting, repeat above-mentioned operation, can encapsulate next light filter switch.

Example 2

On the basis of embodiment 1, please refer to fig. 2 and 11, further include a film adding mechanism 12, the film adding mechanism 12 is convenient for placing film cloth, the film adding mechanism 12 includes a winding wheel 1201, a packaging film 1202, fixing plates 1203 and rotating rollers 1204, two detachable winding wheels 1201 are rotatably mounted on the left side inside the outer connecting frame 1, packaging films 1202 are sleeved on the two winding wheels 1201, four fixing plates 1203 are welded on the right side inside the outer connecting frame 1, two rotating rollers 1204 are rotatably connected between the left parts of the upper fixing plates 1203 and between the left parts of the lower fixing plates 1203, one end of the packaging film 1202 on the upper side passes through the inner connecting frame 2 and is located between the two rotating rollers 1204 on the upper side, and one end of the packaging film 1202 on the lower side passes through the inner connecting frame 2 and is located between the two rotating rollers 1204 on the lower side.

The staff manually overlaps two rolls of packaging film 1202 on the winding wheel 1201 respectively, then pull the one end of two rolls of packaging film 1202 to pass internal connection frame 2, make two rolls of packaging film 1202 respectively with the slip clamp plate 4 contact of upper and lower both sides, then two rotatory cylinders 1204 of two rolls of packaging film 1202 are passed respectively to the one end of two rolls of packaging film 1202 about, make rotatory cylinder 1204 carry out spacing and direction to packaging film 1202, afterwards push back the light filter switch to between the packaging film 1202, so, just need not the manual packaging film 1202 of placing, reduce staff's operation degree of difficulty, and can be convenient for heater 8 encapsulate the light filter switch, improve work efficiency, after the encapsulation finishes, take out the light filter switch, manual rotation rotatory cylinder 1204, make rotatory cylinder 1204 drive the packaging film 1202 after the use and move to the right, until the packaging film 1202 that does not use is located between the slip clamp plate 4, so, can improve the efficiency of changing packaging film 1202.

Referring to fig. 2, 12 and 13, the optical filter device further includes a centering mechanism 13, the centering mechanism 13 is used for preventing the optical filter device from shifting, the centering mechanism 13 includes a first driving rod 1301, a third sliding sleeve plate 1302, a clamping plate 1303 and a sixth spring 1304, one side of each of the two sliding plates 4 opposite to each other is welded with four first driving rods 1301, four first driving rods 1301 on the upper side are respectively located at four corners of the sliding plate 4 on the upper side, four first driving rods 1301 on the lower side are respectively located at four corners of the sliding plate 4 on the lower side, third sliding sleeve plates 1302 are welded at the left side and the right side inside the inner connecting frame 2, clamping plates 1303 are slidably connected to the two third sliding sleeve plates 1302, the clamping plates 1303 are used for enabling the optical filter device to be located at the centering position, after the eight sliding plates 4 move, the eight sliding plates 1303 are in contact with the similar clamping plates 1303, and two sixth springs 1304 are connected between the outer sides of the two clamping plates 1303 and the outer sides of the similar third sliding sleeve plates 1302.

The staff manually pushes the filter switcher back to the inside of the inner connecting frame 2, the filter switcher extrudes the clamping plate 1303 to move outwards, at the moment, the sixth spring 1304 is stretched, meanwhile, under the action of the sixth spring 1304, the clamping plate 1303 can enable the filter switcher to be in a centered state, the position deviation of the filter switcher in the moving process can be avoided, when the sliding pressing plate 4 moves in the opposite direction, the first driving rod 1301 is driven to move in the opposite direction, when the first driving rod 1301 moves to be in contact with the clamping plate 1303, the clamping plate 1303 is driven to move outwards, at the moment, the sixth spring 1304 is stretched again, the clamping plate 1303 is enabled to loosen the filter switcher, meanwhile, the stroke of the heater 8 can be prevented from being influenced by the clamping plate 1303, after encapsulation is completed, the sliding pressing plate 4 drives the first driving rod 1301 to move in the opposite direction, the clamping plate 1303 is enabled to be loosened, then the staff manually controls the clamping plate 1303 to stop resetting, then the encapsulated filter switcher is taken out, the clamping plate 1303 is loosened, at the moment, the sixth spring is reset, and the clamping plate 1303 is driven to move inwards.

Referring to fig. 2, 14 and 15, the automatic opening mechanism 14 is further included, the automatic opening mechanism 14 is used for automatically starting the air cylinder 6, the automatic opening mechanism 14 includes a third connecting rod 1401, a second driving rod 1402, a second driving plate 1403 and a seventh spring 1404, a third connecting rod 1401 is welded in the middle of the rear side of the inner top of the outer connecting frame 1, the middle of the third connecting rod 1401 is slidably connected with the second driving rod 1402, the left side of the second driving rod 1402 passes through a second clamping plate 1107, the pushing rod 1104 moves and then contacts with the second driving rod 1402, a second driving plate 1403 is welded on the front side of the right part of the second driving rod 1402, the second driving plate 1403 is used for pressing the button 61, the front side of the second driving plate 1403 moves and then contacts with the button 1404, and two seventh springs are connected between the lower part of the third connecting rod 1401 and the second driving rod 1402.

When the push rod 1104 moves back to be in contact with the second driving rod 1402, the second driving rod 1402 is driven to move upwards, at the moment, the seventh spring 1404 is stretched, and then the second driving plate 1403 is driven to move upwards, when the second driving plate 1403 moves upwards to be in contact with the button 61, the button 61 is pressed, the control cylinder 6 is started for three seconds, then the second driving plate 1403 continues to move upwards to pass through the button 61, when the push rod 1104 moves forwards to reset, the push rod 1104 is separated from the second driving rod 1402, at the moment, the seventh spring 1404 resets, the second driving rod 1402 and the second driving plate 1403 are driven to move downwards to reset, the second driving plate 1403 presses the button 61 again, and the control cylinder 6 is started to reset for three seconds, so that the cylinder 6 is started by itself in the feeding process, manual starting of a worker is not needed, and the trouble of operation is reduced.

Referring to fig. 2, 16, 17 and 18, further comprising a film changing mechanism 15, wherein the film changing mechanism 15 is used for automatically changing the packaging film 1202, the film changing mechanism 15 comprises a fourth connecting rod 1501, a rack 1502, an eighth spring 1503, a roller 1504, a pull rope 1505, a spur gear 1506 and a one-way gear 1507, two fourth connecting rods 1501 are welded on the rear side inside the outer connecting frame 1, a rack 1502 is slidably connected between the middle parts of the two fourth connecting rods 1501, the left parts of the two fourth connecting rods 1501 are sleeved with the eighth spring 1503, two ends of the two eighth springs 1503 are respectively connected with the outer connecting frame 1 and the rack 1502, a roller 1504 is rotatably connected in the middle of the rear side of the inner connecting frame 2, a pull rope 1505 is connected in the middle of the left side of the rack 1502, one end of the pull rope 1505 bypasses the roller 1504 and passes through the inner connecting frame 2 to be connected with the sliding plate 1102, the two spur gears 1506 are connected through keys, the two spur gears 1506 on the upper side are meshed with the two spur gears 1204 on the lower side, the two middle sides are respectively meshed with the two spur gears 1507, and the two middle sides of the two spur gears 1507 are meshed with the two one-way gears 1507 through the two one-way gears 1507.

When the sliding plate 1102 moves backward, the pull rope 1505 is loosened, the eighth spring 1503 in the initial state is in the compressed state at this time is reset, the rack 1502 is driven to move right, under the action of the one-way clutch, the one-way gear 1507 idles, the rotary drum 1204 is not driven to rotate, when the sliding plate 1102 moves forward and resets, the rack 1502 is driven to move left by the pull rope 1505 to reset, at this time, the eighth spring 1503 is compressed, the rack 1502 drives the one-way gear 1507 to rotate, then the middle two rotary drums 1204 are driven to rotate by the middle two rotary drums 1204, the two rotary drums 1204 drive the outer two rotary drums 1204 to rotate by the straight gear 1506, and then the rotary drum 1204 drives the used packaging film 1202 to move right, so that the function of automatically replacing the packaging film 1202 can be realized, and the working efficiency can be improved.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the invention as defined in the appended claims.

Claims (1)

1. An automatic packaging device for an optical filter switcher is characterized by comprising:

the outer connecting frame (1), the left rear side of the top of the outer connecting frame (1) is provided with an opening (11001), and the middle of the rear side of the outer connecting frame (1) is provided with a square opening (11002);

the inner connecting frame (2), the inner middle of the outer connecting frame (1) is connected with the inner connecting frame (2), and the rear side of the left part of the inner connecting frame (2) is provided with a through hole (11003);

the connecting frame (3) is connected with the top and the bottom of the inner connecting frame (2) respectively;

the middle parts of the two connecting frames (3) are connected with the sliding pressing plates (4) for fixing the optical filter switcher in a sliding manner;

the two first springs (5) are connected between the front side and the rear side of the top of the sliding pressing plate (4) at the upper side and the similar connecting frame (3), and the two first springs (5) are connected between the front side and the rear side of the bottom of the sliding pressing plate (4) at the lower side and the similar connecting frame (3);

the cylinder (6) is connected with the top part in the outer connecting frame (1) and the middle part in the inner bottom, and the ends of the telescopic rods of the two cylinders (6) are connected with the similar sliding pressing plates (4);

the button (61) is arranged at the rear side of the upper cylinder (6) in a sliding way, and the button (61) is electrically connected with the two cylinders (6);

the support rods (7) are symmetrically connected with the support rods (7) for guiding at the opposite sides of the two sliding pressing plates (4);

the heater (8) is connected between the two support rods (7) on the upper side and the two support rods (7) on the lower side in a sliding manner, and the heater (8) is used for packaging the optical filter switcher;

the second springs (9) are connected between the left and right sides of the top of the heater (8) at the upper side and the upper side of the adjacent supporting rod (7), and the second springs (9) are also connected between the left and right sides of the bottom of the heater (8) at the lower side and the lower side of the adjacent supporting rod (7);

the release mechanism (10) is arranged between the two sliding pressing plates (4), and the release mechanism (10) is used for limiting the heater (8);

a positioning driving mechanism (11), a positioning driving mechanism (11) for returning the packaged filter switcher is connected between the inner connecting frame (2) and the heater (8);

the release mechanism (10) comprises:

the two sliding pressing plates (4) are symmetrically connected with the first sliding sleeve plate (101) on the opposite sides of the first sliding sleeve plate (101);

the four first sliding sleeve plates (101) are connected with first clamping plates (102) for limiting the heater (8) in a sliding manner;

the third springs (103) are connected between the outer sides of the four first clamping plates (102) and the outer sides of the similar first sliding sleeve plates (101);

the inner sides of the four first clamping plates (102) are connected with the first driving plates (104);

the positioning driving mechanism (11) comprises:

the back sides of the two heaters (8) are connected with two inclined plane driving plates (1101) for driving the heaters (8) to reset;

a sliding plate (1102), wherein the left side of the rear part of the inner connecting frame (2) is connected with a sliding plate (1102) for returning the packaged filter switcher in a sliding manner;

a fourth spring (1103), two fourth springs (1103) are connected between the front side of the left part of the sliding plate (1102) and the rear side inside the inner connecting frame (2);

a pushing rod (1104), wherein the pushing rod (1104) for limiting the sliding plate (1102) is connected to the front side of the left part of the sliding plate (1102);

an external connection plate (1105), wherein the rear side of the left part of the sliding plate (1102) is connected with an external connection plate (1105) for limiting the inclined plane driving plate (1101);

a second sliding sleeve plate (1106) is connected with the left upper side of the rear part of the inner connecting frame (2);

the second clamping plate (1107) is connected with the second clamping plate (1107) in a sliding way behind the second sliding sleeve plate (1106);

the fifth springs (1108), two fifth springs (1108) are connected between the lower part of the second clamping plate (1107) and the rear side of the bottom of the second sliding sleeve plate (1106);

still including being convenient for place membrane cloth add membrane mechanism (12), add membrane mechanism (12) including:

the material winding wheel (1201) is rotatably arranged at the left side inside the outer connecting frame (1), and two detachable material winding wheels (1201) are arranged at the left side inside the outer connecting frame;

packaging films (1202), wherein the packaging films (1202) are sleeved on the two winding wheels (1201);

the fixing plate (1203) is connected with four fixing plates (1203) on the right side inside the outer connecting frame (1);

the rotary roller (1204) is rotationally connected between the left parts of the two fixing plates (1203) at the upper side and between the left parts of the two fixing plates (1203) at the lower side, and the two rotary rollers (1204) are used for driving the packaging film (1202) to move;

also including being used for preventing the centering mechanism (13) of light filter switch position skew, centering mechanism (13) are including:

the first driving rods (1301) are connected with four first driving rods (1301) at one side of the two sliding pressing plates (4) opposite to each other;

a third sliding sleeve plate (1302), wherein the left side and the right side of the inner part of the inner connecting frame (2) are connected with the third sliding sleeve plate (1302);

the clamping plates (1303) are connected to the two third sliding sleeve plates (1302) in a sliding manner, and the clamping plates (1303) are used for enabling the optical filter switcher to be in a centered position;

the sixth springs (1304), two sixth springs (1304) are connected between the outer sides of the two clamping plates (1303) and the outer sides of the similar third sliding sleeve plate (1302);

the automatic opening mechanism (14) is used for automatically starting the air cylinder (6), and the automatic opening mechanism (14) comprises:

the third connecting rod (1401) is connected with the middle of the rear side of the inner top of the outer connecting frame (1);

the middle part of the third connecting rod (1401) is connected with the second driving rod (1402) in a sliding way;

the second driving plate (1403) is connected with the front side of the right part of the second driving rod (1402) and is used for pressing the button (61);

a seventh spring (1404), two seventh springs (1404) are connected between the lower part of the third connecting rod (1401) and the second driving rod (1402);

still including being used for changing the retooling mechanism (15) of packaging film (1202) automatically, retooling mechanism (15) including:

the rear side of the inside of the outer connecting frame (1) is connected with two fourth connecting rods (1501);

a rack (1502) is connected between the middle parts of the two fourth connecting rods (1501) in a sliding manner;

an eighth spring (1503), the left parts of the two fourth connecting rods (1501) are respectively sleeved with the eighth spring (1503), and two ends of the two eighth springs (1503) are respectively connected with the outer connecting frame (1) and the rack (1502);

a roller (1504) is rotatably connected with the middle of the rear side of the inner connecting frame (2);

a pull rope (1505), wherein the pull rope (1505) is connected in the middle of the left side of the rack (1502), and one end of the pull rope (1505) bypasses the roller (1504) and passes through the inner connecting frame (2) to be connected with the sliding plate (1102);

the rear sides of the four rotary drums (1204) are connected with spur gears (1506), and the two spur gears (1506) on the upper side and the two spur gears (1506) on the lower side are mutually meshed;

the rear sides of the two rotary drums (1204) in the middle are connected with one-way gears (1507) through one-way clutches, and the two one-way gears (1507) are meshed with the rack (1502);

a feed inlet (1001) is arranged in the middle of the front side of the outer connecting frame (1).