CN115055405A

CN115055405A - Optical switch pressing and sorting device

Info

Publication number: CN115055405A
Application number: CN202210727006.3A
Authority: CN
Inventors: 唐明勇; 龙鸥; 朱广南; 陈爱华
Original assignee: Guangdong Ruixun Electronic Technology Co ltd
Current assignee: Guangdong Ruixun Electronic Technology Co ltd
Priority date: 2022-06-25
Filing date: 2022-06-25
Publication date: 2022-09-16
Anticipated expiration: 2042-06-25
Also published as: CN115055405B

Abstract

The invention relates to a sorting device, in particular to an optical switch pressing sorting device. The invention provides an optical switch pressing and sorting device which is convenient for limiting an optical switch and is convenient for workers to use. The invention provides an optical switch pressing and sorting device which comprises a shell, a rotating frame, a first sliding rail, a first sliding rod, a pressing frame and the like; the rotating frame is rotatably connected to the middle position of the upper portion of the shell, a first sliding rail is connected to the right side of the top of the shell, a first sliding rod is slidably connected to the first sliding rail, and a pressing frame is slidably connected to the left portion of the first sliding rod. The staff can carry on spacingly to optical switch through placing the mouth for press the movable frame and press optical switch better, can extrude optical switch through pressing the movable frame and driving the pressure pole downwards, make optical switch drop accurately and place the mouth in, and then conveniently press the follow-up accurate test of pressing to optical switch that carries out of movable frame.

Description

Optical switch pressing and sorting device

Technical Field

The invention relates to a sorting device, in particular to an optical switch pressing sorting device.

Background

The optical switch is a key for turning on and off a power supply, is used for controlling the operation of machines and equipment and cutting off the power supply, so that the operation stop of the equipment is ensured.

At present, when sorting is pressed to optical switch, usually manual work is placed optical switch in optical instrument and equipment bottom, then sort optical switch's size and degree of pressing through optical instrument and equipment again, though can press to sort optical switch through this kind of mode, nevertheless shift easily when optical instrument and equipment press optical switch to influence optical switch and press the effect of sorting, and when optical instrument and equipment pressed optical switch and sorted, if the staff did not in time pull out the hand, easily lead to staff's hand injury.

Therefore, it is necessary to design an optical switch pressing and sorting device which is convenient for limiting the optical switch and is convenient for workers to use.

Disclosure of Invention

In order to overcome prior art and shift easily when pressing, and press optical switch when selecting separately at optical instrument and equipment, if the staff in time not take out the hand, lead to staff's hand injured shortcoming easily, the technical problem is: the optical switch pressing and sorting device is convenient to limit an optical switch and convenient for workers to use.

The technical scheme of the invention is as follows: an optical switch pressing and sorting device comprises a shell, a rotating frame, a first sliding rail, a first sliding rod, a pressing frame, a first elastic part, a base, a second sliding rod, a contact rod, a second elastic part, a discharging mechanism and a placing mechanism, wherein the rotating frame is rotatably connected at the middle position of the upper part of the shell, the first sliding rail is connected at the right side of the top part of the shell, the first sliding rod is slidably connected on the first sliding rail, the pressing frame is slidably connected at the left part of the first sliding rod, the first elastic part is sleeved on the pressing frame, two ends of the first elastic part are respectively connected with the pressing frame and the first sliding rod, placing openings are uniformly formed in the rotating frame at intervals and used for placing optical switches, the bottom part in the rotating frame is uniformly connected with the base at intervals, each base is positioned below the corresponding placing opening, the second sliding rod is connected on each base, the contact rod is connected on each second sliding rod, the contact rod contacts with the base, a second elastic piece is connected between each second sliding rod and the adjacent base, a discharging mechanism used for discharging is arranged on the left side of the top of the shell, and a placing mechanism used for placing an optical switch is arranged on the right front side of the top of the shell.

Further, discharge mechanism is including first link, drive assembly and first contact frame, shell top left side is connected with two first links, be connected with drive assembly between two first links, drive assembly comprises two motor pulley and a conveyer belt, motor pulley is all installed to two first link left and right sides, around there being the conveyer belt on two motor pulley, be connected with first contact frame between two first link top right sides, contact bar top left side is rotated and is contacted with first contact frame, make the contact bar drive the second slide bar and upwards extrude optical switch.

Furthermore, the placing mechanism comprises a first fixing frame, a second sliding rail and a pressing rod, the right front side of the top of the shell is connected with the first fixing frame, the upper portion of the first fixing frame is connected with the second sliding rail used for placing the optical switch, the top of the pressing frame is connected with the pressing rod, the pressing rod moves downwards and can be in contact with the second sliding rail, and the pressing rod is enabled to extrude the optical switch.

Furthermore, the device also comprises a driving mechanism for driving the dynamic frame to move, the driving mechanism comprises a motor, a second connecting frame, a first rotating rod and a sector gear, the dead lever, the sliding block, the third link, lead screw and first gear, the bottom is connected with the motor in the shell, the inside rear side intermediate position of shell is connected with the second link, the anterior rotary type of second link is connected with first rotation pole, first rotation pole upper portion is connected with sector gear, the inside left side of shell is connected with two dead levers, slidingtype connection has the sliding block between two dead levers, sliding block upper right portion moves the frame with the pressure and is connected, the inside back left side of shell is connected with the third link, third link front side rotation formula is connected with the lead screw, the sliding block left part is connected with lead screw thread formula, lead screw upper portion is connected with first gear, sector gear rotates and can contact with first gear, make first gear drive the lead screw and rotate.

Further comprises a rotating mechanism used for rotating, the rotating mechanism comprises a connecting rod, a second gear and a fourth connecting frame, the second dwang, the pulley group, lug and concave block, the rotating turret bottom is connected with the connecting rod, the connecting rod is connected with the shell rotary type, be connected with the second gear on the connecting rod, sector gear rotates can with the contact of second gear, the inside back right side of shell is connected with the fourth link, the rotary type is connected with the second dwang on the fourth link, be connected with the pulley group between lead screw and the second dwang, the pulley group comprises two belt pulleys and a flat belt, all be connected with the belt pulley on lead screw and the second dwang, around there being the flat belt on two belt pulleys, left belt pulley and lead screw threaded connection, the connecting rod sub-unit connection has the lug, second dwang sub-unit connection has the concave block, the lug rotates can with the concave block meshing.

Furthermore, the optical switch pushing device comprises a pushing mechanism used for pushing the optical switch out, the pushing mechanism comprises a second fixing frame, an electric push rod and a pushing plate, the left side of the top of the shell is connected with the second fixing frame, the upper portion of the second fixing frame is connected with the electric push rod, the telescopic rod of the electric push rod is connected with the pushing plate used for pushing the optical switch, and the pushing plate is in sliding contact with the rotating frame.

Furthermore, the device also comprises a pouring mechanism for pouring the optical switch, the pouring mechanism comprises a fixed frame, a sliding plate, a third elastic piece and a third rotating rod, collect the frame, contact block, torsion spring and second contact frame, both sides all are connected with fixed frame around the shell left part, equal slidingtype is connected with the sliding plate on two fixed frames, two fixed frames are connected with the third elastic component respectively with between the sliding plate close, equal rotary type is connected with the third dwang on two sliding plates, be connected with between two third dwangs and collect the frame, all be connected with the contact block on two third dwangs, all overlap on two third dwangs and be equipped with torsion spring, torsion spring one end is connected with the sliding plate, the other end is connected with the contact block, both sides all are connected with the second contact frame around the shell left part, two contact block removal can contact with close second contact frame.

Furthermore, still including the stabilizer blade, the shell bottom left and right sides all is connected with two stabilizer blades.

The beneficial effects are that: 1. the staff places optical switch and places the mouth in the mouth is placed to the rightmost side, can carry on spacingly to optical switch through placing the mouth for press the movable rack to press optical switch better, can extrude optical switch through pressing the movable rack to drive the pressure pole down, make optical switch drop accurately place intraorally, and then conveniently press the follow-up test of pressing to optical switch of movable rack.

2. The staff can press optical switch through moving down the dynamic pressure frame and select separately, and contact bar and the contact of first contact frame make second slide bar rebound, are convenient for ejecting qualified optical switch, are convenient for convey qualified optical switch out through drive assembly, can prescribe a limit to optical switch's size through the second slide rail to be convenient for select separately optical switch's size.

3. Staff starter motor makes sector gear and first gear engagement, and then makes and press the movable rack downstream and press optical switch and select separately, through sector gear and second gear engagement, makes and press the movable rack upstream and reset, and then conveniently presses the movable rack and press optical switch better and select separately.

4. The staff starts electric putter, conveniently pushes optical switch on transmission assembly, collects the frame through rotating, is convenient for pour optical switch, and makes things convenient for the staff to collect optical switch through collecting the frame.

Drawings

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

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic view showing the ejection state of the second slide bar and the contact bar according to the present invention.

Fig. 5 is a perspective view of a third embodiment of the present invention.

Fig. 6 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 7 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 8 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 9 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 10 is a perspective view of the pushing mechanism of the present invention.

Fig. 11 is a perspective view of the pouring mechanism of the present invention.

In the reference symbols: 1_ housing, 2_ foot, 3_ rotating frame, 4_ first sliding rail, 5_ first sliding bar, 6_ pressing frame, 7_ first elastic element, 8_ placing opening, 9_ base, 10_ second sliding bar, 11_ contact bar, 12_ second elastic element, 13_ discharging mechanism, 131_ first connecting frame, 132_ transmission component, 133_ first contact frame, 14_ placing mechanism, 141_ first fixing frame, 142_ second sliding rail, 143_ pressing bar, 15_ driving mechanism, 151_ motor, 152_ second connecting frame, 153_ first rotating bar, 154_ sector gear, 155_ fixing bar, 156_ sliding block, 157_ third connecting frame, 158_ lead screw, 159_ first gear, 16_ rotating mechanism, 161_ connecting bar, 162_ second gear, 163_ fourth connecting frame, 164_ second, 165_ pulley group, 166_ lug, 167_ concave block, 17_ pushing mechanism, 171_ second fixed frame, 172_ electric push rod, 173_ push plate, 18_ pouring mechanism, 181_ fixed frame, 182_ sliding plate, 183_ third elastic piece, 184_ third rotating rod, 185_ collecting frame, 186_ contact block, 187_ torsion spring, 188_ second contact frame.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

As shown in fig. 1-7, an optical switch pressing and sorting device comprises a housing 1, support legs 2, a rotating frame 3, a first slide rail 4, a first slide rod 5, a pressing frame 6, a first elastic member 7, a base 9, a second slide rod 10, a contact rod 11, a second elastic member 12, a discharging mechanism 13 and a placing mechanism 14, wherein the left side and the right side of the bottom of the housing 1 are fixedly connected with the two support legs 2 through bolts, the rotating frame 3 is rotatably connected to the middle position of the upper portion of the housing 1, the first slide rail 4 is fixedly connected to the right side of the top of the housing 1 through bolts, the first slide rail 4 is slidably connected with the first slide rod 5, the left portion of the first slide rod 5 is slidably connected with the pressing frame 6, the pressing frame 6 is sleeved with the first elastic member 7, two ends of the first elastic member 7 are respectively connected with the pressing frame 6 and the first slide rod 5, placing openings 8 are uniformly spaced on the rotating frame 3, place mouthful 8 and be used for placing optical switch, there is base 9 bottom even interval through the bolt rigid coupling in the rotating turret 3, every base 9 all is located corresponding mouthful 8 below of placing, all sliding connection has second slide bar 10 on every base 9, all weld on every second slide bar 10 has contact lever 11, contact lever 11 and base 9 contact, all be connected with second elastic component 12 between every second slide bar 10 and the

close base

9, 1 top left side of shell is equipped with

discharge mechanism

13, 1 top right front side of shell is equipped with puts mechanism 14.

As shown in fig. 1 and 6, the discharging mechanism 13 includes a first connecting frame 131, a transmission component 132 and a first contact frame 133, the left side of the top of the housing 1 is fixedly connected with two first connecting frames 131 through bolts, the transmission component 132 is connected between the two first connecting frames 131, the transmission component 132 is composed of two electric belt pulleys and a transmission belt, the electric belt pulleys are installed on the left and right sides of the two first connecting frames 131 through bolts, the transmission belt is wound on the two electric belt pulleys, the first contact frame 133 is welded between the right sides of the tops of the two first connecting frames 131, the left side of the top of the contact rod 11 rotates to be capable of contacting with the first contact frame 133, and the contact rod 11 drives the second sliding rod 10 to extrude the optical switch upwards.

As shown in fig. 1 and 7, the swing mechanism 14 includes a first fixing frame 141, a second slide rail 142 and a pressing rod 143, the first fixing frame 141 is fixedly connected to the right front side of the top of the housing 1 through a bolt, the second slide rail 142 for placing the optical switch is connected to the upper portion of the first fixing frame 141, the pressing rod 143 is fixedly connected to the top of the pressing frame 6 through a bolt, and the pressing rod 143 moves downward to contact with the second slide rail 142, so that the pressing rod 143 presses the optical switch out.

Before an operator presses and sorts the optical switches, the operator places the optical switches in the rightmost placing opening 8, and limits the optical switches through the placing opening 8, so that the pressing frame 6 can press the optical switches better, then places other optical switches in the second slide rail 142 from back to front in sequence, when the optical switches in the second slide rail 142 are fully placed, the operator takes out the fixing tool, then moves the first slide rod 5, the pressing frame 6 and the first elastic member 7 downwards, when the pressing frame 6 is in contact with the optical switches, the pressing frame 6 presses the optical switches, then the operator observes the pressing amplitude of the pressing frame 6, when the pressing amplitude of the pressing frame 6 is too small, it indicates that the situation that the optical switches are stuck or unsmooth in reset, namely, the optical switch product is declared unqualified, when the pressing amplitude of the pressing frame 6 is in a preset size, the internal pressing and resetting of the optical switch are smooth, namely, the optical switch product is qualified, when an operator needs to take out an unqualified optical switch, the operator moves the contact rod 11 and the second sliding rod 10 upwards to enable the second sliding rod 10 to eject the optical switch through the placing opening 8, further the second elastic part 12 is stretched, then the unqualified optical switch is taken out, after the unqualified optical switch is taken out, the operator loosens the contact rod 11 and the second sliding rod 10 to enable the second elastic part 12 to drive the contact rod 11 and the second sliding rod 10 to reset downwards, after the pressing and sorting of the pressing and sorting frame 6 on the optical switch is completed, the operator moves the first sliding rod 5 upwards to enable the first elastic part 7 to drive the pressing and resetting frame 6 to move upwards, then the first sliding rod 5 is fixed by using a fixing tool, after the pressing and sorting frame 6 is separated from the optical switch, the second elastic member 12 drives the second sliding rod 10, the contact rod 11 and the optical switch to move upwards for resetting, when the pressing frame 6 moves downwards, the pressing rod 143 is driven to move, so that the pressing rod 143 presses the optical switch at the rearmost side in the second sliding rail 142 downwards into the corresponding placing port 8, when the optical switch at the rearmost side in the second sliding rail 142 is pressed out, the operator pushes the optical switch backwards towards the second sliding rail 142, so that the optical switches in the second sliding rail 142 are pressed mutually, so that the optical switch is pushed to the rearmost side of the second sliding rail 142 again, then the operator rotates the rotating frame 3 to reach a preset position, then repeats the operation of pressing the optical switch by the pressing frame 6, so as to sort the optical switches again, when the qualified optical switch after sorting reaches the position of the first contact frame 133, the contact rod 11 contacts with the first contact frame 133, so that the contact rod 11 drives the second sliding rod 10 to move upwards to eject the optical switch, and then make the second elastic component 12 stretched, after the optical switch is ejected, the staff pushes the optical switch into the flat belt, then start the transmission component 132, under the operation of the transmission component 132, drive the optical switch to move left and drop, after the contact lever 11 is separated from the first contact frame 133, the second elastic component 12 drives the second sliding rod 10 and the contact lever 11 to move downward and reset, after the required optical switch is pressed and sorted, the staff closes the transmission component 132, so that the transmission component 132 is no longer operated, and the staff can also limit the size of the optical switch through the second sliding rail 142, so as to sort the optical switch that is too large or too small, when the staff uses the device, the device can be more stable in the using process through the four support legs 2, so, the second sliding rod 10 moves upward through the contact lever 11 contacting with the first contact frame 133, be convenient for ejecting qualified optical switch, be convenient for convey qualified optical switch out through transmission assembly 132, drive the depression bar 143 downwards through pressing movable frame 6, can extrude optical switch for optical switch drops accurately in placing mouthful 8, and then conveniently presses the follow-up accurate test of pressing of movable frame to optical switch.

Example 2

As shown in fig. 5 and 8, in addition to embodiment 1, the present invention further includes a driving mechanism 15, the driving mechanism 15 includes a motor 151, a second connecting frame 152, a first rotating rod 153, a sector gear 154, a fixing rod 155, a sliding block 156, a third connecting frame 157, a screw 158 and a first gear 159, the motor 151 is fixedly connected to the bottom of the housing 1 through bolts, the second connecting frame 152 is fixedly connected to the middle position of the rear side of the interior of the housing 1 through bolts, the first rotating rod 153 is rotatably connected to the front of the second connecting frame 152, the sector gear 154 is connected to the upper portion of the first rotating rod 153 through a key, the two fixing rods 155 are connected to the left side of the interior of the housing 1, the sliding block 156 is slidably connected between the two fixing rod sliding blocks 155, the upper right portion of the sliding block 156 is connected to the pressing frame 6, the third connecting frame 157 is fixedly connected to the rear left side of the interior of the housing 1 through bolts, the rotating screw 158 is connected to the front side of the third connecting frame 157, the left part of the sliding block 156 is in threaded connection with the screw rod 158, the upper part of the screw rod 158 is connected with a first gear 159 through a key, and the sector gear 154 rotates to be in contact with the first gear 159, so that the first gear 159 drives the screw rod 158 to rotate.

As shown in fig. 5 and 9, the portable electronic device further comprises a rotating mechanism 16, the rotating mechanism 16 comprises a connecting rod 161, a second gear 162, a fourth connecting frame 163, a second rotating rod 164, a pulley set 165, a convex block 166 and a concave block 167, the bottom of the rotating frame 3 is connected with the connecting rod 161, the connecting rod 161 is rotatably connected with the housing 1, the connecting rod 161 is connected with the second gear 162 through a key, the sector gear 154 can be in contact with the second gear 162 through rotation, the fourth connecting frame 163 is fixedly connected to the rear right side inside the housing 1 through a bolt, the fourth connecting frame 163 is rotatably connected with the second rotating rod 164, the pulley set 165 is connected between the screw rod 158 and the second rotating rod 164, the pulley set 165 is composed of two pulleys and a flat belt, the screw rod 158 and the second rotating rod 164 are connected through a key, the flat belt is wound on the two pulleys, the left pulley is in threaded connection with the screw rod 158, the lower part of the connecting rod 161 is welded with a convex block 166, the lower part of the second rotating rod 164 is welded with a concave block 167, and the convex block 166 can be meshed with the concave block 167 in a rotating way.

When the operator needs to sort the optical switches, the operator starts the motor 151 to make the output shaft of the motor 151 drive the first rotating rod 153 and the sector gear 154 to rotate, when the sector gear 154 rotates to contact with the first gear 159, the first gear 159 drives the screw rod 158 to rotate, so that the sliding block 156 drives the first sliding rod 5 and the pressing frame 6 to move downwards to press and sort the optical switches, when the screw rod 158 rotates, the screw rod 158 drives the second rotating rod 164 and the concave block 167 to rotate through the belt pulley set 165, because the concave block 167 does not contact with the convex block 166, the concave block 167 idles, when the optical switches are pressed and sorted, the sector gear 154 contacts with the second gear 162, so that the second gear 162 drives the convex block 166 to rotate through the connecting rod 161, and further, the concave block 167 is meshed with the convex block 166 to rotate, and when the concave block 167 rotates, the belt pulley set 165 and the second rotating rod 164 are driven to rotate, the lead screw 158 is rotated reversely, so that the sliding block 156 drives the first sliding rod 5 to move upwards and reset, when the sector gear 154 is again in contact with the first gear 159, the slide block 156 drives the first slide rod 5 and the pressing frame 6 to press and sort the optical switches again, when the sector gear 154 contacts the second gear 162 again, the sliding block 156 drives the first sliding rod 5 to move upward again, when the worker finishes the pressing and sorting of the required optical switch, the worker turns off the motor 151, so that the motor 151 does not operate any more, by engaging the sector gear 154 with the first gear 159, the pressing frame 6 is moved downward to press-sort the optical switches, the sector gear 154 is meshed with the second gear 162, so that the pressing frame 6 moves upwards and returns, so, conveniently press movable frame 6 and press the sorting to optical switch better, and then improved and pressed movable frame 6 and pressed the sorting ground efficiency to optical switch.

As shown in fig. 1 and 10, the optical switch further includes a pushing mechanism 17, the pushing mechanism 17 includes a second fixing frame 171, an electric push rod 172 and a push plate 173, the second fixing frame 171 is fixedly connected to the left side of the top of the housing 1 through a bolt, the electric push rod 172 is fixedly connected to the upper portion of the second fixing frame 171 through a bolt, the push plate 173 for pushing the optical switch is connected to a telescopic rod of the electric push rod 172, and the push plate 173 is in sliding contact with the rotating frame 3.

When the worker needs to push the optical switch into the transmission assembly 132, the worker starts the electric push rod 172, and the initial position of the telescopic rod of the electric push rod 172 is in an extending state, so when the electric push rod 172 is started, the telescopic rod of the electric push rod 172 drives the push plate 173 to move leftwards, so that the push plate 173 pushes the optical switch into the transmission assembly 132, the worker controls the telescopic rod of the electric push rod 172 to move rightwards to extend, when the worker needs to push the optical switch into the transmission assembly 132 again, the electric push rod 172 is controlled to repeat the above operation, the optical switch can be continuously pushed into the transmission assembly 132, after all the optical switches are pushed, the worker closes the electric push rod 172, and therefore, the optical switch can be conveniently pushed into the transmission assembly 132 by starting the electric push rod 172.

As shown in fig. 1 and fig. 11, the pouring mechanism 18 further comprises a pouring mechanism 18, the pouring mechanism 18 comprises a fixed frame 181, sliding plates 182, third elastic members 183, third rotating rods 184, a collecting frame 185, contact blocks 186, torsion springs 187 and second contact frames 188, the fixed frames 181 are fixedly connected to the front and rear sides of the left portion of the housing 1 through bolts, the sliding plates 182 are slidably connected to the two fixed frames 181, the third elastic members 183 are respectively connected to the two adjacent sliding plates 182, the third rotating rods 184 are rotatably connected to the two sliding plates 182, the collecting frame 185 is fixedly connected to the two third rotating rods 184 through bolts, the contact blocks 186 are welded to the two third rotating rods 184, the torsion springs 187 are sleeved on the two third rotating rods 184, one end of each torsion spring 187 is connected to the sliding plate 182, the other end is connected to the contact block 186, the second contact frames 188 are respectively fixedly connected to the front and rear sides of the left portion of the housing 1 through bolts, the two contact blocks 186 are movable into contact with a second, adjacent contact rack 188.

When the optical switch falls off by moving leftward through the transmission assembly 132, the optical switch falls into the collection frame 185, so that the collection frame 185 moves downward under the influence of gravity to drive the sliding plate 182, the third rotating rod 184 and the contact block 186 to move, so that the third elastic member 183 is compressed, while the contact block 186 moves downward, the left side of the contact block 186 contacts with the second contact frame 188, so that the contact block 186 cannot be turned over, when the contact block 186 moves downward and is separated from the second contact frame 188, and when there are many optical switches collected in the collection frame 185, the collection frame 185 drives the third rotating rod 184 and the contact block 186 to turn over downward under the influence of gravity, so that the torsion spring 187 is deformed, when the collection frame 185 is turned over downward, the optical switch can be poured out, and when there are some optical switches in the collection frame 185, the worker can take out the remaining optical switches in the collection frame 185, after the remaining optical switches in the collection frame 185 are taken out, the third elastic member 183 is no longer influenced by gravity, so that the third elastic member 183 drives the sliding plate 182, the third rotating rod 184 and the contact block 186 to move upwards, when the contact block 186 moves upwards, the right side of the contact block 186 contacts with the second contact frame 188, so that the contact block 186 cannot be turned over, when the contact block 186 moves upwards to be separated from the second contact frame 188, the torsion spring 187 drives the third rotating rod 184, the collection frame 185 and the contact block 186 to rotate upwards to reset, so that the optical switches can be poured out by rotating the collection frame 185, and the collection frame 185 is convenient for a worker to collect the optical switches.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims

1. An optical switch pressing and sorting device comprises a shell (1), a rotating frame (3), a first sliding rail (4), a first sliding rod (5), a pressing frame (6), a first elastic part (7), a base (9), a second sliding rod (10), a contact rod (11) and a second elastic part (12), wherein the rotating frame (3) is rotatably connected to the middle position of the upper part of the shell (1), the first sliding rail (4) is connected to the right side of the top part of the shell (1), the first sliding rod (5) is slidably connected to the first sliding rail (4), the pressing frame (6) is slidably connected to the left part of the first sliding rod (5), the first elastic part (7) is sleeved on the pressing frame (6), two ends of the first elastic part (7) are respectively connected with the pressing frame (6) and the first sliding rod (5), placing ports (8) are uniformly spaced on the rotating frame (3), and the placing ports (8) are used for placing optical switches, the even interval of bottom is connected with base (9) in rotating turret (3), and every base (9) all are located corresponding mouthful (8) below of placing, and all sliding type connection has second slide bar (10) on every base (9), all is connected with contact lever (11) on every second slide bar (10), contact lever (11) and base (9) contact, all is connected with second elastic component (12) between every second slide bar (10) and close base (9), its characterized in that: the device is characterized by further comprising a discharging mechanism (13) and a placing mechanism (14), wherein the discharging mechanism (13) used for discharging is arranged on the left side of the top of the shell (1), and the placing mechanism (14) used for placing an optical switch is arranged on the right front side of the top of the shell (1).

2. An optical switch push sorting apparatus according to claim 1, wherein: discharge mechanism (13) are including first link (131), drive assembly (132) and first contact frame (133), shell (1) top left side is connected with two first link (131), be connected with drive assembly (132) between two first link (131), drive assembly (132) comprise two motor pulley and a conveyer belt, motor pulley is all installed to two first link (131) left and right sides, around there being the conveyer belt on two motor pulley, be connected with first contact frame (133) between two first link (131) top right sides, contact lever (11) top left side is rotated and is contacted with first contact frame (133), make contact lever (11) drive second slide bar (10) upwards extrusion optical switch.

3. An optical switch push sorting device according to claim 2, wherein: the swing mechanism (14) comprises a first fixing frame (141), a second sliding rail (142) and a pressing rod (143), the first fixing frame (141) is connected to the front right side of the top of the shell (1), the second sliding rail (142) used for placing the optical switch is connected to the upper portion of the first fixing frame (141), the pressing rod (143) is connected to the top of the pressing frame (6), and the pressing rod (143) moves downwards to be capable of contacting with the second sliding rail (142), so that the pressing rod (143) extrudes the optical switch.

4. An optical switch push sorting device according to claim 3, wherein: the automatic transmission mechanism is characterized by further comprising a driving mechanism (15) for driving the dynamic pressing frame (6) to move, wherein the driving mechanism (15) comprises a motor (151), a second connecting frame (152), a first rotating rod (153), a sector gear (154), fixing rods (155), a sliding block (156), a third connecting frame (157), a screw rod (158) and a first gear (159), the motor (151) is connected to the bottom inside the shell (1), the second connecting frame (152) is connected to the middle position of the rear side inside the shell (1), the first rotating rod (153) is rotatably connected to the front portion of the second connecting frame (152), the sector gear (154) is connected to the upper portion of the first rotating rod (153), the two fixing rods (155) are connected to the left side inside the shell (1), the sliding block (156) is connected between the two fixing rods (155), the upper right portion of the sliding block (156) is connected with the pressing frame (6), the third connecting frame (157) is connected to the left rear side inside the shell (1), the front side of the third connecting frame (157) is rotatably connected with a screw rod (158), the left part of the sliding block (156) is in threaded connection with the screw rod (158), the upper part of the screw rod (158) is connected with a first gear (159), and the sector gear (154) rotates to be capable of being in contact with the first gear (159), so that the first gear (159) drives the screw rod (158) to rotate.

5. An optical switch push sorting device according to claim 4, wherein: the novel gear transmission mechanism further comprises a rotating mechanism (16) used for rotating, wherein the rotating mechanism (16) comprises a connecting rod (161), a second gear (162), a fourth connecting frame (163), a second rotating rod (164), a belt pulley set (165), a convex block (166) and a concave block (167), the bottom of the rotating frame (3) is connected with the connecting rod (161), the connecting rod (161) is rotatably connected with the shell (1), the second gear (162) is connected onto the connecting rod (161), the sector gear (154) can be in contact with the second gear (162) in a rotating mode, the fourth connecting frame (163) is connected to the rear right side inside the shell (1) in a rotating mode, the second rotating rod (164) is rotatably connected onto the fourth connecting frame (163), the belt pulley set (165) is connected between the screw rod (158) and the second rotating rod (164), the belt pulley set (165) is composed of two belt pulleys and one flat belt, the screw rod (158) and the second rotating rod (164) are both connected with the belt pulley, the two belt pulleys are wound with flat belts, the belt pulley on the left side is in threaded connection with the screw rod (158), the lower portion of the connecting rod (161) is connected with a convex block (166), the lower portion of the second rotating rod (164) is connected with a concave block (167), and the convex block (166) can be meshed with the concave block (167) in a rotating mode.

6. An optical switch push sorting device according to claim 5, wherein: the optical switch pushing device is characterized by further comprising a pushing mechanism (17) used for pushing the optical switch out, the pushing mechanism (17) comprises a second fixing frame (171), an electric push rod (172) and a pushing plate (173), the left side of the top of the shell (1) is connected with the second fixing frame (171), the upper portion of the second fixing frame (171) is connected with the electric push rod (172), a telescopic rod of the electric push rod (172) is connected with the pushing plate (173) used for pushing the optical switch, and the pushing plate (173) is in sliding contact with the rotating frame (3).

7. An optical switch push sorting device according to claim 6, wherein: the pouring mechanism (18) for pouring the optical switch out is further included, the pouring mechanism (18) comprises fixing frames (181), sliding plates (182), third elastic pieces (183), third rotating rods (184), collecting frames (185), contact blocks (186), torsion springs (187) and second contact frames (188), the front side and the rear side of the left part of the shell (1) are respectively connected with the fixing frames (181), the sliding plates (182) are respectively connected on the two fixing frames (181) in a sliding manner, the third elastic pieces (183) are respectively connected between the two fixing frames (181) and the adjacent sliding plates (182), the third rotating rods (184) are respectively connected on the two sliding plates (182) in a rotating manner, the collecting frames (185) are connected between the two third rotating rods (184), the contact blocks (186) are respectively connected on the two third rotating rods (184), the torsion springs (187) are respectively sleeved on the two third rotating rods (184), one end of a torsion spring (187) is connected with the sliding plate (182), the other end of the torsion spring is connected with the contact block (186), the front side and the rear side of the left part of the shell (1) are respectively connected with a second contact frame (188), and the two contact blocks (186) can move to be in contact with the adjacent second contact frames (188).

8. An optical switch push sorting device according to claim 7, wherein: the multifunctional nursing bed is characterized by further comprising support legs (2), wherein the left side and the right side of the bottom of the shell (1) are connected with the two support legs (2).