阅读说明：本技术 一种通信电缆滑石粉涂覆装置 (Communication cable talcum powder coating device ) 是由 不公告发明人 于 2020-04-08 设计创作，主要内容包括：本发明涉及一种通信电缆,尤其涉及一种通信电缆滑石粉涂覆装置。本发明要解决的技术问题是提供一种通信电缆滑石粉涂覆装置。一种通信电缆滑石粉涂覆装置,包括支撑架,控制屏,电机,入料机构,上粉舱,上粉机构,余料收集机构和出料口；支撑架左端顶部设置有控制屏。本发明达到了预先将滑石粉搅拌打细避免滑石粉与空气接触时间过长导致内部结块,影响涂覆质量并且堵塞机器,同时旋转式上粉使滑石粉充分覆盖电缆表面,防止滑石粉层产生空洞,并且将多余滑石粉料及时收集,避免滑石粉有致癌性危害工人身体健康的效果。(The invention relates to a communication cable, in particular to a communication cable talcum powder coating device. The invention aims to provide a communication cable talcum powder coating device. A communication cable talcum powder coating device comprises a support frame, a control screen, a motor, a feeding mechanism, a powder feeding cabin, a powder feeding mechanism, a residual material collecting mechanism and a discharge hole; the top of the left end of the support frame is provided with a control screen. The invention achieves the effects of stirring and finely grinding the talcum powder in advance, avoiding the phenomenon that the contact time of the talcum powder and air is too long, causing the inner agglomeration, influencing the coating quality and blocking a machine, simultaneously, leading the talcum powder to fully cover the surface of the cable by rotary powdering, preventing the talcum powder layer from generating holes, collecting redundant talcum powder in time and avoiding the talcum powder from causing carcinogenicity and harming the body health of workers.)

1. A communication cable talcum powder coating device comprises a support frame (1), a control screen (2) and a motor (3), and is characterized by further comprising a feeding mechanism (4), a powder feeding cabin (5), a powder feeding mechanism (6), a residual material collecting mechanism (7) and a discharge hole (8); a control screen (2) is arranged at the top of the left end of the support frame (1); the left part of the top end of the support frame (1) is provided with a motor (3); a feeding mechanism (4) is arranged at the right top of the support frame (1); a powder feeding cabin (5) is arranged in the right middle of the support frame (1), and the left part of the top end of the powder feeding cabin (5) is connected with the feeding mechanism (4); a powdering mechanism (6) is arranged in the middle of the inside of the support frame (1), the top of the left end of the powdering mechanism (6) is connected with the motor (3), the middle of the top of the right end of the powdering mechanism (6) is connected with the feeding mechanism (4), and the middle and the right of the powdering mechanism (6) are both connected with the powdering cabin (5); a residual material collecting mechanism (7) is arranged at the right bottom in the supporting frame (1), and the left part of the top end of the residual material collecting mechanism (7) is connected with the powdering mechanism (6); a discharge hole (8) is arranged in the middle of the bottom end of the powder feeding cabin (5).

2. The communication cable talcum powder coating device of claim 1, wherein the feeding mechanism (4) comprises a feeding pipe (401), a first buffer plate (402), a second buffer plate (403), a third buffer plate (404), a first driving wheel (405), an axe wheel (406), a first driving rod (407), a screen plate (408), a second driving wheel (409), a first stirring wheel (4010), a third driving wheel (4011), a second stirring wheel (4012), a dryer (4013) and a material conveying port (4014); a first buffer plate (402) is arranged at the top of the left end in the feeding pipe (401); a second buffer plate (403) is arranged in the middle of the top of the right end in the feeding pipe (401); a third buffer plate (404) is arranged at the middle top part of the inner left end of the feeding pipe (401); a first driving wheel (405) is arranged at the left bottom of the feeding pipe (401); a dryer (4013) is arranged at the bottom of the right end of the feeding pipe (401); a material conveying port (4014) is formed at the bottom of the material inlet pipe (401); the front end axle center of the first driving wheel (405) is rotationally connected with the axe wheel (406); the right part of the front end of the axe wheel (406) is connected with a first transmission rod (407); the right part of the first transmission rod (407) is connected with the screen plate (408); the top of the right end of the first transmission wheel (405) is in transmission connection with a second transmission wheel (409) through a belt; the front end axle center of the second driving wheel (409) is rotationally connected with the first stirring wheel (4010); the middle part of the right end of the second driving wheel (409) is in transmission connection with a third driving wheel (4011) through a belt; the front end axle center of the third driving wheel (4011) is rotationally connected with the second stirring wheel (4012); the bottom of the left end of the feeding pipe (401) is connected with the support frame (1); the bottom end of the feeding pipe (401) is connected with the powder feeding cabin (5); the rear end axle center of the first driving wheel (405) is connected with the supporting frame (1) through a mounting seat; the left end of the first driving wheel (405) is connected with the powdering mechanism (6).

3. The communication cable talcum powder coating device according to claim 2, wherein the powdering mechanism (6) comprises a first bevel gear (601), a second bevel gear (602), a fourth transmission wheel (603), a fifth transmission wheel (604), a second transmission rod (605), a cylindrical block (606), a sixth transmission wheel (607), a third transmission rod (608), a first flat gear (609), a second flat gear (6010), a first telescopic rod (6011), a third flat gear (6012), a screw rod (6013), a transfer block (6014), a storage port (6015), a telescopic switch (6016), a seventh transmission wheel (6017), an eighth transmission wheel (6018), a second telescopic rod (6019), a fourth flat gear (6020), a fifth flat gear (6021), a first cable shelf (6022), a sixth flat gear (6023) and a second cable shelf (6024); the rear part of the right end of the first bevel gear (601) is meshed with the second bevel gear (602); the right end axle center of the first bevel gear (601) is rotationally connected with a seventh driving wheel (6017); the rear end axle center of the second bevel gear (602) is rotationally connected with a fourth transmission wheel (603); the middle part of the bottom end of the fourth transmission wheel (603) is in transmission connection with a fifth transmission wheel (604) through a belt; the front end axle center of the fifth driving wheel (604) is rotationally connected with the second driving rod (605); the middle part of the bottom end of the fifth transmission wheel (604) is in transmission connection with a sixth transmission wheel (607) through a belt; the bottom of the second transmission rod (605) is provided with a cylindrical block (606); the right end axle center of the cylindrical block (606) is rotationally connected with the first flat gear (609); the front end axle center of the sixth transmission wheel (607) is rotationally connected with the third transmission rod (608); the bottom end of the first flat gear (609) is meshed with the second flat gear (6010); the right end axle center of the second flat gear (6010) is connected with a first telescopic rod (6011); the axle center of the right end of the first telescopic rod (6011) is connected with a third horizontal gear (6012); the right end axle center of the third flat gear (6012) is rotatably connected with a screw rod (6013); a transfer block (6014) is arranged at the left part of the outer surface of the screw rod (6013); a material storage port (6015) is arranged at the top end of the transfer block (6014); a telescopic switch (6016) is arranged in the middle of the inner bottom end of the transfer block (6014), and the top end of the telescopic switch (6016) is connected with the material storage port (6015); the middle part of the bottom end of the seventh driving wheel (6017) is in transmission connection with an eighth driving wheel (6018) through a belt; the axle center of the right end of the eighth driving wheel (6018) is connected with a second telescopic rod (6019); the right end axle center of the second telescopic rod (6019) is connected with a fourth flat gear (6020); the top end of the fourth flat gear (6020) is meshed with the fifth flat gear (6021); the axle center of the right end of the fifth flat gear (6021) is rotationally connected with the first cable rack (6022); the axle center of the right end of the fifth flat gear (6021) is rotationally connected with the sixth flat gear (6023); the left end axle center of the sixth flat gear (6023) is rotationally connected with the second cable rack (6024); the left end axis of the first bevel gear (601) is connected with the motor (3); the rear end axle center of the fourth transmission wheel (603) is connected with the support frame (1) through a mounting seat; the rear end axle center of the fifth transmission wheel (604) is connected with the supporting frame (1) through a mounting seat; the left end shaft center of the cylindrical block (606) is connected with the support frame (1) through the mounting seat; the rear end axle center of the sixth transmission wheel (607) is connected with the supporting frame (1) through a mounting seat; the right end axle center of the first flat gear (609) is connected with the upper powder cabin (5); the right middle part of the outer surface of the first telescopic rod (6011) is connected with the powdering cabin (5); the left part and the right part of the outer surface of the screw rod (6013) are both connected with the powdering cabin (5); the shaft center of the left end of an eighth transmission wheel (6018) is connected with the support frame (1) through a mounting seat; the bottom end of an eighth driving wheel (6018) is connected with the excess material collecting mechanism (7); the left end of the fifth flat gear (6021) is connected with the support frame (1); the right end of the sixth flat gear (6023) is connected with the supporting frame (1).

4. The communication cable talcum powder coating device according to claim 3, wherein the surplus material collecting mechanism (7) comprises a ninth transmission wheel (701), a third bevel gear (702), a fourth bevel gear (703), a tenth transmission wheel (704), an eleventh transmission wheel (705), a first disc (706), a first bump (707), a first transmission slide rail (708), a first fixed seat (709), a first push plate (7010), a fifth bevel gear (7011), a sixth bevel gear (7012), a twelfth transmission wheel (7013), a thirteenth transmission wheel (7014), a second disc (7015), a second bump (7016), a second transmission slide rail (7017), a second fixed seat (7018), a second push plate (7019) and a storage box (7020); the right end axis of the ninth transmission wheel (701) is rotationally connected with a third bevel gear (702); the rear end of the third bevel gear (702) is meshed with the fourth bevel gear (703); the right end axis of the third bevel gear (702) is rotationally connected with a fifth bevel gear (7011); the rear end axle center of the fourth bevel gear (703) is rotationally connected with a tenth driving wheel (704); the middle part of the top end of the tenth driving wheel (704) is in transmission connection with an eleventh driving wheel (705) through a belt; the front end axle center of the eleventh transmission wheel (705) is rotationally connected with the first disc (706); a first bump (707) is arranged at the middle top of the front end of the first disc (706); the left end and the right end of the first bump (707) are connected with the first transmission slide rail (708); the bottom of the rear end of the first transmission slide rail (708) is rotatably connected with a first fixed seat (709); the top of the rear end of the first transmission slide rail (708) is connected with a first push plate (7010); the rear part of the right end of the fifth bevel gear (7011) is meshed with the sixth bevel gear (7012); the rear end axle center of the sixth bevel gear (7012) is rotationally connected with a twelfth driving wheel (7013); the middle part of the top end of the twelfth driving wheel (7013) is in transmission connection with a thirteenth driving wheel (7014) through a belt; the front end axle center of the thirteenth driving wheel (7014) is rotationally connected with the second disc (7015); a second bump (7016) is arranged at the middle top of the front end of the second disc (7015); the left end and the right end of the second bump (7016) are both connected with a second transmission slide rail (7017); the bottom of the rear end of the second transmission slide rail (7017) is rotatably connected with a second fixed seat (7018); the top of the rear end of the second transmission slide rail (7017) is connected with a second push plate (7019); a material storage box (7020) is arranged at the left bottom of the second push plate (7019); the top end of the ninth driving wheel (701) is connected with an eighth driving wheel (6018); the rear end axle center of the tenth transmission wheel (704) is connected with the support frame (1) through a mounting seat; the rear end axle center of the eleventh transmission wheel (705) is connected with the supporting frame (1) through a mounting seat; the left end of the first fixed seat (709) is connected with the support frame (1) through the mounting seat; the rear end axle center of the twelfth driving wheel (7013) is connected with the supporting frame (1) through a mounting seat; the rear end axle center of the thirteenth driving wheel (7014) is connected with the supporting frame (1) through a mounting seat; the right end of the second fixed seat (7018) is connected with the support frame (1) through a mounting seat; the bottom end of the storage box (7020) is connected with the support frame (1).

5. A talc coating apparatus for communication cable according to claim 4 wherein the second driving rod (605) is matched with the surface groove of the cylindrical block (606).

6. The talc coating apparatus for communication cable as claimed in claim 5, wherein the top of the telescopic switch (6016) is triangular prism.

7. The talc powder coating device of claim 6, wherein the motion track of the first transmission slide rail (708) is a circular arc.

8. The talc coating apparatus for telecommunication cables as in claim 7, wherein the first push plate (7010) is trapezoidal in longitudinal section.

Technical Field

The invention relates to a communication cable, in particular to a communication cable talcum powder coating device.

Background

In the manufacturing process of the power cable, the phenomena of glue and adhesion are easy to occur between the insulated wire core and the outer sheath, and particularly the phenomena of sticking and adhesion are easy to occur when the outer sheath is extruded outside the insulated wire core or the stranded conductor through an extruder. The adhesive and the adhesion not only seriously affect the flexibility of the cable, but also affect the subsequent processing and laying installation of the cable, and can also cause the peeling difficulty of the cable, and more seriously, the adhesive and the adhesion can even cause the tearing of the insulating layer when the cable is bent, thereby reducing the service life of the cable and causing safety hazard. It is common in the industry to coat talc powder on an insulated wire core as a cable release agent to facilitate separation of the wire core from the jacket.

Disclosure of Invention

The invention aims to overcome the defects that in the prior art, a large amount of talcum powder is agglomerated after entering a device due to the fact that the contact time of the talcum powder and air is too long, the coating effect on a cable is poor, and due to the fact that the talcum powder has certain adhesion and solid plasticity, when an insulating wire core passes through the talcum powder, a cavity brought out by the insulating wire core is formed in the talcum powder, the cavity is partially collapsed under the action of gravity, the powder coating effect of the talcum powder which is polluted by the insulating wire core is not uniform, and the like.

The invention is achieved by the following specific technical means:

a communication cable talcum powder coating device comprises a support frame, a control screen, a motor, a feeding mechanism, a powder feeding cabin, a powder feeding mechanism, a residual material collecting mechanism and a discharge hole; a control screen is arranged at the top of the left end of the support frame; the left part of the top end of the support frame is provided with a motor; a feeding mechanism is arranged at the right top of the support frame; a powder feeding cabin is arranged in the right middle of the supporting frame, and the left part of the top end of the powder feeding cabin is connected with the feeding mechanism; a powder feeding mechanism is arranged in the middle of the support frame, the top of the left end of the powder feeding mechanism is connected with a motor, the middle of the top of the right end of the powder feeding mechanism is connected with a material feeding mechanism, and the middle part and the right part of the powder feeding mechanism are both connected with a powder feeding cabin; a residual material collecting mechanism is arranged at the right bottom in the supporting frame, and the left part of the top end of the residual material collecting mechanism is connected with the powdering mechanism; the middle part of the bottom end of the powder feeding cabin is provided with a discharge hole.

Further, the feeding mechanism comprises a feeding pipe, a first buffer plate, a second buffer plate, a third buffer plate, a first driving wheel, an axe wheel, a first driving rod, a screen plate, a second driving wheel, a first stirring wheel, a third driving wheel, a second stirring wheel, a dryer and a material conveying port; a first buffer plate is arranged at the top of the left end in the feeding pipe; a second buffer plate is arranged in the middle of the top of the right end in the feeding pipe; a third buffer plate is arranged at the middle top part of the left end in the feeding pipe; a first driving wheel is arranged at the left bottom of the feeding pipe; a dryer is arranged at the bottom of the right end of the feeding pipe; a material conveying port is arranged at the bottom of the material feeding pipe; the axle center of the front end of the first driving wheel is rotationally connected with the axe wheel; the right part of the front end of the axe wheel is connected with the first transmission rod; the right part of the first transmission rod is connected with the screen plate; the top of the right end of the first driving wheel is in transmission connection with a second driving wheel through a belt; the axle center of the front end of the second driving wheel is rotationally connected with the first stirring wheel; the middle part of the right end of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the front end of the third driving wheel is rotationally connected with the second stirring wheel; the bottom of the left end of the feeding pipe is connected with the supporting frame; the bottom end of the feeding pipe is connected with the powder feeding cabin; the rear end shaft center of the first driving wheel is connected with the supporting frame through the mounting seat; the left end of the first driving wheel is connected with the powdering mechanism.

Further, the powdering mechanism comprises a first bevel gear, a second bevel gear, a fourth driving wheel, a fifth driving wheel, a second driving rod, a cylindrical block, a sixth driving wheel, a third driving rod, a first flat gear, a second flat gear, a first telescopic rod, a third flat gear, a screw rod, a transfer block, a material storage port, a telescopic switch, a seventh driving wheel, an eighth driving wheel, a second telescopic rod, a fourth flat gear, a fifth flat gear, a first cable holder, a sixth flat gear and a second cable holder; the rear part of the right end of the first bevel gear is meshed with the second bevel gear; the axle center of the right end of the first bevel gear is rotationally connected with a seventh driving wheel; the rear end axle center of the second bevel gear is rotationally connected with a fourth transmission wheel; the middle part of the bottom end of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the axle center of the front end of the fifth driving wheel is rotationally connected with the second driving rod; the middle part of the bottom end of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; a cylindrical block is arranged at the bottom of the second transmission rod; the right end axis of the cylindrical block is rotationally connected with the first flat gear; the axle center of the front end of the sixth transmission wheel is rotationally connected with the third transmission rod; the bottom end of the first flat gear is meshed with the second flat gear; the right end axle center of the second flat gear is connected with the first telescopic rod; the axle center of the right end of the first telescopic rod is connected with the third horizontal gear; the axle center of the right end of the third horizontal gear is rotationally connected with the screw rod; the transfer block is arranged at the left part of the outer surface of the screw rod; the top end of the transfer block is provided with a material storage port; a telescopic switch is arranged in the middle of the bottom end in the transfer block, and the top end of the telescopic switch is connected with the material storage port; the middle part of the bottom end of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the axle center of the right end of the eighth driving wheel is connected with a second telescopic rod; the right end axle center of the second telescopic rod is connected with a fourth flat gear; the top end of the fourth flat gear is meshed with the fifth flat gear; the axle center of the right end of the fifth flat gear is rotationally connected with the first cable frame; the axle center of the right end of the fifth flat gear is rotationally connected with the sixth flat gear; the left end axis of the sixth flat gear is rotationally connected with the second cable frame; the left end axis of the first bevel gear is connected with a motor; the rear end axle center of the fourth driving wheel is connected with the supporting frame through the mounting seat; the rear end axle center of the fifth driving wheel is connected with the supporting frame through a mounting seat; the left end shaft center of the cylindrical block is connected with the supporting frame through the mounting seat; the rear end axle center of the sixth driving wheel is connected with the supporting frame through the mounting seat; the right end axle center of the first flat gear is connected with the powder feeding cabin; the right middle part of the outer surface of the first telescopic rod is connected with the powdering cabin; the left part and the right part of the outer surface of the screw rod are both connected with the powdering cabin; the shaft center of the left end of the eighth transmission wheel is connected with the support frame through the mounting seat; the bottom end of the eighth driving wheel is connected with the excess material collecting mechanism; the left end of the fifth flat gear is connected with the support frame; the right end of the sixth flat gear is connected with the supporting frame.

Further, the excess material collecting mechanism comprises a ninth driving wheel, a third bevel gear, a fourth bevel gear, a tenth driving wheel, an eleventh driving wheel, a first disc, a first bump, a first driving slide rail, a first fixed seat, a first push plate, a fifth bevel gear, a sixth bevel gear, a twelfth driving wheel, a thirteenth driving wheel, a second disc, a second bump, a second driving slide rail, a second fixed seat, a second push plate and a material storage box; the axle center of the right end of the ninth transmission wheel is rotationally connected with the third bevel gear; the rear end of the third bevel gear is meshed with the fourth bevel gear; the right end axis of the third bevel gear is rotationally connected with the fifth bevel gear; the axle center at the rear end of the fourth bevel gear is rotationally connected with a tenth transmission wheel; the middle part of the top end of the tenth transmission wheel is in transmission connection with the eleventh transmission wheel through a belt; the front end axle center of the eleventh transmission wheel is rotationally connected with the first disc; a first bump is arranged at the middle top of the front end of the first disc; the left end and the right end of the first bump are connected with the first transmission slide rail; the bottom of the rear end of the first transmission slide rail is rotationally connected with the first fixed seat; the top of the rear end of the first transmission slide rail is connected with the first push plate; the rear part of the right end of the fifth bevel gear is meshed with the sixth bevel gear; the axle center at the rear end of the sixth bevel gear is rotationally connected with the twelfth driving wheel; the middle part of the top end of the twelfth driving wheel is in transmission connection with the thirteenth driving wheel through a belt; the axle center of the front end of the thirteenth driving wheel is rotationally connected with the second disc; a second lug is arranged at the middle top of the front end of the second disc; the left end and the right end of the second lug are both connected with the second transmission slide rail; the bottom of the rear end of the second transmission slide rail is rotatably connected with the second fixed seat; the top of the rear end of the second transmission slide rail is connected with the second push plate; a material storage box is arranged at the left bottom of the second push plate; the top end of the ninth transmission wheel is connected with the eighth transmission wheel; the rear end axle center of the tenth driving wheel is connected with the supporting frame through the mounting seat; the rear end axle center of the eleventh transmission wheel is connected with the supporting frame through a mounting seat; the left end of the first fixed seat is connected with the supporting frame through the mounting seat; the rear end axle center of the twelfth transmission wheel is connected with the supporting frame through the mounting seat; the shaft center at the rear end of the thirteenth driving wheel is connected with the supporting frame through the mounting seat; the right end of the second fixed seat is connected with the support frame through the mounting seat; the bottom end of the storage box is connected with the support frame.

Furthermore, the second transmission rod is matched with a groove on the surface of the cylindrical block.

Furthermore, the top end of the telescopic switch is in a triangular prism shape.

Furthermore, the motion trail of the first transmission slide rail is an arc.

Furthermore, the longitudinal section of the first push plate is trapezoidal.

Compared with the prior art, the invention has the following beneficial effects:

in order to solve the problems that in the prior art, due to the fact that the contact time of talcum powder and air is too long, the interior of the talcum powder is agglomerated, a large amount of talcum powder can block a device after entering the device, the coating effect on a cable is poor, and due to the fact that the talcum powder has certain adhesion and solid plasticity, when an insulating wire core passes through the talcum powder, a cavity brought out by the insulating wire core can be formed in the talcum powder, the cavity can collapse under the action of gravity, the phenomenon that the powder coating effect is poor due to the fact that the talcum powder adhered to the insulating wire core is not uniform is caused, and the like, a feeding mechanism is designed, the prepared talcum powder is stirred and thinned through the feeding mechanism, the talcum powder is stirred and thinned in advance, the effect that the contact time of the talcum powder and the air is too long, the interior of the talcum powder is agglomerated, the coating quality is affected, and the machine is, the utility model has the advantages of reached the rotation type and gone up the powder and make the talc powder fully cover the cable surface, prevent that the talc powder layer from producing empty effect, designed clout collection mechanism, collect the unnecessary talc powder that falls through clout collection mechanism, reached and in time collected unnecessary talc powder, avoided the talc powder to have carcinogenicity harm workman healthy effect.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a feeding mechanism according to the present invention;

FIG. 3 is a schematic structural view of a powdering mechanism according to the present invention;

fig. 4 is a schematic structural view of the remainder collecting mechanism of the present invention.

The labels in the figures are: 1-a support frame, 2-a control screen, 3-a motor, 4-a feeding mechanism, 5-a powdering cabin, 6-a powdering mechanism, 7-a remainder collecting mechanism, 8-a discharging port, 401-a feeding pipe, 402-a first buffer plate, 403-a second buffer plate, 404-a third buffer plate, 405-a first driving wheel, 406-an axe wheel, 407-a first driving rod, 408-a screen plate, 409-a second driving wheel, 4010-a first stirring wheel, 4011-a third driving wheel, 4012-a second stirring wheel, 4013-a dryer, 4014-a conveying port, 601-a first bevel gear, 602-a second bevel gear, 603-a fourth driving wheel, 604-a fifth driving wheel, 605-a second driving rod, 606-a cylindrical block, 607-a sixth driving wheel, 608-third transmission rod, 609-first flat gear, 6010-second flat gear, 6011-first telescopic rod, 6012-third flat gear, 6013-lead screw, 6014-transfer block, 6015-material storage port, 6016-telescopic switch, 6017-seventh transmission wheel, 6018-eighth transmission wheel, 6019-second telescopic rod, 6020-fourth flat gear, 6021-fifth flat gear, 6022-first cable holder, 6023-sixth flat gear, 6024-second cable holder, 701-ninth transmission wheel, 702-third bevel gear, 703-fourth bevel gear, 704-tenth transmission wheel, 705-eleventh transmission wheel, 706-first disc, 707-first bump, 708-first transmission slide rail, 709-first fixed seat, 7010-first push plate, 7011-a fifth bevel gear, 7012-a sixth bevel gear, 7013-a twelfth driving wheel, 7014-a thirteenth driving wheel, 7015-a second disk, 7016-a second bump, 7017-a second driving slide rail, 7018-a second fixed seat, 7019-a second push plate, 7020-a storage bin.

Detailed Description

The invention is further described below with reference to the figures and examples.