阅读说明：本技术 一种废弃光盘发射装置 (Abandonment CD emitter ) 是由 王刚 于 2020-06-17 设计创作，主要内容包括：本发明公开的一种废弃光盘发射装置,包括枪身,所述枪身内设有开口向左的射击腔,所述射击腔底壁内转动连接有转动轴,所述转动轴上套有废弃的光盘子弹,所述枪身上转动安装有门铰接轴,所述门铰接轴右侧固设有能封闭或打开射击腔顶壁的补弹门,本发明能把废弃或不用的光盘利用起来,通过弹射装置使光盘子弹转动起来使其附带的机械能增大,并且通过不完全齿轮与普通齿轮的啮合方式来周期性的控制弹射杆左右移动,此外,扣动扳机后,通过向上顶压光盘子弹和使弹道不封闭才能弹射光盘子弹,这项发明作为一种玩具,其消耗性的部件获取方便,侧面减轻玩具的成本。(The invention discloses a waste optical disk launching device, which comprises a gun body, wherein a shooting cavity with a leftward opening is arranged in the gun body, a rotating shaft is rotatably connected to the bottom wall of the shooting cavity, waste compact disc bullets are sleeved on the rotating shaft, the gun body is rotatably provided with a door hinge shaft, the right side of the door hinge shaft is fixedly provided with a bullet supplementing door capable of closing or opening the top wall of the shooting cavity, the invention can utilize discarded or unused compact discs, and the compact disc bullets are rotated by the ejection device to increase the incidental mechanical energy, and the ejection rod is periodically controlled to move left and right by the engagement mode of the incomplete gear and the common gear, in addition, after the trigger is pulled, the invention can eject the compact disc bullet by upwards pressing the compact disc bullet and enabling the trajectory not to be closed, and the invention is used as a toy, the consumable parts of the toy are convenient to obtain, and the cost of the toy is reduced on the side surface.)

1. A abandoned optical disk launching device comprises a gun body and is characterized in that: the compact disc shooting gun is characterized in that a shooting cavity with a leftward opening is arranged in the gun body, a rotating shaft is rotatably connected to the bottom wall of the shooting cavity, waste compact disc bullets are sleeved on the rotating shaft, a door hinge shaft is rotatably arranged on the gun body, a bullet supplementing door capable of closing or opening the top wall of the shooting cavity is fixedly arranged on the right side of the door hinge shaft, when the compact disc bullets are placed in the shooting cavity, the bullet supplementing door can be manually controlled to rotate along the door hinge shaft so as to open the upper opening of the shooting cavity, then the compact disc bullets can be manually placed in the shooting cavity and sleeved on the rotating shaft, an ejection device capable of ejecting the compact disc bullets to move leftward along the shooting cavity and finally fly out of the shooting cavity is arranged in the gun body, a front grip for left-handed grasping is fixedly arranged on the lower side of the gun body, and a rear grip for right-handed grasping is fixedly arranged on the, the optical disk bullet shooting gun is characterized in that a trigger guard ring fixedly connected with the rear handle is fixedly arranged on the lower side of the gun body, a trigger groove which is located on the upper side of the trigger guard ring and is downward in opening is arranged in the gun body, a trigger hinge shaft is rotatably connected to the rear wall of the trigger groove, a trigger which can extend into the trigger groove is fixedly arranged on the trigger hinge shaft, and a control device which can control the shooting of an optical disk bullet through the trigger is arranged in the gun body.

2. A used optical disc ejecting apparatus as claimed in claim 1, wherein: the ejection device is including locating being located in the body of a gun shooting chamber downside just is located the belt chamber of trigger groove upside, the motor has set firmly in the belt chamber diapire, the drive shaft has set firmly on the output shaft of motor upside, the drive shaft has set firmly driving pulley, belt chamber diapire internal rotation is connected with and is located the left driven shaft of drive shaft, driven pulley has set firmly on the driven shaft, driven pulley with be connected with the belt between the driving pulley, the driven shaft stretches out belt chamber outer and fixed connection in the axis of rotation downside.

3. A used optical disc ejecting apparatus as claimed in claim 2, wherein: the gun body is internally provided with a transmission cavity connected with the upper side of the belt cavity, the driving shaft extends into the transmission cavity and is rotatably connected into the top wall of the transmission cavity, the top wall of the transmission cavity is rotatably connected with a transmission shaft positioned at the right side of the driving shaft, the transmission shaft is fixedly provided with a transmission gear, the driving shaft is fixedly provided with an incomplete gear capable of being meshed and connected with the transmission gear, the transmission shaft is fixedly provided with an ejection wheel positioned at the upper side of the transmission gear, the gun body is internally provided with an ejection plate positioned at the left side of the ejection wheel, the ejection cavity is internally provided with an ejection cavity, the ejection cavity is slidably connected with an ejection rod, an ejection connecting cavity is connected between the ejection cavity and the ejection cavity, the ejection rod can slide along the ejection connecting cavity and extend into the ejection cavity, and a jacking ejection spring is connected between the right wall of the ejection rod in the, the ejection cavity is connected with a connecting cavity between the transmission cavities, and an ejection connecting line is connected between the right side of the ejection rod and the ejection ray wheel.

4. A used optical disc ejecting apparatus as claimed in claim 1, wherein: controlling means is including locating the ascending spline cavity of opening in the axis of rotation, sliding connection has spline connection's shrouding integral key shaft in the spline cavity, shrouding integral key shaft upside has set firmly can prevent the CD bullet rotates and the shrouding of automatic departure, in the spline cavity diapire with be connected with shrouding roof pressure spring between the shrouding integral key shaft bottom, be equipped with in the body of a gun and be located belt chamber downside just is located the left trigger line wheel axle in trigger groove, trigger line axle rotate connect in the body of a gun rear wall, the epaxial trigger line wheel that has set firmly of trigger line wheel, the trigger articulated shaft with be connected with between the shrouding integral key shaft through the trigger connecting wire of trigger line wheel.

5. The used optical disc ejecting apparatus as claimed in claim 4, wherein: the gun body is internally provided with a jacking channel which is connected to the lower side of the shooting cavity and penetrates through the belt cavity and is connected to the upper side of the trigger groove, a jacking rod is connected in the jacking channel in a sliding manner, the jacking rod extends into the trigger groove and a spring rod is fixedly arranged on the right side of the jacking rod in the trigger groove, a homing jacking spring is connected between the upper side of the spring rod and the top wall of the trigger groove, a jacking plate capable of moving up and down along the jacking channel is arranged in the jacking rod, a fault-tolerant jacking spring is connected between the lower side of the jacking plate and the jacking rod, and hoses are connected between two sides of the lower side of the jacking plate and the jacking rod.

6. A used optical disc ejecting apparatus as claimed in claim 1, wherein: the compact disc bullet is suitable for being overlapped and bonded by a plurality of compact discs, and the overlapping height of the compact discs cannot be higher than the moving distance of the sealing plate.

Technical Field

The invention relates to the field of utilization of waste optical disks, in particular to a waste optical disk launching device.

Background

With the progress of the times, the innovation of the technology and the development of the technology, more and more electronic products are eliminated, and the eliminated electronic products cannot be well utilized due to poor recovery benefit, difficult recovery and the like.

At present, optical discs are gradually replaced by larger capacity memory cards and the like as electronic storage devices, because optical discs are read-only memory cards and cannot be written with new data again, and the use range is too small, most optical discs are eliminated, and the eliminated optical discs cannot be well treated due to the problems of recycling value, recycling cost and the like, a device capable of enabling the optical discs to play a role needs to be designed, and at present, the cost of toys is higher and higher, and the toys can come into play.

Disclosure of Invention

The technical problem is as follows: the optical disc is rejected and has poor recycling benefit, and a device capable of enabling the optical disc to play a role needs to be designed.

In order to solve the problems, the present embodiment designs a waste optical disc launching device, which comprises a gun body, wherein a shooting cavity with a leftward opening is arranged in the gun body, a rotating shaft is rotatably connected to the bottom wall of the shooting cavity, waste optical disc bullets are sleeved on the rotating shaft, a door hinge shaft is rotatably arranged on the gun body, a bullet supplementing door capable of closing or opening the top wall of the shooting cavity is fixedly arranged on the right side of the door hinge shaft, when the optical disc bullets are to be placed in the shooting cavity, the bullet supplementing door can be manually controlled to rotate along the door hinge shaft so as to open the upper opening of the shooting cavity, then the optical disc bullets can be manually placed in the shooting cavity and sleeved on the rotating shaft, and a device capable of enabling the optical disc bullets to move leftward along the shooting cavity and finally fly out of the shooting cavity is arranged in the gun body, the compact disc bullet shooting gun is characterized in that a front handle for left-hand grasping is fixedly arranged on the lower side of the gun body, a rear handle for right-hand grasping is fixedly arranged on the right side of the front handle, a trigger guard ring fixedly connected with the rear handle is fixedly arranged on the lower side of the gun body, a trigger groove with a downward opening is arranged in the gun body and positioned on the upper side of the trigger guard ring, a trigger hinged shaft is rotatably connected to the rear wall of the trigger groove, a trigger capable of extending into the trigger groove is fixedly arranged on the trigger hinged shaft, and a control device capable of controlling shooting of a compact disc bullet through the trigger is arranged in the gun body.

Wherein, the jettison device is including locating being located in the body of a gun shooting chamber downside just is located the belt chamber of trigger groove upside, the motor has set firmly in the belt chamber diapire, the drive shaft has set firmly on the output shaft of motor upside, the drive shaft has set firmly driving pulley, belt chamber diapire internal rotation is connected with and is located the left driven shaft of drive shaft, driven pulley has set firmly on the driven shaft, driven pulley with be connected with the belt between the driving pulley, the driven shaft stretches out belt chamber outer and fixed connection in the axis of rotation downside.

Wherein, a transmission cavity connected with the upper side of the belt cavity is arranged in the gun body, the driving shaft extends into the transmission cavity and is rotatably connected with the top wall of the transmission cavity, the top wall of the transmission cavity is rotatably connected with a transmission shaft positioned at the right side of the driving shaft, the transmission shaft is fixedly provided with a transmission gear, the driving shaft is fixedly provided with an incomplete gear capable of being meshed with the transmission gear, the transmission shaft is fixedly provided with an ejection wheel positioned at the upper side of the transmission gear, the gun body is internally provided with an ejection plate positioned at the left side of the ejection wheel, the ejection plate is internally provided with an ejection cavity, the ejection cavity is slidably connected with an ejection rod, an ejection connection cavity is connected between the ejection cavity and the ejection cavity, the ejection rod can slide along the ejection connection cavity and extend into the ejection cavity, and an ejection jacking spring is connected between the right wall of the ejection cavity and the right wall of, the ejection cavity is connected with a connecting cavity between the transmission cavities, and an ejection connecting line is connected between the right side of the ejection rod and the ejection ray wheel.

Wherein, controlling means is including locating the ascending spline cavity of opening in the axis of rotation, sliding connection has spline connection's shrouding integral key shaft in the spline cavity, shrouding integral key shaft upside has set firmly can prevent the CD bullet rotates and the shrouding of automatic departure, in the spline cavity diapire with be connected with shrouding roof pressure spring between the shrouding integral key shaft bottom, be equipped with in the body of a gun and be located belt chamber downside just is located the left trigger line wheel axle in trigger groove, trigger line axle rotate connect in the body of a gun back wall, the epaxial trigger line wheel that has set firmly of trigger line wheel, the trigger articulated shaft with be connected with between the shrouding integral key shaft through the trigger connecting wire of trigger line wheel.

The gun body is internally provided with a jacking channel which is connected to the lower side of the shooting cavity and communicated with the belt cavity and connected to the upper side of the trigger groove, a jacking rod is connected in the jacking channel in a sliding manner, the jacking rod extends into the trigger groove and the right side of the jacking rod in the trigger groove, a homing jacking spring is connected between the upper side of the spring rod and the top wall of the trigger groove, a jacking plate capable of moving up and down along the jacking channel is arranged in the jacking rod, a fault-tolerant jacking spring is connected between the lower side of the jacking plate and the jacking rod, and hoses are connected between two sides of the lower side of the jacking plate and the jacking rod.

Advantageously, the optical disc cartridge is bonded by overlapping a plurality of optical discs, and the overlapping height of the optical discs cannot be higher than the moving distance of the closing plate.

The invention has the beneficial effects that: the invention can utilize the abandoned or unused optical disk, the ejection device can make the optical disk bullet rotate to increase the mechanical energy attached to the optical disk bullet, and the ejection rod is periodically controlled to move left and right by the engagement mode of the incomplete gear and the common gear.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

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

FIG. 2 is an enlarged schematic view of FIG. 1 at "A";

FIG. 3 is an enlarged schematic view of FIG. 1 "B";

fig. 4 is a schematic view of the inside of the press rod of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 4, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a device for launching a waste optical disk, which is further explained by combining the attached drawings of the invention: the invention relates to a discarded compact disc launching device, which comprises a gun body 11, wherein a shooting cavity 31 with a left opening is arranged in the gun body 11, a rotating shaft 46 is rotatably connected to the bottom wall of the shooting cavity 31, a discarded compact disc bullet 28 is sleeved on the rotating shaft 46, a door hinge shaft 30 is rotatably arranged on the gun body 11, a bullet supplementing door 29 capable of closing or opening the top wall of the shooting cavity 31 is fixedly arranged at the right side of the door hinge shaft 30, when the compact disc bullet 28 is required to be placed in the shooting cavity 31, the bullet supplementing door 29 can be manually controlled to rotate along the door hinge shaft 30 so as to open the upper opening of the shooting cavity 31, then the compact disc bullet 28 can be manually placed in the shooting cavity 31 and sleeved on the rotating shaft 46, an ejection device 101 capable of ejecting the compact disc bullet 28 to move leftwards along the shooting cavity 31 and finally fly out of the shooting cavity 31 is arranged in the gun body 11, a front grip 12 for left-handed grasping is fixedly arranged on the lower side of the gun body 11, a rear grip 18 for right-handed grasping is fixedly arranged on the lower side of the gun body 11 and is positioned on the right side of the front grip 12, a trigger guard ring 52 fixedly connected with the rear grip 18 is fixedly arranged on the lower side of the gun body 11, a trigger groove 17 with a downward opening and positioned on the upper side of the trigger guard ring 52 is arranged in the gun body 11, a trigger hinge shaft 51 is rotatably connected to the rear wall of the trigger groove 17, a trigger 16 capable of extending into the trigger groove 17 is fixedly arranged on the trigger hinge shaft 51, and a control device 102 capable of controlling the emission of the compact disc cartridge 28 through the trigger 16 is arranged in the gun body 11.

According to the embodiment, the ejection device 101 is described in detail below, the ejection device 101 includes a belt cavity 47 disposed in the gun body 11 and located below the firing cavity 31 and above the trigger slot 17, a motor 20 is fixedly disposed in a bottom wall of the belt cavity 47, a driving shaft 22 is fixedly disposed on an output shaft of an upper side of the motor 20, a driving pulley 21 is fixedly disposed on the driving shaft 22, a driven shaft 33 disposed on a left side of the driving shaft 22 is rotatably connected to a bottom wall of the belt cavity 47, a driven pulley 32 is fixedly disposed on the driven shaft 33, a belt 19 is connected between the driven pulley 32 and the driving pulley 21, the driven shaft 33 extends out of the belt cavity 47 and is fixedly connected to a lower side of the rotating shaft 46, when the motor 20 is started, the driving shaft 22 is driven to rotate, that is, the driving pulley 21 is driven to rotate, the driving pulley 21 drives the driven pulley 32 to rotate through the belt 19, the rotation shaft 46 on the driven shaft 33 is driven to rotate, and the rotation shaft 46 rotates to drive the disc cartridge 28 to rotate, so that the disc cartridge 28 rotates to have mechanical energy.

According to the embodiment, a transmission cavity 48 connected to the upper side of the belt cavity 47 is arranged in the gun body 11, the driving shaft 22 extends into the transmission cavity 48 and is rotatably connected to the top wall of the transmission cavity 48, a transmission shaft 23 located on the right side of the driving shaft 22 is rotatably connected to the top wall of the transmission cavity 48, a transmission gear 24 is fixedly arranged on the transmission shaft 23, an incomplete gear 25 capable of being meshed and connected to the transmission gear 24 is fixedly arranged on the driving shaft 22, an ejection wheel 27 located on the upper side of the transmission gear 24 is fixedly arranged on the transmission shaft 23, an ejection plate 43 located on the left side of the ejection wheel 27 is arranged in the gun body 11, an ejection cavity 53 is arranged in the ejection plate 43, an ejection rod 44 is slidably connected to the ejection cavity 53, a connection ejection cavity 45 is connected between the ejection cavity 53 and the shooting cavity 31, the ejection rod 44 can slide along the ejection connection cavity 45 and extend into the shooting cavity 31, an ejection jacking spring 42 is connected between the right walls of the ejection rods 44 in the right wall of the ejection cavity 53, a connecting cavity 40 is connected between the ejection cavity 53 and the transmission cavity 48, an ejection connecting line 26 is connected between the right side of the ejection rod 44 and the ejection line wheel 27, when the motor 20 is started and drives the driving shaft 22 to rotate, the driving shaft 22 rotates and drives the transmission shaft 23 to rotate through the engagement of the incomplete gear 25 and the transmission gear 24, the transmission shaft 23 rotates and drives the ejection line wheel 27 to rotate, so that the ejection connecting line 26 is pulled to move the ejection rod 44 to the right limit position, the ejection jacking spring 42 is compressed and contracted, when the incomplete gear 25 rotates to be no longer engaged with the transmission gear 24, the contracted ejection jacking spring 42 pushes and drives the ejection rod 44 to move leftwards, the connecting line 26 is pulled out under the influence of the tensile force of the ejection rod 44, the incomplete gear 25 continues to rotate and is engaged with the transmission gear 24, the previous drive is repeated for ejection.

According to the embodiment, the control device 102 is described in detail below, the control device 102 includes a spline cavity 38 with an upward opening and disposed in the rotation shaft 46, a sealing plate spline shaft 37 connected with a spline is slidably connected in the spline cavity 38, a sealing plate 36 capable of preventing the optical disc cartridge 28 from automatically flying off is fixedly disposed on the upper side of the sealing plate spline shaft 37, a sealing plate pressing spring 39 is connected between the bottom wall of the spline cavity 38 and the bottom of the sealing plate spline shaft 37, a trigger line shaft 14 located on the lower side of the belt cavity 47 and on the left side of the trigger groove 17 is disposed in the gun body 11, the trigger line shaft 14 is rotatably connected in the rear wall of the gun body 11, a trigger line wheel 13 is fixedly disposed on the trigger line shaft 14, a trigger connection line 15 passing through the trigger line 13 is connected between the trigger hinge shaft 51 and the sealing plate spline shaft 37, when the trigger 16 is manually pulled, the trigger 16 rotates, i.e. the trigger hinge shaft 51 rotates, so as to drive the sealing plate spline shaft 37 to move downwards through the trigger connecting line 15, i.e. the sealing plate 36 moves downwards, the sealing plate pressing spring 39 is compressed under the influence of pressure, and the downward movement of the sealing plate 36 enables the disc cartridge 28 in the shooting cavity 31 to be separated from the rotating shaft 46.

According to the embodiment, a pressing channel 35 connected to the lower side of the shooting cavity 31 and connected to the upper side of the trigger slot 17 through the belt cavity 47 is arranged in the gun body 11, a pressing rod 34 is connected in the pressing channel 35 in a sliding manner, the pressing rod 34 extends into the trigger slot 17, a spring rod 54 is fixedly arranged on the right side of the pressing rod 34 in the trigger slot 17, a homing pressing spring 55 is connected between the upper side of the spring rod 54 and the top wall of the trigger slot 17, a pressing plate 58 capable of moving up and down along the pressing channel 35 is arranged in the pressing rod 34, a fault-tolerant pressing spring 56 is connected between the lower side of the pressing plate 58 and the pressing rod 34, a hose 57 is connected between two sides of the lower side of the pressing plate 58 and the pressing rod 34, when the trigger 16 is manually pulled, the pressing rod 34 is pressed by the trigger 16 to enable the pressing rod 34 to move up so as to push the optical disc cartridge 28 to move up to the position which is the same as the level as the ejecting rod 44, and the uppermost position of When there are more disc cartridges 28 in the firing chamber 31, the pressing rod 34 moves upward to press the pressing plate 58 to move downward, and the pressing spring 56 is pressed to contract.

Advantageously, the compact disc cartridge 28 is bonded by stacking a plurality of compact discs, and the stacking height of the compact discs cannot be higher than the moving distance of the closing plate 36.

The following describes in detail the usage steps of a discarded optical disc launching device in this document with reference to fig. 1 to 4: in the initial state, the ejection rod 44 is at the right limit position, the incomplete gear 25 is meshed with the transmission gear 24, the sealing plate 36 is at the upper limit position, and the jacking rod 34 is at the lower limit position.

When the compact disc cartridge 28 is to be put in, the replenishing door 29 is manually opened, and the compact disc cartridge 28 is put in the shooting cavity 31 and sleeved on the rotating shaft 46.

When the optical disc cartridge 28 is to be ejected, the starting motor 20 drives the driving shaft 22 to rotate, i.e. drives the driving pulley 21 to rotate, the driving pulley 21 drives the driven pulley 32 to rotate through the belt 19, i.e. drives the rotating shaft 46 on the driven shaft 33 to rotate, the rotating shaft 46 rotates to drive the optical disc cartridge 28 to rotate, so that the optical disc cartridge 28 rotates to have mechanical energy, the driving shaft 22 rotates to drive the transmission shaft 23 to rotate through the engagement of the incomplete gear 25 and the transmission gear 24, the transmission shaft 23 rotates to drive the ejection wheel 27 to rotate, so that the ejection connecting wire 26 is pulled to move the ejection rod 44 to the right limit position, the ejection top pressure spring 42 is compressed to contract, when the incomplete gear 25 rotates to no longer engage with the transmission gear 24, the contracted ejection top pressure spring 42 pushes the ejection rod 44 leftward to drive the ejection rod 44 to move leftward, and the ejection connecting wire 26 is pulled, the incomplete gear 25 continues to rotate and is engaged with the transmission gear 24, the ejection rod 44 moves left and right rapidly by repeating the previous transmission, the trigger 16 is manually pulled to rotate upward around the trigger hinge shaft 51, the trigger 16 rotates, namely, the trigger hinge shaft 51 rotates, so that the closure spline shaft 37 is driven to move downward through the trigger connecting wire 15, namely, the closure plate 36 moves downward, the closure plate pressing spring 39 is compressed by the pressure, the downward movement of the closure plate 36 enables the optical disc cartridge 28 in the ejection cavity 31 to be separated from the rotating shaft 46, meanwhile, the trigger 16 presses the pressing rod 34 to enable the pressing rod 34 to move upward so as to push the optical disc cartridge 28 to move upward to the position which is horizontal to the ejection rod 44 and eject the topmost optical disc cartridge 28 through the ejection rod 44, when the finger for pulling the trigger 16 is released, the compressed closure plate pressing spring 39 drives the closure plate 36 to move upward so that the optical disc cartridge 28 cannot be separated from the rotating shaft 46, the retracted home-position pressing spring 55 drives the spring rod 54 to move downward, i.e., drives the pressing rod 34 to move downward, so that the disc cartridge 28 is restored to the original position.

The invention has the beneficial effects that: the invention can utilize the abandoned or unused optical disk, the ejection device can make the optical disk bullet rotate to increase the mechanical energy attached to the optical disk bullet, and the ejection rod is periodically controlled to move left and right by the engagement mode of the incomplete gear and the common gear.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.