Disclosure of Invention
The invention aims to provide a toy recovery device, which can adjust the use length of a carrying assembly according to the actual situation; the carrying of the waste toy can be realized through the carrying assembly; the waste toy can be extruded by the rolling assembly; can realize the breakage to old and useless toy through broken assembly.
The purpose of the invention is realized by the following technical scheme:
a toy recovery device includes a carrying assembly; rolling a combination body; a crushing assembly; the chassis assembly, its characterized in that: the utility model provides a toy recovery unit, includes the delivery assembly, rolls assembly, broken assembly, chassis assembly, its characterized in that: the carrying assembly is connected with the chassis assembly, the rolling assembly is connected with the chassis assembly, and the crushing assembly is connected with the chassis assembly.
As a further optimization of the technical scheme, the toy recovery device comprises a first rectangular sliding frame; the inner end of the rectangular slider I is provided with a first slide; the inner end of the rotating column I; a first slide bar is arranged at the inner end; the sliding rod pushes the first spring; a conveyor belt; a second rectangular sliding frame; an inner end clamping groove; a second inner end rotary column; a first roller; a second roller; a third roller; tensioning the slider; tensioning a push spring; an outer frame; an inner end rotary column III; pressing the rod; a wedge-shaped push rod I; the inner end is provided with a first spring; a wedge-shaped push rod II; a wedge-shaped clamping rod I; a second wedge-shaped clamping rod; the first inner-end sliding rod is fixedly connected with the first rectangular sliding frame, the first inner-end rectangular slider is connected with the first inner-end sliding rod in a sliding mode, the first inner-end rotating column is fixedly connected with the first inner-end rectangular slider, the first sliding rod pushing spring is connected with the first inner-end sliding rod in a sleeved mode, and the conveying belt is connected with the first roller; a second roller; the roller III is connected with the rectangular sliding frame II in a matched mode, the inner end clamping groove is formed in the rectangular sliding frame II, the inner end rotating column II is fixedly connected with the rectangular sliding frame II, the roller I is rotatably connected with the inner end rotating column II, the roller III is rotatably connected with the inner end rotating column II, the roller II is rotatably connected with the inner end rotating column III, the outer frame is fixedly connected with the rectangular sliding frame II, the tensioning slider is slidably connected with the outer frame, the tensioning push spring is arranged between the tensioning slider and the outer frame, the pressing rod is slidably connected with the rectangular sliding frame I, and the pressing rod is connected with the wedge-shaped push rod I; the wedge-shaped push rod II is connected in a matched mode; the wedge-shaped push rod II is connected with the rectangular sliding frame I in a sliding mode, the inner end spring I is arranged between the wedge-shaped push rod I and the rectangular sliding frame I, the inner end spring II is arranged between the wedge-shaped push rod II and the rectangular sliding frame I, and the wedge-shaped clamping rod I is arranged; the wedge-shaped clamping rods II are respectively arranged on the wedge-shaped push rods I; the wedge-shaped push rod II is fixedly connected with the wedge-shaped clamping rod I; the second wedge-shaped clamping rod is matched and connected with the clamping groove at the inner end.
As a further optimization of the technical scheme, the toy recovery device comprises a rolling combination body, a rolling support and a rolling mechanism, wherein the rolling combination body comprises a rolling support; a bracket slider; a bracket strut; a middle end rotating rod; an outer end sleeve; a pressure lever; a compression bar pushing spring; a hinged connecting rod; a drive rod; a first clutch lever; a second clutch lever; a clutch lever push spring; a clutch lever rotating rod; a clutch lever limiting plate; a moving belt; the inner end of the slider I is provided with a slider I; a slider slide bar; tensioning roller; a tension spring B, a support sliding column is fixedly connected with a rolling support, a support sliding column is slidably connected with the support sliding column, a middle rotating rod is rotatably connected with the support sliding column, an outer end sleeve is fixedly connected with the middle rotating rod, a pressure rod is slidably connected with the outer end sleeve, a pressure rod push spring is arranged between the pressure rod and the outer end sleeve, a hinged connecting rod is hinged with the middle rotating rod, a driving rod is hinged with the hinged connecting rod, the driving rod is rotatably connected with the rolling support, a clutch rod I is fixedly connected with the driving rod, the clutch rod I is rotatably connected with the rolling support, a clutch rod II is matched and connected with the clutch rod I, a clutch rod push spring is arranged between the clutch rod II and a clutch rod limiting plate, the clutch rod limiting plate is fixedly connected with the clutch rod rotating rod, the clutch rod II is slidably connected with the clutch rod rotating rod, and a; a first clutch lever; the tensioning roller is connected, the inner end slider I is connected with the slider sliding rod in a sliding mode, the slider sliding rod is fixedly connected with the rolling support, the tensioning roller is connected with the inner end slider I in a rotating mode, and the tensioning spring B is connected with the slider sliding rod in a sleeved mode.
As a further optimization of the technical scheme, the toy recovery device comprises a crushing assembly and a crushing assembly, wherein the crushing assembly comprises a rectangular outer frame; a first waist groove; a first hinge column; a second hinge post; a third hinged column; a first hinged connecting rod; a second hinged connecting rod; a third hinged connecting rod; a hinged connecting rod IV; a second waist groove; a shear plate I; the second shearing plate is provided with a first waist groove arranged on the rectangular outer frame and a second waist groove arranged on the rectangular outer frame, and the first hinging column is hinged with the second waist groove; the hinged column II is fixedly connected with the rectangular outer frame, the hinged connecting rod I is hinged with the hinged connecting rod II, the hinged connecting rod II is hinged with the shearing plate II, the hinged connecting rod III is hinged with the hinged connecting rod I through the connecting column III, the hinged connecting rod IV is hinged with the hinged connecting rod III, the hinged connecting rod IV is hinged with the shearing plate I, and the shearing plate I is hinged with the shearing plate II; and the second shear plate is in sliding connection with the rectangular outer frame.
As a further optimization of the technical solution, the invention provides a toy recycling device, wherein the chassis assembly comprises a bottom plate; a first hinge frame; a second hinge frame; a hinge frame strut; a swing rod; a drive half gear; a half gear rotating column; connecting a belt; a belt shaft; a belt pulley; fixing the rod; a fixed rod connecting rod; a rectangular hollowed-out groove; inputting a motor; a motor belt I; a belt pulley; a belt pulley shaft; a first motor belt, a first hinge frame, a second hinge frame, a first hinge frame, a hinge frame sliding column, a swing rod, a driving half gear, a half gear rotating column, a driving half gear, a second hinge frame, a fixing rod, a connecting rod, a rectangular hollow groove, a connecting belt, a belt pulley, a belt shaft, a belt pulley, a first input motor, a first motor belt, a second belt pulley, a third belt pulley, a fourth belt pulley, a third belt pulley, a fourth belt pulley, a third belt pulley, a fourth belt pulley, a; the second shear plate is fixedly connected, the belt pulley shaft is fixedly connected with the second inner rotary column, the belt shaft is fixedly connected with the second inner rotary column, the second motor belt is connected with the driving rod, and the rectangular outer frame is arranged in the rectangular hollow groove.
The toy recovery device has the beneficial effects that:
the invention relates to a toy recovery device, which aims to prevent the overload of a system, when a clutch rod I is driven by the clutch rod I to generate overload, the clutch rod I is further driven; the second clutch rods can slide relatively to each other, so that the first clutch rods are enabled to slide relatively; the transmission between the clutch rods II is failed, so that the overload of the system is prevented; when the use shape of the conveyer belt changes, the tensioning slider drives the roller to move towards the outer side under the action of the elastic force of the tensioning push spring, and then the conveyer belt is tensioned through the roller II, so that the stability of the conveyer belt is kept.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.
The first embodiment is as follows:
the following describes this embodiment with reference to fig. 1 to 11, and a toy recycling device includes a carrying assembly 1, a rolling assembly 2, a crushing assembly 3, and a chassis assembly 4, and is characterized in that: the carrying assembly 1 is connected with the underframe assembly 4, the rolling assembly 2 is connected with the underframe assembly 4, and the crushing assembly 3 is connected with the underframe assembly 4.
The second embodiment is as follows:
the first embodiment is further described with reference to fig. 1-11, and the carrying assembly 1 includes a rectangular sliding frame 1-1, an inner end rectangular slider 1-2, an inner end rotary post 1-3, an inner end sliding rod 1-4, a sliding rod pushing spring 1-5, a conveying belt 1-6, a rectangular sliding frame two 1-7, an inner end clamping groove 1-8, an inner end rotary post two 1-9, a roller one 1-10, a roller two 1-11, a roller three 1-12, a tensioning slider 1-13, a tensioning pushing spring 1-14, an outer frame 1-15, an inner end rotary post three 1-16, a pressing rod 1-17, a wedge push rod one 1-18, an inner end spring one 1-19, a wedge push rod two 1-20, a wedge clamping rod one 1-21, A wedge-shaped clamping rod II 1-22 and an inner end spring II 1-23, wherein an inner end slide rod I1-4 is fixedly connected with a rectangular slide frame I1-1, an inner end rectangular slider I1-2 is slidably connected with the inner end slide rod I1-4, an inner end rotary column I1-3 is fixedly connected with the inner end rectangular slider I1-2, a slide rod push spring I1-5 is in sleeve connection with the inner end slide rod I1-4, a conveyer belt 1-6 is connected among a roller I1-10, a roller II 1-11 and a roller III 1-12, a rectangular slide frame II 1-7 is in matching connection with the rectangular slide frame I1-1, an inner end clamping groove 1-8 is arranged on the rectangular slide frame II 1-7, an inner end rotary column II 1-9 is fixedly connected with the rectangular slide frame II 1-7, and a roller I1-10 is rotatably connected with the inner end rotary column I1-3, the roller III 1-12 is rotatably connected with the inner end rotating column II 1-9, the roller II 1-11 is rotatably connected with the inner end rotating column III 1-16, the outer frame 1-15 is fixedly connected with the rectangular sliding frame II 1-7, the tensioning slider 1-13 is slidably connected with the outer frame 1-15, the tensioning push spring 1-14 is arranged between the tensioning slider 1-13 and the outer frame 1-15, the pressing rod 1-17 is slidably connected with the rectangular sliding frame I1-1, the pressing rod 1-17 is in matching connection with the wedge push rod I1-18 and the wedge push rod II 1-20, the wedge push rod I1-18 and the wedge push rod II 1-20 are slidably connected with the rectangular sliding frame I1-1, the inner end spring I1-19 is arranged between the wedge push rod I1-18 and the rectangular sliding frame I1-1, the inner end springs 1-23 are arranged between the wedge-shaped push rods 1-20 and the rectangular sliding frames 1-1, the wedge-shaped clamping rods 1-21 and the wedge-shaped clamping rods 1-22 are fixedly connected with the wedge-shaped push rods 1-18 and the wedge-shaped push rods 1-20 respectively, and the wedge-shaped clamping rods 1-21 and the wedge-shaped clamping rods 1-22 are connected with the inner end clamping grooves 1-8 in a matched mode;
the pressing rod 1-17 is pushed manually, the wedge-shaped clamping rod 1-21 and the wedge-shaped clamping rod 1-22 are driven to be separated from the inner end clamping groove 1-8 simultaneously through the action of the pressing rod 1-17 on the wedge-shaped push rod 1-18 and the wedge-shaped push rod two 1-20, the rectangular sliding frame 1-1 is pushed manually at the same time, the rectangular sliding frame 1-1 and the rectangular sliding frame 1-7 slide relatively, the distance between the rectangular sliding frame 1-1 and the rectangular sliding frame two 1-7 is changed, the distance between the rectangular sliding frame 1-1 and the rectangular sliding frame two 1-7 is adjusted, when the wedge-shaped push rod 1-18 and the wedge-shaped push rod two 1-20 are pushed towards two sides simultaneously through the pressing rod 1-17, the inner end springs 1-19 and the inner end springs 1-23 are compressed, and the wedge-shaped clamping rods 1-21 and the wedge-shaped clamping rods 1-22 are clamped with the inner end clamping grooves 1-8 through the reactive force of the elastic forces of the inner end springs 1-19 and the inner end springs 1-23, so that the use positions of the rectangular sliding frames 1-1 and the rectangular sliding frames 1-7 are fixed.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, where the rolling combination 2 includes a rolling support 2-1, a support slider 2-2, a support slider 2-3, a middle rotating rod 2-4, an outer end sleeve 2-5, a pressure rod 2-6, a pressure rod push spring 2-7, a hinge connecting rod 2-8, a driving rod 2-9, a clutch rod one 2-10, a clutch rod two 2-11, a clutch rod push spring 2-12, a clutch rod rotating rod 2-13, a clutch rod limiting plate 2-14, a moving belt 2-15, an inner end slider one 2-16, a slider sliding rod 2-17, a tensioning roller 2-18, and a tensioning spring B2-19, the support slider 2-3 is fixedly connected with the rolling support 2-1, a bracket slider 2-2 is connected with a bracket sliding column 2-3 in a sliding way, a middle rotating rod 2-4 is connected with the bracket slider 2-2 in a rotating way, an outer end sleeve 2-5 is fixedly connected with the middle rotating rod 2-4, a pressure rod 2-6 is connected with the outer end sleeve 2-5 in a sliding way, a pressure rod push spring 2-7 is arranged between the pressure rod 2-6 and the outer end sleeve 2-5, a hinged connecting rod 2-8 is hinged with the middle rotating rod 2-4, a driving rod 2-9 is hinged with a hinged connecting rod 2-8, the driving rod 2-9 is connected with a rolling bracket 2-1 in a rotating way, a clutch rod I2-10 is fixedly connected with the driving rod 2-9, the clutch rod I2-10 is connected with the rolling bracket 2-1 in a rotating way, and a clutch rod II 2-11 is connected with the clutch rod I2-10, the clutch lever push spring 2-12 is arranged between the clutch lever II 2-11 and the clutch lever limiting plate 2-14, the clutch lever limiting plate 2-14 is fixedly connected with the clutch lever rotating rod 2-13, the clutch lever II 2-11 is connected with the clutch lever rotating rod 2-13 in a sliding mode, the moving belt 2-15 is connected with the outer end sleeve 2-5, the clutch lever I2-10 and the tensioning rotating roller 2-18, the inner end slider I2-16 is connected with the slider sliding rod 2-17 in a sliding mode, the slider sliding rod 2-17 is fixedly connected with the rolling bracket 2-1, the tensioning rotating roller 2-18 is connected with the inner end slider I2-16 in a rotating mode, and the tensioning spring B2-19 is connected with the slider sliding rod 2-17 in a sleeved mode.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, wherein the crushing assembly 3 includes a rectangular outer frame 3-1, a first waist groove 3-2, a first hinge column 3-3, a second hinge column 3-4, a third hinge column 3-5, a first hinge connecting rod 3-6, a second hinge connecting rod 3-7, a third hinge connecting rod 3-8, a fourth hinge connecting rod 3-9, a second waist groove 3-10, a first shear plate 3-11, and a second shear plate 3-12, the first waist groove 3-2 is disposed on the rectangular outer frame 3-1, the second waist groove 3-10 is disposed on the rectangular outer frame 3-1, the first hinge column 3-3, the second hinge column 3-4 is fixedly connected with the rectangular outer frame 3-1, the first hinge connecting rod 3-6 is hinged with the second hinge connecting rod 3-7, the second hinged connecting rod 3-7 is hinged with the second shearing plate 3-12, the third hinged connecting rod 3-8 is hinged with the first hinged connecting rod 3-6 through the third connecting column 3-5, the fourth hinged connecting rod 3-9 is hinged with the third hinged connecting rod 3-8, the fourth hinged connecting rod 3-9 is hinged with the first shearing plate 3-11, and the first shearing plate 3-11 and the second shearing plate 3-12 are both connected with the rectangular outer frame 3-1 in a sliding mode.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, where the underframe assembly 4 includes a bottom plate 4-1, a first hinge bracket 4-2, a second hinge bracket 4-3, a slide column 4-4 of the hinge bracket, a swing rod 4-5, a driving half gear 4-6, a rotary column 4-7 of the half gear, a connecting belt 4-9, a belt shaft 4-10, a belt pulley 4-11, a fixing rod 4-12, a connecting rod 4-13 of the fixing rod, a rectangular hollow groove 4-14, an input motor 4-15, a first motor belt 4-16, a belt pulley 4-17, a belt pulley shaft 4-18, and a second motor belt 4-19, the first hinge bracket 4-2 is fixedly connected with the bottom plate 4-1, the second hinge bracket 4-3 is fixedly connected with the first hinge bracket 4-2, a hinge frame sliding column 4-4 is fixedly connected with a hinge frame II 4-3, a swing rod 4-5 is slidably connected with the hinge frame sliding column 4-4, a driving half gear 4-6 is connected with the swing rod 4-5, a half gear rotating column 4-7 is fixedly connected with the driving half gear 4-6, the half gear rotating column 4-7 is rotatably connected with the hinge frame II 4-3, a fixed rod 4-12 is fixedly connected with the swing rod 4-5, a fixed rod 4-12 is fixedly connected with a fixed rod connecting rod 4-13, a rectangular hollow groove 4-14 is arranged on a bottom plate 4-1, a connecting belt 4-9 is connected with the half gear rotating column 4-7, the connecting belt 4-9 is connected with a belt pulley 4-11, a belt shaft 4-10 is fixedly connected with the belt pulley 4-11, an input motor 4-15 is fixedly connected with a bottom plate 4-1, a motor belt I4-16 is arranged between the input motor 4-15 and a belt pulley 4-17, a belt pulley shaft 4-18 is fixedly connected with the belt pulley 4-17, the belt pulley 4-17 is connected with a motor belt II 4-19, a fixed rod connecting rod 4-13 is fixedly connected with a shear plate I3-11 and a shear plate II 3-12, the belt pulley shaft 4-18 is fixedly connected with an inner end rotary column II 1-9, a belt shaft 4-10 is fixedly connected with the inner end rotary column II 1-9, the motor belt II 4-19 is connected with a driving rod 2-9, and a rectangular outer frame 3-1 is arranged in a rectangular hollow groove 4-14;
when the inner end rotary post II 1-9 rotates, the belt shaft 4-10 is driven to rotate, the connecting belt 4-9 is driven to rotate through the belt pulley 4-11, the half gear rotary post 4-7 is driven to rotate, the driving half gear 4-6 is driven to rotate, the swing rod 4-5 is driven to slide back and forth along the hinge frame sliding post 4-4, the fixed rod connecting rod 4-13 is driven to move through the fixed rod 4-12, the shear plate II 3-12 is driven to move, when the shear plate II 3-12 moves towards the left side, the hinge connecting rod I3-6 is driven through the hinge connecting rod II 3-7, the hinge connecting rod III 3-5 is driven through the hinge post III 3-8, and the shear plate I3-11 is driven through the hinge connecting rod IV 3-9, and the first shearing plate 3-11 slides along the right side, and meanwhile, when the second shearing plate 3-12 moves towards the right side, the first shearing plate 3-11 is driven to slide leftwards through the transmission relation, and the extruded waste toy is crushed through the actions of the first shearing plate 3-11 and the second shearing plate 3-12, so that the waste toy is conveniently recycled.
The invention relates to a toy recovery device, which has the working principle that:
when the waste toy transport vehicle is used, the input motor 4-15 is started and drives the motor belt I4-16 to move, the belt pulley 4-17 is driven to rotate, the motor belt II 4-19 is driven to move, the belt pulley shaft 4-18 is driven to rotate, a waste toy to be treated is placed on the transport belt 1-6, the belt pulley shaft 4-18 is driven to rotate, the inner end rotary post II 1-9 is driven to rotate, the roller III 1-12 is driven to rotate, the transport belt 1-6 is driven to move, and the waste toy is carried under the action of the transport belt 1-6 on the waste toy; the using distance between the rectangular sliding frame I1-1 and the rectangular sliding frame II 1-7 can be adjusted according to actual conditions, waste toys can be conveniently made to fall into the crushing assembly 3, the pressing rods 1-17 are manually pushed, the wedge-shaped clamping rods 1-21 and the wedge-shaped clamping rods 1-22 are respectively driven to be separated from the inner end clamping grooves 1-8 through the action of the pressing rods 1-17 on the wedge-shaped push rods 1-18 and the wedge-shaped push rods two 1-20, the rectangular sliding frame I1-1 is manually pushed at the same time, relative sliding is generated between the rectangular sliding frame I1-1 and the rectangular sliding frame II 1-7, further the distance between the rectangular sliding frame I1-1 and the rectangular sliding frame II 1-7 is changed, and further the adjustment of the distance between the rectangular sliding frame I1-1 and the rectangular sliding frame II 1-7 is realized, when the pushing rod 1-17 simultaneously pushes the wedge-shaped push rod 1-18 and the wedge-shaped push rod two 1-20 towards two sides respectively, the inner end spring 1-19 and the inner end spring two 1-23 are compressed, and the wedge-shaped clamping rod 1-21 and the wedge-shaped clamping rod two 1-22 are clamped with the inner end clamping groove 1-8 through the reactive force of the elastic force of the inner end spring 1-19 and the inner end spring two 1-23, so that the using positions of the rectangular sliding frame 1-1 and the rectangular sliding frame two 1-7 are fixed; when the using distance between the rectangular sliding frame I1-1 and the rectangular sliding frame II 1-7 is changed, the using shape of the conveyer belt 1-6 is changed, in order to keep the stability of the conveyer belt 1-6, when the using shape of the conveyer belt 1-6 is changed, the tensioning slider 1-13 drives the roller II 1-11 to move outwards under the action of the elastic force of the tensioning push spring 1-14, and then the roller II 1-11 tensions the conveyer belt 1-6, so that the stability of the conveyer belt 1-6 is kept; meanwhile, when the motor belt II 4-19 moves, the driving rod 2-9 is driven to rotate, the middle rotating rod 2-4 is driven by the hinged connecting rod 2-8, the support slider 2-2 is driven by the middle rotating rod 2-4 to slide along the support sliding column 2-3 in the vertical direction, the outer end sleeve 2-5 is driven to slide in the vertical direction, the pressure rod 2-6 is driven to be in contact with the waste toy, the waste toy is extruded, meanwhile, when the clutch rod I2-10 rotates, the clutch rod II 2-11 is driven to rotate, the clutch rod rotating rod 2-13 is driven to rotate, the moving belt 2-15 is driven to move, the middle rotating rod 2-4 is driven to rotate, and the pressure rod 2-6 is driven to rotate simultaneously, further pushing the extruded waste toy to move along with the conveyer belt 1-6 simultaneously; in order to prevent the overload of the system, when the first clutch lever 2-10 is driven by the first clutch lever 2-10 to generate overload, the first clutch lever 2-10 and the second clutch lever 2-11 can slide relatively, so that the transmission between the first clutch lever 2-10 and the second clutch lever 2-11 is disabled, and the overload of the system is prevented; when the inner end rotary post II 1-9 rotates, the belt shaft 4-10 is driven to rotate, the connecting belt 4-9 is driven to rotate through the belt pulley 4-11, the half gear rotary post 4-7 is driven to rotate, the driving half gear 4-6 is driven to rotate, the swing rod 4-5 is driven to slide back and forth along the hinge frame sliding post 4-4, the fixed rod connecting rod 4-13 is driven to move through the fixed rod 4-12, the shear plate II 3-12 is driven to move, when the shear plate II 3-12 moves towards the left side, the hinge connecting rod I3-6 is driven through the hinge connecting rod II 3-7, the hinge connecting rod III 3-5 is driven through the hinge post III 3-8, and the shear plate I3-11 is driven through the hinge connecting rod IV 3-9, and the first shearing plate 3-11 slides along the right side, and meanwhile, when the second shearing plate 3-12 moves towards the right side, the first shearing plate 3-11 is driven to slide leftwards through the transmission relation, and the extruded waste toy is crushed through the actions of the first shearing plate 3-11 and the second shearing plate 3-12, so that the waste toy is conveniently recycled.
Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.