阅读说明：本技术 一种毛绒玩具制造装置 (Plush toy manufacturing device ) 是由 杜平 于 2021-11-19 设计创作，主要内容包括：本发明涉及玩具制造领域,公开了一种毛绒玩具制造装置,包括消毒箱、输送机构和夹持机构,消毒箱两端开口,输送机构穿过消毒箱两端开口,夹持机构安装在输送机构上,输送机构用于将夹持机构输送通过消毒箱,夹持机构包括两组上下分布的夹持组件,夹持组件用于夹持毛绒玩具的头部或尾部,毛绒玩具在夹持机构内呈直立状分布；两夹持组件连接A调节机构和B调节机构,A调节机构用于调节位于下方和下方的两夹持组件位置互换；B调节机构用于调节夹持组件松开或夹紧毛绒玩具,本发明提出的制造装置,能够实现毛绒玩具的自动化和连续化流水线式的蒸汽消毒处理,蒸汽消毒全面,满足了现在的使用要求。(The invention relates to the field of toy manufacturing, and discloses a plush toy manufacturing device which comprises a sterilizing box, a conveying mechanism and a clamping mechanism, wherein openings are formed in two ends of the sterilizing box, the conveying mechanism penetrates through the openings in the two ends of the sterilizing box, the clamping mechanism is arranged on the conveying mechanism, the conveying mechanism is used for conveying the clamping mechanism through the sterilizing box, the clamping mechanism comprises two groups of clamping components which are distributed up and down, the clamping components are used for clamping the head or the tail of a plush toy, and the plush toy is vertically distributed in the clamping mechanism; the two clamping assemblies are connected with an adjusting mechanism A and an adjusting mechanism B, and the adjusting mechanism A is used for adjusting the positions of the two clamping assemblies positioned below and below to exchange; the manufacturing device provided by the invention can realize automatic and continuous production line type steam sterilization treatment of the plush toys, has comprehensive steam sterilization, and meets the current use requirements.)

1. A plush toy manufacturing device is characterized by comprising a sterilizing box (100), a conveying mechanism (700) and a clamping mechanism (400), wherein two ends of the sterilizing box (100) are open, the conveying mechanism (700) penetrates through the two ends of the sterilizing box (100) and is arranged on the conveying mechanism (700), the conveying mechanism (700) is used for conveying the clamping mechanism (400) through the sterilizing box (100), the clamping mechanism (400) comprises two groups of clamping assemblies (500) which are distributed up and down, the clamping assemblies (500) are used for clamping the head or the tail of a plush toy, and the plush toy is vertically distributed in the clamping mechanism (400);

the two clamping assemblies (500) are connected with an adjusting mechanism A (200) and an adjusting mechanism B (300), and the adjusting mechanism A (200) is used for adjusting the positions of the two clamping assemblies (500) positioned below and below to be interchanged; the B adjusting mechanism (300) is used for adjusting the clamping assembly (500) to loosen or clamp the plush toy.

2. A plush toy manufacturing apparatus as claimed in claim 1, wherein the gripping means (400) are spaced apart along the transport direction of the transport means (700).

3. A plush toy manufacturing apparatus as claimed in claim 2, wherein the holding mechanism (700) comprises a supporting frame (410), the two holding members (500) are respectively mounted on the supporting frame (410) by means of a telescopic member (411), the telescopic member (411) being adapted to adjust the distance between the two holding members (500).

4. The plush toy manufacturing device as claimed in claim 3, wherein the A adjusting mechanism (200) comprises an A rotating shaft (420) and an A adjusting component, one end of the A rotating shaft (420) is fixedly arranged on the supporting frame (410), the A rotating shaft (420) is horizontally arranged, the shaft body of the A rotating shaft (420) is arranged in a bearing seat, the bearing seat is arranged on the conveying mechanism (700), the other end of the A rotating shaft (420) extends out of the bearing seat, the other end of the A rotating shaft (420) is provided with a maintaining component, the maintaining component is used for maintaining the A rotating shaft (420) in a stop state along with the conveying process of the conveying mechanism (700), the A adjusting component is arranged in the sterilizing box (100), the A adjusting component and the A rotating shaft (420) are correspondingly arranged, the conveying mechanism (700) conveys the A rotating shaft (420) to a position corresponding to the A adjusting component and the A adjusting component is stopped, the A adjusting component is used for adjusting the A rotating shaft (420) to rotate 180 degrees to realize the two clamping components (500) in the stop state of the conveying mechanism And (5) position conversion.

5. The plush toy manufacturing device as claimed in claim 4, wherein the maintaining assembly comprises a limiting rail (250) and a limiting block (430), the outer wall of the A rotating shaft (420) is provided with an A1 limiting groove (423), the groove direction of the A1 limiting groove (423) is consistent with the axial direction of the A rotating shaft (420), a through hole is formed in the limiting block (430), the aperture of the through hole is consistent with the diameter of the A rotating shaft (420), the inner wall of the through hole is provided with an A1 bump (431), the A1 bump (431) is matched with the A1 limiting groove (423), the limiting block (430) is sleeved on the A rotating shaft (420) through the through hole, the A1 bump (431) is slidably assembled in the A1 limiting groove (423), the limiting rail (250) is arranged along the conveying direction of the conveying mechanism (700), the lower end of the limiting block (430) is provided with a limiting plane, the limiting plane is attached to the upper end plane of the limiting rail (250), the limiting block (430) is in sliding guide fit with the limiting rail (250) along the conveying direction of the conveying mechanism (700) .

6. A plush toy manufacturing device as claimed in claim 5, characterized in that the A adjustment assembly comprises a moving assembly (210), an A driving shaft (220), a abutting sleeve (230) and a return spring (440), the abutting sleeve (230) is sleeved on one end of the A driving shaft (220) and fixedly mounted on the A driving shaft (220), the central axis of the A driving shaft (220) and the central axis of the abutting sleeve (230) are collinear, the axial direction of the A driving shaft (220) and the axial direction of the A rotating shaft (420) are axially consistent and correspondingly positioned, the abutting sleeve (230) and the stop block (430) are correspondingly arranged, one end of the A driving shaft (220) far away from the abutting sleeve (230) is connected with a driving unit, the shaft body of the A driving shaft (220) is mounted in a bearing seat which is mounted on the moving assembly (210), the moving assembly (210) is used for adjusting the axial movement of the A driving shaft (220) along the moving assembly, the reset spring (440) is sleeved on the A rotating shaft (420), one end of the reset spring (440) is installed on the limiting block (430), the other end of the reset spring is installed on a bearing seat on the A rotating shaft (420), one end of the A rotating shaft (420), which is close to the A driving shaft (220), is provided with an inserting hole (421), the central axis of the inserting hole (421) is collinear with the central axis of the A rotating shaft (420), the aperture of the inserting hole (421) is consistent with the outer diameter of the A driving shaft (220), the inserting hole (421) is provided with an A2 limiting groove (422) along the hole direction, the groove direction of the A2 limiting groove (422) is consistent with the axial direction of the A rotating shaft (420), the outer wall of the A driving shaft (220) is provided with an A2 protruding block (221), and the A2 protruding block (221) is matched with the A2 limiting groove (422);

during the process that the moving assembly (210) adjusts the motion of the A driving shaft (220), the limiting block (430) is in two states, one is: in the process that the A driving shaft (220) is close to and inserted into the A rotating shaft (420), the abutting sleeve (230) abuts against the limiting block (430), the limiting block (430) is in an avoiding state of compressing the return spring (440) and separating from the limiting track (250), and the two states are as follows: when the A driving shaft (220) is separated and far away from the A rotating shaft (420), the return spring (440) drives the limiting block (430) to return to the return state on the limiting track (250).

7. The plush toy manufacturing device as claimed in claim 6, wherein the A adjusting mechanism (200) further comprises a positioning assembly, the positioning assembly comprises a positioning member (240) and a trigger (432), the trigger (432) is mounted on the limiting block (430), the positioning member (240) is mounted above the abutting sleeve (230), the positioning member (240) and the trigger (432) are correspondingly distributed, the positioning member (240) is connected with the conveying mechanism (700), when the conveying rotating shaft (420) of the conveying mechanism (700) moves to a position corresponding to the driving shaft (220), the trigger (431) triggers the positioning member (240), and the positioning member (240) controls the conveying mechanism (700) to pause.

8. A plush toy manufacturing device as claimed in claim 7, characterized in that the clamping assembly (500) comprises two clamping arms (510), the two clamping arms (510) are connected by an A hinge axis (511), one end of the two clamping arms (510) is designated as a clamping end, the other end is designated as an adjusting end, the A hinge axis (511) is horizontally arranged, the clamping ends of the two clamping assemblies (500) are oppositely arranged, the adjusting end and the B adjusting mechanism (300) are arranged, and the B adjusting mechanism (300) is used for adjusting the two adjusting ends to be far away from or close to each other.

9. A plush toy manufacturing device as claimed in claim 8, wherein the clamping assembly (500) further comprises a slide (520), a screw (530) and a nut slider (540), both ends of the screw (530) are rotatably mounted on both ends of the slide (520), one end of the screw (530) extends out of the slide (520) and is connected with the driven member (531), the nut slider (540) is assembled on the screw (530), the thread directions of the threaded holes of the two nut sliders (540) are opposite, the two nut sliders (540) are hinged with the adjusting end of the clamping arm (510) through a B hinge shaft (541), the axial direction of the B hinge shaft (541) is consistent with the axial direction of the A hinge shaft (511), the B adjusting mechanism (300) and the driven member (531) are correspondingly arranged, and the B adjusting mechanism (300) is used for cooperating with the driven member (531) and adjusting the driven member (531) to drive the screw (530) to rotate.

10. The plush toy manufacturing device as claimed in claim 1, wherein the sterilizing compartment (100) is provided at one side thereof with a steam discharge opening (110), the steam discharge opening (110) is vertically disposed, the steam discharge opening (110) is used for spraying steam to the plush toy, and bristles (120) are further provided at both sides of the steam discharge opening (110), the bristles (120) being in contact with the plush toy staying in the sterilizing compartment (100).

Technical Field

The invention relates to the field of toy manufacturing, in particular to a plush toy manufacturing device.

Background

Toys, broadly referred to as objects that can be played, are often used in human society as a way to teach through entertainment. The toy can also be a natural object, namely, a non-artificial object such as sand, stone, mud, branches and the like, and the toy is not limited to a toy sold on the street for people to play, but can be called as a toy in all things which can be played, watched, listened and touched. The toy is suitable for children, more suitable for young people and middle-aged and elderly people. It is the instrument of opening wisdom skylight, lets people machine wisdom clever.

The existing plush toys are various in types, are relatively common and are popular with people of different ages, and need to be disinfected in order to ensure the safety, health and appearance integrity of the plush toys during production.

Disclosure of Invention

The invention provides a plush toy manufacturing device, which comprises a sterilizing box, a conveying mechanism and a clamping mechanism, wherein two ends of the sterilizing box are opened, the conveying mechanism penetrates through the two ends of the sterilizing box, the clamping mechanism is arranged on the conveying mechanism, the conveying mechanism is used for conveying the clamping mechanism through the sterilizing box, the clamping mechanism comprises two groups of clamping components which are distributed up and down, the clamping components are used for clamping the head or the tail of a plush toy, and the plush toy is vertically distributed in the clamping mechanism;

the two clamping assemblies are connected with an adjusting mechanism A and an adjusting mechanism B, and the adjusting mechanism A is used for adjusting the positions of the two clamping assemblies positioned below and below to exchange; the B adjusting mechanism is used for adjusting the clamping component to loosen or clamp the plush toy.

Preferably: the clamping mechanisms are distributed at intervals along the conveying direction of the conveying mechanism.

Preferably: the clamping mechanism comprises a support frame, the two clamping assemblies are respectively installed on the support frame through telescopic assemblies, and the telescopic assemblies are used for adjusting the distance between the two clamping assemblies.

Preferably: a adjustment mechanism includes A pivot and A adjusting part, A pivot one end fixed mounting is on the support frame, A pivot level is arranged, A pivot axle body is installed in the bearing frame, the bearing frame is installed on conveying mechanism, the bearing frame is stretched out to the A pivot other end, the A pivot other end is installed and is maintained the subassembly, it is used for maintaining the state that the in-process that the A pivot was carried along with conveying mechanism is in the stall, A adjusting part arranges in the disinfect box, A adjusting part and A pivot correspond and arrange, conveying mechanism carries the A pivot and pauses when corresponding the position with A adjusting part, A adjusting part is used for adjusting the A pivot under the state that conveying mechanism pauses and rotates 180 the position conversion that realizes two centre gripping subassemblies.

Preferably: maintain the subassembly including spacing track and stopper, A1 spacing groove has been seted up to A pivot outer wall, the groove of A1 spacing groove is unanimous to the axial with the A pivot, the through-hole has been seted up in the stopper, through-hole aperture and A pivot diameter size are unanimous, the through-hole inner wall is provided with the A1 lug, the A1 lug matches with the A1 spacing groove, the stopper cup joints in the A pivot through the through-hole, the A1 lug slides and assembles at A1 spacing inslot, spacing track arranges along conveying mechanism's direction of delivery, the stopper lower extreme has spacing plane, spacing plane and the laminating of spacing track upper end plane, the stopper constitutes the sliding guide cooperation along conveying mechanism's direction and spacing track.

Preferably: the A adjusting component comprises a moving component, an A driving shaft, a leaning sleeve and a reset spring, the leaning sleeve is sleeved at one end of the A driving shaft and fixedly installed on the A driving shaft, the central axis of the A driving shaft and the central axis of the leaning sleeve are collinear, the axial direction of the A driving shaft is consistent with the axial direction of the A rotating shaft and corresponds to the position of the A rotating shaft, the leaning sleeve and a limiting block are correspondingly arranged, one end of the A driving shaft, which is far away from the leaning sleeve, is connected with a driving unit, the shaft body of the A driving shaft is installed in a bearing seat, the bearing seat is installed on the moving component, the moving component is used for adjusting the A driving shaft to move along the axial direction of the A driving shaft, the reset spring is sleeved on the A rotating shaft, one end of the reset spring is installed on the limiting block, the other end of the A rotating shaft, one end, which is close to the A driving shaft, is provided with an inserting hole, the central axis of the inserting hole and the central axis of the A rotating shaft are collinear, the aperture of the inserting hole and the outer diameter of the A driving shaft are consistent, the plug hole is provided with an A2 limiting groove along the hole direction, the groove direction of the A2 limiting groove is axially consistent with the axial direction of the rotating shaft A, the outer wall of the driving shaft A is provided with an A2 lug, and the A2 lug is matched with the A2 limiting groove;

in the process that the moving assembly adjusts the motion of the driving shaft A, the limiting block is in two states, one of which is as follows: the in-process that the A drive shaft is close to and inserts the A pivot supports to lean on the sleeve to lean on the stopper, and the stopper is in compression reset spring and breaks away from spacing orbital state of dodging, and its two are: and in the process that the A driving shaft is separated from the A rotating shaft, the reset spring drives the limit block to return to the reset state on the limit track.

Preferably: a adjustment mechanism still includes locating component, and locating component includes setting element and trigger piece, and trigger piece installs on the stopper, and the setting element is installed and is leaned on the sleeve top, and setting element and trigger piece position correspond and distribute, and conveying mechanism is connected to the setting element, and when conveying mechanism carried the pivot and moved the position that corresponds with the drive shaft, trigger piece triggered the setting element, and setting element control conveying mechanism pauses.

Preferably: the centre gripping subassembly includes two centre gripping arms, and two centre gripping arms pass through the A articulated shaft and connect, and two centre gripping arm one end are marked as the exposed core, and the other end is marked as the regulation end, and the A articulated shaft level is arranged, and the exposed core relative distribution of two centre gripping subassemblies adjusts end and B adjustment mechanism to arranging, and B adjustment mechanism is used for adjusting two regulation ends and keeps away from each other or be close to.

Preferably: the centre gripping subassembly still includes the slide, screw rod and nut slider, the screw rod both ends are rotated and are installed on the both ends of slide, screw rod one end is stretched out the slide and is connected the driven piece, the nut slider assembly is on the screw rod, the screw thread in two nut slider internal thread holes revolves to opposite, two nut sliders pass through the regulation end of the articulated centre gripping arm of B articulated shaft, the axial of B articulated shaft is unanimous with the axial of A articulated shaft, B adjustment mechanism and driven piece correspond and arrange, B adjustment mechanism is used for cooperating with the driven piece and adjust the driven piece and drive the screw rod rotation.

Preferably: one side of the sterilizing box is provided with a steam outlet which is vertically arranged and used for spraying steam to the plush toys, and two sides of the steam outlet are also provided with brush hairs which are contacted with the plush toys staying in the sterilizing box.

Preferably: and the upper end and the lower end in the disinfection box are also provided with rotating mechanisms, the rotating mechanisms and the clamping assemblies are correspondingly arranged, and the rotating mechanisms are used for driving the clamping assemblies to rotate around the plumb direction.

Preferably: the clamping component further comprises a rotating shaft B, the rotating shaft B and the hinged shaft A are distributed vertically, one end of the rotating shaft B is fixedly connected with the sliding seat, the middle of the rotating shaft B is rotatably installed on the telescopic component, the other end of the rotating shaft B is provided with a transmission part, and the transmission part is used for being matched with the rotating mechanism and driving the rotating shaft B to rotate.

Preferably: the rotating mechanism comprises a B driving shaft, the B driving shaft and an A hinged shaft are distributed vertically, a driving piece is fixedly mounted on the B driving shaft, two ends of the B driving shaft are rotatably mounted on the fork frame, one end of the B driving shaft is connected with a driving unit, a sliding shaft is mounted on the fork frame, the sliding shaft and the B driving shaft are distributed vertically, the sliding shaft is slidably mounted in a bearing seat along the axial direction of the sliding shaft, the bearing seat is fixedly mounted in the sterilizing box, and a spring is mounted between the fork frame and the bearing seat.

Preferably: the adjusting mechanism B is consistent with the rotating mechanism in structure, and a driving part and a driven part in the adjusting mechanism B are matched.

Preferably: the driven part, the transmission part and the driving part are all friction wheels.

The invention has the beneficial effects that: the manufacturing device provided by the invention can realize automatic and continuous production line type steam disinfection treatment of the plush toy, has comprehensive steam disinfection and meets the current use requirements.

Drawings

FIG. 1 is a schematic view showing the construction of a plush toy manufacturing apparatus of the invention;

FIG. 2 is a schematic view showing the construction of a holding member in the apparatus for manufacturing a plush toy of the invention;

FIG. 3 is a schematic view showing the structure of an adjusting mechanism and a holding member A in the manufacturing apparatus of a plush toy of the invention;

FIG. 4 is a schematic end view of the rotating shaft and the stopper of the plush toy manufacturing apparatus of the present invention;

FIG. 5 is a schematic view showing the construction of a holding unit and a rotating unit in the apparatus for manufacturing a plush toy of the invention;

FIG. 6 is a schematic end view showing a steam discharge port in the apparatus for manufacturing a plush toy of the invention.

In the figure: 100. a sterilizing box; 110. a steam outlet; 120. brushing; 200. a, adjusting a mechanism; 210. a moving assembly; 220. a driving shaft; 221. a2 bump; 230. against the sleeve; 240. a positioning member; 250. a limiting track; 300. b, a regulating mechanism; 400. a clamping mechanism; 410. a support frame; 411. a telescoping assembly; 420. a, a rotating shaft; 421. inserting holes; 422. a2 limiting groove; 423. a1 limiting groove; 430. a limiting block; 431. a1 bump; 440. a return spring; 500. a clamping assembly; 510. a clamp arm; 511. a, hinging a shaft; 520. a slide base; 530. a screw; 531. a driven member; 540. a nut slider; 541. b, hinging a shaft; 550. b, a rotating shaft; 560. a transmission member; 600. a rotating mechanism; 610. b, driving a shaft; 620. a drive member; 630. a fork; 640. a sliding shaft; 650. a spring; 700. a conveying mechanism.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and thereby implement the subject matter described herein, and are not intended to limit the scope, applicability, or examples set forth in the claims. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as needed. In addition, features described with respect to some examples may also be combined in other examples.

Example one

Referring to fig. 1 to 6, in the present embodiment, a plush toy manufacturing apparatus is provided, including a sterilization box 100, a conveying mechanism 700 and a clamping mechanism 400, wherein two ends of the sterilization box 100 are open, the conveying mechanism 700 passes through two ends of the sterilization box 100 and is open, the clamping mechanism 400 is mounted on the conveying mechanism 700, the conveying mechanism 700 is used for conveying the clamping mechanism 400 through the sterilization box 100, the clamping mechanism 400 includes two sets of clamping assemblies 500 distributed up and down, the clamping assemblies 500 are used for clamping the head or tail of a plush toy, and the plush toy is distributed vertically in the clamping mechanism 400;

the two clamping assemblies 500 are connected with the adjusting mechanism A200 and the adjusting mechanism B300, and the adjusting mechanism A200 is used for adjusting the positions of the two clamping assemblies 500 positioned below and below to be interchanged; the B adjustment mechanism 300 is used to adjust the clamping assembly 500 to loosen or clamp the plush toy.

The gripping mechanisms 400 are spaced apart along the conveying direction of the conveying mechanism 700.

The clamping mechanism 700 includes a supporting frame 410, two clamping assemblies 500 are respectively mounted on the supporting frame 410 through telescopic assemblies 411, and the telescopic assemblies 411 are used for adjusting the distance between the two clamping assemblies 500.

The A adjusting mechanism 200 comprises an A rotating shaft 420 and an A adjusting component, one end of the A rotating shaft 420 is fixedly installed on the supporting frame 410, the A rotating shaft 420 is horizontally arranged, the shaft body of the A rotating shaft 420 is installed in a bearing seat, the bearing seat is installed on the conveying mechanism 700, the other end of the A rotating shaft 420 extends out of the bearing seat, a maintaining component is installed at the other end of the A rotating shaft 420 and used for maintaining the A rotating shaft 420 in a stalling state along with the conveying process of the conveying mechanism 700, the A adjusting component is arranged in the sterilizing box 100 and correspondingly arranged with the A rotating shaft 420, the conveying mechanism 700 conveys the A rotating shaft 420 to a position corresponding to the A adjusting component and pauses, and the A adjusting component is used for adjusting the A rotating shaft 420 to rotate 180 degrees to realize position conversion of the two clamping components 500 in the pausing state of the conveying mechanism.

The maintaining assembly comprises a limiting rail 250 and a limiting block 430, an A1 limiting groove 423 is formed in the outer wall of the A rotating shaft 420, the groove direction of the A1 limiting groove 423 is consistent with the axial direction of the A rotating shaft 420, a through hole is formed in the limiting block 430, the diameter of the through hole is consistent with that of the A rotating shaft 420, an A1 bump 431 is arranged on the inner wall of the through hole, the A1 bump 431 is matched with the A1 limiting groove 423, the limiting block 430 is sleeved on the A rotating shaft 420 through the through hole, the A1 bump 431 is assembled in the A1 limiting groove 423 in a sliding mode, the limiting rail 250 is arranged along the conveying direction of the conveying mechanism 700, a limiting plane is arranged at the lower end of the limiting block 430, the limiting plane is attached to the upper end plane of the limiting rail 250, and the limiting rail 430 and the limiting rail 250 form sliding guide fit along the conveying direction of the conveying mechanism 700.

The A adjusting assembly comprises a moving assembly 210, an A driving shaft 220, an abutting sleeve 230 and a return spring 440, the abutting sleeve 230 is sleeved at one end of the A driving shaft 220 and fixedly installed on the A driving shaft 220, the central axis of the A driving shaft 220 is collinear with the central axis of the abutting sleeve 230, the axial direction of the A driving shaft 220 is consistent with the axial direction of the A rotating shaft 420 and corresponds in position, the abutting sleeve 230 and a limiting block 430 are correspondingly arranged, one end, far away from the abutting sleeve 230, of the A driving shaft 220 is connected with a driving unit, the shaft body of the A driving shaft 220 is installed in a bearing block, the bearing block is installed on the moving assembly 210, the moving assembly 210 is used for adjusting the axial movement of the A driving shaft 220, the return spring 440 is sleeved on the A rotating shaft 420, one end of the return spring 440 is installed on the limiting block 430, the other end of the return spring is installed on the bearing block on the A rotating shaft 420, one end, close to the A driving shaft 220, a plug-in hole 421 is formed, the central axis of the plug hole 421 is collinear with the central axis of the a rotating shaft 420, the aperture of the plug hole 421 is consistent with the outer diameter of the a driving shaft 220, the plug hole 421 is provided with an a2 limiting groove 422 along the hole direction, the groove direction of the a2 limiting groove 422 is consistent with the axial direction of the a rotating shaft 420, the outer wall of the a driving shaft 220 is provided with an a2 convex block 221, and the a2 convex block 221 is matched with the a2 limiting groove 422;

during the movement of the moving assembly 210 for adjusting the a driving shaft 220, the limiting block 430 is in two states, one is: when the a driving shaft 220 approaches and is inserted into the a rotating shaft 420, the abutting sleeve 230 abuts against the limiting block 430, and the limiting block 430 is in an avoiding state of compressing the return spring 440 and disengaging from the limiting rail 250, which is two: during the process of disengaging the a-drive shaft 220 and moving away from the a-hinge 420, the return spring 440 urges the stopper 430 to return to the reset state on the stopper rail 250.

The A adjusting mechanism 200 further comprises a positioning assembly, the positioning assembly comprises a positioning member 240 and a trigger 432, the trigger 432 is installed on the limiting block 430, the positioning member 240 is installed above the abutting sleeve 230, the positioning member 240 and the trigger 432 are correspondingly distributed, the positioning member 240 is connected with the conveying mechanism 700, when the conveying rotating shaft 420 of the conveying mechanism 700 moves to a position corresponding to the driving shaft 220, the trigger 431 triggers the positioning member 240, and the positioning member 240 controls the conveying mechanism 700 to pause.

Clamping component 500 includes two centre gripping arms 510, and two centre gripping arms 510 are connected through A articulated shaft 511, and two centre gripping arms 510 one end are marked as the exposed core, and the other end is marked as the regulation end, and A articulated shaft 511 horizontal layout, the exposed core relative distribution of two clamping component 500, and regulation end and B adjustment mechanism 300 are to arranging, and B adjustment mechanism 300 is used for adjusting two regulation ends and keeps away from each other or be close to.

The clamping assembly 500 further comprises a sliding seat 520, a screw 530 and nut sliders 540, two ends of the screw 530 are rotatably mounted at two ends of the sliding seat 520, one end of the screw 530 extends out of the sliding seat 520 to be connected with a driven member 531, the nut sliders 540 are assembled on the screw 530, the thread directions of the threaded holes in the two nut sliders 540 are opposite, the two nut sliders 540 are hinged with the adjusting end of the clamping arm 510 through a B hinge shaft 541, the axial direction of the B hinge shaft 541 is consistent with the axial direction of an A hinge shaft 511, the B adjusting mechanism 300 is correspondingly arranged with the driven member 531, and the B adjusting mechanism 300 is used for being matched with the driven member 531 and adjusting the driven member 531 to drive the screw 530 to rotate.

A steam outlet 110 is arranged on one side of the sterilizing box 100, the steam outlet 110 is vertically arranged, the steam outlet 110 is used for spraying steam to the plush toys, bristles 120 are further arranged on two sides of the steam outlet 110, and the bristles 120 are in contact with the plush toys staying in the sterilizing box 100.

The upper end and the lower end in the sterilizing box 100 are also provided with rotating mechanisms 600, the rotating mechanisms 600 are arranged corresponding to the clamping assemblies 500, and the rotating mechanisms 600 are used for driving the clamping assemblies 500 to rotate around the plumb direction.

The clamping assembly 500 further comprises a rotating shaft B550, the rotating shaft B550 and the hinge shaft A511 are vertically distributed, one end of the rotating shaft B550 is fixedly connected with the sliding seat 520, the middle part of the rotating shaft B550 is rotatably installed on the telescopic assembly 411, the other end of the rotating shaft B550 is provided with a transmission member 560, and the transmission member 560 is used for being matched with the rotating mechanism 600 and driving the rotating shaft B550 to rotate.

The rotating mechanism 600 comprises a B driving shaft 610, wherein the B driving shaft 610 and an A hinging shaft 511 are vertically distributed, a driving piece 620 is fixedly arranged on the shaft body of the B driving shaft 610, two ends of the B driving shaft 610 are rotatably arranged on a fork frame 630, one end of the B driving shaft 610 is connected with a driving unit, a sliding shaft 640 is arranged on the fork frame 630, the sliding shaft 640 and the B driving shaft 610 are vertically distributed, the sliding shaft 640 is slidably arranged in a bearing seat along the axial direction of the sliding shaft 640, the bearing seat is fixedly arranged in the sterilizing box 100, and a spring 640 is arranged between the fork frame 630 and the bearing seat.

The B adjustment mechanism 300 and the rotation mechanism 600 are identical in structure, and the driving member and the driven member 531 in the B adjustment mechanism 300 are matched.

The driven member 531, the transmission member 560 and the driving member 620 are all friction wheels.

In the manufacturing apparatus of this embodiment, when the transporting mechanism 700 transports the holding mechanism 400 into the sterilizing chamber 100, the holding assembly 500 located above clamps the head of the plush toy, the plush toy is in an upright state, and the two holding arms 510 of the holding assembly 500 located below are in an open state;

with the continuous travel of the conveying mechanism 700, when the triggering part 432 travels to the position corresponding to the positioning part 240, the positioning part 240 is triggered, the triggering part 432 and the positioning part 240 can be an infrared generator and an infrared receiver, the positioning part 240 transmits a signal to the conveying mechanism 700, the conveying mechanism 700 receives the signal command, and pauses, and the a driving shaft 220 is directed to the inserting hole 421 of the a rotating shaft 420;

the driving member 560 on the clamping assembly 500 contacts with the driving member 620 firstly along with the advance of the conveying mechanism 700, then the driving member 560 contacts with the driving member 620, and then the driving member 620 is pressed against the driving member 620, the sliding shaft 640 slides, the spring 650 is compressed, when the conveying mechanism 700 is suspended, the driving member 620 is in a state of being pressed by the driving member 560, then the B driving shaft 610 rotates to drive the driving member 620 to rotate, because the driving member 620 and the driving member 560 are friction wheels, the driving member 620 drives the driving member 560 to rotate, the driving member 560 drives the sliding seat 520 to rotate through the B rotating shaft, so as to realize the work of driving the plush toy to rotate, at the moment, the steam discharge port 110 continuously discharges steam, the bristles 120 continuously contact with the plush toy, so as to realize the purpose of comprehensive steam sterilization, the bristles 120 are arranged at two sides of the steam discharge port 110, so as to realize the function of steam guiding and simultaneously avoid the steam from scattering, so that the steam can be more intensively sprayed onto the plush toy, the brush hair 120 can also brush away sundries attached to the surface of the plush toy;

furthermore, static electricity can be attached to the surface of the brush, so that the brush hair 120 can brush impurities on the surface of the plush toy away and adsorb the impurities, and after the plush toy passes through the sterilizing box 100, the static electricity on the brush hair 120 is taken out, and the impurities on the surface of the brush hair are removed, thereby facilitating the steam sterilization and impurity removal treatment of the next plush toy;

because the head or the tail of the plush toy is clamped by the clamping arm positioned above, the head or the tail of the plush toy cannot be subjected to steam sterilization and impurity removal treatment, the clamping position needs to be changed at the moment, and the specific process is as follows:

firstly, the rotating mechanism 600 at the lower part adjusts the sliding seat 520 to rotate, the driven piece 531 rotates to the driving piece in the B adjusting mechanism 300, the driving piece drives the driven piece 531 to rotate, the lower end of the plush toy is clamped by the adjusting clamping arm 510 through the matching of the screw 530 and the nut slider 540, then, the moving assembly 210 drives the A driving shaft 220 and the abutting sleeve 230 to advance, firstly, the abutting sleeve 230 contacts and abuts against the limiting block 430, the A driving shaft 220 is inserted into the inserting hole 421, the A2 protruding block 221 is inserted into the A2 limiting groove, after the limiting block 430 is pressed and separated from the limiting track 250 by abutting the sleeve 230, the moving assembly 210 pauses, then the A driving shaft 220 rotates to drive the A rotating shaft 420 to rotate, the A rotating shaft 420 drives the two clamping assemblies 500 to change positions, then, the B adjusting mechanism 300 adjusts the clamping assembly 500 at the lower part at the moment to loosen the plush toy, the moving assembly 210 drives the A driving shaft 220 and the abutting sleeve 230 to reset, the limiting block 430 returns to the limiting rail 250 under the action of the return spring 440, and it should be noted that the return spring 440 also has the function of maintaining the position of the limiting block 430 on the a rotating shaft 420, so that the limiting block 430 is prevented from sliding, and the limiting block 430 cannot be separated from the limiting rail 250, and then the steps are repeated to drive the plush toy to rotate, and steam sterilization and impurity removal treatment are performed, so that all-around thorough steam sterilization and impurity removal treatment can be realized;

after the process is finished, the conveying mechanism 700 is started, the treated plush toys are conveyed out of the sterilizing box 100, the driving piece 620 resets under the action of the spring 650, and the steps are repeated, so that the automatic and continuous production line type steam sterilization and impurity removal treatment of the plush toys can be realized.

The manufacturing device provided by the invention can realize automatic and continuous production line type steam disinfection treatment of the plush toy, has comprehensive steam disinfection and meets the current use requirements.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-mentioned specific embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention and the protection scope of the claims.