阅读说明：本技术 一种家用制作并加工球型水晶饰品的设备 (Household equipment for manufacturing and processing spherical crystal ornaments ) 是由 何军罗 于 2020-12-31 设计创作，主要内容包括：本发明公开的一种家用制作并加工球型水晶饰品的设备,本发明包括机体,所述机体中设有转移空间,所述转移空间下侧设有下落空间,所述下落空间下侧设有成型空间,所述成型空间左右对称设有旋转空间,所述旋转空间左右对称设有夹紧空间,左侧所述夹紧空间左侧设有位移空间,机体中设有的成型装置,让盐结晶的水晶外多一层保护膜,便于长期装饰使用,机体中设有的调色装置、振荡摇晃装置和辅助装置,让使用者在家就可以轻松的制作出自己喜欢颜色的球型水晶,且该设备中不存在高温高压等危险的工序,设备小巧且安全。(The invention discloses a household device for manufacturing and processing a spherical crystal ornament, which comprises a machine body, wherein a transfer space is arranged in the machine body, a falling space is arranged at the lower side of the transfer space, a forming space is arranged at the lower side of the falling space, the forming space is bilaterally symmetrically provided with a rotating space, the rotating space is bilaterally symmetrically provided with a clamping space, a displacement space is arranged at the left side of the clamping space at the left side, a forming device is arranged in the machine body, a protective film is arranged outside salt crystallized crystals, long-term decoration and use are facilitated, a color mixing device, an oscillation shaking device and an auxiliary device are arranged in the machine body, a user can easily manufacture crystal spheres which like colors at home, and the device has no dangerous processes of high temperature, high pressure and the like, and is small and safe.)

1. The household equipment for manufacturing and processing the spherical crystal ornaments comprises a machine body and is characterized in that: the machine body is provided with a transfer space, the transfer space downside is provided with a falling space, the falling space downside is provided with a forming space, the forming space bilateral symmetry is provided with a rotation space, the rotation space bilateral symmetry is provided with a clamping space, the left side of the clamping space is provided with a displacement space, the displacement space upside is provided with a resin box, the falling space right side is provided with a shearing space, the right side of the clamping space is provided with a transmission auxiliary space, the transfer space right side is provided with a shaking heating space, the shaking heating space downside is provided with a transmission space, the shaking heating space right side is provided with a pigment port moving space, the pigment port moving space upside is provided with a three-primary pigment box, the pigment port moving space downside is provided with a transmission space, the transmission space downside is provided with a blocking space, the resin box, the forming device is arranged in the falling space, the shearing space, the transmission auxiliary space, the forming space, the clamping space, the rotating space and the displacement space and used for spraying resin solution on the surface of crystal spherical crystals, the forming device comprises a forming motor fixedly installed on the right wall of the transmission auxiliary space, a forming main shaft is rotationally connected to the forming motor in a rotating mode and rotationally connected with the right wall of the transmission auxiliary space, a forming sleeve shaft is rotationally connected to the left wall of the transmission auxiliary space, the forming sleeve shaft extends leftwards to sequentially penetrate through the rotating space, the clamping space and the right wall of the displacement space to enter the displacement space, a pin is arranged on the forming sleeve shaft, the forming sleeve shaft is slidably connected with the forming main shaft, a shearing main wheel is fixedly connected to the forming sleeve shaft, and a displacement butt joint block is rotationally connected to the forming sleeve shaft, the left and right sides of the forming sleeve shaft are fixedly connected with a clamping main wheel and a rotating main wheel, the two rotating main wheels are positioned in the two clamping main wheels, the top wall of the displacement space is provided with a displacement motor, the displacement motor is connected with a displacement shaft in a power rotating manner, the displacement shaft is connected with the upper wall and the lower wall of the displacement space in a rotating manner, the displacement shaft is fixedly connected with a displacement cam, the displacement cam is abutted against a displacement abutting block, one side wall of each clamping space is rotatably connected with a forming auxiliary shaft, each forming auxiliary shaft is fixedly connected with a clamping auxiliary wheel, each clamping auxiliary wheel can be respectively meshed with the clamping main wheels, one side wall of each clamping space is in threaded connection with a clamping needle, the two clamping needles are provided with threads in opposite directions, and each clamping needle extends towards one side to penetrate through one side wall of the clamping space to enter the, each clamping needle is respectively connected with the forming auxiliary shaft in a sliding manner, one side wall of each rotating space is rotatably connected with a rotating block, each rotating block extends towards one side and penetrates through one side wall of the rotating space to enter the forming space, each rotating block can be respectively meshed with the rotating main wheel, each rotating block is respectively connected with the clamping needles in a sliding manner, a plurality of nozzles are arranged in each rotating block, a valve is arranged on the right side of the resin box, a resin pipe is connected between each valve and each nozzle, the right wall of the transmission auxiliary space is rotatably connected with a shearing main shaft, the shearing main shaft extends leftwards and penetrates through the left wall of the transmission auxiliary space to enter the shearing space, a third bevel gear and a shearing auxiliary wheel are fixedly connected to the left and the right of the shearing main shaft, and a power belt is connected between each shearing auxiliary wheel and the shearing main wheel, the upper wall and the lower wall of the shearing space are rotationally connected with a shearing auxiliary shaft, the upper wall and the lower wall of the shearing auxiliary shaft are fixedly connected with a fourth bevel gear and a shearing cam, the third bevel gear is meshed with the fourth bevel gear, the bottom wall of the shearing space is fixedly connected with a fixed shaft, the fixed shaft is fixedly connected with scissors, the scissors extend leftwards to penetrate through the left wall of the shearing space to enter the falling space, and the shearing cam is abutted with the scissors.

2. The household equipment for making and processing the spherical crystal ornaments as claimed in claim 1, is characterized in that: the three-primary-color pigment box is provided with a transmission space, a blocking space, a transmission space, a pigment opening moving space and a three-primary-color pigment box, wherein a color mixing device for changing the dissolved color of the alum aqueous solution is arranged in the transmission space, the buffering space and the shaking heating space, an oscillating and shaking device for enabling the alum aqueous solution to be fully dissolved and enabling the pigment to be uniform is arranged in the transmission space, the buffering space and the shaking heating space, and auxiliary devices for crystals are arranged in the transfer space, the auxiliary space and the shaking heating space.

3. The household equipment for making and processing the spherical crystal ornaments as claimed in claim 1, is characterized in that: the color matching device comprises a shaking motor fixedly arranged on the bottom wall of the transmission space, a transmission main shaft rotatably connected with the bottom wall of the transmission space is connected to the shaking motor in a power rotating manner, the transmission main shaft extends upwards to penetrate through the bottom wall of the blocking space to enter the blocking space, a blocking abutting block and a shaking main wheel are fixedly connected to the transmission main shaft from top to bottom, the top wall of the blocking space is rotatably connected with a transmission auxiliary shaft, the transmission auxiliary shaft extends upwards to penetrate through the bottom wall of the transmission space to enter the transmission space, a second bevel gear and a groove block are fixedly connected to the transmission auxiliary shaft from top to bottom, a front abutting sliding block and a rear abutting sliding block are slidably connected to the groove block from front to back, the front abutting sliding block is slidably connected with the rear abutting sliding block, and the blocking abutting block can abut against the front abutting sliding block, the top wall of the blocking space is provided with a blocking block sliding space, the top wall of the blocking block sliding space is fixedly connected with an electromagnet, a blocking slide block is connected in the blocking block sliding space in a sliding way, a spring is connected between the blocking slide block and the electromagnet, the rear wall of the transmission space is rotationally connected with a rotating shaft, the front part and the rear part of the rotating shaft are fixedly connected with a first bevel gear and a carrier gear, the first bevel gear is meshed with the second bevel gear, a carrier rack sliding block is connected in the paint port moving space in a sliding manner, three pigment ports are arranged in the carrier rack sliding block, the carrier rack sliding block is meshed with the carrier gear, the machine body is characterized in that three pressing spaces are arranged in the top wall of the machine body, each middle sliding connector is connected with a pigment key, a small spring is connected between each pigment key and the bottom wall of each pressing space, and a pigment pipe is connected between each three-primary-color pigment box and the corresponding pigment port.

4. The household equipment for making and processing the spherical crystal ornaments as claimed in claim 1, is characterized in that: the oscillation shaking device comprises a buffering slide block which is slidably installed in the buffering space, the buffering slide block is connected with a buffering spring between the left wall and the right wall of the buffering space, a main shaft is shaken by fixedly connected with the buffering slide block, a T-shaped block is fixedly connected with the main shaft, an auxiliary wheel is shaken, the auxiliary wheel is shaken and an elastic band is connected between the main wheels, heating plates are symmetrically arranged in the left wall and the right wall of the heating space, and a cover is slidably connected with the heating space.

5. The household equipment for making and processing the spherical crystal ornaments as claimed in claim 1, is characterized in that: the auxiliary device comprises an auxiliary motor fixedly mounted on the rear wall of the auxiliary space, an auxiliary gear rotatably connected with the rear wall of the auxiliary space is connected with the auxiliary motor in a power rotating mode, an auxiliary shaft is fixedly connected onto the auxiliary gear, a groove is formed in the transfer space, a transfer slider is connected in the groove in a sliding mode, the transfer slider is meshed with the auxiliary shaft, a lifting space is formed in the transfer slider, a lifting motor is arranged on the rear wall of the lifting space, a lifting main shaft is connected onto the lifting motor in a power rotating mode, a lifting main wheel is fixedly connected onto the lifting main shaft, a lifting auxiliary shaft is fixedly connected onto the front and rear walls of the lifting space, a lifting auxiliary wheel is fixedly connected onto the lifting auxiliary shaft, a rope is connected between the lifting main wheel and the lifting auxiliary wheel, and one end of the rope is fixed onto the lifting main wheel.

Technical Field

The invention relates to the field of crystal processing, in particular to household equipment for manufacturing and processing a spherical crystal ornament.

Background

The crystal is a quartz crystal mineral, the main chemical component of the crystal is silicon dioxide, and the crystal is considered to be transparent in western countries, so that the crystal word comprises colorless transparent glass and natural crystal ores, and the crystal ornaments are popular among people at present, but the crystal is expensive and cannot be consumed by people.

At present, the artificial crystal of the equipment needs to be cooled after sand is treated and melted at high temperature, the preparation process is troublesome, the safety problem exists in the operation under high temperature and high pressure, the floor area of the preparation equipment is huge, and the household equipment for manufacturing and processing the spherical crystal ornaments can solve the problems.

Disclosure of Invention

In order to solve the problems, the embodiment designs a household device for manufacturing and processing spherical crystal ornaments, the household device for manufacturing and processing spherical crystal ornaments comprises a machine body, a transfer space is arranged in the machine body, a falling space is arranged at the lower side of the transfer space, a forming space is arranged at the lower side of the falling space, rotating spaces are symmetrically arranged at the left side and the right side of the forming space, clamping spaces are symmetrically arranged at the left side and the right side of the rotating spaces, a displacement space is arranged at the left side of the clamping spaces, a resin box is arranged at the upper side of the displacement space, a shearing space is arranged at the right side of the falling space, a transmission auxiliary space is arranged at the right side of the clamping spaces, a shaking heating space is arranged at the right side of the transfer space, a transmission space is arranged at the lower side of the shaking heating space, a pigment port moving space is arranged at, the lower side of the pigment port moving space is provided with a transfer space, the lower side of the transfer space is provided with a blocking space, the resin box, the falling space, the shearing space, the transfer auxiliary space, the forming space, the clamping space, the rotating space and the displacement space are internally provided with a forming device for spraying resin solution on the surface of crystal spherical crystals, the forming device comprises a forming motor fixedly arranged on the right wall of the transfer auxiliary space, the forming motor is in power rotation connection with a forming main shaft in rotation connection with the right wall of the transfer auxiliary space, the left wall of the transfer auxiliary space is in rotation connection with a forming sleeve shaft, the forming sleeve shaft extends leftwards to sequentially penetrate through the rotating space, the clamping space and the right wall of the displacement space to enter the displacement space, the forming sleeve shaft is provided with a pin and is in sliding connection with the forming main shaft, the forming sleeve shaft is fixedly connected with a shearing main wheel, the forming sleeve shaft is rotatably connected with a displacement abutting block, the left and right sides of the forming sleeve shaft are fixedly connected with a clamping main wheel and a rotating main wheel, the two rotating main wheels are positioned in the two clamping main wheels, the top wall of the displacement space is provided with a displacement motor, the upper power of the displacement motor is rotatably connected with a displacement shaft which is rotatably connected with the upper wall and the lower wall of the displacement space, the displacement shaft is fixedly connected with a displacement cam, the displacement cam is abutted against the displacement abutting block, each clamping space side wall is rotatably connected with a forming auxiliary shaft, each forming auxiliary shaft is fixedly connected with a clamping auxiliary wheel, each clamping auxiliary wheel can be respectively meshed with the clamping main wheels, each clamping space side wall is in threaded connection with a clamping needle, and the two clamping needles are provided with threads in opposite directions, each clamping needle extends through one side of the clamping space from one side to enter the rotating space, each clamping needle is connected with the forming auxiliary shafts in a sliding mode, one side wall of the rotating space is connected with a rotating block in a rotating mode, each rotating block extends through one side of the rotating space from one side to enter the forming space, each rotating block can be meshed with the rotating main wheel, each rotating block is connected with the clamping needles in a sliding mode, a plurality of nozzles are arranged in each rotating block, a valve is arranged on the right side of the resin box, a resin pipe is connected between each valve and each nozzle, the right wall of the transmission auxiliary space is connected with a shearing main shaft in a rotating mode, the shearing main shaft extends through the left wall of the transmission auxiliary space to enter the shearing space in a leftward extending mode, and a third bevel gear, a third, The shearing auxiliary wheel is connected with the shearing main wheel through a power belt, the upper wall and the lower wall of the shearing space are rotationally connected with a shearing auxiliary shaft, the shearing auxiliary shaft is fixedly connected with a fourth bevel gear and a shearing cam from top to bottom, the third bevel gear is meshed with the fourth bevel gear, the bottom wall of the shearing space is fixedly connected with a fixed shaft, scissors are fixedly connected onto the fixed shaft, the scissors extend leftwards to penetrate through the left wall of the shearing space to enter the falling space, and the shearing cam is abutted to the scissors.

Preferably, the transmission space, the blocking space, the transfer space, the pigment port moving space and the three-primary color pigment box are provided with color mixing devices for changing the dissolved color of the alum aqueous solution, the transmission space, the buffer space and the shaking heating space are provided with shaking devices for fully dissolving the alum aqueous solution and uniformly mixing the pigment, and the transfer space, the auxiliary space and the shaking heating space are provided with auxiliary devices for crystals.

Preferably, the color mixing device comprises a shaking motor fixedly installed on the bottom wall of the transmission space, a transmission main shaft rotatably connected with the shaking motor and rotatably connected with the bottom wall of the transmission space, the transmission main shaft extends upwards to penetrate through the bottom wall of the blocking space and enters the blocking space, a butting block and a shaking main wheel are fixedly connected with the transmission main shaft from top to bottom, the top wall of the blocking space is rotatably connected with a transmission auxiliary shaft, the transmission auxiliary shaft extends upwards to penetrate through the bottom wall of the transmission space and enters the transmission space, a second bevel gear and a groove block are fixedly connected with the transmission auxiliary shaft from top to bottom, a front butting sliding block and a rear butting sliding block are slidably connected with the groove block from front to back, the front butting sliding block is slidably connected with the rear butting sliding block, and the butting block can be respectively connected with the front butting sliding, The rear abutting sliding blocks are abutted with each other, a blocking block sliding space is arranged on the top wall of the blocking space, an electromagnet is fixedly connected to the top wall of the blocking block sliding space, a blocking sliding block is slidably connected in the blocking block sliding space, a spring is connected between the blocking sliding block and the electromagnet, a rotating shaft is rotatably connected to the rear wall of the transmission space, a first bevel gear and a carrier gear are fixedly connected to the front and the rear of the rotating shaft, the first bevel gear is meshed with the second bevel gear, a carrier rack sliding block is slidably connected in the pigment port moving space, three pigment ports are arranged in the carrier rack sliding block, the carrier rack sliding block is meshed with the carrier gear, three pressing spaces are arranged in the top wall of the machine body, each middle sliding button is connected with a pigment button, and a small spring is connected between each pigment button and the, and a pigment tube is connected between each three-primary-color pigment box and the pigment port.

Preferably, the device is rocked in the vibration include slidable mounting buffer slide in the buffer space, buffer slide with be connected with buffer spring between the wall about the buffer space, fixedly connected with rocks the main shaft on the buffer slide, rock fixedly connected with T type piece about the main shaft, rock the auxiliary wheel with rock and be connected with the elastic cord between the main wheel, rock the heating space and control the wall internal symmetry and be equipped with the hot plate, it has the cover to rock sliding connection on the heating space.

Preferably, the auxiliary device includes an auxiliary motor fixedly installed at a rear wall of the auxiliary space, the auxiliary motor is in power rotation connection with an auxiliary gear in rotation connection with the rear wall of the auxiliary space, an auxiliary shaft is fixedly connected to the auxiliary gear, a groove is arranged in the transfer space, a transfer sliding block is connected in the groove in a sliding manner, the transfer sliding block is engaged with the auxiliary shaft, a lifting space is arranged in the transfer sliding block, the rear wall of the lifting space is provided with a lifting motor, the lifting motor is connected with a lifting main shaft in a power rotating way, the lifting main shaft is fixedly connected with a lifting main wheel, the front wall and the rear wall of the lifting space are fixedly connected with a lifting auxiliary shaft, the lifting auxiliary shaft is fixedly connected with a lifting auxiliary wheel, a rope is connected between the lifting main wheel and the lifting auxiliary wheel, and one end of the rope is fixed on the lifting main wheel.

The invention has the beneficial effects that: the invention relates to a household device for manufacturing and processing a spherical crystal ornament, wherein a forming device is arranged in a machine body, a protective film is added outside salt crystallized crystals, long-term decoration and use are facilitated, a color mixing device, an oscillation shaking device and an auxiliary device are arranged in the machine body, a user can easily manufacture the spherical crystals with favorite colors at home, and the device does not have dangerous procedures such as high temperature and high pressure, and is small and safe.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

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

FIG. 3 is a schematic diagram of B-B of FIG. 2;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

FIG. 5 is a schematic diagram of D-D of FIG. 1;

fig. 6 is an enlarged schematic view of E in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: 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 household device for manufacturing and processing spherical crystal ornaments, which comprises a machine body 21, wherein a transfer space 85 is arranged in the machine body 21, a falling space 82 is arranged on the lower side of the transfer space 85, a forming space 92 is arranged on the lower side of the falling space 82, the forming space 92 is symmetrically provided with a rotating space 90 in left and right, the rotating space 90 is symmetrically provided with a clamping space 91 in left and right, a displacement space 93 is arranged on the left side of the clamping space 91 in left, a resin box 71 is arranged on the upper side of the displacement space 93, a shearing space 83 is arranged on the right side of the falling space 82, a transmission auxiliary space 94 is arranged on the right side of the clamping space 91 in right, a shaking heating space 86 is arranged on the right side of the transfer space 85, a transmission space 89 is arranged on the lower side of the shaking heating space 86, a pigment port moving space 87 is arranged on the right, the lower side of the pigment port moving space 87 is provided with a transfer space 88, the lower side of the transfer space 88 is provided with a blocking space 81, the resin box 71, the falling space 82, the shearing space 83, the transfer auxiliary space 94, the forming space 92, the clamping space 91, the rotating space 90 and the displacement space 93 are internally provided with a forming device for spraying resin solution on the surface of crystal spherical crystals, the forming device comprises a forming motor 48 fixedly arranged on the right wall of the transfer auxiliary space 94, the forming motor 48 is in power rotation connection with a forming main shaft 49 in rotation connection with the right wall of the transfer auxiliary space 94, the left wall of the transfer auxiliary space 94 is in rotation connection with a forming sleeve shaft 50, the forming sleeve shaft 50 extends leftwards to sequentially penetrate through the rotating space 90, the clamping space 91 and the right wall of the displacement space 93 to enter the displacement space 93, the forming sleeve shaft 50 is provided with a pin, the forming sleeve shaft 50 is in sliding connection with the forming main shaft 49, the forming sleeve shaft 50 is fixedly connected with a shearing main wheel 51, the forming sleeve shaft 50 is rotatably connected with a displacement abutting block 54, the forming sleeve shaft 50 is fixedly connected with a clamping main wheel 52 and a rotating main wheel 53 at left and right, the rotating main wheels 53 are positioned in the two clamping main wheels 52, the top wall of a displacement space 93 is provided with a displacement motor 57, the displacement motor 57 is in power rotation connection with a displacement shaft 56 which is in rotation connection with the upper wall and the lower wall of the displacement space 93, the displacement shaft 56 is fixedly connected with a displacement cam 55, the displacement cam 55 is in abutting connection with the displacement abutting block 54, one side wall of each clamping space 91 is in rotation connection with a forming auxiliary shaft 58, and each forming auxiliary shaft 58 is fixedly connected with a clamping auxiliary wheel 59, each clamping auxiliary wheel 59 can be meshed with the clamping main wheel 52 respectively, a clamping needle 60 is connected to one side wall of each clamping space 91 through a thread, opposite threads are arranged on the two clamping needles 60, each clamping needle 60 extends towards one side to penetrate through one side wall of each clamping space 91 to enter the corresponding rotating space 90, each clamping needle 60 is connected with the corresponding forming auxiliary shaft 58 in a sliding mode, a rotating block 61 is rotatably connected to one side wall of each rotating space 90, each rotating block 61 extends towards one side to penetrate through one side wall of each rotating space 90 to enter the corresponding forming space 92, each rotating block 61 can be meshed with the corresponding rotating main wheel 53 respectively, each rotating block 61 is connected with the corresponding clamping needle 60 in a sliding mode, a plurality of nozzles are arranged in each rotating block 61, and a valve 72 is arranged on the right side of the resin box 71, a resin pipe 73 is connected between the valve 72 and the nozzle, a shearing main shaft 63 is rotatably connected to the right wall of the transfer auxiliary space 94, the shearing main shaft 63 extends leftwards to penetrate through the left wall of the transfer auxiliary space 94 to enter the shearing space 83, a third bevel gear 64 and a shearing auxiliary wheel 62 are fixedly connected to the left and right of the shearing main shaft 63, a power belt is connected between the shearing auxiliary wheel 62 and the shearing main wheel 51, a shearing auxiliary shaft 66 is rotatably connected to the upper and lower walls of the shearing space 83 in a grabbing manner, a fourth bevel gear 65 and a shearing cam 67 are fixedly connected to the upper and lower sides of the shearing auxiliary shaft 66, the third bevel gear 64 is engaged with the fourth bevel gear 65, a fixed shaft 68 is fixedly connected to the bottom wall of the shearing space 83, scissors 69 are fixedly connected to the fixed shaft 68, the scissors 69 extends leftwards to penetrate through the left wall of the shearing space 83, the shearing cam 67 abuts against the scissors 69.

Advantageously, the transmission space 89, the blocking space 81, the transmission space 88, the pigment port moving space 87 and the three primary color pigment box 26 are provided with color adjusting devices for changing the dissolved color of the alum aqueous solution, the transmission space 89, the buffer space 40 and the shaking and heating space 86 are provided with shaking and shaking devices for making the alum aqueous solution sufficiently dissolved and making the pigment uniform, and the transfer space 85, the auxiliary space 84 and the shaking and heating space 86 are provided with auxiliary devices for crystals.

Beneficially, the color matching device comprises a shaking motor 39 fixedly installed on the bottom wall of the transmission space 89, a transmission main shaft 37 rotatably connected with the bottom wall of the transmission space 89 is connected to the shaking motor 39 in a power rotating manner, the transmission main shaft 37 extends upwards to penetrate through the bottom wall of the blocking space 81 to enter the blocking space 81, a blocking abutting block 80 and a shaking main wheel 38 are fixedly connected on the upper and lower sides of the transmission main shaft 37, a transmission auxiliary shaft 36 is rotatably connected on the top wall of the blocking space 81, the transmission auxiliary shaft 36 extends upwards to penetrate through the bottom wall of the transmission space 88 to enter the transmission space 88, a second bevel gear 35 and a groove block 74 are fixedly connected on the upper and lower sides of the transmission auxiliary shaft 36, a front abutting sliding block 78 and a rear abutting sliding block 79 are slidably connected on the front and rear abutting sliding blocks 74, and the front abutting sliding block 78 and, the blocking abutting block 80 can be abutted against the front abutting sliding block 78 and the rear abutting sliding block 79 respectively, a blocking block sliding space 77 is arranged on the top wall of the blocking space 81, an electromagnet 75 is fixedly connected to the top wall of the blocking block sliding space 77, a blocking sliding block 76 is slidably connected in the blocking block sliding space 77, a spring is connected between the blocking sliding block 76 and the electromagnet 75, a rotating shaft 34 is rotatably connected to the rear wall of the transmission space 88, a first bevel gear 33 and a carrier gear 32 are fixedly connected to the front and rear of the rotating shaft 34, the first bevel gear 33 is engaged with the second bevel gear 35, a carrier rack sliding block 31 is slidably connected in the pigment port moving space 87, three pigment ports 30 are arranged in the carrier rack sliding block 31, the carrier rack sliding block 31 is engaged with the carrier gear 32, and three pressing spaces 28 are arranged in the top wall of the machine body 21, each of the three primary color tanks 26 is slidably connected with a color key 27, a small spring is connected between each of the color keys 27 and the bottom wall of the pressing space 28, and a color tube 29 is connected between each of the three primary color tanks 26 and the color port 30.

Advantageously, the oscillating and shaking device comprises a buffer slide block 42 slidably mounted in the buffer space 40, a buffer spring 41 is connected between the buffer slide block 42 and the left and right walls of the buffer space 40, a shaking main shaft 43 is fixedly connected to the buffer slide block 42, a T-shaped block 45 and a shaking auxiliary wheel 44 are fixedly connected to the shaking main shaft 43 vertically, an elastic band is connected between the shaking auxiliary wheel 44 and the shaking main wheel 38, heating plates 47 are symmetrically arranged in the left and right walls of the shaking heating space 86, and a cover 25 is slidably connected to the shaking heating space 86.

Advantageously, the auxiliary device comprises an auxiliary motor 22 fixedly mounted on the rear wall of the auxiliary space 84, an auxiliary gear 24 rotatably connected to the rear wall of the auxiliary space 84 is rotatably connected to the auxiliary motor 22, an auxiliary shaft 23 is fixedly connected to the auxiliary gear 24, a slot is provided in the transfer space 85, a transfer slider 95 is slidably connected to the slot, the transfer slider 95 is engaged with the auxiliary shaft 23, a lifting space 101 is provided in the transfer slider 95, a lifting motor 96 is provided on the rear wall of the lifting space 101, a lifting main shaft 97 is rotatably connected to the lifting motor 96, a lifting main wheel 98 is fixedly connected to the lifting main shaft 97, a lifting auxiliary shaft 99 is fixedly connected to the front and rear walls of the lifting space 101, a lifting auxiliary wheel 100 is fixedly connected to the lifting auxiliary shaft 99, and a rope is connected between the lifting main wheel 98 and the lifting auxiliary wheel 100, one end of the rope is fixed on the lifting main wheel 98.

The use steps herein are described in detail below with reference to fig. 1-6:

in the initial state, the electromagnet 75 is energized to attract the blocking slider 76, the concave surface of the displacement cam 55 abuts against the displacement abutting block 54, the clamping main wheel 52 and the clamping auxiliary wheel 59 are engaged with each other, and the convex surface of the shearing cam 67 abuts against the scissors 69.

When preparing the spherical crystal ornaments at home, firstly taking out the cup, putting alum and water in the cup, hanging a spherical crystal nucleus on the other end of the rope, covering the cover 25, opening the heating plate 47, starting the shaking motor 39 in the forward direction to drive the transmission main shaft 37 to rotate, thereby driving the shaking main wheel 38 to rotate, transmitting the power of the shaking main wheel 38 to the shaking auxiliary wheel 44 through an elastic band, thereby driving the shaking auxiliary wheel 44 to rotate, thereby driving the shaking main shaft 43 to rotate and shake, thereby driving the T-shaped block 45 to rotate and shake, thereby fully dissolving the alum in the cup under the heating plate 47 and the shaking and shaking, driving the blocking abutting block 80 to rotate by the rotating transmission main shaft 37, thereby driving the front abutting slide block 78 and the rear abutting slide block 79 to rotate, thereby driving the groove block 74 to rotate, thereby driving the transmission auxiliary shaft 36 to rotate, thereby driving the second bevel gear 35 to rotate, thereby driving the first bevel gear 33 to rotate, thereby driving the rotating shaft 34 to rotate, driving the carrier gear 32 to rotate, driving the carrier rack slide block 31 to move leftwards, pressing the pigment key 27 to select the favorite color and allocate, starting the shaking motor 39 reversely, continuing to shake the cup, driving the carrier rack slide block 31 to reset, powering off the electromagnet 75 after the carrier rack slide block 31 resets, blocking the slide block 76 from moving downwards, and preventing the transmission auxiliary shaft 36 from rotating.

After the pigment is uniformly distributed, the auxiliary motor 22 is started in a forward direction, so that the auxiliary gear 24 is driven to rotate, the auxiliary shaft 23 is driven to rotate, the transfer sliding block 95 is driven to move rightwards until the spherical crystal nucleus is positioned right above the cup, the auxiliary motor 22 is turned off, the lifting motor 96 is started in a forward direction, so that the lifting main shaft 97 is driven to rotate, the lifting main wheel 98 is driven to rotate, the spherical crystal nucleus is driven to move downwards until the spherical crystal nucleus is submerged in the colored alum aqueous solution, the lifting motor 96 is turned off, and the spherical crystal is generated after standing for a period of time.

After the spherical crystal is formed, the lifting motor 96 is reversely started so as to take the spherical crystal away from the aqueous solution, the lifting motor 96 is closed, after no aqueous solution drips on the spherical crystal, the auxiliary motor 22 is reversely started so as to drive the transfer slide block 95 to move leftwards until the upper part of the falling space 82, the auxiliary motor 22 is closed, and the lifting motor 96 is forwardly started again so as to drive the spherical crystal to descend until the spherical crystal and the two rotating blocks 61 are positioned on the same horizontal plane.

The forming motor 48 is positively actuated to rotate the forming spindle 49 and thereby the forming sleeve 50, and thereby the two clamping main wheels 52, and thereby the two clamping auxiliary wheels 59, and thereby the two forming auxiliary shafts 58, and thereby the two clamping pins 60, are driven to move to one side until the spherical crystal is clamped, the rotating cutting main wheel 51 transmits power to the cutting auxiliary wheel 62 through the power belt, thereby the cutting spindle 63 is driven to rotate, thereby the third bevel gear 64 is driven to rotate, thereby the fourth bevel gear 65 is driven to rotate, thereby the cutting auxiliary shaft 66 is driven to rotate, thereby the cutting cam 67 is driven to rotate, thereby the scissors 69 are driven to cut the rope, the displacement motor 57 is actuated to rotate, thereby the displacement shaft 56 is driven to rotate, thereby the displacement abutment block 54 is driven to move to the right, thereby the forming sleeve 50 is driven to move to the right, thereby engaging the main rotating wheel 53 with the rotating block 61, turning off the displacement motor 57 to drive the rotating block 61 to rotate, opening the valve 72, spraying the resin solution in the resin tank 71 through the resin pipe 73 with a nozzle uniformly onto the spherical crystal, closing the valve 72 and the forming motor 48, and taking out the complete spherical crystal after the resin solution is solidified

The invention has the beneficial effects that: the invention relates to a household device for manufacturing and processing a spherical crystal ornament, wherein a forming device is arranged in a machine body, a protective film is added outside salt crystallized crystals, long-term decoration and use are facilitated, a color mixing device, an oscillation shaking device and an auxiliary device are arranged in the machine body, a user can easily manufacture the spherical crystals with favorite colors at home, and the device does not have dangerous procedures such as high temperature and high pressure, and is small and safe.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.