阅读说明：本技术 一种环保无烟蜡烛的制备流水线 (Preparation assembly line of environment-friendly smokeless candle ) 是由 叶勇 于 2020-12-29 设计创作，主要内容包括：本发明公开了一种环保无烟蜡烛的制备流水线,包括机架,所述机架上从左到右依次设置有制芯模块、组装模块以及浇筑模块,制芯模块用于将棉绳制作成烛芯,组装模块通过转盘转动实现容器组装和容器内烛芯的植入,浇筑模块用于将蜡油注入到容器中。本发明结构紧凑,占地面积小,利于控制人工成本,提高制作效率。(The invention discloses a preparation production line of an environment-friendly smokeless candle, which comprises a rack, wherein a core making module, an assembling module and a pouring module are sequentially arranged on the rack from left to right, the core making module is used for making a cotton rope into a candle core, the assembling module realizes container assembly and implantation of the candle core in a container through rotation of a turntable, and the pouring module is used for injecting wax oil into the container. The invention has compact structure and small occupied area, is beneficial to controlling the labor cost and improving the manufacturing efficiency.)

1. The utility model provides a preparation assembly line of smokeless candle of environmental protection, includes frame (1), its characterized in that: frame (1) is gone up from left to right has set gradually system core module (2), equipment module (3) and has pour module (4), and system core module (2) are used for making into the wick with the cotton rope, and equipment module (3) rotate through carousel (31) and realize the implantation of container equipment and container interior wick, pour module (4) and be arranged in pouring the container with wax oil.

2. The production line of an environmentally friendly smokeless candle of claim 1, wherein: the core making module (2) comprises a wax coating module (21), a hardening module (22) and a control module (23), the wax coating module (21) is used for coating wax oil on the cotton rope, the hardening module (22) is used for solidifying the wax oil on the cotton rope, the control module (23) is located between the wax coating module (21) and the hardening module (22), and the control module (23) is used for driving the wax coating module (21) and the hardening module (22) to convey the cotton rope alternately.

3. The production line of an environmentally friendly smokeless candle of claim 2, characterized in that: the wax coating module (21) comprises a discharging roller (51), a wax oil pool (52) and a rotating roller (53), a cotton rope on the discharging roller (51) is arranged in the wax oil pool (52) in a penetrating mode, and the cotton rope passes through the rotating roller (53) for at least one time to pass through the wax oil pool (52).

4. The production line of an environmentally friendly smokeless candle of claim 2, characterized in that: the candle wick cutting device is characterized in that the hardening module (22) comprises a first base (61), a wind blowing device (62), a wick sending module (63) and a cutting module (64) are sequentially arranged on the first base (61) from left to right, the wind blowing device (62) is fixedly connected to the first base (61), the wind blowing device (62) is used for solidifying wax oil on a cotton rope to form a candle wick, the wick sending module (63) is used for conveying the candle wick, and the cutting module (64) is used for cutting off the candle wick.

5. The production line of an environmentally friendly smokeless candle of claim 2, characterized in that: the control module (23) comprises a second base (55), a grooved pulley (56) which moves vertically is arranged on the second base (55), the grooved pulley (56) props against the cotton rope, four limit switches (57) are embedded on the second base (55), the four limit switches (57) are bilaterally symmetrical and are respectively located on the two sides of the uppermost end and the two sides of the lowermost end of the movement track of the grooved pulley (56), and the grooved pulley (56) realizes that the rotating roller (53) and the core feeding module (63) alternately operate and convey the cotton rope through the limit switches (57).

6. The production line of an environmentally friendly smokeless candle of claim 1, wherein: the assembly module (3) further comprises a first feeding module (32), a second feeding module (33), a core fixing module (34) and a conveying module (35), four assembly grooves (71) which are annularly arranged at equal angles are formed in the rotary table (31), the first feeding module (32) is used for conveying the shell of the container into the assembly grooves (71), the second feeding module (33) is used for conveying the base of the container into the assembly grooves (71) and connecting the base with the shell, the core fixing module (34) is used for fixing the candlewick on the base, the four assembly grooves (71) sequentially correspond to the first feeding module (32), the second feeding module (33), the core fixing module (34) and the conveying module (35), the rotary table (31) is used for sequentially assembling the first feeding module (32), the second feeding module (33) and the core fixing module (34) in the same assembly groove (71) through rotation, the pushing block (72) is arranged in the assembling groove (71) in a sliding mode, the pushing block (72) is driven by external force to push the assembled container to the conveying module (35), and the conveying module (35) is used for conveying the assembled container to the pouring module (4).

7. The production line of an environmentally friendly smokeless candle of claim 6, wherein: the first feeding module (32) and the second feeding module (33) respectively comprise a third base (91), a first pushing module (92), a second pushing module (93) and a third pushing module (94), the first pushing module (92) is used for driving the shell or the base to vertically move, the second pushing module (93) is used for pushing the shell or the base onto the first pushing module (92), and the third pushing module (94) is used for pushing the shell or the base on the first pushing module (92) into the assembling groove (71).

8. The production line of an environmentally friendly smokeless candle of claim 6, wherein: the wick fixing module (34) comprises a fourth base (81) and a clamping module (82), and the clamping module (82) is used for driving the base to clamp the candlewick.

9. The production line of an environmentally friendly smokeless candle of claim 6, wherein: the conveying module (35) comprises a guide piece (75) and a conveying piece (76), a guide channel (77) used for guiding the assembled containers to slide is formed in the guide piece (75), the conveying piece (76) is located right below the guide channel (77), a container groove (78) used for containing the assembled containers is formed in the conveying piece (76), and the conveying piece (76) is arranged on a sliding rail (11) of the rack (1) in a sliding mode.

10. The production line of an environmentally friendly smokeless candle of claim 1, wherein: the pouring module (4) comprises an oil injection module (41) and a curing module (42), the oil injection module (41) is used for injecting wax oil into the assembled container, and the curing module (42) is used for solidifying the wax oil injected into the assembled container.

Technical Field

The invention relates to the field of candle manufacturing, in particular to a preparation production line of an environment-friendly smokeless candle.

Background

A candle, a daily lighting tool, is made mainly of paraffin, and in ancient times, is usually made of animal fat. However, with the development of the society, the appearance of the electric lamp enables the candle to fade the lighting function, the candle appears in the life of people with the identity of ornaments, modern people who pay more and more attention to the home atmosphere prefer to use the candle to decorate the home, and a warm and romantic atmosphere is created. These candles for decoration are often used in containers for safety and recycling reasons, as compared to candles for illumination.

At present, the candle is manufactured by mainly injecting wax oil into a mould, taking out the candle after the wax oil is cooled, solidified and molded, and finally adding a candle wick into the candle. Because the candle and the candle core need to be manufactured separately, the manual operation links are more in the whole candle manufacturing process, and the stable manufacturing quality of the candle cannot be guaranteed. Meanwhile, because the space enough for workers to work is needed between the devices, the occupied area of the devices is large, the working strength of the workers is increased, and the manufacturing efficiency is influenced.

Disclosure of Invention

The invention aims to provide a production line for environment-friendly smokeless candles, which occupies a small area and has a compact structure.

The technical scheme adopted by the invention for solving the problems is as follows:

the utility model provides a preparation assembly line of environmental protection smokeless candle, includes the frame, system core module, equipment module and the module of pouring have from left to right set gradually in the frame, and system core module is used for making into the wick with the cotton rope, and the equipment module rotates the implantation that realizes candlewick in container equipment and the container through the carousel, pours the module and is arranged in pouring the wax oil into the container.

As a further improvement of the above technical solution, the core making module includes a wax coating module, a hardening module and a control module, the wax coating module is used for coating wax oil on the cotton rope, the hardening module is used for solidifying the wax oil on the cotton rope, the control module is located between the wax coating module and the hardening module, and the control module is used for driving the wax coating module and the hardening module to alternately convey the cotton rope. The purpose of making the cotton rope into the candlewick is realized through the waxing module and the hardening module, and the candlewick can be discontinuously transmitted and installed on the base by matching with the control module to control the cotton rope to be alternately conveyed.

As a further improvement of the technical scheme, the wax coating module comprises a discharging roller, a wax oil pool and a rotating roller, a cotton rope on the discharging roller is arranged in the wax oil pool in a penetrating mode, and the cotton rope passes through the rotating roller to enable the cotton rope to pass through the wax oil pool for at least one time. Pass the wax oil pond repeatedly through the cotton rope for can adhere to sufficient wax oil on the cotton rope, thereby can have sufficient hardness when guaranteeing that the cotton rope makes the wick, do benefit to the installation degree of difficulty that reduces the wick.

As the further improvement of above-mentioned technical scheme, the sclerosis module includes first base, from left to right sets gradually the wind on the first base and blows the device, send core module and cutting module, and wind blows device fixed connection on first base, thereby the wind blows the device and is used for making the candlewick with the wax oil solidification on the cotton rope, send the core module to be used for carrying the candlewick, and cutting module is used for cutting off the candlewick. Thereby make wax oil on the cotton rope solidify the hardness that improves the cotton rope through the device that blows, reduce the installation degree of difficulty of wick, the cooperation send core module and cutting module for the strip wick of producing can be segmented and carry.

As a further improvement of the technical scheme, the control module comprises a second base, a grooved wheel which vertically moves is arranged on the second base and is abutted against the cotton rope, four limit switches are embedded on the second base, the four limit switches are bilaterally symmetrical and are respectively positioned on the two sides of the uppermost end and the two sides of the lowermost end of the movement track of the grooved wheel, and the grooved wheel realizes the alternate operation of the rotating roller and the core feeding module through the limit switches to convey the cotton rope. When the sheave moves straight line downwards, two limit switches located above reset, the live-rollers rotate, send the fixed cotton rope of core module to keep motionless, make the last cotton rope that can leave suitable length and adhere to the wax oil of control module, when the sheave moves to two limit switches of bottom and trigger the below, the live-rollers stop the function, the sheave moves straight line upwards, thereby send core module function pulling cotton rope, make the cotton rope that leaves on the control module get into the sclerosis module, through the activity surplus that sets up the cotton rope on the control module, do benefit to the transport degree of difficulty that reduces the cotton rope.

As a further improvement of the technical proposal, the assembly module also comprises a first feeding module, a second feeding module, a wick fixing module and a conveying module, four assembly grooves which are annularly arranged at equal angles are arranged on the turntable, the first feeding module is used for feeding the shell of the container into the assembly grooves, the second feeding module is used for feeding the base of the container into the assembly grooves and connecting the base with the shell, the wick fixing module is used for fixing the candlewick on the base, the four assembly grooves sequentially correspond to the first feeding module, the second module of feeding in raw material, gu core module and transport module, the carousel is realized assembling in proper order at the first module of feeding in raw material, the reinforced module of second and gu core module in same equipment inslot through rotating, and it promotes the piece to slide in the equipment inslot, thereby it receives external force drive to promote the piece and push away the container that the equipment was accomplished to transport module, and transport module is used for sending the container that the equipment was accomplished to pouring the module. Through the first feeding module, the second feeding module, the wick fixing module and the conveying module, the container is assembled, the candlewicks are implanted and the container is conveyed, the manufacturing link of manual assembly is reduced, the working strength of workers is reduced, and the improvement of the working efficiency is facilitated.

As a further improvement of the above technical solution, the first feeding module and the second feeding module each include a third base, a first pushing module, a second pushing module, and a third pushing module, the first pushing module is used to drive the housing or the base to vertically move, the second pushing module is used to push the housing or the base to the first pushing module, and the third pushing module is used to push the housing or the base on the first pushing module into the assembling groove. The automatic adding of the assembly parts is realized through the first pushing module, the second pushing module and the third pushing module, the potential safety hazard of manual adding is avoided, and the manufacturing efficiency is favorably improved.

As a further improvement of the technical scheme, the wick fixing module comprises a fourth base and a clamping module, the clamping module is used for driving the base to clamp the candlewick, the candlewick is implanted into the container in the process of assembling the container, the operation of manually installing the candlewick is avoided, the production time of finished products is favorably shortened, and the production efficiency is improved.

As a further improvement of the above technical solution, the conveying module includes a guide member and a conveying member, the guide member is provided with a guide passage for guiding the assembled containers to slide, the conveying member is located right below the guide passage, the conveying member is provided with a container slot for accommodating the assembled containers, and the conveying member is slidably disposed on a slide rail of the rack. Through the direction through making the container that is in the level and places become vertical placing, the cooperation is carried the transport effect of piece, does benefit to going on of candle pouring operation in the container.

As a further improvement of the above technical solution, the pouring module includes an oil injection module and a solidification module, the oil injection module is used for injecting the wax oil into the assembled container, and the solidification module is used for solidifying the wax oil injected into the assembled container. Through oiling module and solidification module for can wrap up the wick after the wax oil solidifies, avoid the wick to receive the external factors influence to take place the condition that drops, do benefit to the preparation quality of guarantee candle.

Compared with the prior art, the invention has the following advantages and effects:

according to the invention, the container assembly and the candle wick implantation in the container are carried out through the rotation of the rotary table, and the mode of carrying out operation in sequence by rotation replaces the mode of carrying out operation in sequence by linear conveying, so that the devices which are operated in sequence can be longitudinally arranged in parallel in sequence, and the problem of large floor area requirement caused by the transverse sequential arrangement of the devices is avoided. Meanwhile, the occupied area is small, so that the working range of workers is reduced, the working strength of the workers is favorably reduced, and the manufacturing efficiency is improved. Furthermore, the automatic candle making is realized by matching and using the core making module, the assembling module and the pouring module, the structure is compact, the links of manual operation are reduced, the labor cost is favorably controlled, and the stability of the candle making quality is ensured.

Drawings

FIG. 1 is a schematic structural diagram of a production line for preparing an environment-friendly smokeless candle according to the invention.

Fig. 2 is a schematic view of a wax-coated module of the core-making module shown in fig. 1.

FIG. 3 is a schematic view of the construction of the control module and the hardening module of the core module shown in FIG. 1.

Fig. 4 is a schematic structural view of the core feed module shown in fig. 3.

Fig. 5 is a schematic structural view of the assembled module shown in fig. 1.

Figure 6 is a schematic view of the construction of the first and second feeder modules shown in figure 5.

Fig. 7 is a schematic structural view of the core-fixing module shown in fig. 5.

Fig. 8 is a schematic view of the structure of the clamping module shown in fig. 7.

Fig. 9 is a schematic structural view of the transport module shown in fig. 5.

Fig. 10 is a schematic view of the construction of the casting module shown in fig. 1.

Fig. 11 is a schematic structural view of the outer shell of the container in the embodiment of the present invention.

Fig. 12 is a schematic structural view of a base of a container in an embodiment of the present invention.

Fig. 13 is a schematic view of the structure of a container in an embodiment of the present invention.

Wherein, the machine frame 1, the slide rail 11, the cotton rope 12, the candlewick 13, the container 14, the housing 15, the protrusion 151, the tapered structure 152, the base 16, the slot 161, the slot 162, the clamp 163, the metal clip 164, the convex column 165, the guide groove 166, the core making module 2, the wax coating module 21, the hardening module 22, the control module 23, the assembling module 3, the turntable 31, the first feeding module 32, the second feeding module 33, the core fixing module 34, the conveying module 35, the positioning wheel 36, the pouring module 4, the oil injecting module 41, the solidifying module 42, the discharging roller 51, the wax oil pool 52, the rotating roller 53, the rope pressing piece 54, the second base 55, the grooved wheel 56, the limit switch 57, the guide roller 58, the first base 61, the air blowing device 62, the core feeding module 63, the cutting module 64, the sliding base 65, the clamping module 66, the first clamping block 67, the second clamping block 68, the extending piece 69, the assembling groove 71 and the pushing block 72, the device comprises a spring ball pin ring 73, a spring ball pin belt 74, a guide piece 75, a conveying piece 76, a guide channel 77, a container groove 78, a cam 79, a fourth base 81, a clamping module 82, a clamping base 83, a first clamping piece 84, a second clamping piece 85, a sliding column 86, a strip-shaped groove 87, a spring 88, a bump 89, a third base 91, a first pushing module 92, a second pushing module 93, a third pushing module 94, a lifting plate 95, a first pushing block 96 and a second pushing block 97.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.

Referring to fig. 1 to 13, the preparation line of the environment-friendly smokeless candle in the embodiment includes a frame 1, a core making module 2, an assembling module 3 and a pouring module 4 are sequentially arranged on the frame 1 from left to right, the core making module 2 is used for making a wick from a cotton rope, the assembling module 3 is rotated by a turntable 31 to realize container assembly and wick implantation in a container, the pouring module 4 is used for injecting wax oil into the container, the core making module 2 includes a waxing module 21, a hardening module 22 and a control module 23, the waxing module 21 is used for applying wax oil to the cotton rope, the hardening module 22 is used for solidifying the wax oil on the cotton rope, the control module 23 is located between the waxing module 21 and the hardening module 22, the control module 23 is used for driving the waxing module 21 and the hardening module 22 to alternately convey the cotton rope, the waxing module 21 includes a discharging roller 51, a wax oil pool 52 and a rotating roller 53, the cotton rope on the feeding roller 51 is arranged in the wax oil pool 52 in a penetrating mode, the cotton rope passes through the wax oil pool 52 for at least one time through the rotating rollers 53, the number of the rotating rollers 53 is two, the frame 1 is rotatably provided with two guide rollers 58, the two guide rollers 58 are respectively positioned below the two rotating rollers 53, the wax oil pool 52 is provided with a rope pressing piece 54, the rope pressing piece 54 abuts against the cotton rope to enable the cotton rope to be immersed in the wax oil pool 52, the wax oil pool 52 realizes the lifting of the rope pressing piece 54 through a screw motor, the rope pressing piece 54 penetrates through an output shaft of the screw motor in a threaded matching mode, the hardening module 22 comprises a first base 61, the first base 61 is fixedly connected to the frame 1, the first base 61 is sequentially provided with a wind blowing device 62, a core feeding module 63 and a cutting module 64 from left to right, the wind blowing device 62 is fixedly connected to the first base 61, the air blowing device 62 is a cooling fan, the air blowing device 62 is used for solidifying wax oil on a cotton rope to manufacture candlewick, the wick feeding module 63 is used for conveying candlewick, the cutting module 64 is used for cutting off candlewick, the wick feeding module 63 comprises a sliding base 65, the sliding base 65 is arranged on the first base 61 in a sliding mode, a clamping module 66 used for clamping cotton rope is arranged on the sliding base 65, the clamping module 66 comprises a first clamping block 67 and a second clamping block 68, the first clamping block 67 and the second clamping block 68 are arranged on the sliding base 65 in a bilateral symmetry sliding mode, the sliding base 65 realizes synchronous opposite movement of the first clamping block 67 and the second clamping block 68 through synchronous rotation of two screw motors, the first clamping block 67 and the second clamping block 68 are respectively arranged on output shafts of the two screw motors in a threaded matching mode, an extension piece 69 is fixedly connected to the sliding base 65, the extension piece 69 is arranged on the first base 61 in a penetrating mode, the extending sheet 69 is provided with a groove for inserting candlewicks, the control module 23 comprises a second base 55, the second base 55 is fixedly connected to the frame 1, the second base 55 is provided with a vertically moving sheave 56, the sheave 56 props against cotton ropes, the second base 55 is embedded with four limit switches 57, the four limit switches 57 are bilaterally symmetrical and are respectively positioned at the two sides of the uppermost end and the two sides of the lowermost end of the movement track of the sheave 56, the sheave 56 realizes the alternate operation of the rotating roller 53 and the core sending module 63 for conveying the cotton ropes through the limit switches 57, the assembly module 3 further comprises a first feeding module 32, a second feeding module 33, a core fixing module 34 and a conveying module 35, the turntable 31 is provided with four assembly grooves 71 which are annularly arranged at equal angles, the first feeding module 32 is used for sending the shells of the containers into the assembly grooves 71, the second feeding module 33 is used for sending the bases of the containers into the assembly grooves 71 and connecting the bases with the shells, the core fixing module 34 is used for fixing candlewicks on the base, four assembling grooves 71 sequentially correspond to the first feeding module 32, the second feeding module 33, the core fixing module 34 and the conveying module 35, the rotary table 31 sequentially assembles the first feeding module 32, the second feeding module 33 and the core fixing module 34 in the same assembling groove 71 through rotation, a pushing block 72 is arranged in the assembling groove 71 in a sliding manner, the pushing block 72 is driven by external force to push an assembled container to the conveying module 35, the conveying module 35 is used for conveying the assembled container to the pouring module 4, the rotary table 31 is rotatably arranged on the rack 1, positioning wheels 36 are respectively arranged on two sides of the bottom end of the rotary table 31, the positioning wheels 36 are in contact with the rotary table 31, the two positioning wheels 36 are rotatably connected to the rack 1, the rotary table 31 realizes linear movement of the pushing block 72 through a screw motor, the pushing block 72 is arranged on an output shaft of the screw motor in a threaded fit manner, a plurality of spring ball pin ring rings 73 are arranged in the assembly groove 71, each spring ball pin ring 73 is composed of a plurality of spring ball pins 74 which are annularly arranged at equal intervals, a conical through hole for a wick to pass through is formed in the pushing block 72, one end of the pushing block 72, which is in contact with the shell, is conical, each of the first feeding module 32 and the second feeding module 33 comprises a third base 91, a first pushing module 92, a second pushing module 93 and a third pushing module 94, the third base 91 is fixedly connected to the rack 1, the first pushing module 92 is used for driving the shell or the base to vertically move, the second pushing module 93 is used for pushing the shell or the base onto the first pushing module 92, the third pushing module 94 is used for pushing the shell or the base on the first pushing module 92 into the assembly groove 71, the first pushing module 92 comprises a lifting plate 95 and a first driving module used for driving the lifting plate 95 to vertically move, the second pushing module 93 comprises a first pushing block 96 and a second driving module for driving the first pushing block 96 to horizontally and linearly move, the third pushing module 94 comprises a second pushing block 97 and a third driving module for driving the second pushing block 97 to horizontally and linearly move, the first driving module and the third driving module are both electric hydraulic rods, the fixed ends of the two electric hydraulic rods are fixedly connected to the third base 91, the pushing ends of the two electric hydraulic rods are respectively fixedly connected with the lifting plate 95 and the second pushing block 97, the second driving module is a screw motor, the first pushing block 96 is arranged on the output shaft of the screw motor in a threaded fit manner, the core fixing module 34 comprises a fourth base 81 and a clamping module 82, the clamping module 82 is used for driving the base to clamp a candle wick, the clamping module 82 comprises a clamping base 83, a first clamping piece 84, a second clamping piece 85 and a sliding column 86, one end of the clamping base 83 is rotatably arranged on the fourth base 81, the first clamping piece 84 and the second clamping piece 85 are arranged in parallel in a strip-shaped groove 87 at the other end of the clamping base 83 in a bilateral symmetry manner, a spring 88 is arranged between the first clamping piece 84 and the second clamping piece 85, the spring 88 is propped against the first clamping piece 84 and the second clamping piece 85, hemispherical lugs 89 are fixedly connected to the first clamping piece 84 and the second clamping piece 85, the lugs 89 penetrate through holes in the strip-shaped groove 87 and are exposed on the clamping base, a sliding column 86 is sleeved on the clamping base 83, a fourth driving module for driving the sliding column 86 to move linearly is arranged on the fourth base 81, the lugs 89 are positioned on the moving track of the sliding column 86, the fourth driving module is a screw motor, the sliding column 86 penetrates through an output shaft of the screw motor in a threaded fit manner, a fifth driving module for driving the clamping base 83 to move linearly is arranged on the fourth base 81, the fifth driving module is an electric hydraulic rod, the fixed end of the electric hydraulic rod is fixedly connected to the fourth base 81, the pushing end of the electric hydraulic rod is rotatably connected with one end of the clamping base 83, the conveying module 35 comprises a guide part 75 and a conveying part 76, a guide channel 77 for guiding the assembled containers to slide is arranged on the guide part 75, the conveying part 76 is positioned right below the guide channel 77, a container groove 78 for accommodating the assembled containers is arranged on the conveying part 76, the conveying part 76 is slidably arranged on the slide rail 11 of the frame 1, two cams 79 are arranged in the guide channel 77, the two cams 79 are bilaterally and symmetrically rotatably arranged in the guide channel 77, any one cam 79 is driven by external force to rotate, synchronous rotation is realized between the two cams 79 through a synchronous belt transmission mechanism, the guide part 75 realizes rotation of the cam 79 through a screw motor, and the cam 79 is fixedly connected to an output shaft of the screw motor, the slide rail 11 realizes that the conveying member 76 moves linearly through the screw motor, the conveying member 76 is arranged on an output shaft of the screw motor in a threaded fit manner in a penetrating manner, the pouring module 4 comprises an oil injection module 41 and a curing module 42, the oil injection module 41 is used for injecting wax oil into a container which is assembled, the curing module 42 is used for solidifying the wax oil which is injected into the container which is assembled, and the curing module is a cooling fan. Shell 15 is both ends open structure, realizes connecting through buckle structure between shell 15 and the base 16, is equipped with protruding 151 on the outside edge of the bottom of shell 15, seted up on the base 16 with protruding 151 assorted draw-in groove 161, the open position on the top of shell 15 is toper structure 152, slot 162 has been seted up to the bottom of base 16, fixedly connected with folder 163 in slot 162 is left and right symmetry on folder 163 and is provided with two metal clamping pieces 164, a plurality of projections 165 of fixedly connected with on the lateral surface of metal clamping piece 164, set up two guide ways 166 that are left and right symmetry and set up on slot 162, two guide ways 166 are located the both sides of two metal clamping pieces 164 respectively.

In summary, the application method of the invention is as follows:

the method comprises the following steps: fixing a cotton rope roll on a discharging roller, enabling the cotton rope to pass through a wax oil pool for multiple times through a rotating roller and then fixing the cotton rope on a sliding base through a clamping module;

step two: the rotating roller rotates, the grooved pulley props against the cotton rope to move downwards, so that the cotton rope with proper length and wax oil attached to the cotton rope is reserved on the second base, then the grooved pulley triggers the limit switch in the downward movement process, the rotating roller stops rotating at the moment, the sliding base moves horizontally, the grooved pulley moves upwards, so that the cotton rope reserved on the second base is pulled into the first base, the wax oil on the cotton rope is solidified through the air blowing device, the cotton rope is made into a wick, and the wick continuously extends out of the first base at the moment until the sliding base stops moving;

step three: the clamping module is loosened, the sliding base is reset, and the clamping module clamps the candlewick again;

step four: repeating the second step, cutting off the candlewicks extending out of the first base through the cutting module, and then repeating the third step;

step five: placing the shell of the container into the third base of the first charging module and placing the base of the container into the third base of the second charging module;

step six: in the first feeding module, the lifting plate is lifted, the lifting plate drives the shell to vertically move, the shell is completely pushed into the assembling groove through the horizontal movement of the second pushing block, then the second pushing block and the lifting plate are reset, the shell in the third base is pushed onto the lifting plate through the horizontal movement of the first pushing block, and then the turntable rotates for 90 degrees;

step seven: in the second feeding module, the lifting plate is lifted, the lifting plate drives the base to vertically move, the base is completely pushed into the assembling groove through the horizontal movement of the second pushing block, the base is abutted against the shell in the assembling groove and is connected through the buckle structure, then the second pushing block and the lifting plate are reset, the base in the third base is pushed onto the lifting plate through the horizontal movement of the first pushing block, and then the turntable rotates for 90 degrees;

step eight: repeating the second step, the candlewick stretches into the container which is assembled in the assembling groove, then repeating the third step, the candlewick is positioned between the two metal clamping pieces of the base, the first clamping piece and the second clamping piece stretch into the slot of the base through the horizontal movement of the clamping base, the clamping base rotates to adjust the position through the guide groove on the slot, the first clamping piece and the second clamping piece are respectively positioned at two sides of the two metal clamping pieces, the first clamping piece and the second clamping piece are gathered together through the linear movement of the sliding column and the butting of the lug, the first clamping piece and the second clamping piece butt against the convex column to fold and clamp the candlewick, the candlewick is cut off through the cutting module, then the implantation of the candlewick in the container is completed, the sliding column is reset, the first clamping piece and the second clamping piece are reset under the action of the spring, the clamping base is reset, and then the turntable rotates;

step nine: thereby promote the container that accomplishes the wick implantation and get into the guide way of guide through the promotion piece rectilinear movement of equipment inslot, the container is placed by the level and is changed into vertical placing into, the container falls into the container inslot of transport along guide way, through carrying a rectilinear movement, transport the container to pouring the module, pour the wax oil into the container through the oiling module, the wax oil in with the container through solidification module solidifies, thereby accomplish the preparation of candle, the workman takes away the candle that makes well afterwards, carry a reset, then the carousel rotates 90.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.