CN110862875B - Candle wick fixing device - Google Patents

Abstract

The invention discloses candle core fixing equipment, which relates to the technical field of wax cup production and solves the problem that the operation of penetrating a wax block base into a core and adhering the wax block base of a wax cup to the bottom of the wax cup is complex in the prior art.

Description

Candle wick fixing device

Technical Field

The invention relates to the technical field of wax cup processing, in particular to candle core fixing equipment.

Background

When the wax cup is produced, the wax core is vertically placed in the middle position in the wax cup, then wax oil is added into the wax cup, and the wax cup is formed after the wax oil is solidified. However, in the process of adding wax oil into the wax cup, under the impact of the wax oil, the wax core is easy to deviate, and the bottom of the wax core and the bottom of the wax cup are separated from each other; the wax core passes through the wafer and the limiting pipe, then the adhesive is dripped into the middle position of the bottom in the wax cup, the bottom of the wafer is placed on the adhesive, the wax core is kept at the vertical position, and then wax oil is injected, so that the problem of position deviation of the wax core can not occur.

In the prior art, the wax block base needs to be held by one hand in the wax block base, the wax block base with the wax core is inserted by the other hand, when the wax block base with the wax core is put into the wax cup, the wax block base with the wax core inserted into the wax cup needs to be put into the wax cup by the hand, the bottom of the wafer is placed on the adhesive of the wax cup, and therefore the wax block base is adhered to the wax cup, and the problem that the operation is time-consuming and labor-consuming exists.

Disclosure of Invention

In view of the shortcomings of the prior art, the invention aims to provide a candle core fixing device, which is characterized in that a vibrating disc 6 and a guide plate 61 are used for conveying a wax block base, the wax block base is stirred to the top of a threading table 26 under the action of a stirring block 232, then a wax core is inserted into a circular disc and a limiting pipe from the bottom of the threading table 26, then the limiting pipe is extruded through an extrusion block 241 and the stirring block 232 to clamp the wax core, then the wax core is cut off from the bottom of the circular disc through a cutter 233, then the wax block base is adsorbed by an adsorption block 442, then the wax block base is moved to the top of a wax cup by a rotating disc 42, then the wax cup is manually pushed upwards only to enable the wax cup base to be contacted with viscose, and then pulled downwards, and the wax block base is separated from an adsorption block 442 under the action of viscose, so that the operation is time-saving and labor-saving.

In order to achieve the above purpose, the present invention provides the following technical solutions: a candle core fixing device, comprises a workbench 1, a supporting table 21 fixedly connected to the top of the workbench 1, a fixed shaft 22 fixedly connected to the top of the supporting table 21 and arranged vertically along the axis, a rotating block 23 penetrated by the fixed shaft 22 and rotationally connected to the fixed shaft 22, a squeezing disk 24 arranged on the top of the rotating block 23 and rotationally connected to the fixed shaft 22, a threading table 26 fixedly connected to one side of the top of the workbench 1, a vibrating disk 6 fixedly connected to the top of the workbench 1, a guide plate 61 fixedly connected to the discharging side of the vibrating disk 6, a horizontal plate 63 fixedly connected to one end of the guide plate 61, deviating from the vibrating disk 6, for conveying wax block bases to one side of the threading table 26, limiting plates 62 arranged on two sides of the top of the guide plate 61 and used for limiting the wax block bases, a supporting plate 231 fixedly connected to the outer side of the top of the rotating block 23 and positioned at one end of the horizontal plate 63 deviating from the guide plate 61 a stirring block 232 fixedly connected to the top of the supporting plate 231 near the side of the horizontal plate 63 and used for conveying the wax block base from the horizontal plate 63 to the threading table 26, a squeezing block 241 fixedly connected to the top of the squeezing disk 24 and positioned on the side of the flat plate near the threading table 26, a cutting knife 233 fixedly connected to the top of the rotating block 23 and positioned on the side of the flat plate near the threading table 26, a power mechanism 7 used for driving the squeezing disk 24 and the rotating block 23 to rotate, a wire pushing plate 27 fixedly connected to the top of the supporting table 21 and positioned on the side of the threading table 26 far away from the fixed shaft 22, a rotating rod 41 rotatably connected to the top of the workbench 1 and arranged vertically in the axial direction, a rotating disk 42 fixedly connected to the top of the rotating rod 41 and coaxial with the rotating rod 41, a plurality of transfer rods 44 which penetrate through the rotating disk 42 and can vertically slide on the rotating disk 42 and are arranged on the periphery of the rotating disk 42, the magnetic adsorption block 442 is fixedly connected to the bottom of the transfer rod 44 and is used for driving the rotating rod 41 to intermittently rotate;

The axis evenly distributed around the rolling disc 42 of a plurality of transfer bars 44, the bottom surface of cutter 233 and the top surface of threading platform 26 are parallel and level each other, threading platform 26 is located the position that the rolling disc 42 bottom is close to the rolling disc 42 outside, push away line board 27 is located the position that the rolling disc 42 bottom is close to the periphery, push away line board 27 bottom and be close to threading platform 26 one side downward sloping setting, push away the slope bottom of line board 27 and the top surface of threading platform 26 are parallel and level each other, push away the slope top of line board 27 and the bottom of absorption piece 442 are parallel and level each other, absorption piece 442 bottom is provided with the hole of stepping down of seting up on absorption piece 442 and transfer bar 44, the hole of stepping down is located absorption piece 442 bottom intermediate position.

Through adopting above-mentioned technical scheme, place the wax lump base in the middle of vibration dish 6 under vibration dish 6's effect through guide plate 61 and horizontal plate 63 slip to horizontal plate 63 and deviate from guide plate 61 one side, then dial the material piece 232 under power unit 7's effect and stir the wax lump base to threading platform 26 top, when dialling material piece 232 and stir the material piece 232, extrusion piece 241 rotates towards the direction that is close to threading platform 26 under power unit 7's effect, when wax lump base is located threading platform 26, dial material piece 232 and extrusion piece 241 all mutually contact with the outside of spacing pipe, and adsorption piece 442 is located directly over the wax lump base this moment, then upwards penetrate wax lump base and transfer lever 44 with the wax core from threading platform 26 bottom, then squeeze material piece 241 and dial material piece 232 looks rotation, extrude the cutter tube, fix the wax lump on the spacing pipe, then squeeze material piece 241 and dial material piece 232 and rotate towards the direction of keeping away from each other, drive the direction motion of threading platform 26 simultaneously, 233 passes the direction of cutting wire piece 26 and gives way to accomplish the cutting off the wax lump from threading platform and bottom, then rotate the transfer lever 42 and make the adsorption cup is contacted with the adsorption cup 442 under the effect of the adsorption cup 44 and then makes the adsorption cup and the contact with the capillary cup is contacted with the adsorption cup 44, then makes the adsorption cup is contacted with the adsorption cup and makes the adsorption cup is contacted with the adsorption cup 44 down.

The invention is further provided with: the device also comprises a limiting block 441 fixedly connected to the top of the transfer rod 44, a reset spring 45 sleeved outside the transfer rod 44 and positioned between the rotating disc 42 and the limiting block 441, a sliding rod 46 penetrating the workbench 1 in the vertical direction and capable of sliding up and down on the workbench 1, a deflector 47 fixedly connected to the sliding rod 46 and used for pushing the transfer rod 44 positioned at the top of the wax cup to slide downwards, and a sliding mechanism 48 used for driving the sliding rod 46 to slide.

Through adopting above-mentioned technical scheme, when transfer rod 44 drives wax stone base motion to directly over the wax cup, slide bar 46 is interactive downwards to dial transfer rod 44 downwards through driving lever 47, make transfer rod 44 insert in the middle of the wax cup, then transfer rod 44 resumes the normal position under reset spring 45's effect, need not manual operation wax cup and reciprocates, make operation convenient and fast more.

The invention is further provided with: the bottom of the workbench 1 is provided with a mounting plate 11, and the top of the mounting plate 11 is fixedly connected with a plurality of support rods 12 for connecting the mounting plate 11 and the workbench 1 together;

the power mechanism 7 comprises a rotating rod 76 which is connected with the top of the mounting plate 11 in a rotating way and horizontally arranged along the axial direction, a motor 762 which is fixedly connected with the mounting plate 11 and used for driving the rotating rod 76 to rotate, a reciprocating rod 71 which penetrates through the workbench 1 and the mounting plate 11 and is connected with the mounting table and the vertical plate in a rotating way, two transverse plates 72 which are fixedly connected with the two sides of the top of the reciprocating rod 71, a connecting column 721 which is fixedly connected with the top of the transverse plates 72, an adjusting rod 722 which is rotatably connected with the connecting column 721 and a reciprocating assembly which drives the reciprocating rod 71 to rotate through the rotating rod 76;

The bottom that the rotating block 23 deviates from cutter 233 one side and the bottom that extrusion dish 24 deviates from extrusion piece 241 one side all fixedly connected with fixed column, reciprocating rod 71 is located guide board 61 and deviates from threading platform 26 one side, and the one end that the regulation pole 722 that is close to guide board 61 one side deviates from diaphragm 72 rotates to be connected on the fixed column of rotating block 23 bottom, and the one end that the regulation pole 722 that deviates from guide board 61 one side deviates from diaphragm 72 rotates to be connected on the fixed column of extrusion dish 24 bottom.

By adopting the above technical scheme, the rotating rod 76 drives the reciprocating rod 71 to rotate reciprocally in the rotating process, so that the rotating block 23 and the pressing disk 24 are simultaneously driven to rotate by the rotation of the reciprocating rod 71.

The invention is further provided with: the reciprocating assembly comprises a rotating cam 75 fixedly connected to a rotating rod 76, a power rod 73 rotatably connected to the bottom of the workbench 1, a power bearing 731 fixedly connected to one side of the power rod 73 and having the periphery in contact with the periphery of the rotating cam 75, a connecting rod 74 with one end ball hinged to the power rod 73 and the other end ball hinged to the reciprocating rod 71, and a return spring 77 with one end fixedly connected to the bottom of the power rod 73 and the other end fixedly connected to the top of the mounting plate 11, wherein the return spring 77 is positioned on one side of the power rod 73 close to the reciprocating rod 71;

The rotation cam 75 includes a semicircular portion 751 and a boss 752, the semicircular portion 751 of the rotation cam 75 is coaxially provided with the rotation lever 76, an arc groove 773 is provided at a position of one side of the semicircular portion 751 near the boss 752, and when the rotation lever 76 rotates, the power bearing 731 slides from the boss 752 to the semicircular portion 751, and then slides from the semicircular portion 751 to the boss 752, passes through the arc groove 773 before contacting with the outside of the boss 752.

By adopting the above technical scheme, the rotating cam 75 drives the power rod 73 to swing in the process of following the rotating rod 76 to rotate, and the connecting rod 74 drives the reciprocating rod 71 to rotate in the process of swinging the power rod 73; when the power bearing 731 rotates to the semicircular part 751 from the position farthest from the rotating rod 76 by the protruding part 752, under the action of the return spring 77, the reciprocating rod 71 is driven to rotate, the extruding block 241 and the stirring block 232 are driven to rotate in opposite directions by the reciprocating rod 71, so that the wax block base is stirred to the threading table 26, when the power bearing 731 contacts the periphery of the semicircular part 751, the reciprocating rod 71 stops rotating, threading operation is performed at this moment, when threading operation is completed, the power bearing 731 slides into the arc-shaped groove 773, at this moment, the distance between the power bearing 731 and the axis of the reciprocating rod 71 is nearest, so that the extruding block 241 and the stirring block 232 are driven to be further close to realize extrusion of the limiting tube, and then the power bearing 731 slides onto the protruding part 752, so that the distance between the power bearing 731 and the axis of the rotating rod 76 is gradually increased, so that the extruding block 241 and the stirring block 232 are driven to be separated from each other, and the cutter 233 is driven to complete cutting of the wax core.

The invention is further provided with: the material stirring block 232 is arranged in an arc shape at one side close to the flat plate, one end of the flat plate close to the material stirring block 232 and one end of the limiting plate 62 close to the material stirring block 232, and the arc-shaped axis is arranged coaxially with the fixed shaft 22;

the material pulling block 232 is provided with a stepped groove 2321 at a position close to the threading table 26 and close to one side of the flat plate.

Through adopting above-mentioned technical scheme, dialling material piece 232 and being close to dull and stereotyped one side, dull and stereotyped one end of dialling material piece 232 that is close to and limiting plate 62 is close to dialling material piece 232 one end and all is the arc setting, and curved axis and the coaxial setting of fixed axle 22 for dialling material piece 232 can not prevent dialling the rotation of material piece 232 with limiting plate 62 in the middle of carrying out pivoted in the middle of, through setting up ladder groove 2321, can enter into in the middle of the ladder groove 2321 after the spacing pipe is followed between two limiting plate 62 roll-off, thereby can stir wax piece base when making dialling material piece 232 rotate.

The invention is further provided with: the top of the workbench 1 is provided with a wire inlet mechanism 3 for feeding wax cores; the wire feeding mechanism 3 comprises a transmission rod 31 rotatably connected to the workbench 1, a driving wheel 32 arranged at the top of the transmission rod 31 and rotatably connected with the transmission rod 31, a driven wheel 33 rotatably connected to the workbench 1 and positioned at one side of the driving wheel 32, a tensioning wheel 321 rotatably connected to the top of the workbench 1, a rotating wheel 331 rotatably connected to the top of the workbench 1, two rotating gears 34 fixedly connected to the tops of the driving wheel 32 and the driven wheel 33 and meshed with each other, and two feeding belts 35 for feeding candle cores and a transmission mechanism 8 for driving the transmission rod 31 to reciprocally rotate;

The axes of the driving wheel 32, the driven wheel 33, the tensioning wheel 321 and the rotating wheel 331 are all vertically arranged, the planes of the axes of the driving wheel 32 and the tensioning wheel 321 are parallel to the planes of the axes of the driven wheel 33 and the rotating wheel 331, one feeding belt 35 is sleeved outside the driving wheel 32 and the tensioning wheel 321, the other feeding belt 35 is sleeved outside the driven wheel 33 and the rotating wheel 331, one sides of the two feeding belts 35, which are close to each other, are mutually attached, and the transmission rod 31 is connected with the driving wheel 32 in a rotating way through a one-way bearing.

By adopting the technical scheme, the rotating rod 76 drives the driving wheel 32 to intermittently rotate, and each rotation realizes the feeding of the candle cores through the two feeding belts 35 without manually feeding the candle cores.

The invention is further provided with: the transmission mechanism 8 comprises a swing cam 82 fixedly connected to the rotating rod 76, a swing rod 81 rotatably connected to the bottom of the workbench 1, a swing bearing 811 which is arranged on one side of the swing rod 81 close to the swing cam 82 and is mutually contacted with the outer side of the swing cam 82, a connecting block 841 fixedly connected to the bottom of the workbench 1 and positioned on one side of the transmission rod 31 away from the rotating rod 76, a rotating shaft 84 which is rotatably connected to the connecting block 841 and penetrates through the connecting block 841 along the axial direction of the rotating rod 76, two connecting gears 85 which are fixedly connected to the rotating shaft 84 and are respectively positioned on two sides of the connecting block 841, a control gear 86 fixedly connected to one end of the bottom of the transmission rod 31 and positioned below the workbench 1, and a chain group 83 which drives the control gear 86 to reciprocally rotate through the swing rod 81;

The swinging rod 81 is positioned on one side of the rotating rod 76 away from the transmission rod 31, and the feeding of the candle wick is realized when the driving wheel 32 rotates;

the chain set 83 comprises a swing chain 832 with one end connected to the swing rod 81, a control chain 831 with one end fixedly connected with one end of the swing chain 832 away from the swing rod 81 and a tensioning chain 833 fixedly connected with one end of the control chain 831 away from the swing chain 832, wherein the control chain 831 is wound on one side of the control gear 86 away from the connecting block 841;

one end of the tensioning chain 833, which is away from the control chain 831, is fixedly connected with a tensioning spring 834 fixedly connected with the top of the mounting plate 11, the swinging chain 832 is wound on one side, which is close to the connecting gear 85 at one end, which is connected with the swinging chain 832, of the control chain 831, away from the control chain 831, and the tensioning chain 833 is wound on one side, which is close to the connecting gear 85 at one end, which is connected with the control chain 831, of the tensioning chain 833, away from the control chain 831;

the bottom of the swinging rod 81 is fixedly connected with a bottom rod 812 positioned at the bottom of the rotating rod 76, one end of the top of the swinging rod 81 is fixedly connected with an inclined rod 813 positioned at one side of the rotating rod 76 away from the swinging rod 81, and one end of the bottom of the inclined rod 813 is fixedly connected with one end of the bottom rod 812 away from the swinging rod 81;

the tilting lever 813 is provided with a slider 87 which can slide on the tilting lever 813 along the length direction of the tilting lever 813 and is fixedly connected to the tilting lever 813, one end of a swinging chain 832 close to the swinging lever 81 is fixedly connected to the slider 87, the slider 87 is penetrated by the tilting lever 813, and one side of the slider 87 is in threaded connection with a fastening bolt 871 which penetrates through the slider 87 and contacts with the outer side of the tilting lever 813.

By adopting the technical scheme, when one end of the bottom of the swinging rod 81 is far away from the rotating rod 76, the chain group 83 drives the control gear 86 to rotate towards one direction, and when the swinging rod 81 swings to the maximum angle, the swinging rod 81 swings reversely under the action of the tensioning spring 834, so that the control gear 86 is driven to rotate reversely through the tensioning spring 834, the reciprocating rotation of the control gear 86 is realized, and when the control gear 86 rotates reciprocally, the driving wheel 32 realizes intermittent rotation due to the existence of the one-way bearing, so that the intermittent feeding of the candle core is realized; by adjusting the position of the slider 87, the angle by which the control gear 86 is rotated by the swinging of each side swinging rod 81 can be adjusted, thereby adjusting the length of the candle wick fed each time, and thus adjusting the position of the slider 87 according to the length of the candle wick that needs to pass through.

The invention is further provided with: a feeding mechanism 5 for intermittently feeding the wax cups to the bottom of one side of the rotating disc 42 is arranged on the workbench 1;

the feeding mechanism 5 comprises a rotating shaft 51 which is rotatably connected to the workbench 1, a rotary table 52 which is fixedly connected to the top of the rotating shaft 51 and is coaxial with the rotating shaft, a feeding conveyor belt 53 which is arranged on one side of the rotary table 52 and is used for conveying wax blocks, a supporting frame which is fixedly connected to the top of the workbench 1, a rubber dropping pipe 56 which is fixedly connected to the supporting frame and is positioned above one side of the workbench 1 close to the feeding conveyor belt 53, and a supporting plate 54 which is fixedly connected to the top of the workbench 1 and is positioned at the bottom of the rotary table 52;

The feeding conveyor belt 53 is located at one side of the rotating shaft 51 and penetrates through the bottom of the rotating disc 52, the supporting plate 54 is arranged in an arc shape, and the supporting plate 54 is located at one side, away from the rotating shaft 51, of the feeding conveyor belt 53.

Through adopting above-mentioned technical scheme, the wax cup is sent into the spacing groove 521 of carousel 52 from feeding conveyer 53 and is in, carousel 52 stir the wax cup and rotate intermittently, and when the wax cup was located the rubber tube 56 top, the rubber tube 56 was dripped the viscose to the intermediate position of wax cup bottom, then the wax cup continued to follow carousel 52 and rotates, and when the wax cup rotated to the driving lever 47 under, driving lever 47 stirred transfer lever 44 and sent into the wax cup with the wax piece base in the middle of, need not the staff and operates.

The invention is further provided with: the rotating mechanism 9 comprises a vertical rod 91 which is positioned below the rotating rod 76 and penetrates through the bottom plate, a transmission disc 95 which is fixedly connected to one end of the bottom of the rotating rod 41 and is coaxial with the rotating shaft 51, and a power disc 92 which is fixedly connected to the bottom of the vertical rod 91 and is used for driving the transmission disc 95 to intermittently rotate; the rotating rod 76 and the vertical rod 91 are fixedly connected with bevel gears which are meshed with each other, and the power disc 92 and the transmission disc 95 are positioned below the mounting plate 11; the periphery of the transmission disc 95 is provided with a plurality of transmission grooves 951 which are uniformly distributed around the axis of the transmission disc 95 along the radial direction of the transmission plate, one side of the transmission groove 951, which is close to the mounting plate 11, penetrates through the transmission disc 95, and one side of the transmission disc 95, which is close to the mounting plate 11, is mutually contacted with one side of the power disc 92, which is away from the mounting plate 11;

A stirring block 93 is fixedly connected to the bottom of the power disc 92 at a position close to the periphery of the power disc 92, and the sum of the distance between the axis of the power disc 92 and one side of the stirring block 93 away from the axis of the power disc 92 and the distance between the axis of the driven disc and one side of the transmission groove 951 close to the axis of the driven disc is equal to the distance between the axis of the power disc 92 and the axis of the driven disc;

the bottom of the power disc 92 is fixedly connected with a stop disc coaxial with the power disc 92, a plurality of stop grooves 952 are formed in the periphery of the transmission disc 95, a stop ring 94 is arranged in the middle of each two adjacent transmission grooves 951, one side of each stop groove 952 close to the transmission disc 95 is arranged in an arc shape, the diameter of each stop groove 952 is equal to the outer diameter of each stop ring 94, and when the poking block 93 is separated from each transmission groove 951, each stop ring 94 is embedded into each stop groove 952; the stop ring 94 is provided with a relief groove 941 at one side close to the toggle block 93;

the rotary rod 41 and the rotary shaft 51 are fixedly connected with transmission gears, and the transmission gears are meshed with each other.

By adopting the above technical scheme, the driving block 93 is driven to insert into the transmission groove 951 in the process of rotating the power disc 92, so as to drive the transmission disc 95 to rotate, the driven gear is driven to rotate in the process of rotating the transmission disc 95, when the driving block 93 rotates out of the transmission groove 951, the transmission disc 95 and the driven gear stop rotating, and when the driving block 93 is inserted into the transmission groove 951 again, the transmission disc 95 is driven to rotate again, so as to drive the transmission disc 95 to intermittently rotate, and the transmission disc 95 drives the rotary rod 41 to intermittently move and simultaneously drives the rotary shaft 51 to intermittently rotate through the transmission gear; when the poking block 93 is in the transmission groove 951, the stop disc is located in the stop groove 952, so that the transmission disc 95 cannot rotate under the action of inertia, and the poking block 93 can be smoothly reinserted into the transmission groove 951.

The invention is further provided with: the sliding mechanism 48 comprises a cross bar 481 fixedly connected to the position of the sliding bar 46 near the bottom, a tension spring 484 fixedly connected to one end of the bottom of the cross bar 481, a poking rod 482 fixedly connected to one end of the rotating bar 76 and positioned at the bottom of the cross bar 481, and a poking bearing 483 fixedly connected to one side of the poking rod 482 away from the rotating bar 76;

one end of the poking rod 482 is fixedly connected to the rotating rod 76, the length direction of the poking rod 482 is perpendicular to the axis of the rotating rod 76, the poking bearing 483 is close to one end of the poking rod 482, which is away from the rotating rod 76, the periphery of the poking bearing 483 is in contact with the bottom of the cross rod 481, and the bottom of the tensioning spring 484 is fixedly connected to the mounting plate 11.

Through adopting above-mentioned technical scheme, the poker 482 will stir horizontal pole 481 upward movement in the middle of following the pivoted process of dwang 76 to drive slide bar 46 upward slip, in the middle of the one end that the poker 482 deviates from dwang 76 from the pivoted process downwards at the top, slide bar 46 slides downwards under the effect of tensioning spring 484, thereby can drive transfer lever 44 through slide bar 46 and slide downwards.

In summary, compared with the prior art, the invention has the following beneficial effects:

1. The invention sets the vibration disc 6, the extrusion block 241, the stirring block 232, the threading table 26, the rotating disc 42 and the transfer rod 44, the wax block base placed in the vibration disc 6 slides to one side of the horizontal plate 63 away from the guide plate 61 through the guide plate 61 and the horizontal plate 63 under the action of the vibration disc 6, then the stirring block 232 stirs the wax block base to the top of the threading table 26 under the action of the power mechanism 7, when the stirring block 232 stirs the stirring block 232, the extrusion block 241 rotates towards the direction approaching the threading table 26 under the action of the power mechanism 7, when the wax block base is positioned on the threading table 26, the stirring block 232 and the extrusion block 241 are both contacted with the outer side of the limiting tube, and at the moment, the adsorption block 442 is positioned right above the wax block base, then the wax core is penetrated into the wax block base and the transfer rod 44 from the bottom of the threading table 26 upwards, then the extrusion block 241 and the stirring block 232 rotate in the opposite directions, the limiting tube is extruded, the wax core is fixed on the limiting tube, then the extrusion block 241 and the stirring block 232 rotate in the directions away from each other, meanwhile, the cutter 233 is driven to move in the directions close to the threading table 26, the cutter 233 penetrates through the bottoms of the threading table 26 and the wafer to complete cutting of the wax core, then the rotating disc 42 drives the transfer rod 44 to rotate, the wire pushing plate 27 pushes the limiting tube to be inserted into the abdicating hole in the rotating process, and the wafer and the adsorption block 442 are contacted with each other so as to be adsorbed by the adsorption block 442, then the wax block base is conveyed to the position right above the wax cup under the action of the transfer rod 44, then the wax cup base is only pushed upwards by manpower so as to be contacted with the viscose, and then pulled downwards, and the wax block base is separated from the adsorption block 442 under the action of the viscose, so that the operation is time-saving and labor-saving;

2. According to the invention, through the arrangement of the feeding conveyor belt 53, the rotary table 52 and the rubber dropping pipe 56, the wax cup is fed into the limit groove 521 of the rotary table 52 from the feeding conveyor belt 53, the rotary table 52 stirs the wax cup to intermittently rotate, when the wax cup is positioned at the top of the rubber dropping pipe 56, the rubber dropping pipe 56 drops the adhesive to the middle position of the bottom of the wax cup, then the wax cup continues to rotate along with the rotary table 52, and when the wax cup rotates to the position right below the deflector rod 47, the deflector rod 47 stirs the transfer rod 44 to feed the wax block base into the wax cup, and the operation by hands is not needed.

Drawings

FIG. 1 is an isometric view of a complete structure of an embodiment;

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

FIG. 3 is a schematic diagram of an embodiment of an inlet wire mechanism;

FIG. 4 is an enlarged schematic view of portion C of FIG. 3;

FIG. 5 is an enlarged schematic view of portion B of FIG. 1;

FIG. 6 is an isometric view of an embodiment of a feed mechanism;

FIG. 7 is an isometric view of an embodiment of a transmission mechanism;

FIG. 8 is an enlarged schematic view of portion D of FIG. 7;

FIG. 9 is a schematic diagram of an embodiment of a rotating cam;

FIG. 10 is a schematic diagram of an embodiment of a chain assembly;

FIG. 11 is an enlarged schematic view of portion F of FIG. 10;

FIG. 12 is an enlarged schematic view of portion G of FIG. 10;

FIG. 13 is an enlarged schematic view of section E of FIG. 7;

FIG. 14 is a schematic diagram of an embodiment embodying a rotating mechanism;

fig. 15 is an enlarged schematic view of the portion H of fig. 14.

In the figure: 1. a work table; 11. a mounting plate; 12. a support rod; 2. a core penetrating mechanism; 21. a support table; 22. a fixed shaft; 23. a rotating block; 231. a support plate; 232. a poking block; 2321. a stepped groove; 233. a cutter; 24. an extrusion plate; 241. extruding a block; 25. an extension rod; 26. a threading table; 27. a wire pushing plate; 3. a wire inlet mechanism; 31. a transmission rod; 32. a driving wheel; 321. a tensioning wheel; 33. driven wheel; 331. a rotating wheel; 34. rotating the gear; 35. a feed belt; 36. a guide tube; 361. a horizontal portion; 362. a vertical portion; 4. a transfer mechanism; 41. a rotating rod; 42. a rotating disc; 43. a guide disc; 44. a transfer lever; 441. a limiting block; 442. an adsorption block; 45. a return spring; 46. a slide bar; 47. a deflector rod; 48. a sliding mechanism; 481. a cross bar; 482. a toggle rod; 483. stirring the bearing; 484. tensioning the spring; 485. a guide rod; 5. a feed mechanism; 51. a rotating shaft; 52. a turntable; 521. a limit groove; 53. a feed conveyor; 54. a supporting plate; 541. a vertical rod; 55. a blowing pipe; 551. a blowing support rod; 56. a rubber dropping pipe; 561. a glue dripping support rod; 6. a vibration plate; 61. a guide plate; 62. a limiting plate; 63. a horizontal plate; 64. an air blowing pipe; 65. a fixed block; 66. a fixing bolt; 67. a fixing nut; 68. a cushion block; 7. a power mechanism; 71. a reciprocating lever; 72. a cross plate; 721. a connecting column; 722. an adjusting rod; 73. a power lever; 731. a dynamic bearing; 74. a connecting rod; 75. rotating the cam; 751. a semicircular part; 752. a boss; 773. an arc-shaped groove; 76. a rotating lever; 761. a support block; 762. a motor; 763. a sprocket; 764. a chain; 77. a return spring; 8. a transmission mechanism; 81. a swinging rod; 811. a swing bearing; 812. a bottom bar; 813. an inclined lever; 814. tightening the spring; 82. a swing cam; 83. a chain set; 831. controlling a chain; 832. swinging the chain; 833. tensioning the chain; 834. tensioning a spring; 84. a rotating shaft; 841. a connecting block; 85. a connecting gear; 86. a control gear; 87. a slide block; 871. a fastening bolt; 9. a rotating mechanism; 91. a vertical rod; 92. a power disc; 93. a poking block; 94. a stop ring; 941. a relief groove; 95. a drive plate; 951. a transmission groove; 952. a stop groove.

Detailed Description

Examples: the candle core fixing equipment comprises a workbench 1, a mounting plate 11 arranged below the workbench 1, a plurality of vertically arranged supporting rods 12 fixedly connected to the periphery of the mounting plate 11, a core penetrating mechanism 2 arranged at the top of the workbench 1 and used for penetrating a wax core into a wax block base, a wire feeding mechanism 3 arranged at the top of the workbench 1 and used for feeding the wax core, a vibrating disc 6 fixedly connected at the top of the workbench 1, a guide plate 61 fixedly connected to the discharging side of the vibrating disc 6 and used for conveying the wax block base into the core penetrating mechanism 2, a feeding mechanism 5 arranged at the top of the workbench 1 and used for dripping and conveying wax bottles, and a transfer mechanism 4 arranged at the top of the workbench 1 and used for conveying the wax block base with the end of core penetrating into the wax bottles with the dripped wax. The support rod 12 is fixedly connected with the workbench 1, and the bottom of the support rod 12 is lower than the bottom of the mounting plate 11; the guide plate 61 conveys the wax block base to the core penetrating mechanism 2, the wire feeding mechanism 3 feeds the wax core, the wax core is penetrated into the wax block base, and then the transferring mechanism 4 conveys the wax block base which is finished by the core penetrating to the wax cup which is finished by the glue dropping.

Referring to fig. 2 and 4, one end fixedly connected with that guide plate 61 deviates from vibration dish 6 is located the horizontal plate 63 at core penetrating mechanism 2 top, guide plate 61 top both sides are provided with two limiting plates 62 that are used for carrying out spacing to the wax stone base, guide plate 61 deviates from the one end downward sloping setting of vibration dish 6, limiting plate 62 includes slope section and horizontal segment, the slope section of limiting plate 62 is located guide plate 61 top and is parallel to limiting plate 62 each other, the slope section is located horizontal plate 63 top, the plectane of wax stone base passes between guide plate 61 and limiting plate 62 and between guide plate 61 and the horizontal plate 63, the spacing pipe passes between two limiting plates 62. The connection part of the guide plate 61 and the horizontal plate 63 is arc-shaped, and the connection part of the inclined section and the horizontal section of the limit plate 62 is arc-shaped; the limiting plate 62 deviates from guide plate 61 one side and is provided with a plurality of fixing bolts 66 that run through limiting plate 62 and guide plate 61 along the direction of perpendicular to limiting plate 62, and the side that limiting plate 62 deviates from guide plate 61 is provided with a plurality of fixation nuts 67 that correspond one by one with fixing bolts 66, and fixation nut 67 threaded connection is on corresponding fixing bolt 66, and the cover is equipped with the cushion 68 that is located between limiting plate 62 and the guide plate 61 on the fixing bolt 66. The distance between the two limiting plates 62 is larger than the outer diameter of the limiting pipe and smaller than twice the outer diameter of the limiting pipe; the distance between the inclined section of the limiting plate 62 and the guide plate 61 is greater than the thickness of the wafer, and the distance between the horizontal section of the limiting plate 62 and the horizontal plate 63 is equal to the distance between the inclined section of the limiting plate 62 and the guide plate 61. A fixed block 65 with the bottom fixedly connected to the top of the limiting plate 62 is arranged above the guide plate 61, a blowing pipe 64 is fixedly connected to the fixed block 65, one end of the bottom of the blowing pipe 64 is obliquely arranged downwards, a hose is fixedly connected to one end of the top of the blowing pipe 64, and the hose is connected with an air pump; the axial direction of the air blowing pipe 64 and the conveying direction of the wax lump base are positioned in the same vertical plane, and the inclined bottom of the air blowing pipe 64 is positioned above the inclined bottom of the guide plate 61.

The wax lump base sent out of the vibration plate 6 slides downwards along the guide plate 61, and the sliding direction of the guide plate 61 is limited under the action of the two limiting plates 62, and then the wax lump base slides onto the horizontal plate 63 and slides from the horizontal plate 63 into the core penetrating mechanism 2; the wax stone base is gone on in proper order when threading, and in the time of the threading, follow-up wax stone base is blocked, can't follow horizontal plate 63 and slide down to because wax stone base self weight is lighter, the problem that can't follow horizontal plate 63 on the horizontal plate 63 slide down appears wax stone base card very easily, blows down the wax stone base through blowing pipe 64, gives wax stone base gliding power down, thereby promotes the wax stone base on the connecting plate and can smooth follow horizontal plate 63 and slide down.

Referring to fig. 2 and 4, the core threading mechanism 2 includes a support table 21 fixedly connected to the top of the table 1, a fixed shaft 22 fixedly connected to the axis of the top of the support table 21 and vertically provided, a rotary block 23 penetrated by the fixed shaft 22 and rotatably connected to the fixed shaft 22, a pressing plate 24 provided on the top of the rotary block 23 and rotatably connected to the fixed shaft 22, a threading table 26 fixedly connected to the top side of the table 1, a support plate 231 fixedly connected to the outside of the top of the rotary block 23 and located at one end of the horizontal plate 63 facing away from the guide plate 61, a kick-out block 232 fixedly connected to the top of the support plate 231 near the side of the horizontal plate 63 for feeding wax block bases from the horizontal plate 63 onto the threading table 26, a pressing block 241 fixedly connected to the top of the pressing plate 24 and located at one side of the flat plate near the threading table 26, and a cutter 233 fixedly connected to the top of the rotary block 23 and located at one side of the flat plate near the threading table 26. The shifting block 232 is arranged in an arc shape on one side close to the flat plate, one end of the flat plate close to the shifting block 232 and one end of the limiting plate 62 close to the shifting block 232, and the arc-shaped axis is arranged coaxially with the fixed shaft 22; a stepped groove 2321 is formed in the position, close to the threading table 26, of one side, close to the flat plate, of the poking block 232; the threading table 26 is provided in a cylindrical shape, and a threading hole (not shown in the figure) penetrating the threading table 26 and the supporting table 21 is provided at the top of the threading table 26.

After the wax block base slides out of the flat plate, the limiting pipe of the wax block base is embedded into the stepped groove 2321 of the stirring block 232, the stirring block 232 slides towards the direction close to the threading table 26 so as to stir the wax block base to the middle position at the top of the threading table 26, when the stirring block 232 stirs the stirring block 232, the extrusion block 241 rotates towards the direction close to the threading table 26, when the wax block base is positioned at the middle position at the top of the threading table 26, the stirring block 232 and the extrusion block 241 are in contact with each other, at the moment, a wax core penetrates into the wax block base upwards from the bottom of the threading table 26, then the extrusion block 241 and the stirring block 232 rotate towards each other, the limiting pipe is extruded, the wax core is fixed on the limiting pipe, then the extrusion block 241 and the stirring block 232 rotate towards the direction far away from each other, and meanwhile, the rotation block 23 drives the cutter 233 to move towards the direction close to the threading table 26, and the cutter 233 passes through the bottoms of the threading table 26 and the bottom of a wafer to complete cutting of the wax core.

Referring to fig. 3, the wire feeding mechanism 3 includes a driving lever 31 rotatably connected to the table 1, a driving pulley 32 provided at the top of the driving lever 31 and rotatably connected to the driving lever 31, a driven pulley 33 rotatably connected to the table 1 and located at one side of the driving pulley 32, a tension pulley 321 rotatably connected to the top of the table 1, a rotating pulley 331 rotatably connected to the top of the table 1, two rotating gears 34 fixedly connected to the tops of the driving pulley 32 and the driven pulley 33 and engaged with each other, two feeding belts 35 for feeding the candle cores, and a guide tube 36 provided below the wire feeding table 26; the axes of the driving wheel 32, the driven wheel 33, the tensioning wheel 321 and the rotating wheel 331 are all vertically arranged, the planes of the axes of the driving wheel 32 and the tensioning wheel 321 are parallel to the planes of the axes of the driven wheel 33 and the rotating wheel 331, one feeding belt 35 is sleeved outside the driving wheel 32 and the tensioning wheel 321, the other feeding belt 35 is sleeved outside the driven wheel 33 and the rotating wheel 331, one sides of the two feeding belts 35, which are close to each other, are mutually attached, and a wax core passes through the space between the two belts along the horizontal direction; the guide tube 36 includes a horizontal portion 361 and a vertical portion 362 integrally formed together, the horizontal portion 361 being coaxial with the candle cores conveyed by the two feed belts 35, and the vertical portion 362 being coaxial with the threading table 26. The transmission rod 31 is rotatably connected to the driving wheel 32 through a one-way bearing, and the transmission rod 31 can be driven to intermittently rotate through the one-way bearing in the process of reciprocating rotation of the transmission rod 31, and the intermittent rotation of the driving wheel 32 drives the two feeding belts 35 to intermittently feed the candle cores.

Referring to fig. 1 and 5, the transfer mechanism 4 includes a rotating lever 41 rotatably connected to the top of the table 1 and vertically disposed in the axial direction, a rotating disk 42 fixedly connected to the top of the rotating lever 41 and coaxial with the rotating lever 41, a plurality of transfer levers 44 provided at the outer periphery of the rotating disk 42 penetrating the rotating disk 42 and capable of vertically sliding on the rotating disk 42, a magnetic adsorption block 442 fixedly connected to the bottom of the transfer levers 44, a stopper 441 fixedly connected to the top of the transfer levers 44, a return spring 45 sleeved outside the transfer levers 44, a slide lever 46 penetrating the table 1 in the vertical direction and capable of vertically sliding on the table 1, and a shift lever 47 fixedly connected to the slide lever 46 for pushing the transfer levers 44 located at the top of the wax cups to slide downward. The number of the rotating discs 42 is two, the two rotating discs 42 are uniformly distributed along the vertical direction, and a guide disc 43 is arranged above the rotating disc 42 positioned at the top; the top of the return spring 45 contacts the bottom of the stopper 441, the bottom of the return spring 45 contacts the top surface of the rotating disk 42 located at the top, and the transfer lever 44 and the return spring 45 penetrate the guide disk 43. The bottom of the adsorption block 442 is provided with a yielding hole (not shown in the figure) formed on the adsorption block 442 and the transfer rod 44, and the yielding hole is located at the middle position of the bottom of the adsorption block 442.

Referring to fig. 4, a wire pushing plate 27 is fixedly connected to the supporting table 21, and is located on one side of the threading table 26 away from the fixed shaft 22, the wire pushing plate 27 is located at a position, close to the periphery, of the bottom of the rotating disc 42, one side, close to the threading table 26, of the bottom of the wire pushing plate 27 is arranged in a downward inclined mode, the inclined bottom of the wire pushing plate 27 is flush with the top surface of the threading table 26, and the inclined top of the wire pushing plate 27 is flush with the bottom of the adsorption block 442.

When the wax core is transferred into the wax block base, one of the transfer rods 44 is located right above the threading table 26 and is coaxial with the threading table 26, the wax core higher than the limit pipe in the process of threading the wax core penetrates into the yielding hole, after the wax core is cut off, the rotating disc 42 drives the wax block base to rotate along the wire pushing plate 27 through the transfer rod 44, in the rotating process, the wax block base inserts the limit pipe into the yielding hole under the action of the wire pushing plate 27, and the wafer is contacted with the bottom of the adsorption block 442, so that the wafer is adsorbed at the bottom of the adsorption block 442 under the action of the magnetic force of the adsorption block 442.

Referring to fig. 6, the feeding mechanism 5 includes a rotating shaft 51 rotatably connected to the table 1, a rotating disc 52 fixedly connected to the top of the rotating shaft 51 and coaxial with the rotating shaft 51, a feeding conveyor belt 53 provided at one side of the rotating disc 52 for conveying wax blocks, a glue dropping pole 561 fixedly connected to the top of the table 1, a glue dropping pipe 56 fixedly connected to the glue dropping pole 561 and located above one side of the table 1 near the feeding conveyor belt 53, a blowing pole 551 fixedly connected to the top of the table 1 and located at one side of the feeding conveyor belt 53, and a blowing pipe 55 fixedly connected to the top of the blowing pole 551 and located above the feeding conveyor belt 53; the carousel 52 deviates from the bottom that feed conveyer belt 53 one side was located the carousel 42 one side, and feed conveyer belt 53 passes from carousel 52 bottom and feed conveyer belt 53 is located pivot 51 one side, and carousel 52 bottom is provided with the layer board 54 that is located carousel 52 bottom, and layer board 54 is located feed conveyer belt 53 and is close to pivot 51 one side, and layer board 54 bottom fixedly connected with is in the same place with workstation 1 top fixed connection's pole setting 541. The top of the turntable 52 is provided with a plurality of limiting grooves 521 which penetrate through the turntable 52 and are uniformly distributed around the axis of the turntable 52 and used for limiting the wax cups, and the limiting grooves 521 penetrate through the turntable 52 towards the outer side of the turntable 52; the supporting plate 54 is arranged in an arc shape and is arranged around the rotation shaft 51. The blowpipe 55 is adjacent to the feed end of the feed conveyor 53.

The wax cup is conveyed forward from the feeding conveyor belt 53, dust in the wax cup is blown out under the action of the blowing pipe 55, after the wax cup is clamped into the limiting groove 521, the wax cup is driven to intermittently rotate under the action of the rotary table 52, when the wax cup rotates to the position right below the end part of the rubber dropping pipe 56, the rubber dropping pipe 56 drops the adhesive to the middle position of the bottom of the wax cup, then when the wax cup rotates to the bottom of one side of the rotary table 52, which is close to the rotary disc 42, the rotary table is stopped, the transfer rod 44 slides downwards under the action of the deflector rod 47, the bottom of the wafer is contacted with the adhesive, when the transfer rod 44 slides upwards under the action of the return spring 45, the wax block base and the adsorption block 442 are separated from each other under the action of the adhesive, the installation of the wax block base is completed, then the wax cup continues to rotate under the action of the rotary table 52 until the wax cup rotates onto the feeding conveyor belt 53 again, and is conveyed out under the action of the feeding conveyor belt 53.

Referring to fig. 2, the working table 1 is provided with a power mechanism 7 for driving the squeeze plate 24 and the rotating block 23 to rotate, the power mechanism 7 comprises a reciprocating rod 71 which is rotatably connected to the top of the working table 1 and is vertically arranged on the axis, two transverse plates 72 which are fixedly connected to two sides of the top of the reciprocating rod 71, a connecting column 721 which is fixedly connected to the top of the transverse plates 72, and an adjusting rod 722 which is rotatably connected to the connecting column 721; the bottom of rotating block 23 side that deviates from cutter 233 and extrusion dish 24 side that deviates from extrusion piece 241 all fixedly connected with extension rod 25, the bottom of extension rod 25 all fixedly connected with fixed column (not shown in the figure), reciprocating lever 71 are located guide board 61 and deviate from threading platform 26 one side, and the one end that the regulation pole 722 that is close to guide board 61 side deviates from diaphragm 72 rotates to be connected on the fixed column of rotating block 23 bottom, and the one end that deviates from regulation pole 722 that deviates from guide board 61 side deviates from diaphragm 72 rotates to be connected on the fixed column of extrusion dish 24 bottom. The reciprocating lever 71 simultaneously rotates the rotating block 23 and the pressing plate 24 during the reciprocating rotation.

Referring to fig. 7 and 8, the reciprocating bar 71 penetrates through the workbench 1 and the mounting plate 11, and the reciprocating bar 71 is rotatably connected with the mounting plate 11, and the rotating mechanism 9 further comprises a rotating bar 76 arranged at the top of the mounting plate 11, supporting blocks 761 fixedly connected at the top of the mounting plate 11 and arranged at two ends of the rotating bar 76, and a reciprocating assembly for driving the reciprocating bar 71 to reciprocate; the rotating rod 76 is rotatably connected to the supporting block 761, and the reciprocating assembly comprises a rotating cam 75 fixedly connected to the rotating rod 76, a power rod 73 rotatably connected to the bottom of the workbench 1, a power bearing 731 fixedly connected to one side of the power rod 73 and having the periphery in contact with the periphery of the rotating cam 75, a return spring 77 fixedly connected to the bottom of the power rod 73, and a connecting rod 74 with one end ball hinged to the power rod 73 and the other end ball hinged to the reciprocating rod 71; one end of the return spring 77 facing away from the power rod 73 is fixedly connected to the mounting plate 11, and the return spring 77 is in a tightened state.

Referring to fig. 9, the rotating cam 75 includes a semicircular portion 751 and a boss 752, the semicircular portion 751 of the rotating cam 75 is coaxially disposed with the rotating lever 76, an arc groove 773 is provided at a position of one side of the semicircular portion 751 near the boss 752, and when the rotating lever 76 rotates, the power bearing 731 slides from the boss 752 to the semicircular portion 751, and then slides from the semicircular portion 751 to the boss 752, passing through the arc groove 773 and then coming into contact with the outside of the boss 752.

The rotating cam 75 drives the power rod 73 to swing in the process of following the rotating rod 76 to rotate, and the connecting rod 74 drives the reciprocating rod 71 to rotate in the process of swinging the power rod 73; when the power bearing 731 rotates to the semicircular part 751 from the position farthest from the rotating rod 76 by the protruding part 752, under the action of the return spring 77, the reciprocating rod 71 is driven to rotate, the extruding block 241 and the stirring block 232 are driven to rotate in opposite directions by the reciprocating rod 71, so that the wax block base is stirred to the threading table 26, when the power bearing 731 contacts the periphery of the semicircular part 751, the reciprocating rod 71 stops rotating, threading operation is performed at this moment, when threading operation is completed, the power bearing 731 slides into the arc-shaped groove 773, at this moment, the distance between the power bearing 731 and the axis of the reciprocating rod 71 is nearest, so that the extruding block 241 and the stirring block 232 are driven to be further close to realize extrusion of the limiting tube, and then the power bearing 731 slides onto the protruding part 752, so that the distance between the power bearing 731 and the axis of the rotating rod 76 is gradually increased, so that the extruding block 241 and the stirring block 232 are driven to be separated from each other, and the cutter 233 is driven to complete cutting of the wax core.

Referring to fig. 7 and 8, a transmission mechanism 8 for driving the driving wheel 32 to intermittently rotate is provided below the table 1, and the transmission mechanism 8 includes a swing cam 82 fixedly connected to the rotation lever 76, a swing lever 81 rotatably connected to the bottom of the table 1, a swing bearing 811 provided on a side of the swing lever 81 close to the swing cam 82 and in contact with the outer side of the swing cam 82, and a chain group 83 for driving the driving wheel 32 to reciprocally rotate by the swing lever 81. The swinging rod 81 is located at one side of the rotating rod 76, which is far away from the chain group 83, a tightening spring 814 fixedly connected with the bottom of the workbench 1 is fixedly connected to the position, close to the top, of the swinging rod 81, and the tightening spring 814 is located at one side, close to the rotating rod 76, of the swinging rod 81, and the swinging bearing 811 can be tightly attached to the outer side of the swinging cam 82 by the aid of the tightening spring 814.

Referring to fig. 10 and 11, one end of the bottom of the transmission rod 31 is fixedly connected with a control gear 86 which is located below the workbench 1 and is coaxial with the transmission rod 31, one side of the transmission rod 31, which is away from the rotation rod 76, is fixedly connected with a connection block 841, the connection block 841 is rotatably connected with a rotation shaft 84 which penetrates through the connection block 841 along the axial direction of the rotation rod 76, and two ends of the rotation shaft 84 are fixedly connected with gears which are coaxially arranged with the rotation shaft 84. The chain group 83 comprises a swinging chain 832 with one end connected to the swinging rod 81, a control chain 831 with one end fixedly connected with one end of the swinging chain 832 away from the swinging rod 81 and a tensioning chain 833 fixedly connected with one end of the control chain 831 away from the swinging chain 832, wherein the control chain 831 is wound on one side of the control gear 86 away from the connecting block 841; one end of the tensioning chain 833, which is away from the control chain 831, is fixedly connected with a tensioning spring 834 fixedly connected with the top of the mounting plate 11, the swinging chain 832 is wound on one side, which is close to the connecting gear 85 at one end, which is connected with the swinging chain 832, of the control chain 831, which is away from the control chain 831, and the tensioning chain 833 is wound on one side, which is close to the connecting gear 85 at one end, which is connected with the control chain 831, of the tensioning chain 833, which is away from the control chain 831.

When one end of the bottom of the swinging rod 81 is far away from the rotating rod 76, the chain group 83 drives the control gear 86 to rotate towards one direction, and when the swinging rod 81 swings to the maximum angle, the swinging rod 81 swings reversely under the action of the tensioning spring 834, so that the control gear 86 is driven to rotate reversely through the tensioning spring 834, the reciprocating rotation of the control gear 86 is realized, and when the control gear 86 rotates reciprocally, the driving wheel 32 realizes intermittent rotation due to the existence of the one-way bearing, so that the intermittent feeding of the candle core is realized.

Referring to fig. 8 and 12, a bottom rod 812 positioned at the bottom of the rotating rod 76 is fixedly connected to the bottom of the swinging rod 81, an inclined rod 813 positioned at one side of the rotating rod 76 away from the swinging rod 81 is fixedly connected to one end of the top of the swinging rod 81, and one end of the bottom of the inclined rod 813 is fixedly connected to one end of the bottom rod 812 away from the swinging rod 81; the tilting lever 813 is provided with a slider 87 which can slide on the tilting lever 813 along the length direction of the tilting lever 813 and can be fixedly connected to the tilting lever 813, and one end of the swing chain 832 close to the swing lever 81 is fixedly connected to the slider 87; the slider 87 is penetrated by the inclined rod 813, and a fastening bolt 871 penetrating the slider 87 and contacting the outside of the inclined rod 813 is screwed to one side of the slider 87. The position of the sliding block can be adjusted after the fastening bolt 871 is unscrewed, and the angle at which the control gear 86 is rotated by swinging of the swinging rod 81 on each side can be adjusted by adjusting the position of the sliding block 87, so that the length of the candle wick fed during each feeding is adjusted, and the position of the sliding block 87 is adjusted according to the length of the candle wick passing through as required.

Referring to fig. 10, a motor 762 is fixedly connected to the mounting plate 11, one end of an output shaft of the motor 762 and one end of a rotating rod 76 are fixedly connected to chain wheels 763, a chain 764 for connecting the two chain wheels 763 together is wound around the two chain wheels 763, and the motor 762 drives the rotating rod 76 to rotate through the chain 764 and the chain wheels 763.

Referring to fig. 7 and 13, a sliding mechanism 48 for driving the sliding rod 46 to slide up and down is disposed at the bottom of the workbench 1, and the sliding mechanism 48 includes a cross rod 481 fixedly connected to the position of the sliding rod 46 near the bottom, a tension spring 484 fixedly connected to one end of the bottom of the cross rod 481, a toggle rod 482 fixedly connected to one end of the rotating rod 76 and located at the bottom of the cross rod 481, and a toggle bearing 483 fixedly connected to one side of the toggle rod 482 away from the rotating rod 76. One end of the poking rod 482 is fixedly connected to the rotating rod 76, the length direction of the poking rod 482 is perpendicular to the axis of the rotating rod 76, the poking bearing 483 is close to one end of the poking rod 482, which is away from the rotating rod 76, the periphery of the poking bearing 483 is in contact with the bottom of the cross rod 481, and the bottom of the tensioning spring 484 is fixedly connected to the mounting plate 11. One end of the cross bar 481 is provided with two guide bars 485 which are vertically arranged, one side of the two guide bars 485, which are close to each other, is in contact with two sides of the cross bar 481, and the top and the bottom of the cross bar 481 are respectively and fixedly connected to the workbench 1 and the mounting plate 11. During the rotation of the rotating rod 76, the sliding rod 46 can be pushed to slide upwards when the toggle bearing 483 is located above the rotating rod 76, and the sliding rod 46 slides downwards under the action of the tensioning spring 484 when the toggle bearing 483 is located below the rotating rod 76.

Referring to fig. 14 and 15, a rotation mechanism 9 for driving a rotation rod 41 to intermittently rotate is arranged on a mounting plate 11, and the rotation mechanism 9 comprises a vertical rod 91 which is positioned below the rotation rod 76 and penetrates through a bottom plate, a transmission disc 95 which is fixedly connected to one end of the bottom of the rotation rod 41 and is coaxial with a rotation shaft 51, a power disc 92 which is fixedly connected to the bottom of the vertical rod 91 and is used for driving the transmission disc 95 to intermittently rotate, and a position stirring block 93 which is fixedly connected to the bottom of the power disc 92 and is close to the periphery of the power disc 92; the rotating rod 76 and the vertical rod 91 are fixedly connected with bevel gears which are meshed with each other, and the power disc 92 and the transmission disc 95 are positioned below the mounting plate 11; the periphery of the transmission disc 95 is provided with a plurality of transmission grooves 951 which are uniformly distributed around the axis of the transmission disc 95 along the radial direction of the transmission plate, one side of the transmission groove 951, which is close to the mounting plate 11, penetrates through the transmission disc 95, and one side of the transmission disc 95, which is close to the mounting plate 11, is mutually contacted with one side of the power disc 92, which is away from the mounting plate 11; the sum of the distance between the axis of the power disc 92 and the side of the toggle block 93 facing away from the axis of the power disc 92 and the distance between the driven disc axis and the side of the drive slot 951 adjacent to the driven disc axis is equal to the distance between the axis of the power disc 92 and the driven disc axis; the bottom of the power disc 92 is fixedly connected with a stop disc coaxial with the power disc 92, a plurality of stop grooves 952 are formed in the periphery of the transmission disc 95, a stop ring 94 is arranged in the middle of each two adjacent transmission grooves 951, one side of each stop groove 952 close to the transmission disc 95 is arranged in an arc shape, the diameter of each stop groove 952 is equal to the outer diameter of each stop ring 94, and when the poking block 93 is separated from each transmission groove 951, each stop ring 94 is embedded into each stop groove 952; the stop ring 94 is provided with a relief groove 941 on the side close to the toggle block 93.

The driving block 93 is driven to be inserted into the transmission groove 951 in the rotating process of the power disc 92, so that the driving disc 95 is driven to rotate, the rotating rod 41 is driven to rotate in the rotating process of the driving disc 95, when the driving block 93 rotates out of the transmission groove 951, the driving disc 95 and the driven gear stop rotating, and when the driving block 93 is inserted into the transmission groove 951 again, the driving disc 95 is driven to rotate again, so that the driving disc 95 is driven to intermittently rotate, and the rotating rod 41 is driven by the driving disc 95 to intermittently move and meanwhile the rotating shaft 51 is driven to intermittently rotate by the driving gear; when the poking block 93 is in the transmission groove 951, the stop disc is located in the stop groove 952, so that the transmission disc 95 cannot rotate under the action of inertia, and the poking block 93 can be smoothly reinserted into the transmission groove 951.

The working principle of the candle core fixing device when in use is as follows: the vibration disc 6 conveys the wax block base to the horizontal plate 63 through a computer plate, the wax block base slides down from the horizontal plate 63 and clamps the limiting pipe into the stepped groove 2321, then the poking block 232 and the extruding block 241 rotate towards the direction close to the threading table 26, when the wax block base is positioned at the middle position of the top of the threading table 26, the extruding block 241 and the poking block 232 are in contact with the periphery of the limiting pipe, at the moment, the rotation disc 42 drives the transfer rod 44 to rotate to the position right above the threading table 26, then the driving wheel 32 rotates, feeding of the wax core is realized, the wax core is conveyed into the wax block base and the yielding hole, then the extruding block 241 and the poking block 232 continue to rotate towards each other, extrusion of the limiting pipe is realized, so that the wax core is compressed into the limiting pipe, then the extruding block 241 and the poking block 232 rotate towards the direction away from each other, at the moment, the rotation block 23 drives the cutter 233 to rotate towards the direction close to the threading table 26, and is inserted between the threading table 26 and the disc, the wax core is cut off, at the moment, the rotation disc 42 drives the wax block base to rotate through the transfer rod 44 to rotate, the bottom of the wax block base and the pushing plate to contact with the top of the pushing plate 27 at the bottom of the yielding hole, and the disc is contacted with the bottom of the disc 442, and the disc is contacted with the bottom of the pushing plate and the disc is contacted with the bottom surface of the disc 442. During the process that the wax cup follows the rotation of the turntable 52, the adhesive is firstly dripped through the adhesive dripping pipe 56, then when the turntable 52 is rotated to be close to one side of the rotating disc 42, the sliding rod 46 drives the deflector rod 47 to stir the transfer rod 44 to slide downwards, so that the transfer rod 44 is inserted into the wax cup, the wax block base is adhered to the adhesive, and when the transfer rod 44 slides upwards, the wafer and the adsorption block 442 are separated from each other under the action of the adhesive.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (8)

1. A candle wick fixing apparatus, characterized in that: including workstation (1), supporting bench (21) of fixed connection at workstation (1) top, fixed axle (22) of the vertical setting of axis at supporting bench (21) top, be run through by fixed axle (22) and rotate rotary block (23) of connecting on fixed axle (22), set up at rotary block (23) top and rotate extrusion dish (24) of connecting on fixed axle (22), threading platform (26) of fixed connection on workstation (1) top one side, vibrating disk (6) of fixed connection at workstation (1) top, guide board (61) of fixed connection on vibrating disk (6) ejection of compact one side, horizontal plate (63) of being used for carrying the wax stone base to threading platform (26) one side at guide board (61) one end deviating from, limiting plate (62) of setting up in guide board (61) top both sides and be located support board (231) of horizontal plate (63) one end of deviating from in rotary block (23) top outside, support board (231) top be close to horizontal plate (63) one side be used for sending wax stone base from horizontal plate (63) to threading platform (232) on one side of pulling up on the horizontal plate (232) of holding board (231) top is used for carrying wax stone base to one side of holding plate (63) The automatic threading machine comprises an extrusion block (241) fixedly connected to the top of an extrusion disc (24) and positioned on one side of a flat plate close to a threading table (26), a cutter (233) fixedly connected to the top of a rotating block (23) and positioned on one side of the flat plate close to the threading table (26), a power mechanism (7) for driving the extrusion disc (24) and the rotating block (23) to rotate, a wire pushing plate (27) fixedly connected to the top of a supporting table (21) and positioned on one side of the threading table (26) away from a fixed shaft (22), a rotating rod (41) which is connected to the top of a workbench (1) in a rotating way and is vertically arranged in the axial direction, a rotating disc (42) fixedly connected to the top of the rotating rod (41) and coaxial with the rotating rod (41), a plurality of transfer rods (44) which penetrate through the rotating disc (42) and can vertically slide on the rotating disc (42), a magnetic adsorption block (442) fixedly connected to the bottom of the transfer rods (44), and a rotating mechanism (9) for driving the rotating rod (41) to intermittently rotate;

The plurality of transfer rods (44) are uniformly distributed around the axis of the rotating disc (42), the bottom surface of the cutter (233) is level with the top surface of the threading table (26), the threading table (26) is positioned at the position, close to the outer side of the rotating disc (42), of the bottom of the rotating disc (42), the wire pushing plate (27) is positioned at the position, close to the periphery, of the bottom of the rotating disc (42), the bottom of the wire pushing plate (27) is arranged in a downward inclined mode, close to one side of the threading table (26), the inclined bottom of the wire pushing plate (27) is level with the top surface of the threading table (26), the inclined top of the wire pushing plate (27) is level with the bottom of the adsorption block (442), the bottom of the adsorption block (442) is provided with a yielding hole formed in the adsorption block (442) and the transfer rods (44), and the yielding hole is positioned in the middle of the bottom of the adsorption block (442);

a feeding mechanism (5) for intermittently feeding the wax cups to the bottom of one side of the rotating disc (42) is arranged on the workbench (1);

the feeding mechanism (5) comprises a rotating shaft (51) which is rotatably connected to the workbench (1), a rotary table (52) which is fixedly connected to the top of the rotating shaft (51) and is coaxial with the rotating shaft, a feeding conveyor belt (53) which is arranged on one side of the rotary table (52) and is used for conveying wax blocks, a supporting frame which is fixedly connected to the top of the workbench (1), a rubber dropping pipe (56) which is fixedly connected to the supporting frame and is positioned above one side of the workbench (1) close to the feeding conveyor belt (53), and a supporting plate (54) which is fixedly connected to the top of the workbench (1) and is positioned at the bottom of the rotary table (52);

The feeding conveyor belt (53) is positioned at one side of the rotating shaft (51) and penetrates through the bottom of the rotating disc (52), the supporting plate (54) is arranged in an arc shape, and the supporting plate (54) is positioned at one side of the feeding conveyor belt (53) away from the rotating shaft (51); still include fixed connection at stopper (441) at transfer pole (44) top, cover establish in the outside of transfer pole (44) and lie in reset spring (45) between rolling disc (42) and stopper (441), run through workstation (1) and can carry out gliding sliding rod (46) from top to bottom on workstation (1) along vertical direction, fixed connection is used for promoting transfer pole (44) gliding driving lever (47) and be used for driving sliding mechanism (48) of sliding rod (46) that are located wax cup top on sliding rod (46).

2. A wick fixing apparatus according to claim 1, wherein: the bottom of the workbench (1) is provided with a mounting plate (11), and the top of the mounting plate (11) is fixedly connected with a plurality of support rods (12) for connecting the mounting plate (11) with the workbench (1);

the power mechanism (7) comprises a rotating rod (76) which is horizontally arranged in the axial direction of the top of the mounting plate (11), a motor (762) which is fixedly connected to the mounting plate (11) and used for driving the rotating rod (76) to rotate, a reciprocating rod (71) which penetrates through the workbench (1) and the mounting plate (11) and is rotationally connected with the mounting plate and the vertical plate, two transverse plates (72) which are fixedly connected to two sides of the top of the reciprocating rod (71), connecting columns (721) which are fixedly connected to the top of the transverse plates (72), an adjusting rod (722) which is rotationally connected to the connecting columns (721) and a reciprocating assembly which drives the reciprocating rod (71) to rotate through the rotating rod (76);

The bottom that the rotating block (23) deviates from cutter (233) one side and the bottom that extrusion dish (24) deviates from extrusion piece (241) one side are all fixedly connected with fixed column, and reciprocating rod (71) are located guide board (61) and deviate from threading platform (26) one side, and the one end that the regulation pole (722) that is close to guide board (61) one side deviates from diaphragm (72) rotates to be connected on the fixed column of rotating block (23) bottom, and the one end that the regulation pole (722) that deviates from guide board (61) one side deviates from diaphragm (72) rotates to be connected on the fixed column of extrusion dish (24) bottom.

3. A wick fixing apparatus according to claim 2, wherein: the reciprocating assembly comprises a rotating cam (75) fixedly connected to a rotating rod (76), a power rod (73) rotatably connected to the bottom of the workbench (1), a power bearing (731) fixedly connected to one side of the power rod (73) and the periphery of the power bearing is in contact with the periphery of the rotating cam (75), a connecting rod (74) with one end hinged to the power rod (73) and the other end hinged to the reciprocating rod (71) and a return spring (77) with one end fixedly connected to the bottom of the power rod (73) and the other end fixedly connected to the top of the mounting plate (11), wherein the return spring (77) is positioned on one side, close to the reciprocating rod (71), of the power rod (73);

the rotating cam (75) comprises a semicircular part (751) and a protruding part (752), the semicircular part (751) of the rotating cam (75) is coaxially arranged with the rotating rod (76), an arc-shaped groove (773) is formed in the position, close to the protruding part (752), of one side of the semicircular part (751), when the rotating rod (76) rotates, the power bearing (731) slides from the protruding part (752) to the semicircular part (751), and then when the power bearing slides from the semicircular part (751) to the protruding part (752), the power bearing passes through the arc-shaped groove (773) and then contacts with the outer side of the protruding part (752).

4. A wick fixing apparatus according to claim 3, wherein: the stirring block (232) is arranged in an arc shape at one side close to the flat plate, one end of the flat plate close to the stirring block (232) and one end of the limiting plate (62) close to the stirring block (232), and the arc-shaped axis is arranged coaxially with the fixed shaft (22);

a stepped groove (2321) is formed in the position, close to the threading table (26), of one side, close to the flat plate, of the material stirring block (232).

5. The wick fixing apparatus of claim 4, wherein: the top of the workbench (1) is provided with a wire inlet mechanism (3) for feeding the wax core;

the wire feeding mechanism (3) comprises a transmission rod (31) rotatably connected to the workbench (1), a driving wheel (32) arranged at the top of the transmission rod (31) and rotatably connected with the transmission rod (31), a driven wheel (33) rotatably connected to the workbench (1) and positioned at one side of the driving wheel (32), a tensioning wheel (321) rotatably connected to the top of the workbench (1), a rotating wheel (331) rotatably connected to the top of the workbench (1), two rotating gears (34) fixedly connected to the tops of the driving wheel (32) and the driven wheel (33) and meshed with each other, a feeding belt (35) for feeding candle cores and a transmission mechanism (8) for driving the transmission rod (31) to reciprocate;

The axis of action wheel (32), follow driving wheel (33), take-up pulley (321) and rotation wheel (331) is all vertical to be set up, the plane that the axis of action wheel (32) and take-up pulley (321) is located is parallel to the plane that the axis of follow driving wheel (33) and rotation wheel (331) is located each other, a feeding belt (35) cover is established in action wheel (32) and take-up pulley (321) outside, another feeding belt (35) cover is established in from driving wheel (33) and rotation wheel (331) outside, one side that two feeding belts (35) are close to each other laminates each other, transfer line (31) are connected together through one-way bearing and action wheel (32) rotation.

6. The wick fixing apparatus of claim 5, wherein: the transmission mechanism (8) comprises a swing cam (82) fixedly connected to the rotating rod (76), a swing rod (81) rotatably connected to the bottom of the workbench (1), a swing bearing (811) arranged on one side of the swing rod (81) close to the swing cam (82) and in contact with the outer side of the swing cam (82), a connecting block (841) fixedly connected to the bottom of the workbench (1) and positioned on one side of the transmission rod (31) away from the rotating rod (76), a rotating shaft (84) rotatably connected to the connecting block (841) and penetrating the connecting block (841) along the axial direction of the rotating rod (76), connecting gears (85) fixedly connected to the rotating shaft (84) and positioned on two sides of the connecting block (841), a control gear (86) fixedly connected to one end of the bottom of the transmission rod (31) and positioned below the workbench (1), and a chain group (83) driving the control gear (86) to reciprocate through the swing rod (81);

The swinging rod (81) is positioned at one side of the rotating rod (76) which is away from the transmission rod (31), and the feeding of the candle wick is realized when the driving wheel (32) rotates;

the chain group (83) comprises a swinging chain (832) with one end connected to the swinging rod (81), a control chain (831) which is wound on one side of the control gear (86) deviating from the connecting block (841) and one end of which is fixedly connected with one end of the swinging chain (832) deviating from the swinging rod (81), and a tensioning chain (833) which is fixedly connected with one end of the control chain (831) deviating from the swinging chain (832);

one end of the tensioning chain (833) deviating from the control chain (831) is fixedly connected with a tensioning spring (834) fixedly connected with the top of the mounting plate (11), the swinging chain (832) is wound on one side of the connecting gear (85) close to one end of the swinging chain (832) connected with the control chain (831) deviating from the control chain (831), and the tensioning chain (833) is wound on one side of the connecting gear (85) close to one end of the tensioning chain (833) connected with the control chain (831) deviating from the control chain (831);

the bottom of the swinging rod (81) is fixedly connected with a bottom rod (812) positioned at the bottom of the rotating rod (76), one end of the top of the swinging rod (81) is fixedly connected with an inclined rod (813) positioned at one side of the rotating rod (76) deviating from the swinging rod (81), and one end of the bottom of the inclined rod (813) is fixedly connected with one end of the bottom rod (812) deviating from the swinging rod (81);

The tilting lever (813) is provided with a sliding block (87) which can slide on the tilting lever (813) along the length direction of the tilting lever (813) and can be fixedly connected to the tilting lever (813), one end of a swinging chain (832) close to the swinging lever (81) is fixedly connected to the sliding block (87), the sliding block (87) is penetrated by the tilting lever (813), and one side of the sliding block (87) is in threaded connection with a fastening bolt (871) which penetrates through the sliding block (87) and is mutually contacted with the outer side of the tilting lever (813).

7. A wick fixing apparatus according to claim 1, wherein: the rotating mechanism (9) comprises a vertical rod (91) which is positioned below the rotating rod (76) and penetrates through the bottom plate, a transmission disc (95) which is fixedly connected to one end of the bottom of the rotating rod (41) and is coaxial with the rotating shaft (51), and a power disc (92) which is fixedly connected to the bottom of the vertical rod (91) and is used for driving the transmission disc (95) to intermittently rotate; the rotating rod (76) and the vertical rod (91) are fixedly connected with bevel gears which are meshed with each other, and the power disc (92) and the transmission disc (95) are positioned below the mounting plate (11); a plurality of transmission grooves (951) which are uniformly distributed around the axis of the transmission disc (95) are formed in the periphery of the transmission disc (95) along the radial direction of the transmission plate, one side, close to the mounting plate (11), of the transmission grooves (951) penetrates through the transmission disc (95), and one side, close to the mounting plate (11), of the transmission disc (95) is in contact with one side, away from the mounting plate (11), of the power disc (92);

A stirring block (93) is fixedly connected to the bottom of the power disc (92) close to the periphery of the power disc (92), and the sum of the distance between the axis of the power disc (92) and one side of the stirring block (93) away from the axis of the power disc (92) and the distance between the axis of the driven disc and one side of the transmission groove (951) close to the axis of the driven disc is equal to the distance between the axis of the power disc (92) and the axis of the driven disc;

the bottom of the power disc (92) is fixedly connected with a stop disc coaxial with the power disc (92), a plurality of stop grooves (952) are formed in the periphery of the transmission disc (95), a stop ring (94) is arranged in the middle of each two adjacent transmission grooves (951), the stop grooves (952) are arranged in an arc shape close to one side of the transmission disc (95), the diameter of each stop groove (952) is equal to the outer diameter of each stop ring (94), and when a stirring block (93) is separated from each transmission groove (951), each stop ring (94) is embedded into each stop groove (952); a yielding groove (941) is formed in one side of the stop ring (94) close to the poking block (93);

the rotary rod (41) and the rotary shaft (51) are fixedly connected with transmission gears, and the transmission gears are meshed with each other.

8. A wick fixing apparatus according to claim 1, wherein: the sliding mechanism (48) comprises a cross rod (481) fixedly connected to the position, close to the bottom, of the sliding rod (46), a tensioning spring (484) fixedly connected to one end of the bottom of the cross rod (481), a toggle rod (482) fixedly connected to one end of the rotating rod (76) and positioned at the bottom of the cross rod (481), and a toggle bearing (483) fixedly connected to one side, deviating from the rotating rod (76), of the toggle rod (482);

One end of a poking rod (482) is fixedly connected to the rotating rod (76), the length direction of the poking rod (482) is perpendicular to the axis of the rotating rod (76), a poking bearing (483) is close to one end of the poking rod (482) which is away from the rotating rod (76) and the periphery of the poking bearing (483) is in contact with the bottom of the cross rod (481), and the bottom of a tensioning spring (484) is fixedly connected to the mounting plate (11).

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