CN110862875A - Candle wick fixing equipment - Google Patents

Abstract

The invention discloses a candle wick fixing device, which relates to the technical field of candle cup production and solves the problem of complicated and inconvenient operation of threading a candle block base and adhering the candle block base to the bottom of a candle cup in the prior art, and the technical scheme is characterized by comprising a workbench, a supporting table, a fixed shaft, a rotating block, an extrusion disc, a threading table, a vibrating disc, a guide plate, a horizontal plate, a limiting plate, a supporting plate, a material stirring block, an extrusion block, a cutter, a wire pushing plate, a rotating disc, a transfer rod and an adsorption block, wherein the wax block base is stirred to the top of the threading table by the material stirring block, a wax core is inserted into the wax block base from the bottom of the threading table, the extrusion block and the material stirring block extrude a limiting pipe, the cutter cuts off the wax core, the adsorption block adsorbs the wax block base, then the wax block base is transferred to the top of the candle cup by the rotating disc, then the candle cup is manually pushed upwards to make the wax cup base contact with an, then pull downwards, the wax stone base breaks away from with the absorption piece under the effect of viscose for operation labour saving and time saving.

Description

Candle wick fixing equipment

Technical Field

The invention relates to the technical field of wax cup processing, in particular to a candle wick fixing device.

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 cup, and the wax cup is formed after the wax oil is solidified. In order to solve the problem, the wax core is firstly penetrated into a wax block base, the wax block base comprises a bottom wafer and a limiting pipe fixedly connected to the middle position of the top of the wafer, and the limiting pipe is coaxial with the wafer; pass disk and spacing pipe with the wax core, then the bottom intermediate position in the wax cup drips into the viscose, places the disk bottom on the viscose for the wax core keeps vertical position, carries out the injection of wax oil again, thereby the problem of wax core offset can not appear.

Among the prior art, insert the wax stone base with the wax core and need hold the wax stone base on one hand in the wax stone base, the wax core is inserted to the other hand, when putting into the wax cup with the wax stone base of wearing the wax core, needs the staff to put into the wax cup with the wax stone base that inserts the wax core in the middle of, places the bottom of disk on the glue dripping of wax cup to in the middle of with the adhesion of wax stone base to the wax cup, there is the problem that the operation is wasted time and energy.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide candle wick fixing equipment, which conveys a wax block base through a vibration disc and a guide plate, shifts the wax block base to the top of a threading table under the action of a material shifting block, inserts the wax core into a circular sheet and a limiting pipe from the bottom of the threading table, extrudes the limiting pipe through an extrusion block and the material shifting block to clamp the wax core, cuts off the wax core from the bottom of the circular sheet through a cutter, adsorbs the wax block base by an adsorption block, transfers the wax block base to the top of a candle cup through a rotating disc, manually pushes the candle cup upwards to enable the wax cup base to be in contact with viscose, pulls downwards, and separates from the adsorption block under the action of the viscose, so that the operation is time-saving and labor-saving.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a candle wick fixed equipment, comprises a workbench, fixed connection is at the brace table at workstation top, fixed connection is at the fixed axle of the vertical setting of axis at brace table top, run through and rotate the turning block of connection on the fixed axle by the fixed axle, set up at the turning block top and rotate the extrusion disc of connection on the fixed axle, fixed connection is at the threading platform of workstation top one side, fixed connection is at the vibration dish of workstation top, fixed connection is at the guide board of vibration dish ejection of compact one side, fixed connection is at the horizontal plate that is used for carrying the wax stone base to threading platform one side that the guide board deviates from one end of vibration dish, set up the limiting plate that is used for carrying on spacingly to the wax stone base in guide board top both sides, fixed connection is in the turning block top outside and is located the backup pad that the horizontal plate deviates from guide board one end, fixed connection is close to the material piece, The device comprises a pressing block, a cutter, a power mechanism, a line-pushing plate, a rotating rod, a rotating disc, a plurality of transfer rods, a magnetic adsorption block and a rotating mechanism, wherein the pressing block is fixedly connected to the top of a pressing disc and is positioned on one side, close to a threading table, of a flat plate;

a plurality of transfer poles are around the axis evenly distributed of rolling disc, the bottom surface of cutter and the mutual parallel and level of top surface of threading platform, the threading platform is located the position that the rolling disc bottom is close to the rolling disc outside, the line push plate is located the position that the rolling disc bottom is close to the periphery, the line push plate bottom is close to threading platform one side downward sloping setting, the slope bottom and the mutual parallel and level of threading platform top surface of line push plate, the slope top of line push plate and the mutual parallel and level of bottom of adsorbing the piece, it is provided with the hole of stepping down of seting up on adsorbing piece and transfer pole to adsorb the piece bottom, the hole of stepping down is.

By adopting the technical scheme, the wax block base placed in the vibrating disc slides to one side of the horizontal plate away from the guide plate through the guide plate and the horizontal plate in sequence under the action of the vibrating disc, then the wax block base is shifted to the top of the threading table by the material shifting block under the action of the power mechanism, when the material shifting block shifts the material shifting block, the extrusion block rotates towards the direction close to the threading table under the action of the power mechanism, when the wax block base is positioned on the threading table, the material shifting block and the extrusion block are in mutual contact with the outer side of the limiting pipe, and the adsorption block is positioned right above the wax block base, then the wax core penetrates upwards into the wax block base and the transfer rod from the bottom of the threading table, then the extrusion block and the material shifting block rotate in opposite directions to extrude the limiting pipe, the wax core is fixed on the limiting pipe, then the extrusion block and the material shifting block rotate towards the direction far away from each other, and simultaneously drive the cutter to move towards the direction close, the cutter passes the completion from threading platform and disk bottom and cuts off the wax core, then the rolling disc drives the transfer pole and rotates, thereby it inserts in the middle of the hole of stepping down and make disk and absorption piece in the middle of the pivoted process line stretcher to be adsorbed by the absorption piece, then wax stone base is carried directly over the wax cup under the effect of transfer pole, then the manual work only needs upwards to promote the wax cup, make wax cup base and viscose contact, then stimulate downwards, wax stone base breaks away from with the absorption piece under the effect of viscose, make operation labour saving and time saving.

The invention is further configured to: the wax cup transferring device comprises a rotating disc, a limiting block, a return spring, a sliding rod, a shifting rod and a sliding mechanism, wherein the rotating disc is arranged on the rotating disc, the return spring is fixedly connected to the top of the shifting rod, the limiting block is fixedly connected to the top of the shifting rod, the return spring is sleeved on the outer side of the shifting rod and is positioned between the rotating disc and the limiting block, the sliding rod penetrates through a workbench along the vertical direction and can slide up and down on the workbench, the shifting rod is fixedly connected to the sliding.

Through adopting above-mentioned technical scheme, when the transfer pole drives the wax stone base and moves directly over the wax cup, the slide bar is interactive downwards to stir the transfer pole downwards through the driving lever, make the transfer pole insert in the middle of the wax cup, then shift the pole answer normal position under reset spring's effect, need not manual operation wax cup and reciprocate, make the operation convenient and fast more.

The invention is further configured to: the mounting plate is arranged at the bottom of the workbench, and a plurality of support rods for connecting the mounting plate and the workbench together are fixedly connected to the top of the mounting plate;

the power mechanism comprises a rotating rod which is rotatably connected to the top of the mounting plate and horizontally arranged in the axis direction, a motor which is fixedly connected to the mounting plate and is used for driving the rotating rod to rotate, a reciprocating rod which penetrates through the workbench and the mounting plate and is rotatably connected with the mounting table and the vertical plate, two transverse plates which are fixedly connected to two sides of the top of the reciprocating rod, a connecting column which is fixedly connected to the top of the transverse plates, an adjusting rod which is rotatably connected to the connecting column and a reciprocating assembly which drives the reciprocating rod to rotate through the rotating rod;

the turning block deviates from the bottom of cutter one side and the bottom that the extrusion dish deviates from extrusion piece one side all fixedly connected with fixed columns, and the reciprocating lever is located the guide board and deviates from threading platform one side, and the one end that the regulation pole that is close to guide board one side deviates from the diaphragm rotates and connects on the fixed column of turning block bottom, and the one end that the regulation pole that deviates from guide board one side deviates from the diaphragm rotates and connects on the fixed column of extrusion dish bottom.

Through adopting above-mentioned technical scheme, the dwang drives the reciprocating lever in the middle of the pivoted process and carries out reciprocating motion to rotation through the reciprocating lever drives turning block and extrusion disc simultaneously and rotates.

The invention is further configured to: the reciprocating assembly comprises a rotating cam fixedly connected to the rotating rod, a power rod rotatably connected to the bottom of the workbench, a power bearing fixedly connected to one side of the power rod and having the periphery in contact with the periphery of the rotating cam, a connecting rod with one end being in ball hinge joint with the power rod and the other end being in ball hinge joint with the reciprocating rod, and a return spring with one end fixedly connected to the bottom of the power rod and the other end fixedly connected to the top of the mounting plate, wherein the return spring is positioned on one side, close to the reciprocating rod, of the power rod;

the rotating cam comprises a semicircular part and a protruding part, the semicircular part of the rotating cam is coaxially arranged with the rotating rod, an arc-shaped groove is formed in the position, close to the protruding part, of one side of the semicircular part, and when the rotating rod rotates, the power bearing slides to the semicircular part from the protruding part and then contacts with the outer side of the protruding part through the arc-shaped groove when sliding to the protruding part from the semicircular part.

By adopting the technical scheme, the rotating cam drives the power rod to swing in the process of rotating along with the rotating rod, and the connecting rod drives the reciprocating rod to rotate in the swinging process of the power rod; when power bearing rotates to semicircle portion from the position that the bellying is farthest away from the dwang distance, under the effect of replying the spring, drive the reciprocating lever and rotate, the reciprocating lever drives extrusion piece and group material piece and rotates in opposite directions, thereby stir the wax stone base to the threading bench, when power bearing contacts with semicircle periphery, reciprocating lever stall, carry out the threading operation this moment, when the threading operation is accomplished, power bearing slides to the arc wall in, power bearing is nearest apart from the distance of the axis of reciprocating lever this moment, thereby it is further close to drive extrusion piece and group material piece, realize the extrusion to spacing pipe, then power bearing slides to the bellying, make power bearing distance from the axis increase gradually, thereby it keeps away from each other to drive extrusion piece and group material piece, and drive the cutter and accomplish the cutting to the wax core.

The invention is further configured to: the side, close to the flat plate, of the material shifting block, one end, close to the material shifting block, of the flat plate and one end, close to the material shifting block, of the limiting plate are all arranged in an arc shape, and the axis of the arc shape is coaxial with the fixed shaft;

a stepped groove is formed in the position, close to the threading platform, of one side, close to the flat plate, of the material pulling block.

Through adopting above-mentioned technical scheme, the kickoff piece is close to dull and stereotyped one side, the dull and stereotyped kickoff piece one end and limiting plate are close to kickoff piece one end and all are the arc setting, and curved axis and the coaxial setting of fixed axle for the kickoff piece can not hinder the rotation of kickoff piece with the limiting plate in the middle of carrying out the pivoted process dull and stereotyped, through setting up the ladder groove, can enter into the ladder groove in the middle of the spacing pipe follow roll-off between two limiting plates after, thereby can stir the wax stone base when making the kickoff piece rotate.

The invention is further configured to: the top of the workbench is provided with a wire inlet mechanism for feeding the wax core;

the wire inlet mechanism comprises a transmission rod rotatably connected to the workbench, a driving wheel arranged at the top of the transmission rod and rotatably connected with the transmission rod, a driven wheel rotatably connected to the workbench and positioned on one side of the driving wheel, a tensioning wheel rotatably connected to the top of the workbench, a rotating wheel rotatably connected to the top of the workbench, two rotating gears fixedly connected to the tops of the driving wheel and the driven wheel and meshed with each other, a feeding belt for feeding candle cores and a transmission mechanism for driving the transmission rod to rotate in a reciprocating manner;

the axes of the driving wheel, the driven wheel, the tension wheel and the rotating wheel are all vertically arranged, the plane where the axes of the driving wheel and the tension wheel are located and the plane where the axes of the driven wheel and the rotating wheel are located are parallel to each other, one feeding belt sleeve is arranged on the outer side of the driving wheel and the tension wheel, the other feeding belt sleeve is arranged on the outer side of the driven wheel and the rotating wheel, one side, close to each other, of each of the two feeding belts is mutually attached, and the transmission rod is rotationally connected with the driving wheel.

Through adopting above-mentioned technical scheme, the dwang drives the action wheel and carries out intermittent type and rotates, rotates each time and all realizes feeding the candle core through two feeding belts, need not the people and feeds the candle core by hand.

The invention is further configured to: the transmission mechanism comprises a swing cam fixedly connected to the rotating rod, a swing rod rotatably connected to the bottom of the workbench, a swing bearing arranged on one side of the swing rod close to the swing cam and in mutual contact with the outer side of the swing cam, a rotating shaft fixedly connected to the bottom of the workbench and positioned on one side of the transmission rod, which is far away from the rotating rod, of the connecting block, the rotating shaft is rotatably connected to the connecting block and penetrates through the connecting block along the axial direction of the rotating rod, two connecting gears fixedly connected to the rotating shaft and respectively positioned on two sides of the connecting block, a control gear fixedly connected to one end of the bottom of the transmission rod and positioned below the workbench;

the swinging rod is positioned on one side of the rotating rod, which is far away from the transmission rod, and the feeding of the candle wick is realized when the driving wheel rotates;

the chain group comprises a swinging chain with one end connected to the swinging rod, a control chain wound on one side of the control gear, which is far away from the connecting block, and with one end fixedly connected with one end of the swinging chain, which is far away from the swinging rod, and a tensioning chain fixedly connected with one end of the control chain, which is far away from the swinging chain;

one end of the tensioning chain, which is far away from the control chain, is fixedly connected with a tensioning spring fixedly connected with the top of the mounting plate, the swinging chain is wound on one side, which is far away from the control chain, of a connecting gear, which is close to one end, connected with the control chain, of the swinging chain, and the tensioning chain is wound on one side, which is far away from the control chain, of the connecting gear, which is close to one end, connected with the control chain, of;

the bottom of the swing rod is fixedly connected with a bottom rod positioned at the bottom of the rotating rod, one end of the top of the swing rod is fixedly connected with an inclined rod positioned at one side of the rotating rod, which is far away from the swing rod, and one end of the bottom of the inclined rod is fixedly connected with one end of the bottom rod, which is far away from the swing rod;

the inclined rod is provided with a sliding block which can slide on the inclined rod along the length direction of the inclined rod and can be fixedly connected to the inclined rod, one end of the swing chain, which is close to the swing rod, is fixedly connected to the sliding block, the sliding block is penetrated through by the inclined rod, and one side of the sliding block is in threaded connection with a fastening bolt which penetrates through the sliding block and the outer side of the inclined rod to be in mutual contact.

By adopting the technical scheme, when one end of the bottom of the swinging rod is far away from the rotating rod, the chain group drives the control gear to rotate towards one direction, when the swinging rod swings to the maximum angle, the swinging rod swings reversely under the action of the tensioning spring, so that the tensioning spring drives the control gear to rotate reversely, the reciprocating rotation of the control gear is realized, and when the control gear rotates in a reciprocating manner, the driving wheel realizes intermittent rotation due to the existence of the one-way bearing, so that the intermittent feeding of the candle core is realized; through the position of adjusting the slider, can adjust the angle that each side swinging arms swing and drive control gear pivoted to the length of the candle core that feeds when adjusting each time, thereby the position of slider is adjusted to the length of the candle core that passes as required.

The invention is further configured to: the working table is provided with a feeding mechanism for intermittently feeding wax cups to the bottom of one side of the rotating disc;

the feeding mechanism comprises a rotating shaft which is rotatably connected to the workbench, a rotating disc which is fixedly connected to the top of the rotating shaft and coaxial with the rotating shaft, a feeding conveying belt which is arranged on one side of the rotating disc and used for conveying wax blocks, a supporting frame which is fixedly connected to the top of the workbench, a rubber dripping pipe which is fixedly connected to the supporting frame and located above one side, close to the feeding conveying belt, of the workbench, and a supporting plate which is fixedly connected to the top of the workbench and located at the bottom of the rotating disc;

the feeding conveyor belt is located pivot one side and passes from the carousel bottom, and the layer board is the arc setting, and the layer board is located feeding conveyor belt and deviates from pivot one side.

Through adopting above-mentioned technical scheme, in the middle of being sent into the spacing groove of carousel from the feeding conveyer belt to the wax cup, the wax cup is stirred to the carousel and is carried out intermittent type nature and rotate, and when the wax cup was located rubber dripping pipe top, rubber dripping pipe dripped the viscose to the intermediate position of wax cup bottom, then the wax cup continues to follow the carousel and rotates, when the wax cup rotated under the driving lever, the driving lever stirred the transfer rod and sent the wax stone base into in the middle of the wax cup, need not the staff and operate.

The invention is further configured to: the rotating mechanism comprises a vertical rod, a transmission disc and a power disc, wherein the vertical rod is positioned below the rotating rod and penetrates through the bottom plate, the transmission disc is fixedly connected to one end of the bottom of the rotating rod and is coaxial with the rotating shaft, and the power disc is fixedly connected to the bottom of the vertical rod and is used for driving the transmission disc to rotate intermittently; the rotating rod and the vertical rod are fixedly connected with bevel gears which are meshed with each other, and the power disc and the transmission disc are positioned below the mounting plate; a plurality of transmission grooves which are uniformly distributed around the axis of the transmission disc are formed in the periphery of the transmission disc along the radial direction of the transmission plate, one side, close to the mounting plate, of each transmission groove penetrates through the transmission disc, and one side, close to the mounting plate, of each transmission disc is in mutual contact with one side, away from the mounting plate, of the power disc;

the bottom of the power disc is fixedly connected with a shifting block at a position close to the periphery of the power disc, and the sum of the distance between the axis of the power disc and one side of the shifting block, which is far away from the axis of the power disc, and the distance between the axis of the driven disc and one side of the transmission groove, which is close to the axis of the driven disc, is equal to the distance between the axis of the power disc and the axis of the driven disc;

the bottom of the power disc is fixedly connected with a stop disc coaxial with the power disc, a plurality of stop grooves are formed in the periphery of the transmission disc, a stop ring is arranged in the middle of each two adjacent transmission grooves, one side, close to the transmission disc, of each stop groove is arc-shaped, the diameter of each stop groove is equal to the outer diameter of each stop ring, and when the shifting block is separated from the transmission grooves, the stop rings are embedded into the stop grooves; one side of the stop ring close to the shifting block is provided with a abdicating groove;

and the rotating rod and the rotating shaft are fixedly connected with transmission gears, and the two transmission gears are meshed with each other.

By adopting the technical scheme, the power disc drives the poking block to be inserted into the transmission groove in the rotating process so as to drive the transmission disc to rotate, the transmission disc drives the driven gear to rotate in the rotating process, when the poking block is transferred out of the transmission groove, the transmission disc and the driven gear stop rotating, when the poking block is inserted into the transmission groove again, the transmission disc is driven to rotate again so as to drive the transmission disc to intermittently rotate, and the transmission disc drives the rotating rod to intermittently move and simultaneously drives the rotating shaft to intermittently rotate through the transmission gear; when the stirring block is positioned in the transmission groove, the stop disc is positioned in the stop groove, so that the transmission disc cannot rotate under the action of inertia, and the stirring block can be inserted into the transmission groove more smoothly.

The invention is further configured to: the sliding mechanism comprises a cross rod fixedly connected to the position, close to the bottom, of the sliding rod, a tensioning spring fixedly connected to one end of the bottom of the cross rod, a poke rod fixedly connected to one end of the rotating rod and positioned at the bottom of the cross rod, and a poke bearing fixedly connected to one side, away from the rotating rod, of the poke rod;

poke pole one end fixed connection is on the dwang to the length direction of poking pole and the axis mutually perpendicular of dwang, the poking bearing is close to the poking pole and deviates from dwang one end and the periphery of poking the bearing and the bottom of horizontal pole are in contact with each other, and the bottom fixed connection of taut spring is on the mounting panel.

Through adopting above-mentioned technical scheme, the poker rod can stir the horizontal pole upward movement in the middle of following the dwang and carrying out the pivoted process to drive the slide bar and upwards slide, in the middle of the one end that deviates from the dwang when the poker rod is from top pivoted process, the slide bar slides down under taut spring's effect, thereby can drive the transfer pole through the slide bar and slide down.

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

1. the wax block base placed in the vibrating disc sequentially slides to one side of the horizontal plate away from the guide plate through the guide plate and the horizontal plate under the action of the vibrating disc, then the wax block base is shifted to the top of the threading table through the material shifting block under the action of the power mechanism, the extrusion block rotates towards the direction close to the threading table under the action of the power mechanism when the material shifting block shifts the material shifting block, when the wax block base is positioned on the threading table, the material shifting block and the extrusion block are in mutual contact with the outer side of the limiting pipe, the adsorption block is positioned right above the wax block base, then the wax core penetrates into the wax block base and the shifting rod from the bottom of the threading table upwards, then the extrusion block and the material shifting block rotate in opposite directions to extrude the limiting pipe, the wax core is fixed on the limiting pipe, and then the extrusion block and the material shifting block rotate towards the directions far away from each other, simultaneously, the cutter is driven to move towards the direction close to the threading table, the cutter penetrates through the bottoms of the threading table and the wafer to cut off the wax core, then the rotating disc drives the transfer rod to rotate, the line pushing plate pushes the limiting pipe to be inserted into the abdicating hole in the rotating process, the wafer is in mutual contact with the adsorption block so as to be adsorbed by the adsorption block, then the wax block base is conveyed to the position right above the wax cup under the action of the transfer rod, then the wax cup is manually pushed upwards only to be in contact with the viscose, then the wax cup base is pulled downwards, and the wax block base is separated from the adsorption block under the action of the viscose, so that the operation is time-saving and labor-saving;

2. according to the wax cup feeding device, the feeding conveyor belt, the rotary table and the glue dripping pipe are arranged, wax cups are conveyed into the limiting groove of the rotary table from the feeding conveyor belt, the rotary table stirs the wax cups to rotate intermittently, when the wax cups are positioned at the top of the glue dripping pipe, the glue dripping pipe drips adhesive to the middle position of the bottoms of the wax cups, then the wax cups continue to rotate along with the rotary table, and when the wax cups rotate to the position right below the deflector rod, the deflector rod stirs the transfer rod to convey the wax block bases into the wax cups, and manual operation is not needed.

Drawings

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

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

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

FIG. 4 is an enlarged view of section C of FIG. 3;

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

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

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

FIG. 8 is an enlarged view of section D of FIG. 7;

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

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

FIG. 11 is an enlarged view of section F of FIG. 10;

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

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

FIG. 14 is a schematic view of an embodiment embodying a rotation mechanism;

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

In the figure: 1. a work table; 11. mounting a plate; 12. a support bar; 2. a core-piercing mechanism; 21. a support table; 22. a fixed shaft; 23. rotating the block; 231. a support plate; 232. a material stirring block; 2321. a stepped groove; 233. a cutter; 24. an extrusion disc; 241. extruding the block; 25. an extension rod; 26. a threading platform; 27. a wire pushing plate; 3. a wire feeding mechanism; 31. a transmission rod; 32. a driving wheel; 321. a tension wheel; 33. a driven wheel; 331. a rotating wheel; 34. a rotating gear; 35. a feeding belt; 36. a guide tube; 361. a horizontal portion; 362. a vertical portion; 4. a transfer mechanism; 41. rotating the rod; 42. rotating the disc; 43. a guide plate; 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 poke rod; 483. a bearing is stirred; 484. tensioning the spring; 485. a guide bar; 5. a feeding mechanism; 51. a rotating shaft; 52. a turntable; 521. a limiting groove; 53. a feed conveyor; 54. a support plate; 541. erecting a rod; 55. a blowpipe; 551. a blowing support rod; 56. a rubber dripping pipe; 561. dripping glue supporting rod; 6. a vibrating pan; 61. a guide plate; 62. a limiting plate; 63. a horizontal plate; 64. an air blowing pipe; 65. a fixed block; 66. fixing the bolt; 67. fixing a nut; 68. cushion blocks; 7. a power mechanism; 71. a reciprocating lever; 72. a transverse plate; 721. connecting columns; 722. adjusting a rod; 73. a power rod; 731. a power bearing; 74. a connecting rod; 75. rotating the cam; 751. a semicircular portion; 752. a boss portion; 773. an arc-shaped slot; 76. rotating the rod; 761. a support block; 762. a motor; 763. a sprocket; 764. a chain; 77. a return spring; 8. a transmission mechanism; 81. a swing lever; 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. a control chain; 832. a swing chain; 833. tensioning the chain; 834. tensioning the spring; 84. a rotating shaft; 841. connecting blocks; 85. a connecting gear; 86. a control gear; 87. a slider; 871. fastening a bolt; 9. a rotating mechanism; 91. a vertical rod; 92. a power disc; 93. a shifting block; 94. a snap ring; 941. a yielding groove; 95. a drive plate; 951. a transmission groove; 952. a stop groove.

Detailed Description

Example (b): the utility model provides a candle wick fixed equipment, see attached figure 1 and attached figure 2, comprises a workbench 1, the mounting panel 11 of setting below workstation 1, fixed connection is at the bracing piece 12 of a plurality of vertical settings around mounting panel 11, the mechanism 2 of punching the core that is arranged in penetrating the wax stone base at workstation 1 top, the inlet wire mechanism 3 that is arranged in feeding the wax stone at workstation 1 top, fixed connection is at the vibration dish 6 at workstation 1 top, fixed connection is used for carrying the guide board 61 in the ang of mechanism 2 of punching the wax stone base in the ejection of compact one side of vibration dish 6, the feed mechanism 5 that is used for dropping the glue and carrying the wax bottle that sets up at workstation 1 top and the mechanism 4 that shifts that is arranged in the middle of the wax stone base that will punch the core and finish is carried the wax stone bottle that has dripped the glue that sets up at workstation 1 top. 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 inlet mechanism 3 feeds the wax core, the wax core penetrates into the wax block base, and then the transferring mechanism 4 conveys the wax block base with the core penetrating completed to the wax cup with the glue dripping completed.

See fig. 2 and fig. 4, the one end fixedly connected with that guide board 61 deviates from vibration dish 6 is located the horizontal plate 63 at the 2 tops of mechanism of coring, guide board 61 top both sides are provided with two and are used for carrying out spacing limiting plate 62 to the wax stone base, guide board 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 board 61 top and is parallel to each other with limiting plate 62, the slope section is located horizontal plate 63 top, the plectane of wax stone base passes from between guide board 61 and the limiting plate 62 and between guide board 61 and the horizontal plate 63, spacing pipe passes from between two limiting plates 62. The connecting part of the guide plate 61 and the horizontal plate 63 is arc-shaped, and the connecting part of the inclined section and the horizontal section of the limiting plate 62 is also 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 perpendicular to limiting plate 62, and one side that limiting plate 62 deviates from guide plate 61 is provided with a plurality of fixing nuts 67 with fixing bolt 66 one-to-one, and fixing nut 67 threaded connection is on the fixing bolt 66 that corresponds, 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 limit plates 62 is larger than the outer diameter of the limit pipe and smaller than twice of the outer diameter of the limit pipe; the distance between the inclined section of the limiting plate 62 and the guide plate 61 is larger 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, an air blowing pipe 64 is fixedly connected to the fixed block 65, one end of the bottom of the air blowing pipe 64 is obliquely arranged downwards, one end of the top of the air blowing pipe 64 is fixedly connected with a hose, and the hose is connected with an air pump; the axial direction of the blowing pipe 64 and the conveying direction of the wax block base are positioned in the same vertical plane, and the inclined bottom of the blowing pipe 64 is positioned above the inclined bottom of the guide plate 61.

The wax block base sent out from the vibrating disk 6 slides downwards along the guide plate 61, and limits the sliding direction of the guide plate 61 under the action of the two limit plates 62, and then the wax block base slides onto the horizontal plate 63 and slides from the horizontal plate 63 to the core-pulling mechanism 2; going on in proper order when the wax stone base carries out the threading, in the threading, subsequent wax stone base is blockked, can't follow horizontal plate 63 and go up the landing, and because the weight of wax stone base self is lighter, the problem that the wax stone base card can't follow horizontal plate 63 and go out appears very easily on horizontal plate 63, blow down the wax stone base through gas blow pipe 64, give the gliding power of wax stone base downwards, thereby promote the gliding roll-off from horizontal plate 63 of wax stone base on the connecting plate can be smooth.

Referring to fig. 2 and 4, the core-piercing mechanism 2 includes a supporting platform 21 fixedly connected to the top of the worktable 1, a fixed shaft 22 vertically arranged along the axis fixedly connected to the top of the supporting platform 21, a rotating block 23 penetrated by the fixed shaft 22 and rotatably connected to the fixed shaft 22, a pressing plate 24 arranged on the top of the rotating block 23 and rotatably connected to the fixed shaft 22, a threading platform 26 fixedly connected to one side of the top of the worktable 1, the wax block feeding device comprises a supporting plate 231 fixedly connected to the outer side of the top of the rotating block 23 and located at one end, away from the guide plate 61, of the horizontal plate 63, a material pulling block 232 fixedly connected to one side, close to the horizontal plate 63, of the top of the supporting plate 231 and used for sending a wax block base to the threading table 26 from the horizontal plate 63, a squeezing block 241 fixedly connected to the top of the squeezing disc 24 and located at one side, close to the threading table 26, of the flat plate, and a cutter 233 fixedly connected to the top of the rotating block 23 and located at one side. The material pulling block 232, one end of the flat plate close to the material pulling block 232 and one end of the limiting plate 62 close to the material pulling block 232 are all arranged in an arc shape, and the axis of the arc shape is coaxial with the fixed shaft 22; a stepped groove 2321 is formed in the position, close to the threading table 26, of one side of the material pulling block 232, close to the flat plate; the threading table 26 is provided in a cylindrical shape, and a threading hole (not shown) is formed in the top of the threading table 26 to penetrate through the threading table 26 and the support table 21.

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 material shifting block 232, the material shifting block 232 slides towards the direction close to the threading table 26 so as to shift the wax block base to the middle position of the top of the threading table 26, when the material shifting block 232 shifts the material shifting block 232, when the pressing block 241 is rotated toward the threading station 26, when the wax block base is at the middle position of the top of the threading station 26, the material pulling block 232 and the extrusion block 241 are contacted with the outer side of the limiting pipe, the wax core is penetrated into the wax block base from the bottom of the threading table 26 at the moment, then the extrusion block 241 and the material pulling block 232 rotate oppositely, the limiting pipe is extruded, the wax core is fixed on the limiting pipe, then the extruding block 241 and the material shifting block 232 rotate towards the direction away from each other, meanwhile, the rotating block 23 drives the cutter 233 to move towards the direction close to the threading table 26, and the cutter 233 passes through the threading table 26 and the bottom of the wafer to complete the cutting of the wax core.

Referring to fig. 3, the thread feeding mechanism 3 includes a transmission rod 31 rotatably connected to the workbench 1, a driving wheel 32 disposed on top of the transmission rod 31 and rotatably connected to the transmission rod 31, a driven wheel 33 rotatably connected to the workbench 1 and located on one side of the driving wheel 32, a tension wheel 321 rotatably connected to top of the workbench 1, a rotating wheel 331 rotatably connected to top of the workbench 1, two rotating gears 34 fixedly connected to top of the driving wheel 32 and driven wheel 33 and engaged with each other, a feeding belt 35 for feeding candlewicks, and a guiding pipe 36 disposed below the threading platform 26; the axes of the driving wheel 32, the driven wheel 33, the tension wheel 321 and the rotating wheel 331 are all vertically arranged, the plane where the axes of the driving wheel 32 and the tension wheel 321 are located and the plane where the axes of the driven wheel 33 and the rotating wheel 331 are located are parallel to each other, one feeding belt 35 is sleeved on the outer sides of the driving wheel 32 and the tension wheel 321, the other feeding belt 35 is sleeved on the outer sides of the driven wheel 33 and the rotating wheel 331, the sides, close to each other, of the two feeding belts 35 are attached to each other, and the wax core penetrates through the space between the two belts along the; 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 wicks conveyed by the two feed belts 35, and the vertical portion 362 being coaxial with the stringing station 26. The transmission rod 31 is rotatably connected to the driving wheel 32 through a one-way bearing, the transmission rod 31 can be driven to intermittently rotate through the one-way bearing in the reciprocating rotation process of the transmission rod 31, and the two feeding belts 35 are driven to intermittently feed the candlewick by the intermittent rotation of the driving wheel 32.

Referring to fig. 1 and 5, the transfer mechanism 4 includes a rotating rod 41 rotatably connected to the top of the work table 1 and 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 arranged on the periphery of the rotating disc 42 and penetrating through the rotating disc 42 and vertically sliding on the rotating disc 42, a magnetic adsorption block 442 fixedly connected to the bottom of the transfer rod 44, a limit block 441 fixedly connected to the top of the transfer rod 44, a return spring 45 sleeved outside the transfer rod 44, a sliding rod 46 vertically penetrating through the work table 1 and vertically sliding on the work table 1, and a shift lever 47 fixedly connected to the sliding rod 46 and used for pushing the transfer rod 44 located at the top of the wax cup to slide downwards. Two rotating discs 42 are arranged, the two rotating discs 42 are uniformly distributed along the vertical direction, and a guide disc 43 is arranged above the rotating disc 42 at the top; the top of the return spring 45 is in contact with the bottom of the stopper 441, the bottom of the return spring 45 is in contact with the top surface of the rotating disk 42 positioned 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 hole (not shown) formed in the adsorption block 442 and the transfer rod 44, and the hole is located at the middle position of the bottom of the adsorption block 442.

Referring to fig. 4, a thread pushing plate 27 located on the side of the threading platform 26 away from the fixed shaft 22 is fixedly connected to the support platform 21, the thread pushing plate 27 is located at the position of the bottom of the rotating disc 42 close to the periphery, the side of the bottom of the thread pushing plate 27 close to the threading platform 26 is inclined downwards, the inclined bottom of the thread pushing plate 27 is flush with the top surface of the threading platform 26, and the inclined top of the thread pushing plate 27 is flush with the bottom of the adsorption block 442.

When spreading into wax stone base in the middle of with the wax core, one of them transfer pole 44 is located threading platform 26 directly over and coaxial with threading platform 26, the process of threading is in the middle of during the wax core that is higher than spacing pipe penetrates the hole of stepping down, after the wax core cuts off, the wax stone base is beaten through transfer pole 44 to the rolling disc 42 rotates along line push plate 27, in the middle of carrying out the pivoted process, the wax stone base inserts spacing pipe in the hole of stepping down under line push plate 27's effect, and make and adsorb piece 442 bottom mutual contact, thereby under the effect of absorption piece 442 magnetic force, adsorb the disk in the bottom of absorption piece 442.

Referring to fig. 6, the feeding mechanism 5 includes a rotating shaft 51 rotatably connected to the workbench 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 disposed on one side of the rotating disc 52 for conveying wax blocks, a glue dripping support bar 561 fixedly connected to the top of the workbench 1, a glue dripping pipe 56 fixedly connected to the glue dripping support bar 561 and located above one side of the workbench 1 close to the feeding conveyor belt 53, a blowing support bar 551 fixedly connected to the top of the workbench 1 and located on one side of the feeding conveyor belt 53, and a blowing pipe 55 fixedly connected to the top of the blowing support bar 551 and located above the feeding conveyor belt 53; the side, departing from the feeding conveyor belt 53, of the rotating disc 52 is located at the bottom of one side of the rotating disc 42, the feeding conveyor belt 53 penetrates from the bottom of the rotating disc 52 and is located at one side of the rotating shaft 51, a supporting plate 54 located at the bottom of the rotating disc 52 is arranged at the bottom of the rotating disc 52, the supporting plate 54 is located at one side, close to the rotating shaft 51, of the feeding conveyor belt 53, and the bottom of the supporting plate 54 is fixedly connected with a vertical rod 541 fixedly connected with the. 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 wax cups, and the limiting grooves 521 penetrate through the turntable 52 towards the outer side of the turntable 52; the support plate 54 is arranged in an arc shape and is disposed around the rotation shaft 51. The blowpipe 55 is located near the feed end of the feed conveyor 53.

The wax cup is conveyed forwards 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 rotate intermittently under the action of the rotary disc 52, when the wax cup rotates to a position right below the end part of the glue dripping pipe 56, the glue dripping pipe 56 drips the glue to the middle position of the bottom of the wax cup, then when the wax cup rotates to a position where the rotary disc 52 is close to the bottom of one side of the rotary disc 42, the wax cup stops rotating, the transfer rod 44 slides downwards under the action of the deflector rod 47, so that the bottom of the circular disc is in contact with the glue, when the transfer rod 44 slides upwards under the action of the reset spring 45, the wax block base is separated from the adsorption block 442 to finish the installation of the wax block base, then the wax cup continues to rotate under the action of the rotary disc 52 until the wax cup rotates on the feeding conveyor belt 53 again, is conveyed out by the feed conveyor 53.

Referring to fig. 2, the workbench 1 is provided with a power mechanism 7 for driving the extrusion disc 24 and the rotating block 23 to rotate, the power mechanism 7 comprises a reciprocating rod 71 rotatably connected to the top of the workbench 1 and having an axis vertically arranged, two transverse plates 72 fixedly connected to two sides of the top of the reciprocating rod 71, a connecting column 721 fixedly connected to the top of the transverse plates 72, and an adjusting rod 722 rotatably connected to the connecting column 721; the bottom that turning block 23 deviates from cutter 233 one side and extrusion dish 24 deviate from extrusion piece 241 one side 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 is located guide board 61 and deviates from threading platform 26 one side, the one end that is close to guide board 61 one side and deviates from diaphragm 72 of regulation pole 722 rotates on the fixed column of turning block 23 bottom, the one end that deviates from diaphragm 72 of regulation pole 722 that deviates from guide board 61 one side rotates on the fixed column of connection in extrusion dish 24 bottom. The reciprocating lever 71 rotates the rotary block 23 and the pressing plate 24 during the reciprocating rotation.

Referring to fig. 7 and 8, the reciprocating rod 71 penetrates through the workbench 1 and the mounting plate 11, the reciprocating rod 71 and the mounting plate 11 are rotatably connected together, the rotating mechanism 9 further includes a rotating rod 76 disposed at the top of the mounting plate 11, support blocks 761 disposed at two ends of the rotating rod 76 and fixedly connected to the top of the mounting plate 11, and a reciprocating assembly for driving the reciprocating rod 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 an outer periphery in contact with an outer 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 having one end ball hinged to the power rod 73 and the other end ball hinged to the reciprocating rod 71; the end of the return spring 77 remote from the power rod 73 is fixedly attached to the mounting plate 11, the return spring 77 being in a tightened state.

Referring to fig. 9, the rotating cam 75 includes a semicircular portion 751 and a protruding portion 752, the semicircular portion 751 of the rotating cam 75 is coaxially disposed with the rotating lever 76, an arc-shaped slot 773 is disposed at a position on one side of the semicircular portion 751 near the protruding portion 752, and when the rotating lever 76 rotates, the power bearing 731 slides from the protruding portion 752 to the semicircular portion 751, and then slides from the semicircular portion 751 to the protruding portion 752, passes through the arc-shaped slot 773 and contacts with the outside of the protruding portion 752.

The rotating cam 75 drives the power rod 73 to swing in the process of rotating along with the rotating rod 76, and the connecting rod 74 drives the reciprocating rod 71 to rotate in the swinging process of the power rod 73; when the power bearing 731 rotates to the semicircular portion 751 from the position where the protruding portion 752 is farthest from the rotating lever 76, under the action of the return spring 77, the reciprocating lever 71 is driven to rotate, the reciprocating lever 71 drives the extrusion block 241 and the material shifting block 232 to rotate oppositely, so that the wax block base is shifted to the threading table 26, when the power bearing 731 contacts with the periphery of the semicircular portion 751, the reciprocating lever 71 stops rotating, at this time, threading is performed, when the threading is completed, the power bearing 731 slides to the arc-shaped groove 773, at this time, the distance from the axis of the reciprocating lever 71 to the power bearing 731 is the shortest, so as to drive the extrusion block 241 and the material shifting block 232 to further approach, so as to extrude the limiting pipe, then the power bearing 731 slides to the protruding portion 752, so that the distance from the axis of the rotating lever 76 to the power bearing 731 is gradually increased, so as to drive the extrusion block 241 and the material shifting block 232 to move away from each other, and drives the cutter 233 to complete the 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 disposed below the workbench 1, and the transmission mechanism 8 includes 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 disposed on one side of the swing rod 81 near the swing cam 82 and contacting with the outer side of the swing cam 82, and a chain group 83 for driving the driving wheel 32 to rotate back and forth via the swing rod 81. The swing rod 81 is located on the side of the rotating rod 76 departing from the chain group 83, a tightening spring 814 fixedly connected with the bottom of the workbench 1 is fixedly connected to the position of the swing rod 81 close to the top, the tightening spring 814 is located on the side of the swing rod 81 close to the rotating rod 76, and the swing bearing 811 can be attached to the outer side of the swing cam 82 through the tightening spring 814.

Referring to fig. 10 and 11, a control gear 86 is fixedly connected to one end of the bottom of the transmission rod 31, which is located below the worktable 1 and is coaxial with the transmission rod 31, a connecting block 841 is fixedly connected to one side of the transmission rod 31, which is away from the rotating rod 76, a rotating shaft 84 is rotatably connected to the connecting block 841 and penetrates through the rotating rod 76 in the axial direction, and gears are fixedly connected to both ends of the rotating shaft 84 and are coaxial with the rotating shaft 84. The chain group 83 comprises a swing chain 832 with one end connected to the swing rod 81, a control chain 831 wound on one side of the control gear 86 departing from the connecting block 841 and with one end fixedly connected with one end of the swing chain 832 departing from the swing rod 81, and a tensioning chain 833 fixedly connected with one end of the control chain 831 departing from the swing chain 832; one end of the tensioning chain 833 departing 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 departing from the control chain 831 and arranged near one end of the swinging chain 832 connected with the control chain 831, and the tensioning chain 833 is wound on one side of the connecting gear 85 departing from the control chain 831 and arranged near one end of the tensioning chain 833 connected with the control chain 831.

When dwang 76 is kept away from to rocking lever 81 bottom one end, drive control gear 86 through chain group 83 and rotate towards a direction, when rocking lever 81 swung to the maximum angle, rocking lever 81 counter-swing under tensioning spring 834's effect to drive control gear 86 through tensioning spring 834 and carry out counter-rotation, thereby realized control gear 86 reciprocating rotation, because one-way bearing's existence when control gear 86 reciprocating rotation, make action wheel 32 realize intermittent type and rotate, thereby realized the intermittent type to the candle core and fed.

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 oscillating rod 81, an inclined rod 813 positioned at one side of the rotating rod 76 away from the oscillating rod 81 is fixedly connected to one end of the top of the oscillating 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 oscillating rod 81; the inclined rod 813 is provided with a slide block 87 which can slide on the inclined rod 813 along the length direction of the inclined rod 813 and can be fixedly connected to the inclined rod 813, and one end of the swing chain 832 close to the swing rod 81 is fixedly connected to the slide block 87; the slider 87 is penetrated by the inclined rod 813, and a fastening bolt 871 which penetrates through the slider 87 and contacts with the outer side of the inclined rod 813 is screwed on 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 of the control gear 86 driven by the swinging of the swinging rod 81 at each side can be adjusted by adjusting the position of the sliding block 87, so that the length of the candle wick fed in each feeding is adjusted, and the position of the sliding block 87 is adjusted according to the length of the candle wick passed through as required.

Referring to fig. 10, a motor 762 is fixedly connected to the mounting plate 11, a chain wheel 763 is fixedly connected to both an end of an output shaft of the motor 762 and an end of the rotating rod 76, a chain 764 for connecting the two chain wheels 763 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, the bottom of the working platform 1 is provided with a sliding mechanism 48 for driving the sliding rod 46 to slide up and down, the sliding mechanism 48 includes a cross rod 481 fixedly connected to the bottom of the sliding rod 46, 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 facing away from the rotating rod 76. One end of the poke rod 482 is fixedly connected to the rotating rod 76, the length direction of the poke rod 482 is perpendicular to the axis of the rotating rod 76, the poke bearing 483 is close to one end of the poke rod 482, which is far away from the rotating rod 76, the periphery of the poke bearing 483 is in contact with the bottom of the cross rod 481, and the bottom of the tension spring 484 is fixedly connected to the mounting plate 11. One end of the cross bar 481 is provided with two vertically arranged guide bars 485, one sides of the two guide bars 485 which are close to each other are in contact with two sides of the cross bar 481, and the top and the bottom of the cross bar 481 are fixedly connected to the workbench 1 and the mounting plate 11 respectively. In the process of rotating the rotating rod 76, when the dial bearing 483 is located above the rotating rod 76, the sliding rod 46 can be pushed to slide upward, and when the dial bearing 483 is located below the rotating rod 76, the sliding rod 46 slides downward under the action of the tension spring 484.

Referring to fig. 14 and 15, the mounting plate 11 is provided with a rotating mechanism 9 for driving the rotating rod 41 to intermittently rotate, the rotating mechanism 9 includes a vertical rod 91 located below the rotating rod 76 and penetrating through the bottom plate, a driving disc 95 fixedly connected to one end of the bottom of the rotating rod 41 and coaxial with the rotating shaft 51, a power disc 92 fixedly connected to the bottom of the vertical rod 91 for driving the driving disc 95 to intermittently rotate, and a position toggle block 93 fixedly connected to the bottom of the power disc 92 and 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; 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 each transmission groove 951 penetrates through the transmission disc 95, and one side, close to the mounting plate 11, of each transmission disc 95 is in contact with one side, away from the mounting plate 11, of the power disc 92; the sum of the distance between the axis of the power disc 92 and one side of the toggle block 93, which is far 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, which is 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 on one side close to the transmission disc 95, the diameter of each stop groove 952 is equal to the outer diameter of each stop ring 94, and when the shifting block 93 is separated from the transmission grooves 951, the stop rings 94 are embedded into the stop grooves 952; the stop ring 94 has a recess 941 near the toggle block 93.

The power disc 92 drives the shifting block 93 to be inserted into the transmission groove 951 in the rotating process so as to drive the transmission disc 95 to rotate, the transmission disc 95 drives the rotating rod 41 to rotate in the rotating process, when the shifting block 93 rotates out of the transmission groove 951, the transmission disc 95 and the driven gear stop rotating, when the shifting 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 rotate intermittently, and the transmission disc 95 drives the rotating rod 41 to perform intermittent motion and simultaneously drives the rotating shaft 51 to perform intermittent rotation through the transmission gear; when the toggle block 93 is in the transmission groove 951, the stop disc is positioned in the stop groove 952, so that the transmission disc 95 cannot rotate under the action of inertia, and the toggle block 93 can be inserted into the transmission groove 951 again more smoothly.

The working principle of the candle wick fixing equipment when in use is as follows: the vibrating disk 6 conveys the wax block base to the horizontal plate 63 through a computer board, the wax block base slides down from the horizontal plate 63, the limiting pipe is clamped into the stepped groove 2321, then the material pulling block 232 and the extruding block 241 rotate towards the direction close to the threading table 26, when the wax block base is located at the middle position of the top of the threading table 26, the extruding block 241 and the material pulling block 232 are in mutual contact with the periphery of the limiting pipe, at the moment, the rotating disk 42 drives the transfer rod 44 to rotate right above the threading table 26, then the driving wheel 32 rotates to feed the wax core, the wax core is conveyed into the wax block base and the abdicating hole, then the extruding block 241 and the material pulling block 232 continuously rotate in opposite directions to extrude the limiting pipe, the wax core is pressed in the limiting pipe, then the extruding block 241 and the material pulling block 232 rotate towards the directions which are deviated from each other, at the moment, the rotating block 23 drives the cutter 233 to rotate towards the direction close to the threading table 26, and insert and cut off the wax core between threading platform 26 and disk, then drive the wax stone base through shifting the pole 44 and rotate when rolling disc 42 rotates, the bottom of disk and the top of line pushing plate 27 contact each other, under the effect of line pushing plate 27, spacing pipe inserts in the hole of stepping down to make the disk and the bottom of absorption piece 442 contact each other. During the process that the wax cup rotates along with the rotating disc 52, firstly, viscose is dripped through the viscose dripping pipe 56, then when the rotating disc 52 is rotated to be close to one side of the rotating disc 42, the sliding rod 46 drives the poking rod 47 to poke 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 viscose, and when the transfer rod 44 slides upwards, the wafer is separated from the adsorption block 442 under the action of the viscose.

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 embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A candle wick holding apparatus, comprising: including workstation (1), fixed connection is at brace table (21) at workstation (1) top, fixed connection is at fixed axle (22) of the vertical setting of axis at brace table (21) top, run through and rotate turning block (23) of connection on fixed axle (22) by fixed axle (22), set up at turning block (23) top and rotate extrusion dish (24) of connection on fixed axle (22), threading platform (26) of fixed connection in workstation (1) top one side, fixed connection is at vibration dish (6) at workstation (1) top, fixed connection is at guide board (61) of vibration dish (6) ejection of compact one side, fixed connection deviates from horizontal plate (63) that are used for carrying the wax stone base to threading platform (26) one side of guide board (61) one end, set up in guide board (61) top both sides be used for carrying out spacing limiting plate (62) to the wax stone base, A supporting plate (231) fixedly connected to the outer side of the top of the rotating block (23) and positioned at one end, deviating from the guiding plate (61), of the horizontal plate (63), a material poking block (232) fixedly connected to one side, close to the horizontal plate (63), of the top of the supporting plate (231) and used for sending the wax block base to the threading table (26) from the horizontal plate (63), a squeezing block (241) fixedly connected to the top of the squeezing disc (24) and positioned at one side, close to the threading table (26), of the flat plate, a cutter (233) fixedly connected to the top of the rotating block (23) and positioned at one side, close to the threading table (26), of the flat plate, a power mechanism (7) used for driving the squeezing disc (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 at one side, deviating from the fixing shaft (22), a rotating rod (, The rotating disc (42) is fixedly connected to the top of the rotating rod (41) and is 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) are arranged on the periphery of the rotating disc (42), magnetic adsorption blocks (442) are fixedly connected to the bottom of the transfer rods (44), and a rotating mechanism (9) is used 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 cutting knife (233) is flush with the top surface of the threading table (26), the threading table (26) is located at the position, close to the outer side of the rotating disc (42), of the bottom of the rotating disc (42), the line pushing plate (27) is located at the position, close to the periphery, of the bottom of the rotating disc (42), the bottom of the line pushing plate (27) is close to one side of the threading table (26) and is arranged in a downward inclined mode, the inclined bottom of the line pushing plate (27) is flush with the top surface of the threading table (26), the inclined top of the line pushing plate (27) is flush with the bottom of the adsorption block (442), the bottom of the adsorption block (442) is provided with abdicating holes formed in the adsorption block (442) and the transfer rods (44).

2. A wick holding apparatus according to claim 1, wherein: the wax cup transfer device is characterized by further comprising a limiting block (441) fixedly connected to the top of the transfer rod (44), a return spring (45) sleeved on the outer side of the transfer rod (44) and located between the rotating disc (42) and the limiting block (441), a sliding rod (46) penetrating through the workbench (1) in the vertical direction and capable of sliding up and down on the workbench (1), a shifting rod (47) fixedly connected to the sliding rod (46) and used for pushing the transfer rod (44) located at the top of the wax cup to slide downwards, and a sliding mechanism (48) used for driving the sliding rod (46) to slide.

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

the power mechanism (7) comprises a rotating rod (76) which is rotatably connected to the top of the mounting plate (11) and horizontally arranged in the axial direction, a motor (762) which is fixedly connected to the mounting plate (11) and is 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 rotatably 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), a connecting post (721) which is fixedly connected to the top of the transverse plate (72), an adjusting rod (722) which is rotatably connected to the connecting post (721) and a reciprocating assembly which drives the reciprocating rod (71) to rotate through the rotating rod (;

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

4. A wick holding apparatus according to claim 3, 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 having an outer periphery in contact with the outer periphery of the rotating cam (75), a connecting rod (74) with one end in ball joint with the power rod (73) and the other end in ball joint with 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 to the semicircular part (751) from the protruding part (752), and then when the power bearing slides to the protruding part (752) from the semicircular part (751), the power bearing firstly passes through the arc-shaped groove (773) and then contacts with the outer side of the protruding part (752).

5. A wick holding apparatus according to claim 4, wherein: the side, close to the flat plate, of the material pulling block (232), one end, close to the material pulling block (232), of the flat plate and one end, close to the material pulling block (232), of the limiting plate (62) are all arranged in an arc shape, and the axis of the arc shape is coaxial with the fixed shaft (22);

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

6. A wick holding apparatus according to claim 5, wherein: the top of the workbench (1) is provided with a wire inlet mechanism (3) for feeding the wax core;

the 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 on one side of the driving wheel (32), a tension 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 rotate in a reciprocating manner;

the axes of the driving wheel (32), the driven wheel (33), the tension wheel (321) and the rotating wheel (331) are vertically arranged, the plane where the axes of the driving wheel (32) and the tension wheel (321) are located is parallel to the plane where the axes of the driven wheel (33) and the rotating wheel (331) are located, one feeding belt (35) is sleeved on the outer sides of the driving wheel (32) and the tension wheel (321), the other feeding belt (35) is sleeved on the outer sides of the driven wheel (33) and the rotating wheel (331), one sides, close to each other, of the two feeding belts (35) are mutually attached, and the transmission rod (31) is rotatably connected with the driving wheel (32) through a one-way bearing.

7. A wick holding apparatus according to claim 6, 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), and a swing bearing (811) which is arranged on one side of the swing rod (81) close to the swing cam (82) and is in mutual contact with the outer side of the swing cam (82), the connecting block (841) which is fixedly connected to the bottom of the workbench (1) and is positioned on one side of the transmission rod (31) departing from the rotating rod (76) is rotatably connected to the connecting block (841) and penetrates through the rotating shaft (84) of 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) which is fixedly connected to one end of the bottom of the transmission rod (31) and is positioned below the workbench (1), and a chain group (83) which drives the control gear (86) to rotate in a reciprocating manner through a swinging rod;

the swinging rod (81) is positioned on one side of the rotating rod (76) departing 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) wound on one side of the control gear (86) departing from the connecting block (841) and with one end fixedly connected with one end of the swinging chain (832) departing from the swinging rod (81), and a tensioning chain (833) fixedly connected with one end of the control chain (831) departing from the swinging chain (832);

one end, away from the control chain (831), of the tensioning chain (833) 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, away from the control chain (831), of a connecting gear (85) close to one end, connected with the control chain (831), of the swinging chain (832), and the tensioning chain (833) is wound on one side, away from the control chain (831), of the connecting gear (85) close to one end, connected with the control chain (831), of the tensioning chain (833);

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

the tilting rod (813) is provided with a sliding block (87) which can slide on the tilting rod (813) along the length direction of the tilting rod (813) and can be fixedly connected to the tilting rod (813), one end of a swing chain (832) close to a swing rod (81) is fixedly connected to the sliding block (87), the sliding block (87) is penetrated through by the tilting rod (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 contacts with the outer side of the tilting rod (813).

8. A wick holding apparatus according to claim 7, wherein: the working table (1) is provided with a feeding mechanism (5) which is used for intermittently feeding wax cups to the bottom of one side of the rotating disc (42);

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

the feeding conveyor belt (53) is located on 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 on one side, deviating from the rotating shaft (51), of the feeding conveyor belt (53).

9. A wick holding apparatus according to claim 8, 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 rotate intermittently; 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 plate (95) are formed in the periphery of the transmission plate (95) along the radial direction of the transmission plate, one side, close to the mounting plate (11), of each transmission groove (951) penetrates through the transmission plate (95), and one side, close to the mounting plate (11), of each transmission plate (95) is in contact with one side, away from the mounting plate (11), of the power disc (92);

the bottom of the power disc (92) is fixedly connected with a poking block (93) 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 poking block (93) departing 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, close to the transmission disc (95), of each stop groove (952) is arranged in an arc shape, the diameter of each stop groove (952) is equal to the outer diameter of the corresponding stop ring (94), and when the shifting block (93) is separated from the transmission grooves (951), the stop rings (94) are embedded into the corresponding stop grooves (952); one side of the stop ring (94) close to the shifting block (93) is provided with a abdicating groove (941);

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

10. A wick holding 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 poking rod (482) fixedly connected to one end of the rotating rod (76) and positioned at the bottom of the cross rod (481), and a poking bearing (483) fixedly connected to one side, away from the rotating rod (76), of the poking rod (482);

poke pole (482) one end fixed connection is on dwang (76) to the length direction of poke pole (482) and the axis mutually perpendicular of dwang (76), stirring bearing (483) are close to poke pole (482) and deviate from dwang (76) one end and stir the periphery of bearing (483) and the bottom of horizontal pole (481) and contact each other, and the bottom fixed connection of taut spring (484) is on mounting panel (11).

Images