CN111285319A - Intermittent filling and conveying mechanism based on cosmetic and skin care product production - Google Patents

Abstract

The invention provides an intermittent filling and conveying mechanism based on cosmetic skin care product production, relates to the technical field of cosmetic skin care product assembly line equipment, and solves the problem that the existing cosmetic skin care product filling assembly line process causes large burden on the spirit and body of workers. An intermittent filling and conveying mechanism based on cosmetic skin care product production comprises a worktable mechanism, wherein a conveying disc mechanism is arranged at the top of the right end of the worktable mechanism; and a driving mechanism which is in transmission fit with the intermittent transmission mechanism is arranged inside the right end of the worktable mechanism. After the motor drive disc piece rotated the round, intermittent type formula drive mechanism wholly rotated one hundred twenty degrees, fed one, so the bottle of spacing card in an arc draw-in groove will transmit to the shower nozzle of sprinkling irrigation makeup skin care article and hold the below position, and simultaneously, another bottle then carries the spacing card of drum along the slip whereabouts in this arc draw-in groove, realizes the bottle of intermittent type formula and adds the process.

Description

Intermittent filling and conveying mechanism based on cosmetic and skin care product production

Technical Field

The invention belongs to the technical field of cosmetic skin care product production line equipment, and particularly relates to an intermittent filling and conveying mechanism based on cosmetic skin care product production.

Background

Cosmetic skin care products, i.e. products for protecting the skin. The cosmetic has skin caring effect, and can improve skin elasticity and activity.

In the production process of the cosmetic skin care products, the cosmetic skin care products are filled into the bottle body, the bottle body is closed, and other subsequent processes are all a uniform production line, and the production line comprises the following steps: the conveyor continuously conveys cosmetic skin care product bottles to be filled, the spray head end of the spray irrigation cosmetic skin care product equipment is positioned right above the conveyor assembly line, the spray head end of the spray irrigation cosmetic skin care product equipment is in an intermittent mode, when the cosmetic skin care product is filled, a worker takes the bottles conveyed by the conveyor to be right below the spray head end, the cosmetic skin care product is sprayed and filled through the spray head end, after the spray head end stops, the bottles are filled, and in the intermittent stop time, the worker takes another bottle to be right below the spray head end, so that the intermittent cosmetic skin care product filling process is realized; however, in the process of the production line, a worker needs to stare at the spray head end of the spray irrigation cosmetic equipment for a long time, so that the situation that the positions of the bottle body and the spray head end of the spray irrigation cosmetic equipment do not correspond to each other is avoided, and the bottle body needs to be continuously moved to the position right below the bottle body, so that great burden is caused to the spirit and the body of the worker.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intermittent filling and conveying mechanism based on cosmetic skin care product production, which aims to solve the problems that in the existing cosmetic skin care product filling production line process, a worker needs to stare at the spray head end of spray irrigation cosmetic skin care product equipment for a long time, the situation that the bottle body is not corresponding to the spray head end of the spray irrigation cosmetic skin care product equipment in position is avoided, the bottle body needs to be continuously moved to the position right below the spray head end, and the great burden is caused to the spirit and the body of the worker.

The invention relates to an intermittent filling and conveying mechanism based on cosmetic production, which is achieved by the following specific technical means:

an intermittent filling and conveying mechanism based on cosmetic and skin care product production comprises a worktable mechanism, wherein a conveying disc mechanism is arranged at the top of the right end of the worktable mechanism, and an intermittent transmission mechanism is rotatably arranged in the conveying disc mechanism; the right end of the worktable mechanism is internally provided with a driving mechanism which is in transmission fit with the intermittent transmission mechanism; a transmission mechanism which is engaged with the driving mechanism in a transmission fit manner is arranged on the rear side of the right end of the worktable mechanism; a conveying mechanism is arranged in the left end of the worktable mechanism, and the conveying mechanism is meshed with the transmission mechanism for transmission fit; conveying mechanism is including initiative driving roller, gear A, bevel gear B, driven driving roller, gear B, conveyer belt, internal tooth drive belt, initiative driving roller front end fixed mounting has a gear A, and initiative driving roller rear end fixed mounting has a bevel gear B, driven driving roller front end fixed mounting has a gear B, the common transmission has a conveyer belt between initiative driving roller and the driven driving roller, be connected through an internal tooth drive belt meshing transmission between gear A and the gear B, conveying mechanism installation state is down, both ends are fixed mounting respectively in two bearing A that are located the right flank side around the initiative driving roller, both ends are fixed mounting respectively in two bearing A that are located the left flank side around the driven driving roller, bevel gear B and bevel gear A meshing transmission cooperation.

Further, the worktable mechanism comprises a rectangular top plate, a rectangular bottom plate, a square connecting rod, a rectangular opening, rectangular supporting plates, a bearing A, a bearing B and a bearing C, wherein all edge included angles of the bottom end face of the rectangular top plate and all edge included angles of the top end face of the rectangular bottom plate are fixedly connected through the square connecting rod, the bearing C is embedded in the front side of the right end of the top end face of the rectangular top plate, the bearing B is embedded in the rear side of the right end of the top end face of the rectangular top plate, the rectangular opening is formed in the front half of the top end face of the rectangular top plate, the rectangular supporting plates are fixedly connected to the front side face and the left and right edge portions of the inner end of the rectangular opening and the rear side face of the bottom end face of the rectangular top plate, and the bearing A is embedded in the;

further, the conveying disc mechanism comprises a conveying disc, a circular conveying groove, an arc-shaped connecting plate, a conveying cylinder, a bearing D, a circular falling hole, a cylindrical protrusion, a supporting column, a falling buffering mechanism, a rectangular sliding groove, a cylindrical containing cavity, a circular sliding through hole, a circular baffle, a steel wire rope, a ball body and a reset spring, wherein the circular conveying groove is formed in the top end face of the conveying disc, the bearing D is embedded in the center of the circular conveying groove, the conveying cylinder is fixedly connected to the top end face of the conveying disc through the arc-shaped connecting plate, the axial lead of the conveying cylinder is located in the inner ring of the circular conveying groove, the inner circumferential face of the arc-shaped connecting plate and the inner circumferential face of the circular conveying groove are in the same cambered surface, the cylindrical protrusion is arranged on the longitudinally symmetrical part of the bottom end face of the conveying disc relative to the conveying cylinder, and the circular falling hole penetrating through, the diameter of the circular falling hole is consistent with the inner diameter of the conveying cylinder, three circular sliding through holes are formed in the circular falling hole at the adjacent circular conveying groove parts on the inner peripheral surface of the circular falling hole in an annular array mode, cylindrical containing cavities are formed in the inner end surface axle center parts of the three circular sliding through holes, a rectangular sliding groove penetrating the inner peripheral surface of the circular falling hole and the circular sliding through holes is formed in the bottom end surface of each cylindrical protrusion relative to the three circular sliding through hole parts, three groups of falling buffering mechanisms are arranged, each falling buffering mechanism is composed of a circular baffle, a steel wire rope, a ball body and a reset spring, the diameter of the circular baffle is consistent with the diameter of the cylindrical containing cavity, the axle center part of the front end surface of the circular baffle is fixedly connected with one ball body through one steel wire rope, and the axle center part of the front end surface, the three groups of falling buffering mechanisms are respectively installed in three cylindrical containing cavities, the circular baffle is connected in the cylindrical containing cavities in a sliding mode, the return springs are also located in the cylindrical containing cavities, the spheres are in contact with the open end of the circular sliding through hole in the ordinary extending state of the return springs, the bottom ends of the conveying discs are in an annular array shape, two supporting columns are fixedly connected together, the bearing D and the bearing C are located at the same axial line position in the installation state of the conveying disc mechanism, the bottom end faces of the two supporting columns are fixedly connected to the top end face of the rectangular top plate, and the cylindrical protruding axial lead position is opposite to the right side end position of the rectangular opening;

further, the intermittent transmission mechanism comprises a transmission disc, a rotating shaft A, an arc-shaped clamping groove, a grooved pulley, a U-shaped shifting groove and an arc-shaped limiting groove, wherein the shaft center part of the bottom end face of the transmission disc is fixedly connected with the rotating shaft A, the bottom end of the rotating shaft A is fixedly provided with the grooved pulley, the periphery of the transmission disc is in an annular array shape and is provided with three arc-shaped clamping grooves, the arc-shaped clamping grooves are in U-shaped structures, the diameter of each arc-shaped clamping groove is consistent with the diameter of a circular falling hole and the inner diameter of a conveying cylinder, the periphery of the grooved pulley is in an annular array shape and is provided with three U-shaped shifting grooves and three arc-shaped limiting grooves, the three U-shaped shifting grooves and the three arc-shaped limiting grooves are distributed at intervals, the rotating shaft A is fixedly arranged in a bearing D in the installation state of the intermittent transmission mechanism, the transmission disc is positioned in the circular conveying, the outer contour line of the arc-shaped clamping groove and the inner circumferential surface of the circular conveying groove are in an external tangent state, the grooved wheel is positioned at the lower part of the conveying disc, one of the three arc-shaped clamping grooves and the conveying cylinder are in the same axial state, and the other arc-shaped clamping groove and the cylindrical protrusion are in the same axial state;

further, the driving mechanism comprises a disc block, external teeth, a circular protrusion, an arc-shaped groove, a toggle column, a rotating shaft B and a motor, wherein the external teeth are arranged on the outer peripheral surface of the disc block, the circular protrusion is arranged on the axle center part of the top end surface of the disc block, the arc-shaped groove is formed in the outer peripheral surface of the circular protrusion, the toggle column is arranged on the top end surface of the disc block relative to the arc-shaped groove, the rotating shaft B is arranged on the axle center part of the bottom end surface of the disc block and fixedly connected with the motor, the rotating shaft B is fixedly arranged in a bearing C in the mounting state of the driving mechanism, the motor is fixedly arranged on the bottom end surface of the rectangular top plate, the bottom end surface of the grooved pulley and the top end surface of the disc block are in the same horizontal plane, the circular protrusion slides and is tangent to the;

further, the transmission mechanism comprises a transmission gear, a rotating shaft C and a bevel gear A, the top end and the bottom end of the rotating shaft C are respectively and fixedly provided with the transmission gear and the bevel gear A, the rotating shaft C is fixedly arranged in the bearing B in the installation state of the transmission mechanism, the transmission gear is positioned above the top end face of the rectangular top plate, the bevel gear A is positioned below the bottom end face of the rectangular top plate, and the transmission gear is in meshing transmission fit with the external teeth;

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

when the intermittent type spray irrigation cosmetic skin care product feeding device is placed, one arc-shaped clamping groove part is aligned to a spray head end of a spray irrigation cosmetic skin care product to be in the same axis state, a plurality of bottles to be filled with the cosmetic skin care product are placed from an opening end at the top of a conveying cylinder, the bottles slide downwards along the inner circumferential surface of the conveying cylinder, the bottle positioned at the lowermost part is limited and clamped in the arc-shaped clamping groove with the diameter equal to that of the bottle, the bottle above the bottle is limited in the conveying cylinder, when the intermittent type spray irrigation cosmetic skin care product feeding device is applied, after a motor drives a disc block to rotate for one circle, an intermittent type transmission mechanism integrally rotates for one hundred twenty degrees and feeds for one position, so that the bottle with the limit clamp in the arc-shaped clamping groove is transmitted to the part right below the spray head end of the spray irrigation cosmetic skin care product, and meanwhile, the other bottle; the intermittent time of the equipment for sprinkling the cosmetics and the skin care products corresponds to the rotating intermittent time of the intermittent transmission mechanism, so when the intermittent transmission mechanism transmits one bottle body to a position under the nozzle end of the sprinkling cosmetics and the bottle body is in a position which is kept still, the spraying end of the sprinkling cosmetics and the skin care products sprays out the cosmetics and the skin care products, thereby filling the bottle body under the bottle body, when the toggle column slides into another U-shaped toggle groove, when the intermittent transmission mechanism is re-driven to rotate, the spraying end of the sprinkling cosmetics and the skin care products stops spraying, and the spraying is started until the next bottle body is transmitted to the position under the toggle column through the intermittent transmission mechanism and is kept still again, thereby realizing the filling process of the intermittent cosmetics and the skin care products.

When the sprinkling irrigation is filled with the bottle body and is driven to the position of the circular falling hole by the intermittent transmission mechanism, the bottle body vertically falls along the circular falling hole, at the moment, the bottom end face of the bottle body is contacted with the spheres in the three groups of falling buffering mechanisms, under the weight factor of the bottle body, the three spheres are pressed down to vertically fall along the circular falling hole, so that the reset springs in the three groups of falling buffering mechanisms are compressed, the three steel wire ropes respectively slide downwards along the corresponding circular sliding through holes and the rectangular sliding grooves, when the three spheres vertically fall along the circular falling hole and are separated from the inner circumference of the circular falling hole, the three spheres expand outside without the blockage of the inner circumference of the circular falling hole, so that the bottle body is not clamped at a limit position, at the moment, the bottle body falls on a conveying belt in the conveying mechanism, and at the same time, the three reset springs rapidly rebound under the weight factor of the bottle body, so that the three steel wire ropes are accommodated in the cylindrical accommodating cavity again, the three spheres are contacted with the opening end part of the circular sliding through hole again; through the arrangement of the three groups of falling buffering mechanisms, the impact force of the bottle body when falling can be effectively buffered, and the situation that the bottle body falls over or the filled cosmetic skin care products spill over due to overlarge impact force when falling on the conveying belt is avoided.

The driving mechanism is in meshing transmission fit with the conveying mechanism through the transmission mechanism, when the disc block is driven to rotate by the motor, the outer teeth arranged on the peripheral surface of the disc block are meshed with the transmission gears in the transmission mechanism to rotate, so that the bevel gears A in the transmission mechanism are synchronously driven to rotate, the bevel gears A are meshed with the transmission bevel gears B to rotate, and the driving transmission rollers are driven to rotate anticlockwise.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a rear view structural diagram of the present invention.

Fig. 4 is a schematic top view of the present invention.

Fig. 5 is a side view schematic of the present invention.

FIG. 6 is a schematic axial view of the table mechanism of the present invention.

Fig. 7 is a front view structure schematic diagram of the worktable mechanism of the invention.

Fig. 8 is a first perspective axial view of the transfer tray mechanism of the present invention.

Fig. 9 is a second perspective axial view of the transfer tray mechanism of the present invention.

Fig. 10 is a schematic top view of the transfer tray mechanism of the present invention.

FIG. 11 is a bottom axial view of the transfer plate mechanism of the present invention.

Fig. 12 is a schematic view of the present invention at a part enlarged in fig. 1.

Fig. 13 is a cross sectional structural view of the transfer tray mechanism of the present invention.

Fig. 14 is a partial enlarged structural view at B in fig. 13 according to the present invention.

Fig. 15 is a schematic structural view of the drop-slowing mechanism of fig. 14 in a state where it is removed.

Fig. 16 is a schematic structural view of a fall buffering mechanism of the present invention.

Fig. 17 is a schematic view of the intermittent drive mechanism of the present invention.

Fig. 18 is a schematic axial view of the active mechanism of the present invention.

Fig. 19 is a front view of the active mechanism of the present invention.

FIG. 20 is a schematic structural diagram of the driving mechanism and the intermittent transmission mechanism of the present invention in a transmission state.

Fig. 21 is a schematic view of the transmission mechanism of the present invention.

Fig. 22 is a schematic structural view of the transmission mechanism of the present invention in a transmission state with the driving mechanism.

Fig. 23 is a schematic view of the structure of the conveying mechanism of the present invention.

Fig. 24 is a schematic structural view of the conveying mechanism and the transmission mechanism of the present invention in a transmission state.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a table mechanism; 101. a rectangular top plate; 102. a rectangular bottom plate; 103. a square connecting rod; 104. a rectangular opening; 105. a rectangular support plate; 106. a bearing A; 107. a bearing B; 108. a bearing C; 2. a conveying tray mechanism; 201. a delivery tray; 202. a circular conveying trough; 203. an arc-shaped connecting plate; 204. a delivery cylinder; 205. a bearing D; 206. a circular drop hole; 207. a cylindrical bulge; 208. a support pillar; 209. a drop slow-down mechanism; 2010. a rectangular sliding groove; 2011. a cylindrical receiving cavity; 2012. a circular sliding through hole; 2013. a circular baffle; 2014. a wire rope; 2015. a sphere; 2016. a return spring; 3. an intermittent drive mechanism; 301. a drive plate; 302. a rotating shaft A; 303. an arc-shaped clamping groove; 304. a grooved wheel; 305. a U-shaped toggle groove; 306. an arc-shaped limiting groove; 4. an active mechanism; 401. a disc block; 402. an outer tooth; 403. a circular protrusion; 404. an arc-shaped slot; 405. shifting the column; 406. a rotating shaft B; 407. a motor; 5. a transmission mechanism; 501. a transmission gear; 502. a rotating shaft C; 503. a bevel gear A; 6. a conveying mechanism; 601. a driving transmission roller; 602. a gear A; 603. a bevel gear B; 604. a driven driving roller; 605. a gear B; 606. a conveyor belt; 607. an internally toothed drive belt;

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 24:

the invention provides an intermittent filling and conveying mechanism based on cosmetic production, which comprises: a worktable mechanism 1, a conveying disc mechanism 2 is arranged at the top of the right end of the worktable mechanism 1, the worktable mechanism 1 comprises a rectangular top plate 101, a rectangular bottom plate 102, a square connecting rod 103, a rectangular opening 104, a rectangular supporting plate 105, a bearing A106, a bearing B107 and a bearing C108, the included angle positions of the four edges of the bottom end surface of the rectangular top plate 101 and the included angle positions of the four edges of the top end surface of the rectangular bottom plate 102 are fixedly connected through the square connecting rod 103, the bearing C108 is embedded in the front side position of the right end surface of the top end surface of the rectangular top plate 101, the bearing B107 is embedded in the rear side position of the right end surface of the top end surface of the rectangular top plate 101, the rectangular opening 104 is arranged on the front half part of the top end surface of the rectangular top plate 101, the rectangular supporting plate 105 is fixedly connected to the left and right edges of the front side surface and the rear side surface of the bottom end surface of the, and the intermittent transmission mechanism 3 is rotatably installed in the conveying disc mechanism 2, the intermittent transmission mechanism 3 comprises a transmission disc 301, a rotating shaft A302, an arc-shaped clamping groove 303, a grooved wheel 304, a U-shaped toggle groove 305 and an arc-shaped limiting groove 306, the shaft center part of the bottom end surface of the transmission disc 301 is fixedly connected with the rotating shaft A302, the bottom end of the rotating shaft A302 is fixedly provided with the grooved wheel 304, the periphery of the transmission disc 301 is in an annular array shape and is provided with three arc-shaped clamping grooves 303, the arc-shaped clamping grooves 303 are in a U-shaped structure, the diameter of the arc-shaped clamping grooves is consistent with the diameter of the circular falling hole 206 and the inner diameter of the conveying cylinder 204, the periphery of the grooved wheel 304 is in an annular array shape and is provided with three U-shaped toggle grooves 305 and three arc-shaped limiting grooves 306, the three U-shaped toggle grooves 305 and the three arc-shaped limiting grooves 306 are distributed at intervals, the rotating shaft A302 is fixedly installed in the bearing, the bottom end face of the circular conveying groove 202 is not contacted with the bottom face of the inner end of the circular conveying groove 202, the outer contour line of the arc-shaped clamping groove 303 and the inner circumferential face of the circular conveying groove 202 are in an external tangent state, the grooved wheel 304 is positioned at the lower part of the conveying disc 201, one of the three arc-shaped clamping grooves 303 and the conveying cylinder 204 are in the same axial state, and the other arc-shaped clamping groove 303 and the cylindrical protrusion 207 are in the same axial state; the right end of the worktable mechanism 1 is internally provided with a driving mechanism 4 which is matched with the intermittent transmission mechanism 3 in a transmission way, the driving mechanism 4 comprises a disc block 401, an external tooth 402, a circular bulge 403, an arc-shaped groove 404, a toggle column 405, a rotating shaft B406 and a motor 407, the external tooth 402 is arranged on the peripheral surface of the disc block 401, a circular bulge 403 is arranged on the axle center part of the top end surface of the disc block 401, the peripheral surface of the circular bulge 403 is provided with an arc-shaped groove 404, the top end surface of the disc block 401 is provided with a toggle column 405 relative to the arc-shaped groove 404, the axle center part of the disc block 401 is provided with a rotating shaft B406, the rotating shaft B406 is fixedly connected with the motor 407, the rotating shaft B406 is fixedly arranged in a bearing C108 in the installation state of the driving mechanism 4, the motor 407 is fixedly arranged on the bottom end surface of the rectangular top plate 101, the bottom end surface of the grooved, and the toggle column 405 is in transmission fit with the U-shaped toggle groove 305; the rear side of the right end of the worktable mechanism 1 is provided with a transmission mechanism 5 which is engaged and matched with the driving mechanism 4 in a transmission way; the conveying mechanism 6 is arranged in the left end of the worktable mechanism 1, the conveying mechanism 6 is in meshing transmission fit with the transmission mechanism 5, the transmission mechanism 5 comprises a transmission gear 501, a rotating shaft C502 and a bevel gear A503, the top end and the bottom end of the rotating shaft C502 are respectively and fixedly provided with the transmission gear 501 and the bevel gear A503, the rotating shaft C502 is fixedly arranged in a bearing B107 in the installation state of the transmission mechanism 5, the transmission gear 501 is positioned above the top end face of the rectangular top plate 101, the bevel gear A503 is positioned below the bottom end face of the rectangular top plate 101, and the transmission gear 501 is in meshing transmission fit with the external teeth 402; the conveying mechanism 6 comprises a driving transmission roller 601, a gear A602, a bevel gear B603, a driven transmission roller 604, a gear B605, a conveying belt 606 and an internal tooth transmission belt 607, wherein the gear A602 is fixedly installed at the front end of the driving transmission roller 601, the bevel gear B603 is fixedly installed at the rear end of the driving transmission roller 601, the gear B605 is fixedly installed at the front end of the driven transmission roller 604, the conveying belt 606 is jointly transmitted between the driving transmission roller 601 and the driven transmission roller 604, the gear A602 and the gear B605 are connected in an engaged transmission mode through the internal tooth transmission belt 607, in the installation state of the conveying mechanism 6, the front end and the rear end of the driving transmission roller 601 are respectively and fixedly installed in two bearings A106 located on the right side, the front end and the rear end of the driven transmission roller 604 are respectively and fixedly installed in the two bearings A106 located on the left.

Wherein, the conveying tray mechanism 2 comprises a conveying tray 201, a circular conveying groove 202, an arc connecting plate 203, a conveying cylinder 204, a bearing D205, a circular falling hole 206, a cylindrical protrusion 207, a support column 208, a falling buffering mechanism 209, a rectangular sliding groove 2010, a cylindrical containing cavity 2011, a circular sliding through hole 2012, a circular baffle 2013, a steel wire 2014, a sphere 2015 and a reset spring 2016, the top end surface of the conveying tray 201 is provided with the circular conveying groove 202, the bearing D205 is embedded in the central part of the circular conveying groove 202, the top end surface of the conveying tray 201 is fixedly connected with the conveying cylinder 204 through the arc connecting plate 203, the axial lead of the conveying cylinder 204 is positioned in the inner ring of the circular conveying groove 202, the inner peripheral surface of the arc connecting plate 203 and the inner peripheral surface of the circular conveying groove 202 are positioned in the same arc surface, the longitudinally symmetrical part of the bottom end surface of the conveying tray 201 relative to the, a circular dropping hole 206 penetrating through the circular conveying groove 202 is formed in the axis position of the cylindrical protrusion 207, the diameter of the circular dropping hole 206 is consistent with the inner diameter of the conveying cylinder 204, three circular sliding through holes 2012 are formed in the circular dropping hole 206 in an annular array adjacent to the circular conveying groove 202, cylindrical containing cavities 2011 are formed in the axis positions of inner end faces of the three circular sliding through holes 2012, a rectangular sliding groove 2010 penetrating through the inner circumferential surface of the circular dropping hole 206 and the circular sliding through holes 2012 is formed in the bottom end face of the cylindrical protrusion 207 relative to the three circular sliding through holes 2012, three groups of dropping buffering mechanisms 209 are arranged, the dropping buffering mechanisms 209 are formed by a circular baffle 2013, a steel wire rope 2014, a ball 2015 and a return spring 2016, the diameter of the circular baffle 2013 is consistent with the diameter of the cylindrical containing cavities 2011, a ball 2015 is fixedly connected to the axis position of the front end face of the circular baffle 2013 through a steel wire rope 2014, the axial center part of the front end face of the circular baffle 2013 is fixedly connected with a reset spring 2016, three groups of falling buffering mechanisms 209 are respectively installed in three cylindrical containing cavities 2011, the falling buffering mechanisms 209 are installed, the circular baffle 2013 is connected in the cylindrical containing cavities 2011 in a sliding mode, the reset spring 2016 is also located in the cylindrical containing cavities 2011, the reset spring 2016 is in a common extension state, a sphere 2015 is in contact with the open end part of a circular sliding through hole 2012, the bottom end of the conveying disc 201 is in an annular array shape and is fixedly connected with two supporting columns 208, the conveying disc mechanism 2 is installed, the bearing D205 and the bearing C108 are located at the same axial line part, the bottom end faces of the two supporting columns 208 are fixedly connected to the top end face of the rectangular top plate 101, and the axial lead part of the cylindrical protrusion 207 is opposite to.

When in use:

step one, because one of the three arc-shaped clamping grooves 303 of the intermittent transmission mechanism 3 is in the same axial line state with the conveying cylinder 204, and one is in the same axial line state with the cylindrical protrusion 207, when the spray irrigation device is placed, the other arc-shaped clamping groove 303 can be aligned to the spray head end of the spray irrigation cosmetic and skin care product, so that the spray irrigation cosmetic and skin care product is in the same axial line state;

placing a plurality of bottle bodies to be filled with cosmetics and skin care products into the conveying cylinder 204 from the opening end at the top of the conveying cylinder 204, wherein the bottle bodies slide down along the inner peripheral surface of the conveying cylinder 204, the bottle body positioned at the lowermost position is limited and clamped in an arc-shaped clamping groove 303 with the diameter equal to that of the bottle body, and the bottle body positioned above the bottle body is limited in the conveying cylinder 204;

step three, starting a motor 407, driving a rotating shaft B406 to rotate anticlockwise, firstly, rotating a circular protrusion 403 along an arc-shaped limiting groove 306 to limit the intermittent transmission mechanism 3 to keep still, when a toggle column 405 slides into a U-shaped toggle groove 305, the toggle column toggles the intermittent transmission mechanism 3 to rotate along a bearing D205, and because the outer peripheral surface of the circular protrusion 403 is provided with an arc-shaped groove 404 and the position of the arc-shaped groove 404 corresponds to the position of the toggle column 405, when the toggle column 405 toggles the intermittent transmission mechanism 3 to rotate along the bearing D205, the U-shaped toggle groove 305 part arranged on a grooved pulley 304 corresponds to the arc-shaped groove 404, and the grooved pulley 304 is ensured to rotate without being blocked; meanwhile, the transmission disc 301 drives the bottle body clamped in the arc-shaped clamping groove 303 to transmit along the circular conveying groove 202, after the disc block 401 rotates for one circle, the intermittent transmission mechanism 3 integrally rotates for one hundred twenty degrees and feeds for one bit, so that the bottle body clamped in the arc-shaped clamping groove 303 at one position is transmitted to the position right below the spray head end of the spray irrigation cosmetics and skin care products, and at the moment, the adjacent arc-shaped clamping groove 303 at the other position rotates to the position right below the conveying cylinder 204 and is in the same axis state, so that the other bottle body is clamped in the arc-shaped clamping groove 303 along the sliding falling limiting position of the conveying cylinder 204 at the moment, and an intermittent bottle body adding process is realized; meanwhile, the circular protrusion 403 continues to rotate along the other arc-shaped limiting groove 306, so as to limit the intermittent transmission mechanism 3 to keep still, and when the toggle column 405 does not slide into the other U-shaped toggle groove 305, the intermittent transmission mechanism 3 keeps still; furthermore, the intermittent time of the equipment for sprinkling the cosmetics and the skin care products corresponds to the rotating intermittent time of the intermittent transmission mechanism 3, so when the intermittent transmission mechanism 3 transmits one bottle body to the position right below the nozzle end of the sprinkling cosmetics and the bottle body is in a position which keeps still, the nozzle end of the sprinkling cosmetics and the skin care products sprays out the cosmetics and the skin care products, thereby filling the bottle body right below the nozzle end, and when the toggle column 405 slides into the other U-shaped toggle groove 305 and re-drives the intermittent transmission mechanism 3 to rotate, the nozzle end of the sprinkling cosmetics and the skin care products stops spraying until the next bottle body is transmitted to the position right below the next bottle body through the intermittent transmission mechanism 3 and keeps still, the spraying is started, and the intermittent cosmetics filling process is realized;

step four, when the bottle body filled with the sprinkling irrigation is driven to the position of the circular falling hole 206 by the intermittent drive mechanism 3, the bottle body vertically falls along the circular falling hole 206, and at the moment, the bottom end face of the bottle body is contacted with the spheres 2015 in the three groups of falling buffering mechanisms 209, under the weight factor of the bottle body, the three spheres 2015 are pressed down to vertically fall along the circular falling hole 206, so that the reset springs 2016 in the three groups of falling buffering mechanisms 209 are compressed, the three steel wire ropes 2014 respectively slide down along the corresponding circular sliding through holes 2012 and the rectangular sliding grooves 2010, when the three spheres 2015 vertically fall along the circular falling hole 206 and are separated from the inner circumferential face of the circular falling hole 206, the three spheres 2015 expand outside without the blockage of the inner circumferential face of the circular falling hole 206, so that the bottle body is not blocked at the limit position, and then the bottle body falls on the conveyor belt 606 in the conveying mechanism 6, and simultaneously under the weight factor without the bottle body, the three return springs 2016 rebound rapidly, so that the three steel cables 2014 are accommodated in the cylindrical accommodating cavity 2011 again, and the three spheres 2015 are contacted with the open end of the circular sliding through hole 2012 again; through the three groups of falling buffering mechanisms 209, the impact force of the bottle bodies during falling can be effectively buffered, and the situation that the bottle bodies fall over or the filled cosmetic skin care products spill over due to overlarge impact force when falling on the conveying belt 606 is avoided;

step five, the driving mechanism 4 is in meshing transmission fit with the conveying mechanism 6 through the transmission mechanism 5, when the disc block 401 is driven to rotate through the motor 407, the external teeth 402 arranged on the outer peripheral surface of the disc block are meshed with the transmission gears 501 in the transmission mechanism 5 to rotate, so that the bevel gears A503 in the transmission mechanism 5 are synchronously driven to rotate, the bevel gears A503 are meshed with the transmission bevel gears B603 to rotate, the driving transmission rollers 601 are driven to rotate anticlockwise, and the driving transmission rollers 601 and the driven transmission rollers 604 are in meshing transmission through the gears A602, the gears B605 and the internal tooth transmission belts 607, so that the conveying belts 606 are driven to transmit left, the bottle bodies falling on the conveying belts 606 are driven to move, the bottle bodies are conveniently transmitted to another process part, and the conveying process of filling the.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a conveying mechanism is filled to intermittent type formula based on cosmetics skin care products production which characterized in that: the device comprises a worktable mechanism (1), wherein a conveying disc mechanism (2) is arranged at the top of the right end of the worktable mechanism (1), and an intermittent transmission mechanism (3) is rotatably arranged in the conveying disc mechanism (2); an active mechanism (4) which is in transmission fit with the intermittent transmission mechanism (3) is arranged in the right end of the worktable mechanism (1); a transmission mechanism (5) which is engaged and matched with the driving mechanism (4) in a transmission way is arranged at the rear side of the right end of the worktable mechanism (1); a conveying mechanism (6) is arranged in the left end of the worktable mechanism (1), and the conveying mechanism (6) is meshed with the transmission mechanism (5) for transmission fit; the conveying mechanism (6) comprises a driving transmission roller (601), a gear A (602), a bevel gear B (603), a driven transmission roller (604), a gear B (605), a conveying belt (606) and an internal tooth conveying belt (607), wherein the front end of the driving transmission roller (601) is fixedly provided with the gear A (602), the rear end of the driving transmission roller (601) is fixedly provided with the bevel gear B (603), the front end of the driven transmission roller (604) is fixedly provided with the gear B (605), the driving transmission roller (601) and the driven transmission roller (604) are jointly transmitted with the conveying belt (606), the gear A (602) and the gear B (605) are connected in a meshing transmission manner through the internal tooth conveying belt (607), and the front end and the rear end of the driving transmission roller (601) are respectively and fixedly arranged in two bearings A (106) positioned on the right side in the mounting state of the conveying mechanism (6), the front end and the rear end of the driven transmission roller (604) are respectively and fixedly installed in two bearings A (106) positioned on the left side, and the bevel gear B (603) is in meshing transmission fit with the bevel gear A (503).

2. An intermittent filling and delivery mechanism based on cosmetic skin care product production according to claim 1, wherein: the worktable mechanism (1) comprises a rectangular top plate (101), a rectangular bottom plate (102), a square connecting rod (103), a rectangular opening (104), a rectangular supporting plate (105), a bearing A (106), a bearing B (107) and a bearing C (108), wherein all four edge included angles of the bottom end surface of the rectangular top plate (101) are fixedly connected with all four edge included angles of the top end surface of the rectangular bottom plate (102) through the square connecting rod (103), the bearing C (108) is embedded in the front side part of the right end of the top end surface of the rectangular top plate (101), the bearing B (107) is embedded in the rear side part of the right end surface of the top end surface of the rectangular top plate (101), the rectangular opening (104) is formed in the front half part of the top end surface of the rectangular top plate (101), the bottom end surface of the rectangular top plate (101) is adjacent to the front side surface of the inner end of the rectangular opening (104), and the left edge, and a bearing A (106) is embedded in the center of the front end face of each rectangular supporting plate (105).

3. An intermittent filling and delivery mechanism based on cosmetic skin care product production according to claim 1, wherein: the conveying disc mechanism (2) comprises a conveying disc (201), a circular conveying groove (202), an arc connecting plate (203), a conveying cylinder (204), a bearing D (205), a circular falling hole (206), a cylindrical protrusion (207), a supporting column (208), a falling buffering mechanism (209), a rectangular sliding groove (2010), a cylindrical containing cavity (2011), a circular sliding through hole (2012), a circular baffle (2013), a steel wire rope (2014), a sphere (2015) and a reset spring (2016), wherein the circular conveying groove (202) is formed in the top end face of the conveying disc (201), the bearing D (205) is embedded in the center of the circular conveying groove (202), the top end face of the conveying disc (201) is fixedly connected with the conveying cylinder (204) through the arc connecting plate (203), and the axial lead of the conveying cylinder (204) is located at the inner ring of the circular conveying groove (202), the inner peripheral surface of the arc-shaped connecting plate (203) and the inner peripheral surface of the circular conveying groove (202) are positioned in the same arc surface, the bottom end surface of the conveying disc (201) is provided with a cylindrical protrusion (207) relative to a longitudinally symmetrical part of the conveying cylinder (204), the axle center part of the cylindrical protrusion (207) is provided with a circular drop hole (206) penetrating through the circular conveying groove (202), the diameter of the circular drop hole (206) is consistent with the inner diameter of the conveying cylinder (204), the parts of the inner peripheral surface of the circular drop hole (206) adjacent to the circular conveying groove (202) are provided with three circular sliding through holes (2012) in an annular array manner, the axle center parts of the inner end surfaces of the three circular sliding through holes (2012) are provided with a cylindrical containing cavity (2011), the bottom end surface of the cylindrical protrusion (207) is provided with a rectangular sliding groove (2010) penetrating through the inner peripheral surface of the circular drop hole (206) and the circular sliding through hole (2012), three groups of falling buffering mechanisms (209) are arranged, the falling buffering mechanisms (209) jointly consist of a circular baffle (2013), a steel wire rope (2014), a sphere (2015) and a reset spring (2016), the diameter of the circular baffle (2013) is consistent with that of a cylindrical containing cavity (2011), the axle center part of the front end face of the circular baffle (2013) is fixedly connected with the sphere (2015) through the steel wire rope (2014), the axle center part of the front end face of the circular baffle (2013) is fixedly connected with the reset spring (2016), the three groups of falling buffering mechanisms (209) are respectively arranged in three cylindrical containing cavities (2011), the falling buffering mechanisms (209) are arranged, the circular baffle (2013) is connected in the cylindrical containing cavity (2011) in a sliding mode, the reset spring (2016) is also positioned in the cylindrical containing cavity (2011), and the reset spring (2016) is arranged in a common extending state, spheroid (2015) contact is in circular slip through-hole (2012) open end position, two spinal branch daggers (208) of fixedly connected with are altogether personally submitted to delivery dish (201) bottom, under delivery dish mechanism (2) installation, bearing D (205) and bearing C (108) are in same axis position, two support column (208) bottom end face fixed connection is on rectangle roof (101) top end face, protruding (207) axial lead position of cylinder is for rectangle opening (104) right side end position.

4. An intermittent filling and delivery mechanism based on cosmetic skin care product production according to claim 1, wherein: the intermittent transmission mechanism (3) comprises a transmission disc (301), a rotating shaft A (302), arc-shaped clamping grooves (303), grooved wheels (304), a U-shaped shifting groove (305) and arc-shaped limiting grooves (306), wherein the bottom end surface axle center part of the transmission disc (301) is fixedly connected with the rotating shaft A (302), the grooved wheels (304) are fixedly installed at the bottom end of the rotating shaft A (302), the periphery of the transmission disc (301) is in an annular array shape, three arc-shaped clamping grooves (303) are arranged, the arc-shaped clamping grooves (303) are in U-shaped structures, the diameters of the arc-shaped clamping grooves are consistent with the diameter of the circular falling hole (206) and the inner diameter of the conveying cylinder (204), the periphery of each grooved wheel (304) is in an annular array shape, three U-shaped shifting grooves (305) and three arc-shaped limiting grooves (306) are arranged, and the three U-shaped shifting grooves (305) and the three arc-shaped limiting grooves, under the installation state of the intermittent transmission mechanism (3), the rotating shaft A (302) is fixedly installed in the bearing D (205), the transmission disc (301) is located in the circular conveying groove (202), the bottom end face of the circular conveying groove (202) is not contacted with the bottom face of the inner end of the circular conveying groove (202), the outer contour line of the arc-shaped clamping groove (303) and the inner circumferential face of the circular conveying groove (202) are in an outer tangent state, the grooved wheel (304) is located at the lower portion of the conveying disc (201), one of the three arc-shaped clamping grooves (303) and the conveying cylinder (204) are in the same axial line state, and the other arc-shaped clamping groove and the cylindrical protrusion (207) are in the same axial line state.

5. An intermittent filling and delivery mechanism based on cosmetic skin care product production according to claim 1, wherein: the driving mechanism (4) comprises a disc block (401), external teeth (402), a circular protrusion (403), an arc-shaped groove (404), a toggle column (405), a rotating shaft B (406) and a motor (407), wherein the external teeth (402) are arranged on the outer peripheral surface of the disc block (401), the circular protrusion (403) is arranged at the axis part of the top end surface of the disc block (401), the arc-shaped groove (404) is arranged on the outer peripheral surface of the circular protrusion (403), the toggle column (405) is arranged on the top end surface of the disc block (401) relative to the arc-shaped groove (404), the rotating shaft B (406) is arranged at the axis part of the bottom end surface of the disc block (401), the rotating shaft B (406) is fixedly connected with the motor (407), the rotating shaft B (406) is fixedly installed in a bearing C (108) when the driving mechanism (4) is in an installation state, the motor (407) is fixedly installed on the bottom end surface of the rectangular, the bottom end face of the grooved wheel (304) and the top end face of the disc block (401) are located on the same horizontal plane, the circular protrusion (403) slides and is tangent to the arc-shaped limiting groove (306), and the toggle column (405) is in transmission fit with the U-shaped toggle groove (305).

6. An intermittent filling and delivery mechanism based on cosmetic skin care product production according to claim 1, wherein: the transmission mechanism (5) comprises a transmission gear (501), a rotating shaft C (502) and a bevel gear A (503), wherein the top end and the bottom end of the rotating shaft C (502) are respectively and fixedly provided with the transmission gear (501) and the bevel gear A (503), the rotating shaft C (502) is fixedly arranged in a bearing B (107) in the installation state of the transmission mechanism (5), the transmission gear (501) is positioned above the top end face of the rectangular top plate (101), the bevel gear A (503) is positioned below the bottom end face of the rectangular top plate (101), and the transmission gear (501) is in meshing transmission fit with the outer teeth (402).

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