阅读说明：本技术 一种用于打火机制造的机壳送料装置 (A casing material feeding unit for lighter makes ) 是由 乔俊叁 胡浪 陈亚琴 于 2020-12-08 设计创作，主要内容包括：本发明公开了一种用于打火机制造的机壳送料装置,涉及打火机制造技术领域。本发明包括主体结构、减震结构、限高结构、动力结构、变速结构、传送带结构以及传动结构,主体结构包括工作台、承载柱以及传动箱,工作台为中空结构,若干承载柱上表面均与工作台下表面焊接,传动箱为中空结构,传动箱一侧表面与工作台侧表面连接,减震结构包括连接柱、压块、减震弹簧以及承重管,若干连接柱一端分别与若干承载柱下表面连接。本发明通过设置电机连接第一皮带轮,第一皮带轮通过第一皮带和第二皮带轮传递到变速箱,变速箱将电机的高速旋转变为低速旋转,更适合传送带,再通过第一齿轮和第二齿轮啮合,将动力传递到主带轮上。(The invention discloses a casing feeding device for manufacturing a lighter, and relates to the technical field of lighter manufacturing. The invention comprises a main body structure, a damping structure, a height limiting structure, a power structure, a speed changing structure, a conveying belt structure and a transmission structure, wherein the main body structure comprises a workbench, bearing columns and a transmission case, the workbench is of a hollow structure, the upper surfaces of the bearing columns are welded with the lower surface of the workbench, the transmission case is of a hollow structure, one side surface of the transmission case is connected with the side surface of the workbench, the damping structure comprises connecting columns, pressing blocks, damping springs and bearing pipes, and one ends of the connecting columns are respectively connected with the lower surfaces of the bearing columns. According to the invention, the motor is connected with the first belt pulley, the first belt pulley is transmitted to the gearbox through the first belt and the second belt pulley, the gearbox changes the high-speed rotation of the motor into low-speed rotation, the transmission belt is more suitable for a conveying belt, and power is transmitted to the main belt pulley through the meshing of the first gear and the second gear.)

1. The utility model provides a casing material feeding unit for lighter manufacturing, includes major structure (100), shock-absorbing structure (200), limit for height structure (300), power structure (400), variable speed structure (500), conveyer belt structure (600) and drive structure (700), its characterized in that: the main body structure (100) comprises a workbench (110), bearing columns (120) and a transmission case (130), the workbench (110) is of a hollow structure, the upper surfaces of the bearing columns (120) are welded with the lower surface of the workbench (110), the transmission case (130) is of a hollow structure, one side surface of the transmission case (130) is connected with the side surface of the workbench (110), the damping structure (200) comprises connecting columns (210), pressing blocks (220), damping springs (230) and bearing pipes (240), one ends of the connecting columns (210) are respectively connected with the lower surfaces of the bearing columns (120), the other ends of the connecting columns (210) are respectively welded with the upper surfaces of the pressing blocks (220), the damping springs (230) are respectively arranged on the lower surfaces of the pressing blocks (220), and the damping springs (230) are arranged inside the bearing pipes (240), the height limiting structure (300) comprises connecting rods (310) and a height limiting plate (320), the lower surfaces of the connecting rods (310) are connected with the upper surface of the workbench (110), the lower surface of the height limiting plate (320) is connected with the upper surface of the connecting rods (310), the power structure (400) comprises a motor (410), a first transmission shaft (420), a first belt pulley (430) and a second belt pulley (440), the motor (410) is arranged inside the transmission case (130), the first transmission shaft (420) is in rotating fit with the motor (410), one side surface of the first belt pulley (430) is connected with one side surface of the first transmission shaft (420), the speed changing structure (500) comprises an input shaft (510), a gearbox (520), an output shaft (530), a first gear (540), a second gear (550) and a second transmission shaft (560), the input shaft (510) is in rotating fit with the second belt pulley (440), the input shaft (510) is arranged on one side surface of the input shaft (510), the output shaft (530) is in rotating fit with the input shaft (510), one side surface of the first gear (540) is connected with one side surface of the output shaft (530), the second gear (550) is meshed with the first gear (540), the conveyor belt structure (600) comprises a main belt wheel (610), a first auxiliary belt wheel (620), a second auxiliary belt wheel (630), a third auxiliary belt wheel (640) and a conveyor belt body (650), the main belt wheel (610) is in rotating fit with the second transmission shaft (560), the conveyor belt body (650) is in rotating fit with the main belt wheel (610), the transmission structure (700) comprises a third belt wheel (710), a fourth belt wheel (720), a fifth belt wheel (730), a sixth belt wheel (740), a second belt (750) and a third belt (760), and the third belt wheel (710) is in rotating fit with the main belt wheel (610), the second belt (750) is in rotating fit with a third belt pulley (710) and a fourth belt pulley (720) respectively, the third belt (760) is in rotating fit with the fourth belt pulley (720) and a fifth belt pulley (730) respectively, and the main belt pulley (610) is in rotating fit with the first driven belt pulley (620) through the third belt pulley (710) and the fourth belt pulley (720).

2. The feeding device of claim 1, wherein the main body structure (100) comprises a containing box (140), and the containing box (140) is disposed on the upper surface of the conveyor belt body (650).

3. The feeding device of a lighter casing as defined in claim 1, wherein the shock-absorbing structure (200) further comprises a plurality of fixing legs (250), and the upper surfaces of the plurality of fixing legs (250) are respectively welded to the lower surfaces of the plurality of load-bearing tubes (240).

4. The feeding device of the casing for lighter manufacturing according to claim 1, wherein the height limiting structure (300) further comprises a yield detector (330), and the yield detector (330) is disposed on the lower surface of the height limiting plate (320).

5. The chassis feed for lighter manufacturing as in claim 1, wherein the power structure (400) further comprises a first belt (450), the first belt (450) being rotatably engaged with the first pulley (430) and the second pulley (440), respectively.

6. The feeding device of claim 1, wherein a side surface of the second shaft (560) is connected to a side surface of the second gear (550).

7. The feeding device of claim 1, wherein the first driven pulley (620) and the second driven pulley (630) are rotatably engaged with each other via a fourth pulley (720) and a fifth pulley (730).

8. The housing feeding device for lighter manufacturing according to claim 1, wherein the transmission structure (700) further comprises a fourth belt (770), and the fourth belt (770) is rotatably engaged with the fifth pulley (730) and the sixth pulley (740), respectively.

Technical Field

The invention belongs to the technical field of lighter manufacturing, and particularly relates to a casing feeding device for lighter manufacturing.

Background

With the development of the times, the lighter has become an important daily article, the manufacture of the lighter is generally performed in batches, each batch of lighters is placed in a containing box, and finally becomes a finished product through the steps of assembly, inflation and the like, and the general feeding device of the shell is completed by using a conveying belt.

The casing feeding device for manufacturing the lighter in the prior art has the defects that a transmission structure is not perfect enough and stable transmission cannot be realized, a power structure is not perfect enough, a height limiting structure for feeding is not available and the like, and therefore the casing feeding device for manufacturing the lighter is provided.

Disclosure of Invention

The invention aims to provide a shell feeding device for manufacturing a lighter, which solves the problems that the existing transmission structure is not perfect enough and cannot stably transmit, the power structure is not perfect enough, and a height limiting structure for feeding is not available.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a shell feeding device for manufacturing a lighter, which comprises a main body structure, a damping structure, a height limiting structure, a power structure, a speed changing structure, a conveying belt structure and a transmission structure, wherein the main body structure comprises a workbench, bearing columns and a transmission case, the workbench is of a hollow structure, the upper surfaces of a plurality of the bearing columns are welded with the lower surface of the workbench, the transmission case is of a hollow structure, one side surface of the transmission case is connected with the side surface of the workbench, the damping structure comprises connecting columns, pressing blocks, damping springs and bearing pipes, one ends of the connecting columns are respectively connected with the lower surfaces of the bearing columns, the other ends of the connecting columns are respectively welded with the upper surfaces of the pressing blocks, the damping springs are respectively arranged on the lower surfaces of the pressing blocks, the damping springs are arranged in the bearing pipes, the height limiting structure comprises connecting rods and a height limiting plate, a plurality of the connecting rod lower surface all with workstation upper surface connection, limit for height board lower surface and connecting rod upper surface connection, power structure includes motor, first transmission shaft, first belt pulley, second belt pulley, the motor sets up inside the transmission case, first transmission shaft and motor normal running fit, first belt pulley side surface and first transmission shaft side surface are connected, speed change structure includes input shaft, gearbox, output shaft, first gear, second gear and second transmission shaft, input shaft and second belt pulley normal running fit, the input shaft sets up in input shaft side surface, output shaft and input shaft normal running fit, first gear side surface and output shaft side surface are connected, second gear and first gear intermeshing, the conveyer belt structure includes driving pulley, first driven pulley, The second driven belt wheel, the third driven belt wheel and the conveyor belt body are rotationally matched with the second transmission shaft, the conveyor belt body is rotationally matched with the main belt wheel, the transmission structure comprises a third belt wheel, a fourth belt wheel, a fifth belt wheel, a sixth belt wheel, a second belt and a third belt, the third belt wheel is rotationally matched with the main belt wheel, the second belt is rotationally matched with the third belt wheel and the fourth belt wheel respectively, the third belt is rotationally matched with the fourth belt wheel and the fifth belt wheel respectively, the main belt wheel is rotationally matched with the first driven belt wheel through the third belt wheel and the fourth belt wheel, the number of the bearing columns is four, the bearing columns bear the weight of the whole equipment, the number of the connecting columns is four, the number of the pressing blocks is four, the number of the damping springs is four, the number of the bearing pipes is four, the spliced pole cooperation briquetting exerts pressure to damping spring, and damping spring can compress and generate a power opposite with pressure and reduce the shaking force, and the quantity of connecting rod is two, and the connecting rod is connected limit for height board and workstation.

Preferably, the major structure is including holding the box, hold the box and set up in the conveyer belt body upper surface, hold the box and mainly hold a plurality of lighter casings, carry out the pay-off.

Preferably, shock-absorbing structure still includes fixed foot, and is a plurality of fixed foot upper surface welds with a plurality of bearing pipe lower surfaces respectively, and wherein, the quantity of fixed foot is four, and the bottom surface of fixed foot is great, can contact ground and bear, and is more firm.

Preferably, the height limiting structure further comprises a yield detector disposed on a lower surface of the height limiting plate, the yield detector being capable of counting each passing cassette, thereby counting all yields.

Preferably, the power structure still includes first belt, first belt respectively with first belt pulley and second belt pulley normal running fit, first belt cooperation first belt pulley and second belt pulley carry out the transmission to the power of motor.

Preferably, one side surface of the second transmission shaft is connected with one side surface of the second gear, and the second transmission shaft is mainly matched with the second gear and the main belt wheel to perform power transmission.

Preferably, the first driven belt wheel and the second driven belt wheel are matched in rotation through a fourth belt pulley (720) and a fifth belt pulley, and the first driven belt wheel is matched for transmission of the conveying belt body.

Preferably, the transmission structure further comprises a fourth belt, the fourth belt is in rotating fit with the fifth belt pulley and the sixth belt pulley respectively, and the fourth belt is used for rotating to transmit and is mainly matched with each belt pulley.

The invention has the following beneficial effects:

1. according to the invention, the motor is connected with the first belt pulley, the first belt pulley is transmitted to the gearbox through the first belt and the second belt pulley, the gearbox changes the high-speed rotation of the motor into low-speed rotation, the transmission belt is more suitable for a conveying belt, and power is transmitted to the main belt pulley through the meshing of the first gear and the second gear.

2. According to the invention, the main belt wheel is rotationally matched with the auxiliary belt wheels mainly through the third belt wheel, the fourth belt wheel, the fifth belt wheel and the sixth belt wheel, and the auxiliary belt wheels are matched to enable the conveying of the conveying belt to be more stable, so that the conveying belt can continue to move even if one belt wheel is damaged.

3. The invention provides limitation on the transmission height by arranging the connecting rod to connect the height limiting plate, avoids the phenomenon that an unknown object falls on the conveying belt to damage the conveying belt, and is also provided with the yield detector which can detect each passing machine shell.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

Fig. 1 is a schematic view of the overall structure of a feeding device of a casing for manufacturing a lighter according to the present invention;

fig. 2 is a schematic front view of a feeding device of a casing for manufacturing a lighter according to the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken at B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view of a portion of the invention at C of FIG. 3;

FIG. 6 is an enlarged view of a portion of FIG. 4 showing the present invention;

FIG. 7 is an enlarged view of a portion E of FIG. 1 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a body structure; 110. a work table; 120. a load bearing column; 130. a transmission case; 140. a containing box; 200. a shock-absorbing structure; 210. connecting columns; 220. briquetting; 230. a damping spring; 240. a load bearing tube; 250. a fixing leg; 300. a height limiting structure; 310. a connecting rod; 320. a height limiting plate; 330. a yield detector; 400. a power structure; 410. a motor; 420. a first drive shaft; 430. a first pulley; 440. a second pulley; 450. a first belt; 500. a speed change structure; 510. an input shaft; 520. a gearbox; 530. an output shaft; 540. a first gear; 550. a second gear; 560. a second drive shaft; 600. a conveyor belt structure; 610. a primary pulley; 620. a first secondary pulley; 630. a second secondary pulley; 640. a third secondary pulley; 650. a conveyor belt body; 700. a transmission structure; 710. a third belt pulley; 720. a fourth belt pulley; 730. a fifth belt pulley; 740. a sixth belt pulley; 750. a second belt; 760. a third belt; 770. a fourth belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "middle", "outer", "inner", "lower", "around", and the like, indicate orientations or positional relationships, are used merely to facilitate the description of the present invention and to simplify the description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be taken as limiting the present invention.

The first embodiment is as follows:

referring to fig. 1-7, the present invention is a feeding device for a lighter housing, including a main body structure 100, a damping structure 200, a height limiting structure 300, a power structure 400, a speed changing structure 500, a conveyor belt structure 600 and a transmission structure 700, wherein the main body structure 100 includes a workbench 110, a plurality of load-bearing pillars 120 and a transmission box 130, the workbench 110 is a hollow structure, the upper surfaces of the plurality of load-bearing pillars 120 are welded to the lower surface of the workbench 110, the transmission box 130 is a hollow structure, one side surface of the transmission box 130 is connected to the side surface of the workbench 110, the damping structure 200 includes connecting pillars 210, pressing blocks 220, damping springs 230 and bearing tubes 240, one ends of the plurality of connecting pillars 210 are respectively connected to the lower surfaces of the plurality of load-bearing pillars 120, the other ends of the plurality of connecting pillars 210 are respectively welded to the upper surfaces of the plurality of pressing, the plurality of damping springs 230 are disposed inside the plurality of bearing tubes 240, the height limiting structure 300 includes a connecting rod 310 and a height limiting plate 320, lower surfaces of the plurality of connecting rods 310 are all connected with an upper surface of the worktable 110, a lower surface of the height limiting plate 320 is connected with an upper surface of the connecting rod 310, the power structure 400 includes a motor 410, a first transmission shaft 420, a first belt pulley 430 and a second belt pulley 440, the motor 410 is disposed inside the transmission case 130, the first transmission shaft 420 is rotatably engaged with the motor 410, a side surface of the first belt pulley 430 is connected with a side surface of the first transmission shaft 420, the speed change structure 500 includes an input shaft 510, a transmission case 520, an output shaft 530, a first gear 540, a second gear 550 and a second transmission shaft 560, the input shaft 510 is rotatably engaged with the second belt pulley 440, the input shaft 510 is disposed on a side surface of the input shaft 510, the output shaft 530 is rotatably engaged with the input shaft 510, a, the second gear 550 is meshed with the first gear 540, the transmission belt structure 600 includes a main belt wheel 610, a first driven belt wheel 620, a second driven belt wheel 630, a third driven belt wheel 640 and a transmission belt body 650, the main belt wheel 610 is rotatably matched with the second transmission shaft 560, the transmission belt body 650 is rotatably matched with the main belt wheel 610, the transmission structure 700 includes a third belt wheel 710, a fourth belt wheel 720, a fifth belt wheel 730, a sixth belt wheel 740, a second belt 750 and a third belt 760, the third belt wheel 710 is rotatably matched with the main belt wheel 610, the second belt 750 is rotatably matched with the third belt wheel 710 and the fourth belt wheel 720 respectively, the third belt 760 is rotatably matched with the fourth belt wheel 720 and the fifth belt wheel 730 respectively, the main belt wheel 610 is rotatably matched with the first driven belt wheel 620 through the third belt wheel 710 and the fourth belt wheel 720, wherein the number of the bearing columns 120 is four, the bearing the weight of the whole equipment, the number of the connecting columns 210 is four, the number of the pressing blocks 220 is four, the number of the damping springs 230 is four, the number of the bearing tubes 240 is four, the connecting columns 210 are matched with the pressing blocks 220 to apply pressure to the damping springs 230, the damping springs 230 can be compressed to generate a force opposite to the pressure to reduce vibration force, the number of the connecting rods 310 is two, and the connecting rods 310 are used for connecting the height limiting plate 320 and the workbench 110.

Further, the main structure 100 includes a containing box 140, the containing box 140 is disposed on the upper surface of the conveyor belt body 650, and the containing box 140 mainly contains a plurality of lighter cases for feeding.

Further, shock-absorbing structure 200 still includes fixed foot 250, and a plurality of fixed foot 250 upper surface respectively with a plurality of bearing pipe 240 lower surface welding, wherein, fixed foot 250's quantity is four, and fixed foot 250's bottom surface is great, can contact ground and bear, and is more firm.

Further, the height limiting structure 300 further includes a yield detector 330, the yield detector 330 is disposed on the lower surface of the height limiting plate 320, and the yield detector 330 can calculate each passing cassette 140, thereby calculating all yields.

Further, the power structure 400 further includes a first belt 450, the first belt 450 is rotatably engaged with the first pulley 430 and the second pulley 440, respectively, and the first belt 450 is engaged with the first pulley 430 and the second pulley 440 to transmit the power of the motor 410.

Further, a side surface of the second transmission shaft 560 is connected to a side surface of the second gear 550, and the second transmission shaft 560 mainly cooperates with the second gear 550 and the primary pulley 610 to perform power transmission.

Further, the first slave pulley 620 and the second slave pulley 630 are rotatably engaged with each other via the fourth pulley 720 and the fifth pulley 730, and the first slave pulley 620 is engaged with the transmission belt body 650.

Further, the transmission structure 700 further includes a fourth belt 770, the fourth belt 770 is rotatably engaged with the fifth pulley 730 and the sixth pulley 740, respectively, and the fourth belt 770 is driven to rotate and is mainly engaged with each pulley.

Example two:

referring to fig. 1-7, the present invention is a feeding device for a lighter housing, and the using method thereof is as follows: when a person uses the machine, the machine shell is placed in the containing box 140, the motor 410 is opened, the motor 410 is connected with the first belt pulley 430, the first belt pulley 430 is transmitted to the gearbox 520 through the first belt 450 and the second belt pulley 440, the gearbox 520 changes the high-speed rotation of the motor 410 into the low-speed rotation, the motor is more suitable for a transmission belt, the first gear 540 is meshed with the second gear 550 to transmit power to the main belt pulley 610, the main belt pulley 610 mainly passes through the rotating matching among the third belt pulley 710, the fourth belt pulley 720, the fifth belt pulley 730, the sixth belt pulley 740 and all the auxiliary belt pulleys, the matching of the plurality of auxiliary belt pulleys can enable the transmission of the transmission belt to be more stable, even one belt pulley is damaged, the movement can be continued, the connecting rod 310 is connected with the height limiting plate 320 to limit the transmission height, the phenomenon that an unknown object falls on the transmission belt and damages the transmission belt is avoided, and the machine, each passing chassis may be detected.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.