A dosing cup device for a multi-column packaging machine
By designing an automatically adjustable feeding cup device, the problems of low production efficiency and low control accuracy caused by manual adjustment in traditional multi-row packaging machines are solved, and automated material loading control is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 上海欧朔智能包装科技有限公司
- Filing Date
- 2025-04-23
- Publication Date
- 2026-07-07
AI Technical Summary
The feeding cup system of traditional multi-row packaging machines requires manual adjustment, resulting in low production efficiency, wasted manpower, and low control precision.
A feeding cup device was designed, comprising a transmission system, a fixed plate, a guiding system, a scraper system, an adjusting transmission system, a metering structure, and a feeding system. The device utilizes a servo motor and gear transmission to automatically adjust the material loading.
It enables automatic adjustment of the material feeding amount of multi-row packaging machines, improving production efficiency and control accuracy, and reducing manpower waste.
Smart Images

Figure CN224466180U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of packaging equipment, specifically to a feeding measuring cup device suitable for multi-row packaging machines. Background Technology
[0002] In traditional multi-row packaging machines, the feeding measuring cup system is currently manually adjustable. This has several drawbacks: low efficiency, as the packaging machine requires repeated adjustments based on actual conditions, which negatively impacts overall production efficiency; wasted manpower, as multiple technicians are needed to coordinate each adjustment; and the precision of control is compromised due to the inherent errors in manual adjustment.
[0003] To address the aforementioned issues, we have made a series of improvements. Utility Model Content
[0004] The purpose of this invention is to provide a feeding measuring cup device suitable for multi-row packaging machines, so as to overcome the above-mentioned shortcomings and deficiencies of the prior art.
[0005] A feeding measuring cup device suitable for multi-row packaging machines includes: a transmission system, a fixed plate, a guiding system, a scraper system, an adjusting transmission system, a metering structure, a feeding system, and a frame. The transmission system is connected to the fixed plate, the fixed plate is connected to the adjusting transmission system, and the transmission system is connected to the metering structure. Both sides of the fixed plate are connected to the guiding system. The guiding system and the scraper system are fixed to the frame. The fixed plate is connected to the metering structure, and the adjusting transmission system is connected to the metering structure. A feeding system is located below the metering structure, and a storage bin is located above the metering structure.
[0006] The metering structure includes: an adjusting block, a lead screw nut, an adjusting lead screw, an adjusting handwheel, a pull rod handle, a metering fixing plate, a metering disc, and a material volume filling opening. The adjusting block is connected to the adjusting lead screw via the lead screw nut. The adjusting lead screw is connected to a driven spur gear. The adjusting lead screw is equipped with an adjusting handwheel, which is connected to the pull rod handle. The adjusting lead screw is connected to the metering disc, and the metering disc is connected to the metering fixing plate. The material volume filling opening is located on the metering disc, and the adjusting block is located above the material volume filling opening.
[0007] Furthermore, the transmission system includes: a feeding adjustment rod, a feeding driven gear, a feeding drive gear, a transmission shaft, a feeding servo motor, a swing arm, a joint bearing, and a T-shaped seat. The feeding adjustment rod is connected to the feeding driven gear, the feeding servo motor is connected to the transmission shaft through the feeding drive gear, the transmission shaft is connected to the swing arm, the swing arm is connected to the T-shaped seat through the joint bearing, and the T-shaped seat is connected to the fixed plate.
[0008] Furthermore, the fixing plate includes: a side fixing plate and a connecting fixing plate, the connecting fixing plate having side fixing plates on both sides, the connecting fixing plate being connected to a T-shaped seat, the connecting fixing plate being connected to an adjusting transmission system, and the side fixing plates being connected to a guiding system.
[0009] Furthermore, the guiding system includes: a guide shaft fixing seat, a guide shaft, a linear bearing, and a linear bearing mounting seat. The linear bearing mounting seat is connected to a side fixing plate and to a frame. The linear bearing is fixed on the linear bearing mounting seat and connected to the guide shaft. The guide shaft is connected to the frame via the guide shaft fixing seat.
[0010] Furthermore, the scraper system includes a front scraper and a rear scraper, which are connected to the frame via shafts.
[0011] Furthermore, the adjustment transmission system includes: an adjustment servo motor, a motor mounting plate, a driving bevel gear, a driven bevel gear, a driving spur gear, a driven spur gear, a driven spur gear shaft, a spline support plate, a ball spline, a bushing fixing plate, a connecting rod, a fixing block, an adjustment linear bearing, an adjustment guide shaft, and an adjustment fixing plate. The adjustment servo motor is connected to the motor mounting plate, the adjustment servo motor is connected to the driving bevel gear, the driving bevel gear is connected to the driven bevel gear, the driven bevel gear is mounted on the ball spline, the driving spur gear is connected to the ball spline, the driving spur gear is connected to the driven spur gear, the driven spur gear is connected to the driven spur gear shaft, the driven spur gear is connected to the adjustment screw, the ball spline is connected to the spline support plate, the ball spline is connected to the bushing fixing plate and the adjustment fixing plate via a nut, one end of the connecting rod is connected to the adjustment fixing plate, the other end of the connecting rod is connected to the fixing block, the fixing block is connected to the connecting fixing plate, the adjustment guide shaft is connected to the adjustment linear bearing, and the adjustment linear bearing is connected to the adjustment fixing plate.
[0012] Furthermore, the feeding system includes a feeding port and a feeding baffle, wherein the feeding port is located on the metering plate and the feeding baffle is located below the feeding port.
[0013] The beneficial effects of this utility model are:
[0014] Compared with traditional technology, this utility model achieves automatic adjustment of the filling amount by moving and adjusting the adjustment block. Attached image description:
[0015] Figure 1 This is a schematic diagram of the structure of this utility model.
[0016] Figure 2 This is a schematic diagram of the transmission system.
[0017] Figure 3This is a structural diagram of the guiding system and scraper system.
[0018] Figure 4 This is a schematic diagram of the structure for adjusting the transmission system.
[0019] Figure 5 A schematic diagram of the structure for adjusting the servo motor.
[0020] Figure 6 This is another structural diagram for adjusting the transmission system.
[0021] Figure 7 This is a schematic diagram of the metering structure.
[0022] Figure 8 This is another schematic diagram of the metering structure.
[0023] Figure label:
[0024] The transmission system 100, the feeding adjustment rod 110, the feeding driven gear 120, the feeding driving gear 130, the transmission shaft 140, the feeding servo motor 150, the swing arm 160, the spherical bearing 170, and the T-shaped seat 180.
[0025] Fixed plate 200, side fixed plate 210 and connecting fixed plate 220.
[0026] The guide system 300, the guide shaft holder 310, the guide shaft 320, the linear bearing 330, and the linear bearing mounting base 340.
[0027] Scraper system 400, front scraper 410 and rear scraper 420.
[0028] Adjustable transmission system 500, adjustable servo motor 510, motor mounting plate 520, driving bevel gear 530, driven bevel gear 540, driving spur gear 550, driven spur gear 560, driven spur gear shaft 570, spline support plate 580, ball spline 590, bushing fixing plate 5100, connecting rod 5110, fixing block 5120, adjustable linear bearing 5130, adjustable guide shaft 5140, and adjustable fixing plate 5150.
[0029] Metering structure 600, adjusting block 610, lead screw nut 620, adjusting lead screw 630, adjusting handwheel 640, pull rod handle 650, metering fixing plate 660, metering disc 670 and material volume filling opening 680.
[0030] The feeding system 700, the feeding port 710, the feeding baffle 720, the frame 800, and the storage bin 1. Detailed Implementation
[0031] The present invention will be further described below with reference to specific embodiments. It should be understood that the following embodiments are for illustrative purposes only and are not intended to limit the scope of the present invention.
[0032] Example 1
[0033] Figure 1 This is a schematic diagram of the structure of this utility model. Figure 2 This is a schematic diagram of the transmission system. Figure 3 This is a structural diagram of the guiding system and scraper system. Figure 4 This is a schematic diagram of the structure for adjusting the transmission system. Figure 5 A schematic diagram of the structure for adjusting the servo motor. Figure 6 This is another structural diagram for adjusting the transmission system. Figure 7 This is a schematic diagram of the metering structure. Figure 8 This is another schematic diagram of the metering structure.
[0034] like Figure 1-8 As shown, a feeding measuring cup device suitable for a multi-row packaging machine includes: a transmission system 100, a fixed plate 200, a guiding system 300, a scraper system 400, an adjusting transmission system 500, a metering structure 600, a feeding system 700, and a frame 800. The transmission system 100 is connected to the fixed plate 200, the fixed plate 200 is connected to the adjusting transmission system 500, and the transmission system 100 is connected to the metering structure 600. Both sides of the fixed plate 200 are connected to the guiding system 300. The guiding system 300 and the scraper system 400 are fixed on the frame 800. The fixed plate 200 is connected to the metering structure 600, the adjusting transmission system 500 is connected to the metering structure 600, the feeding system 700 is provided below the metering structure 600, and a storage bin 1 is provided above the metering structure 600.
[0035] The metering structure 600 includes: an adjusting block 610, a lead screw nut 620, an adjusting lead screw 630, an adjusting handwheel 640, a pull rod handle 650, a metering fixing plate 660, a metering disc 670, and a material volume filling opening 680. The adjusting block 610 is connected to the adjusting lead screw 630 via the lead screw nut 620. The adjusting lead screw 630 is connected to the driven spur gear 560. The adjusting handwheel 640 is provided on the adjusting lead screw 630 and is connected to the pull rod handle 650. The adjusting lead screw 630 is connected to the metering disc 670 and is connected to the metering fixing plate 660. The material volume filling opening 680 is located on the metering disc 670, and the adjusting block 610 is located above the material volume filling opening 680.
[0036] The transmission system 100 includes: a feeding adjustment rod 110, a feeding driven gear 120, a feeding drive gear 130, a transmission shaft 140, a feeding servo motor 150, a swing arm 160, a spherical bearing 170, and a T-shaped seat 180. The feeding adjustment rod 110 is connected to the feeding driven gear 120. The feeding servo motor 150 is connected to the transmission shaft 140 through the feeding drive gear 130. The transmission shaft 140 is connected to the swing arm 160. The swing arm 160 is connected to the T-shaped seat 180 through the spherical bearing 170. The T-shaped seat 180 is connected to the fixed plate 200.
[0037] The fixing plate 200 includes a side fixing plate 210 and a connecting fixing plate 220. The connecting fixing plate 220 has side fixing plates 210 on both sides. The connecting fixing plate 220 is connected to the T-shaped seat 180 and the adjusting transmission system 500. The side fixing plate 210 is connected to the guiding system 300.
[0038] The guiding system 300 includes: a guide shaft fixing seat 310, a guide shaft 320, a linear bearing 330, and a linear bearing mounting seat 340. The linear bearing mounting seat 340 is connected to the side fixing plate 210 and the frame 800. The linear bearing 330 is fixed on the linear bearing mounting seat 340 and connected to the guide shaft 320. The guide shaft 320 is connected to the frame 800 through the guide shaft fixing seat 310.
[0039] The scraper system 400 includes a front scraper 410 and a rear scraper 420, which are connected to the frame 800 via shafts.
[0040] The adjustment transmission system 500 includes: an adjustment servo motor 510, a motor mounting plate 520, a driving bevel gear 530, a driven bevel gear 540, a driving spur gear 550, a driven spur gear 560, a driven spur gear shaft 570, a spline support plate 580, a ball spline 590, a bushing fixing plate 5100, a connecting rod 5110, a fixing block 5120, an adjustment linear bearing 5130, an adjustment guide shaft 5140, and an adjustment fixing plate 5150. The adjustment servo motor 510 is connected to the motor mounting plate 520 and the driving bevel gear 530. The driving bevel gear 530 is connected to the driven bevel gear 540. The driven bevel gear 540 is mounted on the ball spline 590. Wheel 550 is connected to ball spline 590, driving spur gear 550 is connected to driven spur gear 560, driven spur gear 560 is connected to driven spur gear shaft 570, driven spur gear 560 is connected to adjusting screw 630, ball spline 590 is connected to spline support plate 580, ball spline 590 is connected to bushing fixing plate 5100 and adjusting fixing plate 5150 through nut, one end of connecting rod 5110 is connected to adjusting fixing plate 5150, the other end of connecting rod 5110 is connected to fixing block 5120, fixing block 5120 is connected to connecting fixing plate 220, adjusting guide shaft 5140 is connected to adjusting linear bearing 5130, adjusting linear bearing 5130 is connected to adjusting fixing plate 5150.
[0041] The feeding system 700 includes a feeding port 710 and a feeding baffle 720. The feeding port 710 is located on the metering plate 670, and the feeding baffle 720 is located below the feeding port 710.
[0042] The purpose of this invention is to perform metering and feeding within a multi-row packaging machine system. The method of achieving this function is as follows: a feeding drive gear 130 is fixed to a feeding servo motor 150; a feeding driven gear 120 is fixed to a transmission shaft 140; swing arms 160 are connected to both ends of the transmission shaft 140; spherical bearings 170 are connected to the ends of the swing arms 160; a feeding adjustment rod 110 connects the swing arms 160 and a T-shaped seat 180 via the spherical bearings 170; the T-shaped seat 180 is fixed to a connecting fixing plate 220; side fixing plates 210 are connected to both ends of the connecting fixing plate 220; fixing blocks 5120 are connected to both sides of the rear end of the connecting fixing plate 220; and adjusting fixing plates 5150 are connected to the side fixing plates 210. The side fixing plates 210 are connected to linear bearing mounting seats 340; a linear bearing 330 is fixed inside the linear bearing mounting seats; a guide shaft 320 is provided inside the linear bearing 330; and the guide shaft 320 is fixed to a guide shaft fixing seat 310.
[0043] During material feeding, the feeding servo motor 150 drives the feeding drive gear 130, which in turn drives the feeding driven gear 120. This causes the transmission shaft 140 to rotate the swing arms 160 at both ends. The feeding adjustment rod 110, the joint bearing 170, and the T-shaped seat 180, along with the metering structure 600, move left and right on the guide shaft 320. When the metering fixing plate 660 moves to the rear, the feeding port 710 on the metering fixing plate 660 connects with the opening of the storage bin 1 for material feeding, and at the same time, the rear scraper 420 falls. When the metering fixing plate 660 moves forward, the front scraper 410 falls and flattens the filled material. When it reaches the frontmost position, the feeding port 710 on the metering fixing plate 660 connects with the receiving tray and falls into the bag through the feeding pipe.
[0044] The innovation of this utility model lies in its ability to achieve automatic adjustment, and the specific process is as follows:
[0045] The servo motor 510 drives the drive bevel gear 530 to rotate, which in turn causes the driven bevel gear 540, fixed on the ball spline shaft 590, to rotate. This, in turn, causes the drive spur gear 550, also fixed on the ball spline shaft, to rotate, which in turn drives the driven spur gear 560 to mesh. The driven spur gear 560 then drives the adjusting screw 630 to rotate, which in turn drives the screw nut 620 to move linearly. Since the adjusting block 610 is fixed on the screw nut 620, the adjusting block 610 and the screw nut 620 move linearly together, thus adjusting the size of the filling opening and achieving automatic adjustment of the material filling amount. When the fixed plate 200 moves back and forth, since the fixed block 5120 is fixed on the fixed plate 200, the power is also transmitted through the spherical bearing 170 and the connecting rod 5110 to drive the ball spline 590 to move back and forth.
[0046] Compared with traditional technology, this utility model achieves automatic adjustment of the filling amount by moving and adjusting the adjustment block.
[0047] The specific embodiments of this utility model have been described above, but this utility model is not limited thereto. Various changes can be made to this utility model as long as they do not depart from its spirit.
Claims
1. A feeding measuring cup device suitable for multi-row packaging machines, characterized in that, include: The machine comprises a transmission system (100), a fixed plate (200), a guiding system (300), a scraper system (400), an adjusting transmission system (500), a metering structure (600), a feeding system (700), and a frame (800). The transmission system (100) is connected to the fixed plate (200), the fixed plate (200) is connected to the adjusting transmission system (500), and the transmission system (100) is connected to the metering structure (600). Both sides of the fixed plate (200) are connected to the guiding system (300). The guiding system (300) and the scraper system (400) are fixed on the frame (800). The fixed plate (200) is connected to the metering structure (600), and the adjusting transmission system (500) is connected to the metering structure (600). A feeding system (700) is provided below the metering structure (600), and a storage bin (1) is provided above the metering structure (600). The metering structure (600) includes: an adjusting block (610), a lead screw nut (620), an adjusting lead screw (630), an adjusting handwheel (640), a pull rod handle (650), a metering fixing plate (660), a metering disc (670), and a material volume filling opening (680). The adjusting block (610) is connected to the adjusting lead screw (630) via the lead screw nut (620), and the adjusting lead screw (630) is connected to the driven spur gear (560). The adjusting screw (630) is connected to the adjusting handwheel (640), which is connected to the pull rod handle (650). The adjusting screw (630) is connected to the metering disc (670), which is connected to the metering fixing plate (660). The material volume filling opening (680) is located on the metering disc (670), and an adjusting block (610) is located above the material volume filling opening (680).
2. The feeding measuring cup device for a multi-row packaging machine according to claim 1, characterized in that: The transmission system (100) includes: a feeding adjustment rod (110), a feeding driven gear (120), a feeding drive gear (130), a transmission shaft (140), a feeding servo motor (150), a swing arm (160), a spherical bearing (170), and a T-shaped seat (180). The feeding adjustment rod (110) is connected to the feeding driven gear (120). The feeding servo motor (150) is connected to the transmission shaft (140) through the feeding drive gear (130). The transmission shaft (140) is connected to the swing arm (160). The swing arm (160) is connected to the T-shaped seat (180) through the spherical bearing (170). The T-shaped seat (180) is connected to the fixed plate (200).
3. The feeding measuring cup device for a multi-row packaging machine according to claim 2, characterized in that: The fixing plate (200) includes: a side fixing plate (210) and a connecting fixing plate (220). The connecting fixing plate (220) has side fixing plates (210) on both sides. The connecting fixing plate (220) is connected to the T-shaped seat (180), the connecting fixing plate (220) is connected to the adjustment transmission system (500), and the side fixing plate (210) is connected to the guide system (300).
4. A feeding measuring cup device suitable for multi-row packaging machines according to claim 3, characterized in that: The guiding system (300) includes: a guide shaft fixing seat (310), a guide shaft (320), a linear bearing (330), and a linear bearing mounting seat (340). The linear bearing mounting seat (340) is connected to the side fixing plate (210) and the frame (800). The linear bearing (330) is fixed on the linear bearing mounting seat (340) and connected to the guide shaft (320). The guide shaft (320) is connected to the frame (800) through the guide shaft fixing seat (310).
5. A feeding measuring cup device suitable for multi-row packaging machines according to claim 1, characterized in that: The scraper system (400) includes a front scraper (410) and a rear scraper (420), which are connected to the frame (800) via shafts.
6. A feeding measuring cup device suitable for multi-row packaging machines according to claim 4, characterized in that: The adjustment transmission system (500) includes: an adjustment servo motor (510), a motor mounting plate (520), a driving bevel gear (530), a driven bevel gear (540), a driving spur gear (550), a driven spur gear (560), a driven spur gear shaft (570), a spline support plate (580), a ball spline (590), a bushing fixing plate (5100), a connecting rod (5110), a fixing block (5120), an adjustment linear bearing (5130), an adjustment guide shaft (5140), and an adjustment fixing plate (5150). The adjustment servo motor (510) is connected to the motor mounting plate (520), the adjustment servo motor (510) is connected to the driving bevel gear (530), the driving bevel gear (530) is connected to the driven bevel gear (540), the driven bevel gear (540) is mounted on the ball spline (590), and the driving spur gear (550) is mounted on the ball spline (590). 50) Connected to the ball spline (590), the driving spur gear (550) is connected to the driven spur gear (560), the driven spur gear (560) is connected to the driven spur gear shaft (570), the driven spur gear (560) is connected to the adjusting screw (630), the ball spline (590) is connected to the spline support plate (580), and the ball spline (590) is connected to the bushing fixing plate (5100) and the adjusting screw via a nut. A fixed plate (5150) is connected, one end of the connecting rod (5110) is connected to the adjusting fixed plate (5150), the other end of the connecting rod (5110) is connected to the fixed block (5120), the fixed block (5120) is connected to the connecting fixed plate (220), the adjusting guide shaft (5140) is connected to the adjusting linear bearing (5130), and the adjusting linear bearing (5130) is connected to the adjusting fixed plate (5150).
7. A feeding measuring cup device suitable for multi-row packaging machines according to claim 1, characterized in that: The feeding system (700) includes a feeding port (710) and a feeding baffle (720). The feeding port (710) is located on the metering plate (670), and the feeding baffle (720) is located below the feeding port (710).