阅读说明：本技术 转盘盘刷加料器 (Rotary disc brush feeder ) 是由 李文磊 方克朋 杨益服 于 2021-09-25 设计创作，主要内容包括：本发明创新涉及一种加料更加稳定的转盘盘刷加料器。这种转盘盘刷加料器包括有盘刷装置,所述盘刷装置包括旋转刷,其特征在于：旋转刷的下端位于托盘内,托盘内设有加料转盘,加料转盘与驱动加料转盘转动的转盘动力源传动连接,加料转盘的盘面上具有一圈以上沿圆周排列的泡孔,加料转盘的上方设有隔断组件,隔断组件将托盘内部隔出刷料区与非刷料区,旋转刷位于刷料区,托盘的盘面具有开槽口,托盘的开槽口位于非刷料区,托盘的开槽口使加料转盘的每一圈泡孔对应有一个下料点。这种转盘盘刷加料器打破了铝铝泡罩包装机不能用万能盘刷加料的限制,通过转盘结构实现稳定加料。(The invention relates to a turntable disc brush feeder with more stable feeding. This kind of carousel dish brush charging means is including a dish brush device, a dish brush device is including rotatory brush, its characterized in that: the lower extreme of rotatory brush is located the tray, be equipped with reinforced carousel in the tray, reinforced carousel is connected with the transmission of the reinforced carousel pivoted carousel power supply of drive, the bubble of arranging along the circumference more than having the round in the quotation of reinforced carousel, the top of reinforced carousel is equipped with cuts off the subassembly, cut off the subassembly with the tray inside and separate out brush material district and non-brush material district, rotatory brush is located the brush material district, the quotation of tray has the fluting, the fluting of tray is located non-brush material district, the fluting of tray makes each circle of bubble pore pair of reinforced carousel have a unloading point. The turntable disc brush feeder breaks the limitation that an aluminum-aluminum blister packaging machine cannot feed materials by using a universal disc brush, and realizes stable feeding through a turntable structure.)

1. Carousel dish brush charging means, including the dish brush device, the dish brush device is including rotatory brush (2), its characterized in that: the lower end of the rotary brush (2) is positioned in a tray (4), a charging turntable (3) is arranged in the tray (4), the rotary brush (2) is positioned above the charging turntable (3), the charging turntable (3) is in transmission connection with a turntable power source (1) for driving the charging turntable (3) to rotate, more than one circle of foam holes (30) arranged along the circumference are arranged on the disc surface of the charging turntable (3), a partition component is arranged above the charging turntable (3), the partition component partitions the interior of the tray (4) into a material brushing area (41) and a material non-brushing area (42), the rotary brush (2) is positioned in a brushing area (41), the surface of the tray (4) is provided with a slotted opening (40), the slotted opening (40) of the tray (4) is positioned in a non-brushing area (42), the slotted opening (40) of the tray (4) enables each circle of the foam holes (30) of the charging turntable (3) to correspond to one discharging point.

2. The turntable disc brush feeder of claim 1, wherein: the partition assembly comprises a rolling brush (6) and a material baffle (5), and the rolling brush (6) is in transmission connection with a rolling brush power source (60) for driving the rolling brush (6) to rotate.

3. The turntable disc brush feeder of claim 2, wherein: the rolling brush (6) is obliquely arranged.

4. The turntable disc brush feeder of claim 1, wherein: a material receiving pipe (7) is arranged above the tray (4), the material receiving pipe (7) is connected with a horizontal vibration hopper (8), the horizontal vibration hopper (8) is connected with a horizontal vibrator, and the horizontal vibration hopper (8) is communicated with a feed hopper (9).

5. The turntable disc brush feeder of claim 4, wherein: the material control photoelectric eye (10) is arranged in the tray (4), the material control photoelectric eye (10) is electrically connected with a PLC, and the PLC controls the horizontal vibrator to work.

Technical Field

The invention relates to bubble cap plate packaging equipment, in particular to a feeder for adding granular materials into a bubble cap plate.

Background

The aluminum-aluminum blister packaging machine is mainly used for automatic packaging equipment of solid tablets or capsules, and the technological process comprises the steps of arranging and forming a blister by a cold aluminum film according to a certain format, adding a material to be packaged into a blister hole, covering a layer of aluminum foil on the blister hole for heating and sealing, printing a batch number, and punching to a proper size. Because aluminium shaping bubble cap is because tensile than big, for preventing that shaping bubble cap material from breaking, combine the size calculation bubble cap safety tensile size of tablet, the bubble cap size that reachs can be big for the tablet, use the direct brush of universal disc brush feeder to expect can lead to in many grains get into same bubble cap, on the other hand, in universal disc brush feeder, the brush can continuously stir the tablet, at this in-process, aluminium bubble cap also probably is extruded because of the reaction of tablet and is out of shape. The special feeder has certain requirements on materials, and some special-shaped tablets cannot be used.

Disclosure of Invention

In view of the defects in the prior art, the invention innovatively provides the turntable disc brush feeder with more stable feeding.

This kind of carousel dish brush charging means is including a dish brush device, a dish brush device is including rotatory brush, its characterized in that: the lower extreme of rotatory brush is located the tray, be equipped with reinforced carousel in the tray rotatory brush is located the top of reinforced carousel, reinforced carousel is connected with the transmission of the reinforced carousel pivoted carousel power supply of drive, the cell of arranging along the circumference more than having the round in the quotation of reinforced carousel, the top of reinforced carousel is equipped with cuts off the subassembly, cut off the subassembly with the inside brush material district and the non-brush material district that separates of tray, rotatory brush is located the brush material district, the quotation of tray has the notch, the notch of tray is located the non-brush material district, the notch of tray makes each circle of bubble pore pair of reinforced carousel have a unloading point.

The partition assembly comprises a rolling brush and a material baffle plate, and the rolling brush is in transmission connection with a rolling brush power source for driving the rolling brush to rotate.

The rolling brush is obliquely arranged.

The material receiving pipe is arranged above the tray and connected with the horizontal vibrating hopper, the horizontal vibrating hopper is connected with the horizontal vibrator, and the horizontal vibrating hopper is communicated with the feeding hopper.

The material control photoelectric eye is arranged in the tray, the material control photoelectric eye is electrically connected with the PLC, and the PLC controls the horizontal vibrator to work.

According to the turntable disc brush feeder provided by the invention, the limitation that an aluminum-aluminum blister packaging machine cannot feed materials by using a universal disc brush is broken, and stable feeding is realized through a turntable structure.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a material transfer diagram of the present invention;

FIG. 3 is a top view (partially in section) of the tray and the loading carousel.

Detailed Description

As shown in fig. 1, blister card a is positioned on the platform and the carousel brush feeder applies particulate material to blister a0 on blister card a.

As shown in fig. 1, the turntable disc brush feeder comprises a disc brush device, the disc brush device comprises a rotary brush 2, the lower end of the rotary brush 2 is positioned in a tray 4, a feeding turntable 3 is arranged in the tray 4, the rotary brush 2 is positioned above the feeding turntable 3, the feeding turntable 3 is in transmission connection with a turntable power source 1 for driving the feeding turntable 3 to rotate, and the turntable power source 1 rotates in the tray 4 by the driving of the turntable power source 1; more than one circle (including one circle) of foam holes 30 arranged along the circumference are arranged in the disc surface of the charging turntable 3, a partition component is arranged above the charging turntable 3, as shown in fig. 3, the partition component separates the inside of the tray 4 into a material brushing area 41 and a material non-brushing area 42, the rotary brush 2 is positioned in the material brushing area 41, the disc surface of the tray 4 is provided with a notch 40, the notch 40 of the tray 4 is positioned in the material non-brushing area 42, and the notch 40 of the tray 4 enables each circle of foam holes 30 of the charging turntable 3 to correspond to a discharging point.

The working principle of the rotary disc brush feeder is as follows: the particle materials are added into a material brushing area 41 of the tray 4, the rotary brush 2 rotates (can be driven by a turntable power source 1 or can be driven by an independent power source), the rotary brush 2 brushes the particle materials into the foam holes 30 of the charging turntable 3, the particle materials in the foam holes 30 cannot fall off due to the dragging of the tray 4, the particle materials which do not enter the foam holes 30 are kept in the material brushing area 41 and cannot enter a non-material brushing area 42 along with the continuous rotation of the charging turntable 3 due to the obstruction of the obstruction component, the particle materials which do not enter the foam holes 30 of the charging turntable 3 are kept in the material brushing area 41 and cannot enter the non-material brushing area 42, and the groove opening 40 of the tray 4 is positioned in the non-material brushing area 42, so that the particle materials in the foam holes 30 of the tray 3 fall off from the groove opening 40 of the tray 4 and enter a blister A0 of a blister plate A below; if the surface of the charging rotor 3 has a plurality of circles of circumferentially arranged foam holes 30, the slotted opening 40 of the tray 4 enables a discharging point to be corresponding to each circle of foam holes 30 of the charging rotor 3. For example, in fig. 3, the feeding turntable 3 has four circles of foam holes 30, and the slotted opening 40 of the tray 4 enables the four circles of foam holes 30 of the feeding turntable 3 to have four discharging points, which correspond to four rows of blisters a0 on the blister board a, that is, each discharging point corresponds to a row of blisters a0 of the blister board a. By feeding blister card a through such a carousel brush feeder, it is ensured that only one particulate material is placed per blister a0 on blister card a.

The partition assembly plays a role of partition, and in order to prevent particle materials from being stacked at the partition position, the partition assembly comprises a rolling brush 6 and a material baffle plate 5, wherein the rolling brush 6 and the material baffle plate 5 are connected into a partition, and the rolling brush 6 is in transmission connection with a rolling brush power source 60 for driving the rolling brush 6 to rotate. The rolling brush 6 is rotated by the driving of the rolling brush power source 60, and the brush hairs of the rolling brush 6 brush the particulate materials back to the area of the brushing area 41, so that the particulate materials are not stacked at the rolling brush 6. Of course, the partition assembly may be a single roller brush 6 or a single striker plate 5.

In order to allow the granular material in the brushing area 41 to return to the material feeding position, the rolling brush 6 of the present invention is obliquely arranged. Due to the inclined arrangement of the roller brush 6, the particulate material returns to the starting position of the charging along the direction of the arrow in fig. 3, so that the particulate material moves forward (counterclockwise in fig. 3) with the charging turntable 3, and in such a circulation, the particulate material does not stack up at a certain position, but flows to cover the brushing area 41.

In order to realize automatic feeding of the disc brush device, a material receiving pipe 7 is arranged above the tray 4, the material receiving pipe 7 is connected with a horizontal vibrating hopper 8, the horizontal vibrating hopper 8 is connected with a horizontal vibrator, and the horizontal vibrating hopper 8 is communicated with a feeding hopper 9. During feeding, the material is manually added into the feed hopper 9, the horizontal vibrator works to drive the horizontal vibrating hopper 8 to vibrate, so that the material enters the horizontal vibrating hopper 8 from the feed hopper 9, the horizontal vibrating hopper 8 vibrates the material into the material receiving pipe 7, and the material falls into the tray 4 through the material receiving pipe 7.

In order to realize material control, a material control photoelectric eye 10 is arranged in the tray 4, the material control photoelectric eye 10 is electrically connected with a PLC, and the PLC controls the horizontal vibrator to work. When the material control photoelectric eye 10 detects that the particle materials in the tray 4 are lower than the set height, the material control photoelectric eye 10 transmits signals to the PLC, and the PLC controls the horizontal vibrator to vibrate to enable the materials to continuously enter the tray 4.