CN209939758U - Oral liquid bottle conveying device - Google Patents

Abstract

An oral liquid bottle conveying device comprises a feeding platform, wherein a first conveying grooved wheel is arranged at a discharge port of the feeding platform, the first conveying grooved wheel, a transmission mechanism, a liquid injection conveying grooved wheel, a second conveying grooved wheel, an upper cover conveying grooved wheel, a conveying cover conveying grooved wheel, a gland conveying grooved wheel and a third conveying grooved wheel are sequentially tangent and used for clamping and conveying an oral liquid bottle, and the output end of the third conveying grooved wheel is connected with the discharge platform; the first conveying grooved wheel, the liquid injection conveying grooved wheel, the second conveying grooved wheel, the upper cover conveying grooved wheel, the gland conveying grooved wheel and the third conveying grooved wheel respectively comprise flexible grooved wheels, and a rigid lining plate is fixed outside the flexible grooved wheels. The utility model provides a pair of oral liquid bottle conveyor can carry out the conveying in succession to the oral liquid bottle, improves work efficiency.

Description

Oral liquid bottle conveying device

Technical Field

The utility model relates to an oral liquid processing and production equipment, in particular to an oral liquid bottle conveying device.

Background

Before filling, the medicinal oral liquid needs to be washed and dried in an oral liquid bottle, and then is conveyed and filled. The oral liquid is filled and then output through the upper cover. Because the existing oral liquid bottles are thin and small, the oral liquid bottles are broken frequently during the conveying process.

Disclosure of Invention

The utility model aims to solve the technical problem that an oral liquid bottle conveyor is provided, can reduce the broken condition of oral liquid bottle in the data send process.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

an oral liquid bottle conveying device comprises a feeding platform, wherein a first conveying grooved wheel is arranged at a discharge port of the feeding platform, and the edge of the first conveying grooved wheel is tangent to one end of a transmission mechanism and clamps and conveys an oral liquid bottle; the other end of the transmission mechanism is tangent to the liquid injection conveying grooved wheel and clamps and conveys the oral liquid bottle, the liquid injection conveying grooved wheel is tangent to the second conveying grooved wheel and clamps and conveys the oral liquid bottle, the second conveying grooved wheel, the upper cover conveying grooved wheel and the cover conveying grooved wheel are sequentially tangent and clamp and convey the oral liquid bottle, the cover conveying grooved wheel is tangent to the gland conveying grooved wheel and clamps and conveys the oral liquid bottle, the gland conveying grooved wheel is tangent to the third conveying grooved wheel and clamps and conveys the oral liquid bottle, and the output end of the third conveying grooved wheel is connected with the discharging platform; the first conveying grooved wheel, the liquid injection conveying grooved wheel, the second conveying grooved wheel, the upper cover conveying grooved wheel, the gland conveying grooved wheel and the third conveying grooved wheel respectively comprise flexible grooved wheels, and a rigid lining plate is fixed outside the flexible grooved wheels.

The transmission mechanism is a chain transmission mechanism, supporting blocks are arranged on chain links of the chain transmission mechanism at intervals, and clamping grooves are formed in the supporting blocks.

The support block comprises a flexible block in the middle, and rigid blocks are arranged at the upper end and the lower end of the flexible block.

The flexible block and the flexible grooved wheel are both made of tetrafluoro materials, and the rigid block and the rigid lining plate are both made of stainless steel plates.

The utility model relates to an oral liquid bottle conveying device, which can complete the conveying of oral liquid bottles by tangency between a conveying grooved wheel and utilizing a guardrail plate to carry out spacing support and provide continuous conveying power for liquid injection, a lower cover and a gland; through setting up the conveying sheave that constitutes by tetrafluoro sheave and stainless steel welt, can improve wear-resisting characteristic greatly, be favorable to prolonging the life of equipment, reduce cost of maintenance, also indirectly improve work efficiency.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a top view of the present invention.

Fig. 2 is a top view of the front portion of the present invention.

Fig. 3 is a top view of the rear portion of the present invention.

Fig. 4 is a schematic structural diagram of various conveying sheaves in the present invention.

Fig. 5 is a schematic structural diagram of various conveying sheaves in the present invention.

Fig. 6 is a schematic view of a partial structure of the middle transmission mechanism of the present invention.

Fig. 7 is a schematic structural diagram of the middle supporting block of the present invention.

Fig. 8 is a schematic view of the movement of each transmission sheave of the present invention.

Fig. 9 is a schematic diagram of the movement states of the upper cover conveying sheave and the cover feeding conveying sheave of the present invention.

In the figure: the feeding device comprises a feeding platform 1, a first conveying sheave 2, a transmission mechanism 3, a liquid injection conveying sheave 4, a second conveying sheave 5, an upper cover conveying sheave 6, a cover conveying sheave 7, a gland conveying sheave 8, a third conveying sheave 9, a discharging platform 10, a flexible sheave 11, a rigid lining plate 12, a chain transmission mechanism 13, a support block 14, a clamping groove 15, a flexible block 16, a rigid block 17, a first belt pulley 2-1, a second belt pulley 3-1, a third belt pulley 3-2, a fourth belt pulley 5-1, a first transmission gear 5-2, a second transmission gear 6-1, a third transmission gear 7-1, a fifth belt pulley 7-2, a sixth belt pulley 9-1, a reversing wheel 18, a guardrail plate 19 and an oral liquid bottle 20.

Detailed Description

As shown in fig. 1 to 4, an oral liquid bottle conveying device includes a feeding platform 1, a first transmission sheave 2 is provided at a discharge port of the feeding platform 1, a semicircular bayonet is uniformly provided in a circumferential direction on the first transmission sheave 2, one side of the first transmission sheave 2 is tangent to one end of a transmission mechanism 3, the other end of the transmission mechanism 3 is tangent to an injection transmission sheave 4, the injection transmission sheave 4 is tangent to a second transmission sheave 5, the second transmission sheave 5, an upper cover transmission sheave 6 and a transmission cover transmission sheave 7 are sequentially arranged side by side and tangent to each other, a gland transmission sheave 8 is provided at one side of the transmission cover transmission sheave 7, the gland transmission sheave 8 is tangent to the transmission cover transmission sheave 7 and a third transmission sheave 9, and an output end of the third transmission sheave 9 is connected to a discharge platform 10.

The first conveying sheave 2, the liquid injection conveying sheave 4, the second conveying sheave 5, the upper cover conveying sheave 6, the cover conveying sheave 7, the gland conveying sheave 8 and the third conveying sheave 9 all comprise wheel bodies, semicircular grooves are formed in the circumferential direction of the wheel bodies, and the maximum diameter of each semicircular groove is matched with the outer diameter of the oral liquid bottle. The outer sides of the first transmission grooved wheel 2, the transmission mechanism 3, the liquid injection transmission grooved wheel 4, the second transmission grooved wheel 5, the upper cover transmission grooved wheel 6, the cover transmission grooved wheel 7, the gland transmission grooved wheel 8 and the third transmission grooved wheel 9 are respectively provided with a guardrail plate 19 along the movement track direction of the oral liquid bottle, the guardrail plates 19 are fixed on a supporting platform (not shown in the figure) through a support column, the cross section of each guardrail plate 19 is L-shaped, and the oral liquid bottle 20 can be limited in the semicircular groove by the guardrail plates 19 and can be transmitted forwards along with the movement of the grooved wheels.

The transmission mechanism 3 is a chain transmission mechanism 13, support blocks 14 are arranged on chain links of the chain transmission mechanism 13 at intervals, and clamping grooves 15 are formed in the support blocks 14. The chain drive 13 mainly comprises a front and a rear sprocket and a chain on the sprocket.

In order to realize the rotation of each transmission sheave and the chain wheel, each transmission wheel is coaxially connected with a rotating shaft, and the rotating shaft vertically penetrates through the supporting platform and is installed in the case through a bearing.

In addition, a first belt pulley 2-1 is coaxially arranged on the first transmission sheave 2, a second belt pulley 3-1 and a third belt pulley 3-2 are coaxially arranged with a chain wheel of the transmission mechanism 3, respectively, a reversing wheel 18 is further arranged in the case, the belts are wound around the first belt pulley 2-1, the second belt pulley 3-1, the third belt pulley 3-2 and the reversing wheel 18, and the first belt pulley 2-1 is enabled to rotate clockwise, and the second belt pulley 3-1 and the third belt pulley 3-2 are enabled to rotate anticlockwise. The reversing wheel 18 is here driven by a first electric motor.

A seventh belt pulley is coaxially arranged with the third belt pulley 3-2, a fourth belt pulley 5-1 is coaxially arranged with the second transmission sheave 5, the belt is wound around the seventh belt pulley and the fourth belt pulley 5-1, and when the third belt pulley 3-2 rotates anticlockwise, the fourth belt pulley 5-1 also rotates anticlockwise. A first transmission gear 5-2 is coaxially arranged with the fourth belt pulley 5-1, a second transmission gear 6-1 is coaxially arranged with the upper cover transmission grooved pulley 6, a third transmission gear 7-1 is coaxially arranged with the cover conveying grooved pulley 7, the first transmission gear 5-2, the second transmission gear 6-1 and the third transmission gear 7-1 are meshed with each other, when the first transmission gear 5-2 is the first transmission gear 5-2, the second transmission gear 6-1 rotates clockwise, and the third transmission gear 7-1 rotates anticlockwise. A fifth belt pulley 7-2 is arranged coaxially with the third transmission gear 7-1, a sixth belt pulley 9-1 is arranged coaxially with the third transmission sheave 9, and a belt is wound on the fifth belt pulley 7-2 and the sixth belt pulley 9-1 to enable the sixth belt pulley 9-1 to rotate anticlockwise.

I.e. here the primary pulley 2 remains clockwise in the same direction of rotation as the primary pulley 2-1; the second belt pulley 3-1 and the third belt pulley 3-2 rotate in the same direction as the chain wheel in the chain transmission mechanism 13 and rotate anticlockwise; the second transmission grooved pulley 5 and the fourth belt pulley 5-1 rotate anticlockwise in the same direction; the upper cover transmission grooved wheel 6 and the second transmission gear 6-1 rotate clockwise in the same direction; the cover feeding transmission grooved wheel 7 and the third transmission gear 7-1 rotate anticlockwise; the third transfer sheave 9 and the sixth pulley 9-1 are both counter-clockwise turning in the same direction of rotation.

In addition, the liquid injection conveying sheave 4 and the gland conveying sheave 8 are driven by independent motors.

Here, the rotation speed of the tangential transmission sheaves and sprockets is ensured to be the same, i.e. the actual dimensions of the transmission sheaves and sprockets are based on the actual design and are only shown schematically.

In the conveying device, each conveying sheave adopts an inner flexible sheave 11, and rigid lining plates 12 are fixed at the upper end and the lower end of the flexible sheave 11. The flexible grooved pulley 11 is made of a tetrafluoro material, and the rigid liner plate 12 is made of a stainless steel plate. The traditional method of adopting flexible materials to carry out transmission easily causes abrasion, needs frequent replacement and increases cost, and the oral liquid bottle is easily broken due to too strong rigidity of all steel plates. The rigid lining plates with the thickness of about 3mm-5mm are arranged on the two sides of the conventional flexible grooved pulley 11, so that the easy-to-wear part of the edge of the original flexible grooved pulley can be replaced by the rigid lining plates, the wear is reduced, and the service life of the conveying grooved pulley can be prolonged.

Similarly, the support block 14 is redesigned, the support block 14 comprises a middle flexible block 16, rigid blocks 17 are arranged at the upper end and the lower end of the flexible block 16, the flexible block 16 is also made of tetrafluoro material, and the rigid blocks 17 are made of stainless steel plates. This construction also ensures that the transmission 3 has wear-resistant properties.

The working principle and the process are as follows: the oral liquid bottle enters the feeding platform 1 after being cleaned and dried, and the oral liquid bottle continuously enters the feeding platform 1 in the front end process, so the oral liquid bottle at the front end of a material port of the feeding platform 1 can be pushed to the first transmission grooved wheel 2, the oral liquid bottle enters the circular clamping groove of the first transmission grooved wheel 2 under the action of extrusion force, the oral liquid bottle enters the transmission mechanism 3 along with the clockwise rotation of the first transmission grooved wheel 2 and the supporting limit of the guardrail plate 19, and is transmitted rightwards, when passing through the liquid injection transmission grooved wheel 4, the oral liquid bottle is injected into the oral liquid bottle by the liquid injection device above the liquid injection transmission grooved wheel 4 and is transmitted to the second transmission grooved wheel 5, and when passing through the upper cover transmission grooved wheel 6, the lower cover mechanism above the upper cover transmission grooved wheel 6 covers the oral liquid bottle. The oral liquid bottle is conveyed forwards continuously, sequentially passes through a cover conveying grooved wheel 7 and a gland conveying grooved wheel 8, the oral liquid bottle cover is pressed on the oral liquid bottle through a gland mechanism at the gland conveying grooved wheel 8, and then the oral liquid bottle cover is conveyed out to a discharging platform 10 through a third conveying grooved wheel 9 to finish conveying.

Claims (4)

1. An oral liquid bottle conveying device is characterized in that: the oral liquid bottle conveying device comprises a feeding platform (1), wherein a first conveying grooved wheel (2) is arranged at a discharge port of the feeding platform (1), and the edge of the first conveying grooved wheel (2) is tangent to one end of a transmission mechanism (3) and clamps and conveys an oral liquid bottle; the other end of the transmission mechanism (3) is tangent to the liquid injection conveying grooved wheel (4) and clamps and conveys the oral liquid bottle, the liquid injection conveying grooved wheel (4) is tangent to the second conveying grooved wheel (5) and clamps and conveys the oral liquid bottle, the second conveying grooved wheel (5), the upper cover conveying grooved wheel (6) and the cover conveying grooved wheel (7) are sequentially tangent and clamps and conveys the oral liquid bottle, the cover conveying grooved wheel (7) is tangent to the gland conveying grooved wheel (8) and clamps and conveys the oral liquid bottle, the gland conveying grooved wheel (8) is tangent to the third conveying grooved wheel (9) and clamps and conveys the oral liquid bottle, and the output end of the third conveying grooved wheel (9) is connected with the discharging platform (10); the first conveying sheave (2), the liquid injection conveying sheave (4), the second conveying sheave (5), the upper cover conveying sheave (6), the cover conveying sheave (7), the gland conveying sheave (8) and the third conveying sheave (9) all comprise flexible sheaves (11), and rigid lining plates (12) are fixed outside the flexible sheaves (11).

2. The oral liquid bottle delivery device according to claim 1, wherein: the transmission mechanism (3) is a chain transmission mechanism (13), supporting blocks (14) are arranged on chain links of the chain transmission mechanism (13) at intervals, and clamping grooves (15) are formed in the supporting blocks (14).

3. The oral liquid bottle delivery device according to claim 2, wherein: the support block (14) comprises a flexible block (16) in the middle, and rigid blocks (17) are arranged at the upper end and the lower end of the flexible block (16).

4. A liquid oral bottle delivery apparatus as in claim 3, wherein: the flexible block (16) and the flexible grooved wheel (11) are both made of tetrafluoro materials, and the rigid block (17) and the rigid lining plate (12) are both made of stainless steel plates.

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