CN210175307U - Slice counter - Google Patents

Abstract

The utility model relates to a mechanical equipment, especially a tablet counting machine, it is used for packing the tablet product, can effectively prevent dust in order to improve the bearing system security, include: a vibration motor, comprising: a motor upper and lower bearing, a vertically extending motor shaft rotatably supported therebetween; the motor baffle is provided with a first central through hole and an upper surface extending downwards along the radial direction, covers above the vibration motor, is sleeved on the motor shaft by the first central through hole and is fixed and rotates along with the rotation of the motor shaft; the dustproof structure is positioned below the motor retaining sheet, covers the upper part of the upper bearing of the motor, is fixed on the motor shaft and rotates along with the rotation of the motor shaft; an output structure, comprising: an output housing; an output shaft mounted at least partially within the output housing and connected to the motor shaft; a residual powder outlet which is positioned on the upper surface of the output casing and is communicated to the outer edge of the motor baffle plate through a guide structure; a dust suction device connected to or provided to the residual powder outlet.

Description

Slice counter

Technical Field

The utility model relates to a mechanical equipment, especially a wafer counter.

Background

In the prior art pharmaceutical manufacturing, tablet products need to be packaged using several tablets. Since the produced product is a plain tablet product without coating and smoothing, a trace amount of medicinal powder is produced during product transportation. During packaging, the tablets are introduced into the particular container by vibration, which is accomplished by a motor driving a motor shaft. Bearings are arranged in the motor shaft and the vibration motor, and a gap is formed between the shaft and the bearing seat. When the motor drives the motor shaft to rotate, the medicinal powder can enter the bearing through the gap, so that the bearing breaks down. In addition, three sides of the output structure of the system are in closed operation, so that dust is easy to collect.

SUMMERY OF THE UTILITY MODEL

According to the utility model discloses an embodiment provides a be used for packing tablet product, can effectively prevent dust in order to improve the security of bearing system.

According to the utility model discloses an embodiment provides a tablet counting machine for pack tablet product, include:

a vibration motor, comprising: a motor upper bearing, a motor lower bearing, a vertically extending motor shaft rotatably supported between the motor upper bearing and the motor lower bearing;

a motor baffle having a first central through hole and an upper surface extending downward from the first central through hole in a radial direction and covering above the vibration motor, the motor baffle being fixed to the motor shaft by the first central through hole and rotating as the motor shaft rotates;

a dustproof structure which is positioned below the motor baffle, covers the upper part of the upper bearing of the motor, is fixed on the motor shaft and rotates along with the rotation of the motor shaft;

an output structure, comprising: an output housing; an output shaft mounted at least partially within the output housing and connected to the motor shaft; a residual powder outlet located on the upper surface of the output housing and communicated to the outer edge of the motor baffle through a guide structure;

a dust suction device connected to or provided to the residual powder outlet.

Preferably, the first and second sensors are, in any embodiment,

the motor blocking piece is in a circular umbrella shape.

Preferably, the first and second sensors are, in any embodiment,

the dustproof structure is provided with a second central through hole and an upper surface extending downwards from the second central through hole in the radial direction, and the dustproof structure is sleeved on the motor shaft through the second central through hole and is fixed and rotates along with the rotation of the motor shaft.

Preferably, the first and second sensors are, in any embodiment,

the dustproof structure has a circular umbrella shape.

Preferably, the first and second sensors are, in any embodiment,

the dust extraction includes a vacuum suction device.

Preferably, the first and second sensors are, in any embodiment,

the guide structure is defined by a dam structure protruding from an upper surface of the output housing.

Through the embodiment of the utility model provides a several mascerating machines for pack the tablet product, can effectively prevent dust in order to improve bearing system's security.

Drawings

Fig. 1 is a schematic structural diagram of a slice counter according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

According to the utility model discloses an embodiment provides a be used for packing tablet product, can effectively prevent dust in order to improve the security of bearing system.

According to the utility model discloses an embodiment provides a tablet counting machine for pack tablet product, include:

a vibration motor, comprising: a motor upper bearing, a motor lower bearing, a vertically extending motor shaft rotatably supported between the motor upper bearing and the motor lower bearing;

a motor baffle having a first central through hole and an upper surface extending downward from the first central through hole in a radial direction and covering above the vibration motor, the motor baffle being fixed to the motor shaft by the first central through hole and rotating as the motor shaft rotates;

a dustproof structure which is positioned below the motor baffle, covers the upper part of the upper bearing of the motor, is fixed on the motor shaft and rotates along with the rotation of the motor shaft;

an output structure, comprising: an output housing; an output shaft mounted at least partially within the output housing and connected to the motor shaft; a residual powder outlet located on the upper surface of the output housing and communicated to the outer edge of the motor baffle through a guide structure;

a dust suction device connected to or provided to the residual powder outlet.

Like this, when vibrating motor operation, the motor separation blade that covers above it can be along with the motor shaft rotation and horizontal rotation (i.e. rotatory around vertical axis) to produce centrifugal force, make the powder or the dust that the top dropped move towards the edge of motor separation blade under the centrifugal force effect, and can then utilize dust extraction's suction to leave from the incomplete powder export via guide structure, thereby effectively avoid the powder to drop on vibrating motor and influence bearing system normal work. The upper surface of the motor baffle extends outwards and downwards along the radial direction, so that powder falling from the upper part can move to the outer edge of the motor baffle by using centrifugal force and gravity, and the powder removing efficiency is higher.

It should be understood that through the cooperation of the motor baffle and the dust suction device, most or even all falling powder or dust can be eliminated, so that the situation that the powder or dust falls into the vibration motor below and the corresponding bearing system to influence the normal work of the bearing system is avoided.

However, in order to further improve the dustproof effect, a dustproof structure is further provided above the upper motor bearing to cover the upper motor bearing and the lower motor bearing. The dustproof structure is also fixed to the motor shaft, so similarly, when the vibration motor runs, the dustproof structure rotates horizontally (i.e., rotates around a vertical axis) along with the rotation of the motor shaft, thereby generating centrifugal force, so that powder or dust which may fall from the upper part moves towards the edge of the dustproof structure under the action of the centrifugal force, and the problem that the powder falls on the upper bearing of the motor and the lower bearing of the motor to influence the normal operation of a bearing system is effectively avoided. Therefore, the motor baffle plate and the dustproof structure are protected doubly, so that dust can be more effectively prevented to improve the safety of the bearing system.

Therefore, through the utility model discloses a several mascerating machines for pack the tablet product, can effectively prevent dust in order to improve bearing system's security.

Preferably, in any embodiment, the motor flap has a circular umbrella shape.

In one embodiment, optionally, the upper surface of the motor blade extends straight in a direction from top to bottom.

In one embodiment, optionally, the upper surface of the motor flap extends convexly in a direction from top to bottom. That is, the upper surface of the motor blade is convex.

In one embodiment, optionally, a plurality of motor baffles are provided apart from each other in the extending direction of the motor shaft, thereby forming a multiple shield.

In one embodiment, optionally, the outer diameter of the plurality of motor baffles decreases in a top-down direction.

In one embodiment, optionally, the outer diameter of the plurality of motor baffles increases in a top-down direction.

Preferably, in any embodiment, the dust-proof structure has a second central through hole and an upper surface extending downward in a radial direction from the second central through hole, and the dust-proof structure is fixed to the motor shaft by the second central through hole and rotates as the motor shaft rotates.

Preferably, in any embodiment, the dust-proof structure has a circular umbrella shape.

In one embodiment, optionally, the upper surface of the dust-proof structure extends straight in a direction from top to bottom.

In one embodiment, optionally, the upper surface of the dust-proof structure extends convexly in a direction from top to bottom. That is, the upper surface of the dust-proof structure is convex.

In one embodiment, optionally, an auxiliary dust-proof structure is disposed below the dust-proof structure and the upper motor bearing, covers over the lower motor bearing, is fixed to the motor shaft, and rotates as the motor shaft rotates. Therefore, an auxiliary dustproof structure can be independently arranged on the lower bearing of the motor, and a bearing system, particularly the lower bearing of the motor, is further protected.

In one embodiment, a dust concentration sensor is optionally provided in a range from the motor upper bearing to the motor lower bearing.

In one embodiment, optionally, the dust concentration sensor comprises an optical sensor.

Preferably, in any embodiment, the suction device comprises a vacuum suction device.

Preferably, in any embodiment, the guide formation is defined by a dam formation projecting from an upper surface of the output housing. In this way, when the powder is guided to the residual powder outlet through the guiding structure, the powder does not slide off and scatter from the upper surface of the output casing due to external interference (such as air blowing or vibration), but is limited in the guiding structure through the enclosing structure.

In one embodiment, optionally, the guide structure comprises an at least partially closed guide channel. In this way, the powder, when guided through the at least partially closed guide structure (guide channel) to the powder residue outlet, is not scattered and slid by external disturbances (such as blowing or vibration) but is safely confined in the guide channel.

In one embodiment, optionally, the guide structure comprises: a guide inlet at an outer edge of the motor blade and a guide outlet connected to the residual powder outlet, the guide inlet being higher than the guide outlet. Therefore, when the powder is guided to the residual powder outlet through the guide structure, the powder can slide to the residual powder outlet by utilizing gravity, and the smooth powder guiding is facilitated.

In one embodiment, optionally, an outer edge of the motor flap is higher than the guide entrance of the guide structure. Therefore, powder thrown out from the outer edge of the motor baffle under the action of centrifugal force can naturally fall into the guide structure by utilizing gravity to be guided and removed.

In one embodiment, optionally, an outer edge of the motor flap is higher than the guide entrance of the guide structure.

In one embodiment, optionally, the vibration motor is located on one side of the output housing and the residual powder outlet is disposed on the opposite side of the output housing from the vibration motor. In this way, the residual powder outlet is as far away as possible from the vibration motor and its bearing system (including the motor upper bearing and the motor lower bearing), and in case of a dust suction related operation failure (e.g., a dust suction device failure, etc.), the residual powder collected in the guide structure and at the residual powder outlet does not have an excessively large adverse effect on the vibration motor and its bearing system, or minimizes the adverse effect it may have.

In one embodiment, optionally, the slice counter further includes:

the feed opening is formed by enclosing a single stainless steel plate.

Therefore, the telescopic spring feeding port made of spring steel in the prior art is replaced, the sliding property can be increased, and feeding is smooth.

Fig. 1 is a schematic structural diagram of a slice counter according to an embodiment of the present invention.

In the embodiment shown in fig. 1, there is seen a tablet counting machine for packaging tablet products, comprising:

according to the utility model discloses an embodiment provides a tablet counting machine for pack tablet product, include:

a vibration motor 100, comprising: a motor upper bearing 111, a motor lower bearing 112, a vertically extending motor shaft 110 rotatably supported between the motor upper bearing and the motor lower bearing;

a motor stopper 500 having a first central through hole and an upper surface extended downward in a radial direction from the first central through hole, and covering above the vibration motor, the motor stopper being fixed by being fitted around the motor shaft through the first central through hole and rotating as the motor shaft rotates;

a dust-proof structure 600 under the motor barrier, covering above the motor upper bearing, fixed to the motor shaft, and rotating as the motor shaft rotates;

an output structure 300, comprising: an output housing; an output shaft 330 mounted at least partially within the output housing and connected to the motor shaft; a residual powder outlet 333 located on the upper surface of the output housing and communicating through a guide structure (not shown) to the outer edge of the motor baffle 500;

a dust suction device (not shown) connected to or provided to the residual powder outlet.

Through the embodiment of the utility model provides a several mascerating machines for pack the tablet product, can effectively prevent dust in order to improve bearing system's security.

It should be understood that the orientations described herein, such as front, back, left, right, upper, lower, etc., are relative positional expressions, which are used to describe relative positional relationships between the respective related components or portions, and are not used to limit the scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

In the description of the various elements herein, the juxtaposition of the plural features connected by "and/or" means that one or more (or one or more) of these plural features are included. For example, by "a first element and/or a second element" is meant: one or more of the first and second elements, i.e., only the first element, or only the second element, or both the first and second elements (both present).

The various embodiments provided in the present disclosure can be combined with each other as needed, for example, the features of any two, three or more embodiments can be combined with each other to form a new embodiment of the present disclosure, which is also within the scope of the present disclosure, unless otherwise stated or technically contradicted by context, and thus cannot be implemented.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A tablet counting machine for packaging tablet products, comprising: a vibration motor, comprising: a motor upper bearing, a motor lower bearing, a vertically extending motor shaft rotatably supported between the motor upper bearing and the motor lower bearing;

a motor baffle having a first central through hole and an upper surface extending downward from the first central through hole in a radial direction and covering above the vibration motor, the motor baffle being fixed to the motor shaft by the first central through hole and rotating as the motor shaft rotates;

a dustproof structure which is positioned below the motor baffle, covers the upper part of the upper bearing of the motor, is fixed on the motor shaft and rotates along with the rotation of the motor shaft;

an output structure, comprising: an output housing; an output shaft mounted at least partially within the output housing and connected to the motor shaft; a residual powder outlet located on the upper surface of the output housing and communicated to the outer edge of the motor baffle through a guide structure;

a dust suction device connected to or provided to the residual powder outlet.

2. The tablet counter of claim 1,

the motor blocking piece is in a circular umbrella shape.

3. The tablet counter of claim 1,

the dustproof structure is provided with a second central through hole and an upper surface extending downwards from the second central through hole in the radial direction, and the dustproof structure is sleeved on the motor shaft through the second central through hole and is fixed and rotates along with the rotation of the motor shaft.

4. The tablet counter of claim 3,

the dustproof structure has a circular umbrella shape.

5. The tablet counter of claim 1,

the dust extraction includes a vacuum suction device.

6. The tablet counter of claim 1,

the guide structure is defined by a dam structure protruding from an upper surface of the output housing.

Images