CN114084678B - Negative pressure inhaler for delivering tablets - Google Patents

Abstract

The invention discloses a negative pressure type inhaler for conveying tablets, which comprises an inhaler main body, wherein one end of the inhaler main body is provided with a discharging mechanism, the side part of the inhaler main body is provided with a feeding mechanism, the other end of the inhaler main body is provided with a sucking mechanism, the inhaler main body comprises an inner shell and an outer shell arranged on the outer side of the inner shell, an installation gap is arranged between the inner shell and the outer shell, and a plurality of ventilation through holes distributed regularly are formed in the side wall of the inner shell. The negative pressure type inhaler has the advantages of simple structure, strong practicability, convenient and quick installation and convenient maintenance, can replace the existing devices such as a vacuum conveyor, a bucket type lifter and the like to convey small parts, effectively saves the installation space, and improves the detection efficiency of the small parts.

Description

Negative pressure inhaler for delivering tablets

Technical Field

The invention relates to the technical field of inhalers, in particular to a negative pressure type inhaler for conveying tablets.

Background

As is well known, with the development of the economical society, the use rate of electronic products is increasing, but since the electronic products have small parts, especially small nuts for connecting the parts are used in a very large number, the production of small parts such as small nuts and the production of some tablet parts are required to detect the appearance quality of the parts in the production process, and when detecting the products, the small parts are required to be put into the detecting device by means of a vacuum conveyor and a bucket elevator, but the devices are expensive and have large volume, and require operators to work at high places, which greatly increases the risk of the working state of workers, and in addition, a great amount of time is required to carry out maintenance work such as disassembly and cleaning after use, so that the detection efficiency of the products is low.

Disclosure of Invention

The present invention has for its object to solve the above-mentioned problems, a negative pressure inhaler for delivering tablets is devised.

The technical scheme of the invention for achieving the purpose is that the negative pressure type inhaler for conveying tablets comprises an inhaler main body, wherein one end of the inhaler main body is provided with a discharging mechanism, the side part of the inhaler main body is provided with a feeding mechanism, and the other end of the inhaler main body is provided with a sucking mechanism.

As a further description of the present invention, the inhaler body includes an inner housing and an outer housing disposed outside the inner housing.

As a further description of the invention, an installation gap is arranged between the inner shell and the outer shell, and a plurality of ventilation through holes which are distributed regularly are arranged on the side wall of the inner shell.

As a further description of the invention, external connecting threads are arranged at two ends of the outer shell, one end of the outer shell is connected with the discharging mechanism through the external connecting threads, and the other end of the outer shell is connected with the sucking mechanism through the external connecting threads.

As a further description of the present invention, the suction mechanism includes a suction port holder provided at one end of the inhaler body, and a connection boss is provided at a contact portion with the inhaler body on the suction port holder.

As a further description of the present invention, a mouthpiece fixing cap nut connected to the inhaler body is provided at the outer side of the mouthpiece holder, an internal connection screw is provided at the inner wall of the mouthpiece fixing cap nut, and an anti-slip mechanism is provided at the outer wall of the mouthpiece fixing cap nut.

As a further description of the present invention, the anti-slip mechanism is an anti-slip groove provided on an outer wall of the mouthpiece-securing cap nut.

As a further description of the present invention, a side of the suction port holder away from the connection boss is an inclined plane, a suction port is provided inside the suction port holder, connection threads are provided on a wall of the suction port, and a connection pipe connected by screw-fitting is provided on the inclined plane.

As a further description of the invention, a connecting gasket is arranged at one side of the suction inlet retainer inside the inhaler main body, the connecting gasket comprises a gasket bottom plate, an integrally formed connecting side plate is arranged on the gasket bottom plate, and a plurality of ventilation grooves distributed regularly are formed on the connecting side plate.

As a further description of the invention, the feeding mechanism comprises an inlet pipe arranged at the side part of the inhaler body, an external connecting thread is arranged on the outer wall of the inlet pipe, one end of the external connecting thread of the inlet pipe is connected with the feeding pipe through an auxiliary nut, and an anti-slip mechanism is arranged on the outer wall of the auxiliary nut.

As a further description of the invention, the anti-slip mechanism is an anti-slip groove provided on the outer wall of the auxiliary nut.

As a further description of the present invention, the discharging mechanism includes a connection cap assembly disposed at one end of the inhaler body and connected to the inhaler body, the connection cap assembly includes a cap holder disposed at one end of the inhaler body, a cap plate is connected to the cap holder by a hinge, and an outlet fixing cap nut connected to the inhaler body is disposed at an outer side of the cap holder.

As a further description of the invention, the outlet fixture cap nut is in threaded connection with the inhaler body, and the outer wall of the outlet fixture cap nut is provided with an anti-slip mechanism.

As a further description of the invention, the anti-slip mechanism is an anti-slip groove provided on the outer wall of the outlet fixture cap nut.

The negative pressure type inhaler has the beneficial effects that the negative pressure type inhaler is simple in structure, strong in practicability, convenient and fast to install, convenient to maintain and capable of replacing the existing devices such as a vacuum conveyor and a bucket type lifter to convey small parts, the installation space is effectively saved, and meanwhile, the detection efficiency of the small parts is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the inner and outer shells of the present invention;

fig. 3 is a schematic structural view of the connection pad of the present invention.

In the figure, 1, an inhaler body; 2. a discharging mechanism; 3. a feed mechanism; 4. a material sucking mechanism; 5. an inner housing; 6. an outer housing; 7. a mounting gap; 8. a ventilation through hole; 9. a suction port holder; 10. a connecting boss; 11. the suction port fixes the cap nut; 12. an anti-slip mechanism; 13. an anti-skid groove; 14. an inclined plane; 15. a suction hole; 16. a connecting pipe; 17. a connecting gasket; 18. a gasket base plate; 19. connecting side plates; 20. a vent groove; 21. an inlet duct; 22. a feed conduit; 23. an auxiliary nut; 24. a connection cap assembly; 25. a cover fixing frame; 26. a cover plate; 27. the outlet is fixed with a cap nut.

Detailed Description

Firstly, the design of the invention is initially described, in the production process of small parts such as nuts and tablet parts, the appearance quality of the parts needs to be detected, so as to ensure the quality of the appearance products, when the products are detected, the parts need to be loaded to a disposal device by means of a vacuum conveyor and a bucket elevator, the two devices are expensive and large in size, an operator needs to work at a high place, the danger of the working state of workers is greatly increased, in addition, a great amount of time is required for maintenance, such as disassembly and cleaning after use, the detection efficiency of the products is low by using the two devices, and for this purpose, a device needs to be designed for replacement, and the vacuum conveyor and the bucket elevator are not required to be used, so that the danger in the working process of workers is reduced, and the detection efficiency of the products is improved.

The invention will be described in detail below with reference to the accompanying drawings, as shown in fig. 1-3, a negative pressure type inhaler for delivering tablets, comprising an inhaler body 1, wherein small parts or delivering tablets are stored in the inhaler body 1, the detailed structure of the inhaler body 1 will be described in detail below, the inhaler body 1 comprises an inner shell 5, an outer shell 6 is arranged outside the inner shell 5, in order to facilitate the installation of the inner shell 5 and the outer shell 6, the diameter of the inner shell 5 is smaller than that of the outer shell 6, an installation gap 7 is arranged between the inner shell 5 and the outer shell 6, and a plurality of ventilation through holes 8 distributed regularly are arranged on the side wall of the inner shell 5.

In order to facilitate the feeding of tablets, a feeding mechanism 3 is provided at the side of the inhaler body 1, the detailed description of the specific structure of the feeding mechanism 3 will be given below, the feeding mechanism 3 comprises an inlet pipe 21 provided at the side of the inhaler body 1, the inlet pipe 21 and the inhaler body 1 are integrally formed, a feeding pipe 22 is connected to the inlet pipe 21, an external connecting screw thread is provided on the outer wall of the inlet pipe 21 in order to realize the connection between the inlet pipe 21 and the feeding pipe 22, one end of the external connecting screw thread of the inlet pipe 21 is connected with the feeding pipe 22 through an auxiliary nut 23, an internal connecting screw thread is provided on the auxiliary nut 23, the internal connecting screw thread is matched with the external connecting screw thread to realize the connection and fixation of the inlet pipe 21 and the feeding pipe 22, and an anti-slip mechanism 12 is provided on the outer wall of the auxiliary nut 23, and the anti-slip mechanism 12 is an anti-slip slot 13 provided on the outer wall of the outlet fixing cap nut 27.

In order to facilitate the discharge of the delivered tablets, a discharge mechanism 2 is provided at one end of the inhaler body 1, a specific structure of the discharge mechanism 2 will be described in detail below, the discharge mechanism 2 includes a connection cap assembly 24 provided at one end of the inhaler body 1 and connected to the inhaler body 1, a specific structure of the connection cap assembly 24 will be described in detail below, the connection cap assembly 24 includes a cap holder 25 provided at one end of the inhaler body 1, a cap plate 26 is connected to the cap holder 25 by a hinge in order to control the discharge of the delivered tablets, an outlet fixing cap nut 27 connected to the inhaler body 1 is provided at an outer side of the cap holder 25 in order to achieve the fixation of the cap holder 25, a screw connection is provided between the outlet fixing cap nut 27 and the inhaler body 1, and an anti-slip mechanism 12 is provided on an outer wall of the outlet fixing cap nut 27 in order to facilitate the installation operation of the outlet fixing cap nut 27 by a worker, and the anti-slip mechanism 12 is an anti-slip groove 13 provided on an outer wall of the outlet fixing cap nut 27.

In order to facilitate the feeding of tablets into the inhaler body 1 through the feeding duct 22, a suction mechanism 4 is provided at one end of the inhaler body 1 remote from the feeding mechanism 3, a specific structure of the suction mechanism 4 will be described in detail below, the suction mechanism 4 comprises a suction port holder 9 provided at one end of the inhaler body 1, a connection boss 10 is provided at a contact portion of the suction port holder 9 with the inhaler body 1 in order to facilitate the connection of the suction port holder 9 with the inhaler body 1, a suction port fixing cap nut 11 connected with the inhaler body 1 is provided at an outer side of the suction port holder 9, an internal connection screw is provided at an inner wall of the suction port fixing cap nut 11, the internal connection screw is engaged with the external connection screw to achieve the fixation of the suction port holder 9 with the inhaler body 1, an anti-slip mechanism 12 is provided at an outer wall of the suction port fixing cap nut 11 in order to facilitate the operation of the suction port fixing cap nut 11, and the anti-slip mechanism 12 is an anti-slip groove 13 provided at an outer wall of the suction port fixing cap nut 11.

The suction port retainer 9 is the inclined plane 14 far away from the connection boss 10, and suction port retainer 9 is inside to be provided with suction port 15, be provided with the connecting thread on the pore wall of suction port 15, be provided with the connecting tube 16 through screw-thread fit connection on the inclined plane 14, connect outside air-blower through connecting tube 16.

The inhaler body 1 is provided with a connection pad 17 on one side of the suction inlet holder 9, the specific structure of the connection pad 17 will be described in detail, the connection pad 17 comprises a pad bottom plate 18, the pad bottom plate 18 is provided with an integrally formed connection side plate 19, and the connection side plate 19 is provided with a plurality of ventilation grooves 20 distributed regularly.

The specific structure of the present invention is described in detail above, and the working principle of the present invention will be described below: when the negative pressure type inhaler is installed, the negative pressure type inhaler is installed in an inclined state of 45-80 degrees, the cover plate 26 is normally installed in a state of being opened by gravity, the feeding pipeline 22 of the feeding mechanism 3 is connected with the storage hopper for storing small parts through the small part suction pipe hose, the connecting pipeline 16 of the suction mechanism 4 is connected to an external blower, the blower is started, air in the inhaler main body 1 is sucked from the connecting pipeline 16, at the moment, the cover plate 26 is sucked, the small parts in the storage hopper enter the inhaler main body 1 through the feeding pipeline 22 under the action of negative pressure, when the blower stops working, at the moment, the inside of the inhaler main body is at atmospheric pressure, the cover plate 26 is opened under the action of dead weight, the small parts sucked into the inhaler main body 1 slide downwards to push the cover, so that the cover is opened, the conveying of the small parts is completed, the negative pressure type inhaler is simple in structure, the practicability is high, the installation is convenient and the maintenance is convenient, the device such as to replace the existing vacuum conveyor, the scraper bucket lifter and the like to convey the small parts, the installation space is effectively saved, and the detection efficiency of the small parts is also improved.

The suction pressure provided by the blower can suck small parts corresponding to the volume of the negative pressure type inhaler.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims (8)

1. Negative pressure type inhaler for delivering tablets, characterized by comprising an inhaler body (1), wherein one end of the inhaler body (1) is provided with a discharging mechanism (2), the side part of the inhaler body (1) is provided with a feeding mechanism (3), and the other end of the inhaler body (1) is provided with a sucking mechanism (4);

the inhaler body (1) comprises an inner housing (5) and an outer housing (6) arranged outside the inner housing (5);

a mounting gap (7) is arranged between the inner shell (5) and the outer shell (6), and a plurality of ventilation through holes (8) which are regularly distributed are formed in the side wall of the inner shell (5);

A connecting gasket (17) is arranged in the inhaler main body (1) and positioned at one side of the suction inlet retainer (9), the connecting gasket (17) comprises a gasket bottom plate (18), an integrally formed connecting side plate (19) is arranged on the gasket bottom plate (18), and a plurality of ventilation grooves (20) which are regularly distributed are formed in the connecting side plate (19);

An inlet pipe (21) passes through the outer shell (6) and is communicated with the inside of the inner shell (5); one end of the inner shell (5) is connected with the discharging mechanism (2) and covers the opening of the inner shell (5) through a cover plate (26), and the other end of the inner shell (5) is blocked by a connecting gasket (17); the gap between the inner shell (5) and the outer shell (6) is communicated with a ventilation groove (20) on the connecting side plate (19), and is communicated with the suction hole (15) through the ventilation groove (20);

The suction mechanism (4) comprises a suction port retainer (9) arranged at one end of the inhaler body (1), and a connecting boss (10) is arranged at the contact part of the suction port retainer (9) and the inhaler body (1);

The outer side of the suction inlet retainer (9) is provided with a suction inlet fixing cap nut (11) connected with the inhaler main body (1), the inner wall of the suction inlet fixing cap nut (11) is provided with an internal connecting thread, and the outer wall of the suction inlet fixing cap nut (11) is provided with an anti-slip mechanism (12);

The suction inlet retainer (9) keep away from one side of the connecting boss (10) is an inclined plane (14), a suction hole (15) is formed in the suction inlet retainer (9), connecting threads are formed in the hole wall of the suction hole (15), and a connecting pipeline (16) connected through threaded fit is arranged on the inclined plane (14).

2. Negative pressure inhaler for delivering tablets according to claim 1, characterized in that the outer housing (6) is provided with external connecting threads at both ends, one end of the outer housing (6) being connected to the discharge means (2) by means of the external connecting threads and the other end being connected to the suction means (4) by means of the external connecting threads.

3. Negative pressure inhaler for delivering tablets according to claim 1, characterized in that the anti-slip means (12) are anti-slip grooves (13) provided on the outer wall of the mouthpiece fixed cap nut (11).

4. Negative pressure inhaler for delivering tablets according to claim 1, characterized in that the feeding means (3) comprises an inlet duct (21) arranged at the side of the inhaler body (1), the outer wall of the inlet duct (21) is provided with external connecting threads, one end of the external connecting threads of the inlet duct (21) is connected with the feeding duct (22) by means of an auxiliary nut (23), and the outer wall of the auxiliary nut (23) is provided with an anti-slip means (12).

5. Negative pressure inhaler for delivering tablets according to claim 4, characterized in that the anti-slip means (12) are anti-slip grooves (13) provided on the outer wall of the auxiliary nut (23).

6. Negative pressure inhaler for delivering tablets according to claim 1, characterized in that the discharge mechanism (2) comprises a connecting cap assembly (24) arranged at one end of the inhaler body (1) and connected with the inhaler body (1), the connecting cap assembly (24) comprises a cap holder (25) arranged at one end of the inhaler body (1), the cap holder (25) is connected with a cover plate (26) by a hinge, and an outlet fixing cap nut (27) connected with the inhaler body (1) is arranged at the outer side of the cap holder (25).

7. A negative pressure inhaler for delivering tablets according to claim 6, characterized in that the outlet retaining cap nut (27) is in threaded connection with the inhaler body (1), and that the outer wall of the outlet retaining cap nut (27) is provided with an anti-slip mechanism (12).

8. A negative pressure inhaler for delivering tablets according to claim 7, characterized in that the anti-slip means (12) is an anti-slip groove (13) provided on the outer wall of the outlet fixing cap nut (27).