CN216235981U - Feeding device with adjusting spacing distance - Google Patents

Abstract

The utility model relates to a feeding device with an adjustable spacing distance, which comprises a lubricating oil storage barrel, a plurality of feeding assemblies and an adjusting assembly, wherein a plurality of bottle bodies to be filled are arranged at the lower position of a feeding head in order, then the plurality of feeding heads are respectively aligned with openings of lower bottle bodies, and liquid in the lubricating oil storage barrel enters the lower bottle body structure along the feeding heads under the control action of a valve. When the distance between two adjacent bottle body structures is changed, the adjusting assembly is started to adjust, the driving motor provides power to lift the screw rod so that the driving plate rises and falls, and then the lifting plate is driven to move up and down, so that the inclined slotted holes in the side part drive the driving head and the driven rod in the side part to move in the horizontal direction, and then the feeding head in the side part is moved towards or away from the feeding head in the middle part; the middle vertical slotted hole moves along the middle driving head but does not have driving effect, namely the feeding head at the middle position is kept at a fixed position.

Description

Feeding device with adjusting spacing distance

Technical Field

The utility model relates to a lubricating oil filling device, in particular to a feeding device which is provided with a plurality of feeding heads, and the spacing distance between the feeding heads is adjustable.

Background

As an important auxiliary material in mechanical equipment, lubricating oils have a very wide and important application, and the correct use of lubricating oils can significantly reduce mechanical wear and improve mechanical properties.

An important process in the factory is the filling of the lubricant in a large container through a filling head into individual bottles, so that individual bottle packages are obtained.

In the sub-packaging process of the lubricating oil, in order to improve the working efficiency, a plurality of feeding heads of the lubricating oil are generally arranged, so that the filling process of a plurality of bottle body structures can be completed at one time, the filling of a plurality of bottle bodies at one time can be realized, and the working efficiency is improved.

However, there is a technical problem that the spacing distance between the feeding heads is not adjustable, that is, the spacing distance between two feeding heads is different, and when the feeding heads are used for bottle body structures of different sizes, the feeding heads are difficult to form a good corresponding relationship with the openings of a plurality of bottle body structures placed below, that is, the application range is single, and the feeding device can only meet the filling requirements of bottle body structures of a single size type and cannot meet the filling requirements when different bottle bodies are arranged.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide equipment capable of adjusting a feeding head according to different sizes of a plurality of bottle body structures so as to provide targeted and adaptive filling.

In order to achieve the above object, the present invention provides a charging device with an adjustable separation distance, which is characterized by comprising a lubricating oil storage barrel, a plurality of charging assemblies and an adjusting assembly, wherein the charging assemblies are provided with charging heads and conveying pipes, and the upstream ends of the conveying pipes are connected with the lubricating oil storage barrel;

the adjusting component comprises a driving motor, a lifting screw rod, a driving plate, a lifting plate, an intermediate driven rod and a lateral driven rod, the driving motor is connected with the lifting screw rod, the driving plate is connected on the lifting screw rod in a liftable manner, the lower portions of the intermediate driven rod and the lateral driven rod are connected with a feeding head, the intermediate driven rod is arranged in a middle vertical slotted hole of the lifting plate through an intermediate driving head, and the lateral driven rod is arranged in a lateral inclined slotted hole of the lifting plate through a lateral driving head.

The beneficial effect of above-mentioned scheme does: the plurality of bottles to be filled are arranged at the lower position of the feeding head in order, then the plurality of feeding heads are respectively aligned with the openings of the bottles at the lower part, and the liquid in the lubricating oil storage barrel enters the bottle structure at the lower part along the feeding heads under the control action of the valve. When the distance between two adjacent bottle body structures is changed, the adjusting assembly is started to adjust, the driving motor provides power to lift the screw rod so that the driving plate rises and falls, and then the lifting plate is driven to move up and down, so that the inclined slotted holes in the side part drive the driving head and the driven rod in the side part to move in the horizontal direction, and then the feeding head in the side part is moved towards or away from the feeding head in the middle part; in addition, the middle vertical slotted hole moves along the middle driving head but does not have driving effect, namely the feeding head at the middle position is kept at a fixed position.

One preferable scheme is that the lifting device comprises an installation frame body, wherein a first notch and a second notch are arranged at two side positions of the installation frame body, the lifting screw rod is arranged in the installation frame body, and the driving motor is arranged at the top position of the installation frame body;

the driving plate comprises a middle transverse plate and support plates on two sides, the middle of the middle transverse plate is connected to the lifting screw rod, and the middle transverse plate penetrates through the first notch and the second notch. The lifting plate is directly driven to carry out lifting motion through the support plate.

According to a preferable scheme, the middle driven rod comprises a middle vertical plate, a middle driving head and a bottom connecting plate, the middle driving head is arranged on the upper side of the middle vertical plate, the bottom connecting plate is arranged on the lower side of the middle vertical plate, and the bottom connecting plate is connected with one side of the feeding head.

Preferably, a guide slider is arranged at the rear side of the bottom of the middle vertical plate, and a guide rail groove is further formed in the middle vertical plate, and the guide slider is slidably arranged in the guide rail groove. When the lateral driven rod moves horizontally, the guide sliding block and the guide rail groove can be matched with each other to play a good guide stabilizing role.

Preferably, the guide rail groove is connected to the telescopic cylinder at a rear position thereof. The telescopic cylinder drives the guide rail groove to move so as to drive the plurality of feeding heads to move back and forth together, and then the front position and the rear position can adjust the position of the feeding heads. In addition, the middle driven head and the side driven heads have certain lengths, and the driven heads move in the guide slot holes when the front and back adjustment is carried out.

Preferably, the side driven links are provided in two sets, and the side driven links of the two sets are provided at positions on both sides of the intermediate driven link.

One preferred scheme is that the feeding device further comprises a conveying belt, wherein the conveying belt is arranged on the lower side of the feeding head, and the conveying belt is used for conveying bottle body structures.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a charging device with an adjustable spacing distance according to the present invention;

FIG. 2 is a schematic view of a portion of a charging device of the present invention with an adjustable spacing distance;

fig. 3 is a partial structural view of a charging device with an adjustable separation distance according to the present invention.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 and 2, the present invention provides a charging device with an adjustable interval distance, which comprises a lubricating oil storage barrel 10, a plurality of charging assemblies 20 and an adjusting assembly 30, wherein the charging assemblies 20 are provided with charging heads 21 and conveying pipes 22, and the upstream ends of the conveying pipes 22 are connected with the lubricating oil storage barrel 10;

adjusting part 30 includes driving motor 31, lift lead screw 32, drive board 33, lifter plate 34, middle follower link 35 and lateral part follower link 36, driving motor 31 with lift lead screw 32 connects, drive board 33 connects with liftable on the lift lead screw 32, the lower part of middle follower link 35 and lateral part follower link 36 with add stub bar 21 and connect, middle follower link 35 drives the head 37 through the centre and sets up in the vertical slotted hole 38 in middle part of lifter plate 34, lateral part follower link 36 drives the head 39 through the lateral part and sets up in the oblique slotted hole 41 in lateral part of lifter plate 34.

The plurality of bottle bodies to be filled are arranged in order at the lower position of the feeding head 21, then the plurality of feeding heads 21 are respectively aligned with the openings of the bottle bodies at the lower part, and the liquid in the lubricating oil storage barrel 10 enters the bottle body structure 5 at the lower part along the feeding head 21 under the control action of the valve. When the distance between two adjacent bottle body structures 5 changes, the adjusting assembly 30 is started to adjust, the driving motor 31 provides power to lift the screw rod 32, so that the driving plate 33 rises and falls, and then the lifting plate 34 is driven to move up and down, and therefore the inclined slotted holes 41 on the side part drive the driving head 39 on the side part and the driven rod 36 on the side part to move horizontally, and then the feeding head 21 on the side part is moved towards or away from the feeding head on the middle part; in addition, the central vertical slot 38 moves along the central carrier head 37 without entrainment, i.e. the central filling head 21 remains in a fixed position.

Second embodiment:

as shown in fig. 1 to 3, the elevator comprises an installation frame 50, a first notch 51 and a second notch 52 are formed at two side positions of the installation frame 50, the elevating screw rod 32 is arranged in the installation frame 50, and the driving motor 31 is arranged at the top position of the installation frame 50;

the driving plate 33 includes a middle transverse plate 53 and two side support plates 54, the middle of the middle transverse plate 53 is connected to the lifting screw 53, and the middle transverse plate 53 passes through the first notch 51 and the second notch 52. The lifting plate is directly driven to perform lifting movement through the support plate 54.

The middle driven rod 35 comprises a middle vertical plate 61, a middle driving head 37 and a bottom connecting plate 62, the middle driving head 37 is arranged on the upper side of the middle vertical plate 61, the bottom connecting plate 62 is arranged on the lower side of the middle vertical plate 61, and the bottom connecting plate 62 is connected with one side of the feeding head 21.

A guide sliding block 63 is arranged at the rear side position of the bottom of the middle vertical plate 61, and a guide rail groove 64 is further arranged, wherein the guide sliding block 63 is slidably arranged in the guide rail groove 64. When the side driven rod 36 moves horizontally, the guide sliding block 63 and the guide track groove 64 can cooperate with each other to achieve a good guiding and stabilizing effect.

The guide rail groove 64 is connected to a telescopic cylinder 65 at a rear position. The telescopic cylinder 65 drives the guide rail groove 64 to move so as to drive the plurality of feeding heads 21 to move back and forth together, and further, the function of adjusting the positions of the feeding heads 21 at the front position and the rear position is realized. The intermediate driven head 37 and the side driven head 39 have a fixed length, and the driven heads move in the guide slot holes when the front and rear adjustment is performed.

The side driven levers 36 are provided in two sets, and the side driven levers 36 of the two sets are provided at positions on both sides of the intermediate driven lever 35.

Still include conveyer belt 90, conveyer belt 90 sets up add the downside of stub bar 21, be used for conveying bottle structure 5 on the conveyer belt.

In addition, vertical guide grooves 72 are further formed in two sides of the upper end of the guide rail groove 64, L-shaped sliding blocks 73 are respectively arranged in the vertical guide grooves 72, and the L-shaped sliding blocks 73 are respectively connected with the upper ends of two sides of the lifting plate 34. By providing the vertical guide groove 72, the L-shaped sliding block 73 slides in the vertical guide groove 72 while the lifting plate 34 is lifted, so that the lifting plate 34 is more stable when lifted.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (7)

1. A feeding device with an adjustable spacing distance is characterized by comprising a lubricating oil storage barrel, a plurality of feeding assemblies and an adjusting assembly, wherein each feeding assembly is provided with a feeding head and a conveying pipe, and the upstream end of each conveying pipe is connected with the lubricating oil storage barrel;

the adjusting component comprises a driving motor, a lifting screw rod, a driving plate, a lifting plate, an intermediate driven rod and a lateral driven rod, the driving motor is connected with the lifting screw rod, the driving plate is connected on the lifting screw rod in a liftable manner, the lower portions of the intermediate driven rod and the lateral driven rod are connected with a feeding head, the intermediate driven rod is arranged in a middle vertical slotted hole of the lifting plate through an intermediate driving head, and the lateral driven rod is arranged in a lateral inclined slotted hole of the lifting plate through a lateral driving head.

2. The charging device with the interval distance adjusting function according to claim 1, comprising a mounting frame body, wherein a first notch and a second notch are arranged at two side positions of the mounting frame body, the lifting screw rod is arranged in the mounting frame body, and the driving motor is arranged at the top position of the mounting frame body;

the driving plate comprises a middle transverse plate and support plates on two sides, the middle of the middle transverse plate is connected to the lifting screw rod, and the middle transverse plate penetrates through the first notch and the second notch.

3. The charging device with adjusted spacing distance according to claim 1, characterized in that said intermediate follower link comprises an intermediate vertical plate, an intermediate driver head disposed on the upper side of said intermediate vertical plate, and a bottom connecting plate disposed on the lower side of said intermediate vertical plate, said bottom connecting plate being connected to one side of said charging head.

4. The charging device with adjustable separation distance according to claim 3, characterized in that a guide slider is provided at a rear position of the bottom of the middle vertical plate, and a guide rail groove is further provided, the guide slider being slidably provided in the guide rail.

5. The charging device with an adjusted spacing distance according to claim 4, characterized in that the rear position of the guide rail groove is connected with a telescopic cylinder.

6. The charging device with adjusted spacing distance according to claim 1, characterized in that said side driven levers are in two groups, and said side driven levers of said two groups are disposed at positions on both sides of said intermediate driven lever.

7. The charging device with an adjusted spacing distance according to claim 1, further comprising a conveyor belt disposed at a lower side of the charging head, the conveyor belt being used for conveying the bottle body structure.

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