CN210942502U - Fluid feed partial shipment device and system - Google Patents

Abstract

The application provides a fluid feed partial shipment device and system relates to partial shipment technical field. Fluid feed partial shipment device includes track, a plurality of mechanism, storage mechanism and the conveying pump of holding. The bottom of each containing mechanism is matched with the rail, and the containing mechanisms are selectively connected through connecting pieces of the containing mechanisms. Storage mechanism is used for storing fluid feed, and storage mechanism makes the fluid feed in the pipeline carry to holding the mechanism through pipeline and the cooperation of holding the mechanism. The delivery pump is used for conveying the fluid feed in the storage mechanism to the containing mechanism. Storage mechanism carries the fluid feed that wherein store to holding in the mechanism through delivery pump and pipeline, and a plurality of mechanisms that hold connect through the connecting piece and form whole back, hold the mechanism through drawing first and make and hold the mechanism wholeness and remove along the track, thereby every holds the mechanism and makes the fluid feed in the pipeline carry a plurality of mechanisms that hold in proper order with the pipeline cooperation, and then realize the partial shipment of fluid feed.

Description

Fluid feed partial shipment device and system

Technical Field

The application relates to the technical field of subpackage, in particular to a fluid feed subpackage device and a system.

Background

The manual subpackaging of the fluid feed has the problems of low subpackaging efficiency, low automation degree and high labor cost.

And some special fluid feeds are easy to generate irritant or harmful gas in the subpackaging process, so that the harm to operators is large.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of this application is to provide a fluid feed partial shipment device and system, it can improve artifical partial shipment fluid feed inefficiency technical problem.

First aspect, this application embodiment provides a fluid feed partial shipment device, and it includes track, a plurality of mechanism, storage mechanism and the conveying pump of holding.

The bottom of each containing mechanism is provided with a guide piece matched with the rail, each containing mechanism is provided with a connecting piece used for being connected with the adjacent containing mechanism, and the containing mechanisms are selectively connected through the connecting pieces.

The storage mechanism is used for storing fluid feed.

Storage mechanism is connected with the delivery pump through first pipeline, and the delivery pump passes through the second pipeline and holds the mechanism cooperation, and the delivery pump is arranged in carrying the fluid feed in the storage mechanism to holding the mechanism.

At above-mentioned realization in-process, the conveying pump is arranged in carrying the fluid feed among the storage mechanism to holding the mechanism, and a plurality of mechanisms that hold connect through the connecting piece and form whole back, hold the mechanism through drawing first and make and hold the mechanism wholeness and remove along the track, and a plurality of mechanisms that hold pass through storage mechanism department in proper order in the motion process to by storage mechanism, conveying pump, first pipeline and second pipeline cooperation injected fluid feed, realize the partial shipment of fluid feed.

The utility model provides a fluid feed partial shipment device has avoided artifical transport fluid feed and artifical transport to hold the mechanism, has improved fluid feed partial shipment efficiency to and reduced the operation personnel and inhaled fluid feed and produced the amount of irritability or harmful gas easily at the in-process of partial shipment.

In a possible embodiment, the fluid feed split charging device comprises a material guiding mechanism, the material guiding mechanism is provided with a feeding hole and a discharging hole, one end of a second pipeline is connected with a material conveying pump, the other end of the second pipeline is erected at the feeding hole of the material guiding mechanism, and the discharging hole of the material guiding mechanism is matched with a containing mechanism.

In the implementation process, the material guiding mechanism is used for connecting the second pipeline and the containing mechanism, the fluid material in the second pipeline flows to the material guiding mechanism firstly, and then is guided to the containing mechanism by the material guiding mechanism, so that the fluid feed in the second pipeline can accurately enter the containing mechanism.

In a possible embodiment, the guiding mechanism comprises at least one discharge opening.

In the implementation process, the material guiding mechanism can divide the material flowing out of the second pipeline into a plurality of parts, and the parts are guided into the plurality of containing mechanisms simultaneously by the material guiding mechanism, so that the material distributing speed can be increased, and the material guiding mechanism is suitable for a conveying pump with high power.

In a possible embodiment, the discharge port of the material guiding mechanism is arranged on the upper side of the containing mechanism, and the discharge port is higher than the containing mechanism.

In the implementation process, the material guiding mechanism is suspended in the containing mechanism, the discharge port of the material guiding mechanism is located on the upper side of the containing mechanism, and the fluid feed directly falls into the containing mechanism under the action of gravity.

In a possible embodiment, the discharge opening of the guiding mechanism is arranged at the edge of the containing mechanism.

In the implementation process, the material guiding mechanism is erected on the containing mechanism, and the fluid feed flows into the containing mechanism from the inner wall of the containing mechanism under the action of gravity.

In a possible embodiment, the rail has pulleys, and the bottom of the containing mechanism has guide grooves in rolling fit with the pulleys.

In the above implementation, the containing mechanisms can roll relative to the track and move along the track, so that the containing mechanisms are sequentially led into the fluid feed.

In a possible embodiment, the rail has a chute and the bottom of the containing mechanism has a guide wheel in rolling engagement with the chute.

In a possible embodiment, the containing mechanism has a first end and a second end connected to adjacent containing mechanisms, the containing mechanism is provided with a first fastener at the first end, and a second fastener at the second end, and the first fastener and the second fastener are selectively connected.

In the implementation process, the first buckling piece at the first end of the containing mechanism and the second buckling piece at the second end of the containing mechanism are selectively connected, so that a plurality of containing mechanisms are sequentially connected end to form a whole, and the traction is convenient.

In a possible embodiment, the first latch member is hinged to the first end of the containing mechanism, the first latch member has a hook portion, and the second latch member has a groove portion engaged with the hook portion.

In the implementation process, the first buckling piece can rotate relative to the first end of each containing mechanism, and when the hook part of the first buckling piece of each containing mechanism rotates and is buckled to the groove part of the second buckling piece of the adjacent containing mechanism, the connection of the two adjacent containing mechanisms is realized; when the hook part of the first clamping part of each containing mechanism rotates and the groove parts of the second clamping parts of the adjacent containing mechanisms are separated, the separation of the two adjacent containing mechanisms is realized.

In a second aspect, the embodiment of the present application provides a fluid feed subpackaging system, which includes a traction device and the above fluid feed subpackaging device, wherein the traction device can be matched with a rail in a rolling manner, and the traction device is connected with a plurality of containing mechanisms.

In the above-mentioned realization process, draw gear sets up on the track for a plurality of mechanisms that hold of traction connection are whole, thereby make storage mechanism carry fluid feed to every through static second pipeline and hold the mechanism. When the traction device runs on the track at a constant speed, the amount of the fluid feed conveyed to each containing mechanism by the static second pipeline is the same.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a fluid feed dispensing device according to an embodiment of the present application from a first perspective;

fig. 2 is a schematic structural diagram of a second view angle of the fluid feed dispensing device according to the embodiment of the present application;

FIG. 3 is a schematic view of a holding mechanism and a rail of an embodiment of the present application;

FIG. 4 is a schematic structural view illustrating a first fastener and a second fastener in an embodiment of the present disclosure;

fig. 5 is a fluid feed dispensing system according to an embodiment of the present application.

Icon: 10-fluid feed split charging device; 100-track; 110-a pulley; 200-a holding mechanism; 210-a guide slot; 220-a first fastener; 221-a hook section; 222-a hinge; 230-a second catch; 231-a groove portion; 300-a storage mechanism; 310-a first conduit; 400-a delivery pump; 410-a second conduit; 500-a material guiding mechanism; 501-a feed inlet; 502-discharge port; 20-a fluid feed dispensing system; 600-a traction device; 700-pulling element.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that the terms "upper", "lower", "inner", and the like refer to the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which the product of the application is usually placed in when used, and are used only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; either mechanically or electrically. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1 and 2, an embodiment of the present application provides a fluid feed dispensing apparatus 10, which includes a track 100, a plurality of holding mechanisms 200, a storage mechanism 300, and a material delivery pump 400.

Track 100 sets up between storage mechanism 300 and the workshop, holds mechanism 200 and is used for holding fluid feed, and every holds mechanism 200 and holds a certain amount of fluid feed, and fluid feed partial shipment device 10 transports fluid feed from storage mechanism 300 to the workshop through track 100 with holding mechanism 200.

The bottom of each holding mechanism 200 has a guide member engaged with the rail 100, and each holding mechanism 200 can roll on the rail 100 so that it can be transported from the stocker 300 to the breeding plant.

In the embodiment of the present application, referring to fig. 3, the rail 100 is provided with a pulley 110, the bottom of the holding mechanism 200 is provided with a guide groove 210, and the pulley 110 can be in rolling fit with the guide groove 210, so that the holding mechanism 200 can roll with respect to the rail 100. In other embodiments of the present application, the rail 100 may be provided with a guide groove 210, and the bottom of the containing mechanism 200 may be provided with a pulley 110, or other engagement means, such as a sliding engagement.

In order to facilitate the drawing, each of the holding mechanisms 200 is provided with a connecting member for connecting with the adjacent holding mechanism 200, and a plurality of holding mechanisms 200 are selectively connected into a whole through the connecting member.

When the storage mechanism 300 and the material conveying pump 400 start to work and convey materials to the containing mechanisms 200, the containing mechanisms 200 are connected into a whole, move along the track 100, and finally reach a cultivation workshop to unload after being injected with fluid feed through the storage mechanism 300 in sequence, and the containing mechanisms 200 are disassembled into a single containing mechanism 200 during unloading, so that the unloading is convenient.

Optionally, the containing mechanisms 200 have a first end and a second end connected to the adjacent containing mechanism 200, the containing mechanism 200 is provided with a first latch 220 at the first end, and is provided with a second latch 230 at the second end, the first latch 220 and the second latch 230 are selectively connected, and each containing mechanism 200 in the plurality of containing mechanisms 200 is connected end to end by the first latch 220 at the first end and the second latch 230 at the second end of the adjacent containing mechanism 200 to form a whole.

In the embodiment of the present application, referring to fig. 3 and 4, the first locking member 220 has a hook portion 221 and a hinge portion 222 connected to the first end of the containing mechanism 200, the second locking member 230 has a groove portion 231 connected to the second end, the hook portion 221 is hinged to the hinge portion 222, and the hook portion 221 and the groove portion 231 can be engaged with each other.

When the hook part 221 of the first fastener 220 of the containing mechanism 200 rotates to the groove part 231 and is fastened to the groove part 231 of the second fastener 230 of the adjacent containing mechanism 200, the adjacent two containing mechanisms 200 are connected;

when the hook part 221 of the first locking member 220 of the containing mechanism 200 rotates to other positions and is separated from the groove part 231 of the second locking member 230 of the adjacent containing mechanism 200, the adjacent two containing mechanisms 200 are separated.

With continued reference to fig. 1, the storage mechanism 300 is used to store fluid feed.

The storage mechanism 300 is connected to a feed delivery pump 400 through a first pipeline 310, the feed delivery pump 400 is matched with the containing mechanism 200 through a second pipeline 410, and the feed delivery pump 400 is used for delivering the fluid feed in the storage mechanism 300 to the containing mechanism 200.

That is, the discharge port of the storing mechanism 300 is connected to the feed port of the feed pump 400 through the first pipe 310, and the discharge port of the feed pump 400 is matched with the containing mechanism 200 through the second pipe 410.

Optionally, the fluid feed split charging device 10 further includes a material guiding mechanism 500, the material guiding mechanism 500 has a feeding port 501 and a discharging port 502, the discharging port of the material conveying pump 400 is set up at the feeding port 501 of the material guiding mechanism 500 through the second pipeline 410, and the discharging port 502 of the material guiding mechanism 500 is matched with the containing mechanism 200.

In the embodiment of the present application, the guiding mechanism 500 is an arc-shaped elongated groove. In other embodiments of the present application, the feeding mechanism 500 may also be cylindrical.

The material guiding mechanism 500 is used for connecting the second pipeline 410 and the containing mechanism 200, fluid materials in the second pipeline 410 flow to the material guiding mechanism 500 firstly, and then are guided into the containing mechanism 200 by the material guiding mechanism 500, so that fluid feed in the second pipeline 410 can accurately enter the containing mechanism 200.

In order to ensure that the fluid feed in the guiding mechanism 500 can flow from the feeding port 501 to the discharging port 502, the guiding mechanism 500 is disposed at an angle, so that the height of the feeding port 501 of the guiding mechanism 500 is higher than the height of the discharging port 502 of the guiding mechanism 500.

In the embodiment of the present application, the guiding mechanism 500 comprises an inlet 501 and an outlet 502, i.e. the fluid feed of the storage mechanism 300 directly flows to the inlet 501 of the guiding mechanism 500 through the feeding pump 400 and the second pipe 410, and the fluid feed flows from the inlet 501 of the guiding mechanism 500 to the outlet 502 of the guiding mechanism 500 and finally flows into the containing mechanism 200.

In some other embodiments of the present application, the material guiding mechanism 500 may further include at least two material inlets 501 and/or at least two material outlets 502.

When the guiding mechanism 500 comprises at least two feeding ports 501 and one discharging port 502, the fluid feed enters the guiding mechanism 500 from the two feeding ports 501, and finally converges into a fluid flow which flows to the containing mechanism 200 from the discharging port 502. The arrangement of the feed inlet 501 and the discharge outlet 502 is suitable for a material conveying device with a thin pipeline and a small power of the material conveying pump 400.

When the guiding mechanism 500 comprises one inlet 501 and at least two outlets 502, the fluid feed enters the guiding mechanism 500 from the one inlet 501, and is finally divided into a plurality of streams to flow to the containing mechanism 200 from the plurality of outlets 502. Generally, the plurality of discharging holes 502 correspond to different containing mechanisms 200, and in order to ensure that the amount of the fluid feed in each containing mechanism 200 is equal, the discharging rate of the fluid feed at each discharging hole 502 is substantially equal. The arrangement of the feed inlet 501 and the discharge outlet 502 is suitable for the feeding device with thick pipeline and larger power of the feeding pump 400.

When the guiding mechanism 500 comprises at least two feeding ports 501 and at least two discharging ports 502, if the number of the feeding ports 501 and the discharging ports 502 and the feeding rate of each feeding port 501 are equal, each feeding port 501 is directly communicated with one discharging port 502, and the fluid feed directly enters the guiding mechanism 500 from one feeding port 501 and then flows into the containing mechanism 200 from the corresponding discharging port 502; if the number of the inlet ports 501 and the outlet ports 502 is not equal or the feeding rate of each inlet port 501 is not equal, the fluid materials are merged into one fluid and then divided into fluid of substantially equal size, and the fluid flows into the containing mechanism 200 through the plurality of outlet ports 502. The matching of a plurality of feed inlets 501 and a plurality of discharge outlets 502 can improve the feeding efficiency.

And, a plurality of discharge gates 502 can hold mechanism 200 defeated material for a plurality of simultaneously, can improve branch material speed.

There are various ways of matching the material guiding mechanism 500 with the containing mechanism 200.

In the embodiment of the present application, the material guiding mechanism 500 has a bracket, the material guiding mechanism 500 is suspended in the containing mechanism 200 through the bracket, and the material outlet 502 of the material guiding mechanism 500 is disposed on the upper side of the containing mechanism 200. The second pipeline 410 connected with the discharge port of the feed delivery pump 400 is erected at the feed port 501 of the suspended feed guiding mechanism 500, and pressure is applied through the feed delivery pump 400, so that the fluid feed overcomes gravity and reaches the feed port 501 of the feed guiding mechanism 500, and the fluid feed reaching the feed port 501 of the feed guiding mechanism 500 flows to the discharge port 502 of the feed guiding mechanism 500 under the action of gravity, and then directly falls into the containing mechanism 200 under the action of gravity.

It should be noted that the discharge hole 502 of the support-built material guiding mechanism 500 can be adjusted to the upper side of the containing mechanism 200 or the upper side of the rail 100 by adjusting the position of the support.

In other embodiments of the present application, the discharge hole 502 of the guiding mechanism 500 is directly formed at the edge of the containing mechanism 200, and the fluid feed flows into the containing mechanism 200 from the inner wall of the containing mechanism 200 due to gravity.

Referring to fig. 5, the present embodiment further provides a fluid feed dispensing system 20, which includes a traction device 600, a traction member 700, and the fluid feed dispensing device 10, wherein the traction device 600 can be in rolling fit with the track 100, and the traction device 600 pulls the plurality of holding mechanisms 200 through the traction member 700.

In the implementation process, the traction device 600 is disposed on the track 100 and used for drawing the connected multiple containing mechanisms 200 integrally, so that the storage mechanism 300 conveys the fluid feed to each containing mechanism 200 through the static second pipeline 410. When the traction apparatus 600 travels on the track 100 at a constant speed, the stationary second pipe 410 delivers the same amount of fluid feed to each containing mechanism 200.

Alternatively, the traction device 600 may be a rail car.

To sum up, the fluid feed partial shipment device 10 that this application embodiment provided, a plurality of mechanisms 200 that hold connect into a whole, move along track 100, and a plurality of mechanisms 200 that hold pass through storage mechanism 300 department in proper order in the motion process to by storage mechanism 300, conveying pump 400, first pipeline 310 and second pipeline 410 cooperation by being poured into fluid feed into after, continue to move to the workshop along track 100 and begin to unload a plurality of mechanisms 200 that hold separation. The fluid feed partial shipment device 10 of this application moves fluid feed partial shipment to workshop from the ejection of compact respectively through a plurality of mechanisms 200 and the cooperation of holding of track 100, has avoided artifical transport fluid feed and artifical transport to hold mechanism 200, has improved fluid feed partial shipment efficiency to and reduced the operation personnel and inhaled fluid feed and produced the amount of irritability or the gaseous of harm easily at the in-process of partial shipment. The embodiment of the present application further provides a fluid feed subpackaging system 20, wherein the traction device 600 is disposed on the track 100, and the traction device 600 pulls the plurality of containing mechanisms 200 to move along the track 100, so that the storage mechanism 300 conveys the fluid feed to each containing mechanism 200 through the stationary second pipeline 410. When the traction apparatus 600 travels on the track 100 at a constant speed, the stationary second pipe 410 delivers the same amount of fluid feed to each containing mechanism 200.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a fluid feed partial shipment device which characterized in that, fluid feed partial shipment device includes:

a track;

the bottom of each containing mechanism is provided with a guide piece matched with the track, each containing mechanism is provided with a connecting piece used for being connected with the adjacent containing mechanism, and the containing mechanisms are selectively connected through the connecting pieces;

the storage mechanism is used for storing fluid feed;

the feed delivery pump, storage mechanism pass through first pipeline with the feed delivery pump is connected, the feed delivery pump pass through the second pipeline with hold the mechanism cooperation, the feed delivery pump be used for with fluid feed in the storage mechanism is carried extremely hold the mechanism.

2. The fluid feed split charging device according to claim 1, wherein the fluid feed split charging device comprises a material guiding mechanism, the material guiding mechanism has a feeding port and a discharging port, one end of the second pipeline is connected to the material conveying pump, the other end of the second pipeline is arranged at the feeding port of the material guiding mechanism, and the discharging port of the material guiding mechanism is matched with the containing mechanism.

3. The fluid feed dispensing device of claim 2 wherein said indexing mechanism includes at least one said discharge port.

4. The fluid feed split charging device according to claim 2, wherein the discharge port of the material guiding mechanism is arranged at the upper side of the containing mechanism, and the discharge port is higher than the containing mechanism.

5. The fluid feed split charging device according to claim 2, wherein the discharge port of the guiding mechanism is arranged at the edge of the containing mechanism.

6. The fluid feed split charging device according to any one of claims 1 to 5, wherein the track is provided with a pulley, and the bottom of the containing mechanism is provided with a guide groove which is in rolling fit with the pulley.

7. The fluid feed split charging device according to any one of claims 1 to 5, wherein the track is provided with a chute, and the bottom of the containing mechanism is provided with a guide wheel which is in rolling fit with the chute.

8. The fluid feed dispenser according to any one of claims 1 to 5, wherein the holding mechanism has a first end and a second end connected to the adjacent holding mechanism, the holding mechanism is provided with a first fastener at the first end, a second fastener at the second end, and the first fastener and the second fastener are selectively connected.

9. The fluid feed dispenser of claim 8, wherein the first latch member is hingedly connected to the first end of the holding mechanism, the first latch member having a hook portion, and the second latch member having a channel portion engaged with the hook portion.

10. A fluid feed sub-packaging system, characterized in that, fluid feed sub-packaging system includes draw gear and the fluid feed sub-packaging device of any one of claims 1 ~ 9, draw gear can with the track roll cooperation, draw gear with a plurality of mechanisms that hold are connected.

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