CN221141204U - Quantitative bottling structure - Google Patents

Abstract

The utility model discloses a quantitative bottling structure which comprises a base, wherein a bin for containing honey and discharging the honey is arranged on the base, a quantitative rotating mounting frame is arranged on the base, a plurality of transfer pipes for containing the honey are arranged on the mounting frame, and an emptying mechanism for emptying the honey in the transfer pipes is arranged on the base.

Description

Quantitative bottling structure

Technical Field

The utility model relates to a quantitative bottling structure, and belongs to the field of honey filling.

Background

In order to ensure that honey can be quantitatively bottled during bottling, chinese patent document with publication number of CN116692746A discloses a honey quantitative bottling structure, which adopts a quantitative transfer container to quantitatively transfer honey, and then adopts a piston pushing plate to transfer the honey in the quantitative transfer container into a bottle to be filled, but the method adopts a quantitative transfer container which cannot be continuously operated, so that the bottling efficiency is low, and meanwhile, the piston pushing plate is stained with the honey when the honey is extruded, so that the amount of each bottling is not necessarily caused easily.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides a quantitative bottling structure, which adopts a plurality of transfer pipes to quantitatively transfer, the transfer pipes are distributed in a circular shape, the bottling operation can be continuously carried out, and the honey can be thoroughly cleaned by extruding a silicone tube through air.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a ration bottling structure, includes the base, install on the base and be used for holding honey and make honey exhaust feed bin, fixedly connected with fixed pipe on the end cover of feed bin, fixed pipe and external air pump interconnect, install quantitative pivoted mounting bracket on the base, the mounting bracket rotates and connects on the base, and through the motor shaft interconnect of gear train and motor, install a plurality of transport pipes that are used for holding honey on the mounting bracket, a plurality of transport pipes are ring form and distribute, install on the base and be used for making transport pipe inside honey evacuation's evacuation mechanism, when the material pipe is mutually aligned with the row on the feed bin to a transport pipe, must have another transport pipe that corresponds to align with evacuation mechanism.

Preferably, the transfer pipe includes the internally mounted of frame has the silicone tube, and the silicone tube self has elasticity, and the silicone tube is pegged graft in the inside of frame, the lower extreme of silicone tube runs through the frame and extends to the outside of frame, and the silicone tube runs through the position and the frame fixed connection of frame, and the size that the silicone tube lower extreme runs through the frame position is less than the size that the silicone tube is located the frame inside, the sealing portion that is used for making the silicone tube keep sealedly is installed to the lower extreme of frame, and sealing portion's setting can avoid the inside honey leakage of silicone tube, and the upper end fixedly connected with intake pipe of frame pumps the air through the intake pipe to the inside of frame to can make the silicone tube break through sealing portion.

Preferably, the sealing part comprises a fixed block and an extrusion block, the fixed block is fixedly connected to the lower end face of the outer frame, a fixed rod is symmetrically and fixedly connected to the extrusion block, the fixed rod penetrates through the fixed block and turns around, a first spring is installed between the turning part of the fixed rod and the fixed block, the first spring tightly supports the extrusion block towards the direction of the fixed block, and under the action of the supporting force of the first spring, the extrusion block can mutually cooperate with the fixed block to clamp the silicone tube.

Preferably, the evacuation mechanism comprises a sealing assembly and a pump air pipe, wherein the sealing assembly is used for sealing the upper end of the transfer pipe, when the transfer pipe is rotated to a position aligned with the evacuation mechanism, the sealing assembly seals the upper end of the corresponding transfer pipe, the air inlet pipe is aligned with the pump air pipe, the pump air pipe is fixedly connected to the base and is mutually connected with an external air pump, and the sealing assembly seals the upper end of the transfer pipe, so that bees can push the extrusion block, and the bees can be discharged from the lower end of the silica gel pipe.

Preferably, the seal assembly is installed on the feed bin, the seal assembly includes spacing frame, the inside of spacing frame has the sealing plug through second spring sliding connection, and the tight power of support of second spring can be with sealing plug top to transfer the pipe, and the elasticity coefficient of second spring is greater than the elasticity coefficient of first spring.

Preferably, the rubber plug has been cup jointed in the tracheal outside of pump, install the third spring between rubber plug and the base plate, the third spring has the tight power of supporting with the rubber plug to the air inlet pipe direction tight, rubber plug outer terminal surface both sides are the inclined plane, and the setting of inclined plane can make the air inlet pipe when rotating to the tracheal direction of pump, can be better with the rubber plug jack-off.

Preferably, a plurality of fixedly connected with and its up end flush sealing ring between the transportation pipe can avoid transporting the pipe at pivoted in-process, and the inside honey drip of feed bin causes the honey extravagant in transportation pipe's outside.

Compared with the prior art, the utility model has the following beneficial effects:

1. Through the arrangement of the mounting frame and the transfer tube, quantitative transfer of honey can be realized continuously, meanwhile, bottling of honey is completed, and the honey bottling efficiency is improved;

2. the arrangement of the silicone tube, the extrusion block and the emptying mechanism realizes that the emptying mechanism pumps air into the outer frame, so that air can extrude the silicone tube and empty honey in the silicone tube;

3. The setting of sealing ring can avoid the bin discharge opening when not mutually aligning with the transfer pipe, and its inside honey is through the discharge opening whereabouts to lead to the honey extravagant.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram showing the connection between the mounting frame and the outer frame according to the present utility model.

Fig. 3 is an enlarged view of fig. 2 at a in accordance with the present utility model.

Fig. 4 is a cross-sectional view of the outer frame of the present utility model.

Fig. 5 is an enlarged view of fig. 4 at B in accordance with the present utility model.

Fig. 6 is a schematic structural view of the mounting frame of the present utility model.

FIG. 7 is a schematic view of the rubber stopper of the present utility model.

In the figure: 1. base, 2, bin, 3, mounting bracket, 4, transfer pipe, 401, frame, 402, silica gel pipe, 403, fixed block, 404, extrusion block, 405, dead lever, 406, first spring, 407, intake pipe, 5, evacuation mechanism, 501, pump pipe, 502, spacing frame, 503, sealing plug, 504, second spring, 505, rubber plug, 506, base plate, 507, third spring, 6, sealing ring, 7, motor.

Detailed Description

The utility model is illustrated below by means of specific examples, without however limiting the utility model.

In this embodiment, as shown in fig. 1, fig. 2 and fig. 4, the quantitative bottling structure provided includes a base 1, a bin 2 for containing honey and discharging honey is installed on the base 1, a fixed pipe is fixedly connected to an end cover of the bin 2, the fixed pipe is connected to an external air pump, air can be pumped into the bin 2 to enable honey in the bin 2 to be discharged through a discharge pipe, the end cover of the bin 2 is connected with a bin body of the bin 2 in a meshed manner, a quantitatively rotating mounting frame 3 is installed on the base 1, the mounting frame 3 is rotatably connected to the base 1, and is connected with a motor shaft of a motor 7 through a gear set, the motor shaft of the motor 7 is rotatably rotated for a specified number of turns, the mounting frame 3 is rotatably fixed for each time, a plurality of transfer pipes 4 for containing honey are installed on the mounting frame 3, the plurality of transfer pipes 4 are distributed in a circular ring shape (as shown in fig. 6), an emptying mechanism 5 for discharging honey in the transfer pipes 4 is installed on the base 1, when the end cover of the bin 2 is mutually aligned with the discharge pipe on the bin 2, and the other transfer pipes 4 are aligned with each other, and the corresponding transfer mechanisms 4 can be continuously emptied by the emptying mechanism 4, and the bottles 4 can be continuously aligned with the transport mechanism 4;

a conveyor belt can be arranged below the emptying mechanism 5, and bottles to be filled with honey are transported to the position below the emptying mechanism 5 at intervals, so that continuous bottling can be realized.

As shown in fig. 4 and 5, the transfer tube 4 includes that the internally mounted of frame 401 has silicone tube 402, and silicone tube 402 self has elasticity, and silicone tube 402 peg graft in the inside of frame 401, and silicone tube 402 closely laminates with the inside wall of frame 401 under the elasticity effect of self, the lower extreme of silicone tube 402 runs through frame 401 and extends to the outside of frame 401, and the position that silicone tube 402 runs through frame 401 and frame 401 fixed connection, and the size that the position was run through frame 401 was located to silicone tube 402 is less than the size that silicone tube 402 was located frame 401 in the lower extreme of silicone tube 402, the sealing that is used for making silicone tube 402 keep sealed is installed to the lower extreme of frame 401, and sealing's setting can avoid the honey of silicone tube 402 inside to leak, and the upper end fixedly connected with intake pipe 407 of frame 401 pumps the air to the inside of frame 401 through intake pipe 407 to make silicone tube 402 break through sealing, make the inside honey of silicone tube 402 can be smooth the discharge.

As shown in fig. 3, the sealing portion includes a fixing block 403 and an extrusion block 404, the fixing block 403 is fixedly connected to the lower end face of the outer frame 401, fixing rods 405 are symmetrically and fixedly connected to the extrusion block 404, the fixing rods 405 penetrate through the fixing block 403 and are folded around, a first spring 406 is installed between the folding position of the fixing rods 405 and the fixing block 403, one end of the first spring 406 is fixedly connected with the folding position of the fixing rod 405, the other end of the first spring 406 is fixedly connected with the fixing block 403, the first spring 406 tightly pushes the extrusion block 404 towards the direction of the fixing block 403, and under the action of the pushing force of the first spring 406, the extrusion block 404 and the fixing block 403 mutually cooperate to clamp the silicone tube 402, so that the lower end of the silicone tube 402 can be kept sealed.

The evacuation mechanism 5 comprises a sealing component and a pump air pipe 501, wherein the sealing component is used for sealing the upper end of the transfer pipe 4, when the transfer pipe 4 rotates to a position aligned with the evacuation mechanism 5, the sealing component seals the upper end of the corresponding transfer pipe 4, the air inlet pipe 407 is aligned with the pump air pipe 501, the pump air pipe 501 is fixedly connected to the base 1 and is mutually connected with an external air pump, the pump air pipe 501 pumps air into the outer frame 401 through the air inlet pipe 407, and under the extrusion action of the air, the upper end of the transfer pipe 4 is sealed by the sealing component, so bees can jack up the extrusion block 404, and the bees can be discharged from the lower end of the silica gel pipe 402.

As shown in fig. 4, the sealing assembly is mounted on the bin 2, the sealing assembly includes a limiting frame 502, a sealing plug 503 is slidably connected to the inside of the limiting frame 502 through a second spring 504, the sealing plug 503 can be pushed against the transfer tube 4 by the tight pushing force of the second spring 504, and the elastic coefficient of the second spring 504 is greater than that of the first spring 406, so that under the extrusion action of air, the honey will push the extrusion block 404 open.

As shown in fig. 7, the outer side of the air pump pipe 501 is sleeved with a rubber plug 505, a third spring 507 is installed between the rubber plug 505 and the base plate 506, the third spring 507 has a pressing force for pressing the rubber plug 505 against the air inlet pipe 407, the arrangement of the rubber plug 505 can ensure sealing between the air pump pipe 501 and the corresponding air inlet pipe 407, the air pump pipe 501 can pump air into the air inlet pipe 407 better, two sides of the outer end surface of the rubber plug 505 are inclined planes, and the inclined planes are arranged, so that the air inlet pipe 407 can jack the rubber plug 505 open better when the air pump pipe 501 rotates in the direction of the air pump pipe 501, and thus the air pump pipe 501 can be aligned smoothly.

As shown in fig. 2, a plurality of fixedly connected with and its up end flush sealing ring 6 between the transfer pipe 4, sealing ring 6's setting can avoid transferring pipe 4 at pivoted in-process, and the inside honey drip of feed bin 2 causes the honey extravagant in the outside of transferring pipe 4.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical solution of the present utility model and not for limiting the technical solution of the present utility model, and although the present utility model has been described in detail with reference to the above-mentioned embodiments, it should be understood by those skilled in the art that the present utility model may be modified or equivalently replaced without departing from the spirit and scope of the present utility model, and any modification or partial replacement thereof should be included in the scope of the claims of the present utility model.

Claims (7)

1. The utility model provides a ration bottling structure, its characterized in that, includes base (1), install on base (1) and be used for holding honey and make honey exhaust feed bin (2), install quantitative pivoted mounting bracket (3) on base (1), install a plurality of transport pipe (4) that are used for holding honey on mounting bracket (3), install on base (1) and be used for making transport pipe (4) inside honey evacuation mechanism (5).

2. The quantitative bottling structure according to claim 1, wherein the transfer tube (4) comprises a silicone tube (402) mounted inside an outer frame (401), the lower end of the silicone tube (402) penetrates through the outer frame (401) and extends to the outside of the outer frame (401), the portion of the silicone tube (402) penetrating through the outer frame (401) is fixedly connected with the outer frame (401), a sealing portion for keeping the silicone tube (402) sealed is mounted at the lower end of the outer frame (401), and an air inlet tube (407) is fixedly connected to the upper end of the outer frame (401).

3. The quantitative bottling structure according to claim 2, wherein the sealing portion comprises a fixing block (403) and an extrusion block (404), fixing rods (405) are symmetrically and fixedly connected to the extrusion block (404), the fixing rods (405) penetrate through the fixing block (403) and are folded around, a first spring (406) is arranged between the folding position of the fixing rods (405) and the fixing block (403), and the extrusion block (404) is abutted against the fixing block (403) by the first spring (406).

4. A dosing and bottling structure according to claim 2, characterized in that the emptying mechanism (5) comprises a sealing assembly for sealing the upper end of the transfer tube (4) and a pump air tube (501), the pump air tube (501) being fixedly connected to the base (1) and to an external air pump.

5. The quantitative bottling structure according to claim 4, wherein the sealing assembly is mounted on the bin (2), the sealing assembly comprises a limiting frame (502), and a sealing plug (503) is slidably connected to the inside of the limiting frame (502) through a second spring (504).

6. The quantitative bottling structure according to claim 5, wherein a rubber stopper (505) is sleeved on the outer side of the pump air pipe (501), a third spring (507) is installed between the rubber stopper (505) and the base plate (506), and two sides of the outer end face of the rubber stopper (505) are inclined planes.

7. A quantitative bottling structure according to claim 1, characterized in that a sealing ring (6) flush with the upper end face of the transfer tube (4) is fixedly connected between the transfer tubes.