CN220164723U - Storage device capable of sampling solvent - Google Patents

Abstract

A storage device capable of sampling solvent relates to the technical field of ink solvent sampling, and comprises a traction ring, wherein the traction ring is pulled to enable the traction ring to pull a fixed ring to move upwards through the traction rope, so that the fixed ring drives a hollow gravity column to move upwards, the hollow gravity column drops through self gravity to enable the solvent in a temporary storage barrel, the height of the hollow gravity column can be adjusted, an electric telescopic rod stretches, an annular plate can be pushed to move upwards by the electric telescopic rod, three pushing plates can be driven to extrude the solvent in a solvent inlet upwards by the annular plate, and after the annular plate moves upwards, a spring drives a spherical sealing block to move upwards through self elasticity; the position of the hollow gravity column is adjusted by traction and gravity of the hollow gravity column, so that different depths of solvents in the solvent storage device are sampled, and sampling and detection are facilitated.

Description

Storage device capable of sampling solvent

Technical Field

The utility model relates to the technical field of ink solvent sampling, in particular to a storage device capable of sampling a solvent.

Background

The current application number is 2021227316319's printing ink storage device for advertisement preparation installs the bleeder valve through the bottom one side of interior bucket, makes things convenient for this printing ink storage device for advertisement preparation inside printing ink to go out the ejection of compact, but current solvent storage device can not directly take a sample in the use, needs to open solvent storage device and takes a sample, and the position of taking a sample is on the surface, can not take a sample to the inside different degree of depth of solvent storage device, is inconvenient for the sample and detects.

Disclosure of Invention

In order to overcome the defects in the background technology, the utility model provides the storage device capable of sampling the solvent.

In order to achieve the aim of the utility model, the utility model adopts the following technical scheme:

the utility model provides a storage device that can sample solvent, includes temporary storage bucket, temporary storage bucket's side is equipped with solvent sample discharge mechanism, is equipped with traction mechanism on the solvent sample discharge mechanism, is equipped with sealing mechanism on the temporary storage bucket.

The solvent sampling and discharging mechanism comprises a solvent outflow faucet, an elastic tube and a gravity mechanism, wherein the side surface of the temporary storage barrel is penetrated and provided with the solvent outflow faucet, one end of the elastic tube is fixed at the inner end of the solvent outflow faucet, and the gravity mechanism is fixed at the other end of the elastic tube.

The gravity mechanism comprises a hollow gravity column and a solvent inlet, the other end of the elastic tube is fixed with the hollow gravity column, the inside of the hollow gravity column is provided with a plugging mechanism, the bottom side of an inner cavity of the hollow gravity column is conical, and three solvent inlets are formed in the side face of the hollow gravity column.

The plugging mechanism comprises a spherical sealing block, an electric telescopic rod, an annular plate and a pushing plate, wherein one end of the electric telescopic rod is fixed at the bottom side of the hollow gravity column, the annular plate is fixed at the other end of the electric telescopic rod, three pushing plates are fixed on the side face of the annular plate, and the spherical sealing block is placed in the hollow gravity column below the annular plate.

One end of a spring is fixedly connected to the top side of the interior of the hollow gravity column, and the other end of the spring is fixed to the spherical sealing block.

The traction mechanism comprises a fixed ring, traction ropes and traction rings, wherein the side face of the hollow gravity column is clamped with the fixed ring through an annular groove, one ends of the two traction ropes are symmetrically and fixedly connected to the fixed ring, the other ends of the two traction ropes penetrate through the top side of the temporary storage barrel, and the traction rings are arranged at the other ends of the two traction ropes.

The sealing mechanism comprises a placing groove and rubber sealing blocks, wherein the top side of the temporary placing barrel is provided with two placing grooves, two traction ropes penetrate through the two placing grooves respectively, the side surfaces of the two placing grooves are rotationally connected with the two rubber sealing blocks on the top side of the temporary placing barrel, and the two rubber sealing blocks are in corresponding sealing butt joint with the two placing grooves respectively.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

according to the storage device capable of sampling the solvent, the traction ring is pulled, so that the traction ring pulls the fixing ring to move upwards through the traction rope, the fixing ring drives the hollow gravity column to move upwards, the hollow gravity column drops in the solvent in the temporary storage barrel through self gravity, the height of the hollow gravity column can be adjusted, and further sampling detection is facilitated.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a perspective cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of the structure at A of the present utility model;

FIG. 4 is an enlarged view of the structure at B of the present utility model;

1. temporarily placing a barrel; 2. a sealing mechanism; 21. a placement groove; 22. a rubber sealing block; 3. a pulling mechanism; 31. a fixing ring; 32. pulling the rope; 33. pulling the ring; 4. a solvent sampling and discharging mechanism; 41. the solvent flows out of the faucet; 42. an elastic tube; 43. a gravity mechanism; 431. a hollow gravitational column; 432. a solvent inlet; 5. a plugging mechanism; 51. a spherical sealing block; 52. an electric telescopic rod; 53. an annular plate; 54. a push plate; 6. and (3) a spring.

Detailed Description

The utility model will be explained in more detail by the following examples, the purpose of which is to protect all technical improvements within the scope of the utility model.

The storage device capable of sampling solvents comprises a temporary storage barrel 1, a solvent sampling and discharging mechanism 4 is arranged on the side face of the temporary storage barrel 1, a pulling mechanism 3 is arranged on the solvent sampling and discharging mechanism 4, and a sealing mechanism 2 is arranged on the temporary storage barrel 1.

The solvent sampling discharging mechanism 4 comprises a solvent discharging faucet 41, an elastic pipe 42 and a gravity mechanism 43, wherein the side surface of the temporary discharging barrel 1 is penetrated and provided with the solvent discharging faucet 41, the solvent discharging faucet 41 is specifically divided into a valve and a discharging pipe, the valve can be continuously opened to discharge the solvent of the temporary discharging barrel 1, the phenomenon that the temporary discharging barrel 1 cannot use the solvent completely is avoided, one end of the elastic pipe 42 is fixed at the inner end of the solvent discharging faucet 41, the gravity mechanism 43 is fixed at the other end of the elastic pipe 42, and the solvent discharging faucet 41 is opened, so that the solvent in the temporary discharging barrel 1 can be discharged and sampled through the gravity mechanism 43, the elastic pipe 42 and the solvent discharging faucet 41.

The gravity mechanism 43 includes a hollow gravity column 431 and a solvent inlet 432, the other end of the elastic tube 42 is fixed with the hollow gravity column 431, the hollow gravity column 431 drops by gravity of itself to enable the hollow gravity column 431 to drop down in the solvent in the temporary bucket 1, the height of the hollow gravity column 431 can be adjusted, a plugging mechanism 5 is arranged in the hollow gravity column 431, the bottom side of the hollow cavity in the hollow gravity column 431 is conical, the solvent can conveniently flow into the elastic tube 42, three solvent inlets 432 are formed in the side surface of the hollow gravity column 431, and the solvent inlets 432 are convenient for the inflow of the corresponding solvent with high height.

The plugging mechanism 5 comprises a spherical sealing block 51, an electric telescopic rod 52, an annular plate 53 and a push plate 54, wherein one end of the electric telescopic rod 52 is fixed at the bottom side of the hollow gravity column 431, the annular plate 53 is fixed at the other end of the electric telescopic rod 52, three push plates 54 are fixed on the side face of the annular plate 53, the spherical sealing block 51 is placed in the hollow gravity column 431 below the annular plate 53, the electric telescopic rod 52 stretches and contracts, the electric telescopic rod 52 can push the annular plate 53 to move upwards, the annular plate 53 drives the three push plates 54 to extrude solvent in the solvent inlet 432 upwards, and the solvent at the height enters the hollow gravity column 431 through the lower part of the push plate 54, so that sampling detection is facilitated.

One end of the spring 6 is fixedly connected to the top side of the inside of the hollow gravity column 431, the other end of the spring 6 is fixed to the spherical sealing block 51, after the annular plate 53 moves upwards, the spring 6 drives the spherical sealing block 51 to move upwards through the elasticity of the spring 6, and then the end of the elastic tube 42 is opened, so that the solution is convenient to carry out inside the elastic tube 42.

The traction mechanism 3 comprises a fixed ring 31, traction ropes 32 and traction rings 33, the side face of a hollow gravity column 431 is clamped with the fixed ring 31 through an annular groove, the fixed ring 31 and the hollow gravity column 431 can be connected, the fixed ring 31 is convenient to drive the hollow gravity column 431 to move upwards, one ends of the two traction ropes 32 are symmetrically and fixedly connected on the fixed ring 31, the other ends of the two traction ropes 32 penetrate through the top side of the temporary storage barrel 1, the traction rings 33 are arranged at the other ends of the two traction ropes 32, the traction rings 33 are pulled, the traction rings 33 are enabled to pull the fixed ring 31 to move upwards through the traction ropes 32, and then the fixed ring 31 drives the hollow gravity column 431 to move upwards, so that the height of the hollow gravity column 431 is adjusted.

The sealing mechanism 2 comprises a placing groove 21 and rubber sealing blocks 22, two placing grooves 21 are formed in the top side of the temporary placing barrel 1, the placing grooves 21 facilitate the placing of pulling rings 33, the pulling rings 33 are prevented from being hooked outside to cause damage when the temporary placing barrel is not used, two pulling ropes 32 penetrate through the two placing grooves 21 respectively, two rubber sealing blocks 22 are rotatably connected to the side surfaces of the two placing grooves 21 on the top side of the temporary placing barrel 1, the two rubber sealing blocks 22 are respectively in corresponding sealing butt joint with the two placing grooves 21, and the rubber sealing blocks 22 can cover the placing grooves 21, so that the pulling ropes 32 are kept clean.

When the storage device capable of sampling the solvent is used, the traction ring 33 is pulled, the traction ring 33 pulls the fixed ring 31 to move upwards through the traction rope 32, the fixed ring 31 drives the hollow gravity column 431 to move upwards, the hollow gravity column 431 drops through self gravity, the solvent in the temporary storage barrel 1 can drop down, the height of the hollow gravity column 431 can be adjusted, the electric telescopic rod 52 stretches and contracts, the electric telescopic rod 52 can push the annular plate 53 to move upwards, the annular plate 53 can drive the three push plates 54 to extrude the solvent in the solvent inlet 432 upwards, after the annular plate 53 moves upwards, the spring 6 drives the spherical sealing block 51 to move upwards through self elasticity, the end part of the elastic tube 42 is opened, the solvent at the height can enter the inside of the hollow gravity column 431 and the inside of the elastic tube 42 through the push plate 54, the solvent outflow faucet 41 is opened, and the solvent in the temporary storage barrel 1 can flow out of the sampling faucet through the elastic tube 42 and the solvent outflow faucet 41.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (2)

1. The utility model provides a storage device that can take a sample solvent, includes temporary put bucket (1), characterized by: the side of the temporary storage barrel (1) is provided with a solvent sampling and discharging mechanism (4), the solvent sampling and discharging mechanism (4) is provided with a pulling mechanism (3), and the temporary storage barrel (1) is provided with a sealing mechanism (2);

the solvent sampling and discharging mechanism (4) comprises a solvent outflow faucet (41), an elastic tube (42) and a gravity mechanism (43), wherein the side surface of the temporary storage barrel (1) is provided with the solvent outflow faucet (41) in a penetrating way, one end of the elastic tube (42) is fixed at the inner end of the solvent outflow faucet (41), and the gravity mechanism (43) is fixed at the other end of the elastic tube (42);

the gravity mechanism (43) comprises a hollow gravity column (431) and a solvent inlet (432), the other end of the elastic tube (42) is fixedly provided with the hollow gravity column (431), the inside of the hollow gravity column (431) is provided with a plugging mechanism (5), the bottom side of the inner cavity of the hollow gravity column (431) is conical, and the side surface of the hollow gravity column (431) is provided with three solvent inlets (432);

the plugging mechanism (5) comprises a spherical sealing block (51), an electric telescopic rod (52), an annular plate (53) and a push plate (54), wherein one end of the electric telescopic rod (52) is fixed at the bottom side of the hollow gravity column (431), the annular plate (53) is fixed at the other end of the electric telescopic rod (52), three push plates (54) are fixed on the side surface of the annular plate (53), and the spherical sealing block (51) is placed in the hollow gravity column (431) below the annular plate (53);

one end of a spring (6) is fixedly connected to the top side of the inside of the hollow gravity column (431), and the other end of the spring (6) is fixed on a spherical sealing block (51);

the traction mechanism (3) comprises a fixed ring (31), traction ropes (32) and traction rings (33), wherein the side face of the hollow gravity column (431) is clamped with the fixed ring (31) through an annular groove, one ends of the two traction ropes (32) are symmetrically and fixedly connected to the fixed ring (31), the other ends of the two traction ropes (32) penetrate through the top side of the temporary storage barrel (1), and the traction rings (33) are arranged at the other ends of the two traction ropes (32).

2. The storage device for solvent that can be sampled according to claim 1, characterized in that: sealing mechanism (2) are including standing groove (21) and rubber sealing piece (22), two standing grooves (21) have been seted up to the top side of putting bucket temporarily (1), and inside two standing grooves (21) are run through respectively to two tractive ropes (32), are located the side of two standing grooves (21) and rotate in the top side of putting bucket temporarily (1) and be connected with two rubber sealing pieces (22), and two rubber sealing pieces (22) correspond sealed butt joint with two standing grooves (21) respectively.