CN118770778B - Printing ink storage barrel - Google Patents

Abstract

The invention relates to the technical field of ink storage, and discloses an ink storage barrel which comprises a barrel body and a fixed outer cover which is connected to the top of the barrel body in a sealing and dismounting way, wherein four protruding ribs are fixedly connected to the peripheral side of the barrel body, the four protruding ribs are distributed in pairs to form two annular grooves, a binding mechanism is fixedly connected to the peripheral side of the barrel body, an axial damping movable inner cover is slidably connected to the inside of the barrel body, a protective air cavity is formed between the fixed outer cover and the axial damping movable inner cover, a combined sealing mode of a sealing plate and a movable plate is adopted, pressurized protective air is injected into the cavity between the two plates to prevent ink from contacting with air, the ink storage barrel is used for long-time storage, liquid is enabled to rise into a collector by utilizing the descending reaction force of the movable plate, the ink storage barrel is still convenient to take, quantitative collection can be realized by changing a cup according to requirements, and the limitation of use of a large-capacity ink barrel is thoroughly solved.

Description

Printing ink storage barrel

Technical Field

The invention relates to the technical field of ink storage, in particular to an ink storage barrel.

Background

The ink product is mainly packaged in a bottle and barrel mode, and the ink is required to be large for the printing field due to different ink requirements of different industries, so that the volume of the ink barrel supplied for printing enterprises is 200 liters at most, and the specifications of tens of liters are quite common.

Because of the large weight of large capacity ink tanks, the ink tanks are often provided with separate metal handle rings or with two ear rings for transportation. Such handles are mainly used for personnel operations. Sometimes, the ink barrel is required to be lifted and put, and the handle is difficult to be linked with mechanical equipment, so that the ink material is required to be transferred into a special putting barrel for operation.

There is also a problem with large volume ink tanks in that there are many procedures in which small size ink is required for use, such as inspection departments, research and development departments, and small order customer product manufacturing processes, where purchasing multiple volume specifications results in a complex purchase, and where the cost performance is lower than the large volume specifications, and where large volumes are cumbersome to use for small demand.

Chinese patent discloses a UV offset ink packaging barrel with anti-oxidation effect, and its publication number is (CN 117163504A), and this patent has set up discharge mechanism in the barrel side to set up extrusion mechanism at the barrel head, utilize extrusion effort to overcome the influence of printing ink viscosity to the ejection of compact, make printing ink discharge through discharge mechanism, this mode can solve the little volume demand of getting of large capacity staving, but is limited to the high influence and is difficult to take when this pail pack uses. Firstly, the discharging mechanism is arranged at the bottom end, so that the packaging barrel needs to be placed at a high point position to be convenient to take. For a large-capacity barrel with hundreds of liters, a firm bearing platform is needed for bearing, and if the position is too low, the container is easily not positioned below the discharging mechanism, so that the container cannot be taken out. High-position placement is difficult.

Disclosure of Invention

The present invention is directed to an ink storage barrel, which solves the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides an printing ink storage barrel, includes staving and sealed dismantlement are connected in the fixed enclosing cover at staving top, the week side fixedly connected with four protruding muscle of staving, four protruding muscle is two liang of distribution forms two ring channel bodies, the week side fixedly connected with tie down mechanism of staving, tie down mechanism including fix two horizontal tie down between the protruding muscle and two end connection area of fixing in the staving upper and lower extreme, adjacent two fixedly connected with axial connecting band between the end connection area, axial connecting band is tied down in the ring channel by horizontal tie down area;

The inside sliding connection of staving has axial damping activity inner cup, fixed enclosing cover with form the protection air cavity between the axial damping activity inner cup, the top of fixed enclosing cover is provided with two protection gas delivery holes, the center fixedly connected with drain pipe of axial damping activity inner cup, the top fixedly connected with valve pipe of drain pipe, the top of drain pipe can be dismantled and be connected with the ration cup.

As a still further proposal of the invention, the two ends of the axial connecting belt are provided with end bending parts, the end bending parts are positioned between the end connecting belt and the transverse binding belt, and the inside of the end bending parts is fixedly connected with elastic U-shaped metal sheets.

As a still further proposal of the invention, the valve tube is positioned above the axial damping movable inner cover, and the quantitative cup is fixedly inserted with the valve tube.

As a still further proposal of the invention, the cavity of the quantitative cup is disc-shaped or cylindrical, and the cylindrical cavity is provided with scale marks.

As a still further proposal of the invention, the top of the axial damping movable inner cover is provided with an exhaust pipe, and the top of the exhaust pipe and the top of the protective gas conveying hole are both closed by a cover body.

As a still further aspect of the present invention, foam blocks are filled between the bottom surface of the inner wall of the fixed outer cap and the top surface of the axially damped movable inner cap.

As a still further proposal of the invention, the circumference side of the axial damping movable inner cover is provided with a sealing rubber strip.

Compared with the prior art, the invention has the beneficial effects that:

The novel band-type constraint is adopted by the barrel body, the novel band-type constraint can be applied to lifting, holding and even overturning throwing operation, as independent stress points cannot occur on the whole barrel body, reactive force is uniformly applied to the barrel body and the raised ribs through the end connecting band and the transverse constraint band, the barrel body is prevented from being damaged, the combined sealing mode of the sealing plate and the movable plate is adopted, pressurized protective gas is injected into a cavity between the two plates to prevent ink from contacting with air, the novel band-type constraint is used for long-time storage, liquid is enabled to rise into the collector by utilizing the reactive force of the descending of the movable plate, the novel band-type constraint is still convenient to take on the ground, quantitative collection can be realized by replacing the measuring cup according to requirements, the problem that the industrial ink demand is large is thoroughly solved, the price of a large-size ink barrel is low, and the use limitation of the large-capacity ink barrel is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of an ink storage tank;

FIG. 2 is a schematic cross-sectional view of an ink storage tank;

FIG. 3 is a perspective view of the ink storage tank with the stationary outer cover removed;

FIG. 4 is a perspective view of the tub of FIG. 3 shown in a broken away;

FIG. 5 is a schematic perspective view of a tie down mechanism in an ink storage tank;

In the figure, 1, a barrel body; 11, raised ribs, 2, a binding mechanism, 21, an axial connecting belt, 22, a transverse binding belt, 23, an end bending part, 24, an end connecting belt, 3, a fixed outer cover, 31, a protective gas conveying hole, 4, an axial damping movable inner cover, 41, a liquid outlet pipe, 42, a valve pipe, 43, a quantitative cup, 44 and an exhaust pipe.

Detailed Description

Referring to fig. 1-5, in this embodiment, the fixing device comprises a barrel body 1 and a fixing outer cover 3 which is connected to the top of the barrel body 1 in a sealing and disassembling manner, four protruding ribs 11 are fixedly connected to the peripheral side of the barrel body 1, the four protruding ribs 11 are distributed in pairs to form two annular grooves, a binding mechanism 2 is fixedly connected to the peripheral side of the barrel body 1, the binding mechanism 2 comprises a transverse binding belt 22 fixed between the two protruding ribs 11 and two end connecting belts 24 fixed at the upper end and the lower end of the barrel body 1, an axial connecting belt 21 is fixedly connected between the two adjacent end connecting belts 24, and the axial connecting belt 21 is bound in the annular grooves by the transverse binding belt 22. The inside sliding connection of staving 1 has axial damping activity inner cup 4, forms the protection air cavity between fixed enclosing cover 3 and the axial damping activity inner cup 4, and the top of fixed enclosing cover 3 is provided with two protection gas delivery holes 31, and the center fixedly connected with drain pipe 41 of axial damping activity inner cup 4, the top fixedly connected with valve pipe 42 of drain pipe 41, the top of drain pipe 41 can be dismantled and be connected with quantitative cup 43.

In this embodiment, in order to ensure the stability of the transportation connection node of the tub 1, the restraint mechanism 2 is used as a connector between the tub 1 and other transportation components. Firstly, protruding ribs 11 are arranged on the periphery of a barrel body 1, two annular grooves which are vertically distributed are formed by two groups of protruding ribs 11 which are distributed in pairs, transverse binding belts 22 are bound in the annular grooves, axial connecting belts 21 are axially distributed along the barrel body 1 on the periphery of the barrel body 1, meanwhile, the axial connecting belts 21 penetrate through the annular grooves and the bottom surfaces of the transverse binding belts 22, and the end parts of the axial connecting belts 21 extend to the top end of the barrel body 1 or the bottom end of the barrel body 1 and are fixedly connected with end connecting belts 24. At this time, the middle part of the axial connecting belt 21 is supported by the two raised ribs 11 to form a suspended long belt, and when the residual quantity in the barrel is reduced or the barrel is empty, a person can hold the axial connecting belt 21 to take and transport the barrel body 1.

In this embodiment, when the interior of the tub 1 is filled with ink, the curved end bending portion 23 can be inserted into the front fork or the hook of the forklift very easily, and the tub 1 is lifted up by the end bending portion 23, and at this time, the end bending portion 23 is only slightly displaced and can be kept fixed under the influence of the protruding rib 11.

In this embodiment, when the device is required to be lifted and put obliquely, the rod-like tool can be inserted into the two axially distributed end bending portions 23, so as to drive the barrel body 1 to change the angle for putting ink. Because the whole barrel body 1 can not appear independent atress point position, evenly apply reaction force in barrel body 1, protruding muscle 11 department through end connection area 24, horizontal constraint area 22 to can avoid barrel body 1 to damage, simple structure is applicable to the high capacity specification bucket that operating personnel transport is hard or unable transport more than 10 liter.

In this embodiment, the ink is easily oxidized and the bulk drum is required to have a small number of access functions if needed for satisfactory use. According to the invention, the axial damping movable inner cover 4 is arranged in the barrel body 1, after the filling of the barrel body 1 is completed, the axial damping movable inner cover 4 is lowered to the ink liquid level, and the protective gas with pressure is filled through the protective gas conveying hole 31, so that the pressure is applied to the top surface of the axial damping movable inner cover 4, and the adhesion between the axial damping movable inner cover 4 and the ink liquid level is ensured. When the ink bottle is used, the fixed outer cover 3 is opened, the ink is still sealed in the barrel body 1 by the axially damping movable inner cover 4, and the ink is not contacted with air.

In this embodiment, when the whole barrel 1 needs to be put into the equipment or the use area, the exhaust pipe 44 can be opened at this time, the axial damping movable inner cover 4 is directly taken out from the barrel 1, a small amount of put-in can be realized through the protective gas conveying hole 31, or the fixed outer cover 3 is opened, and the restraint mechanism 2 is connected with the mechanical equipment, and is directly put into the use area through the opening of the barrel 1.

In this embodiment, if half of the ink is put into the barrel, the axially damping movable inner cover 4 may be placed inside the barrel 1, the exhaust pipe 44 is opened, the axially damping movable inner cover 4 is pressed downward to contact with the ink liquid surface, air is discharged through the exhaust pipe 44, and after a small amount of ink is discharged into the exhaust pipe 44, the exhaust pipe 44 is closed by wiping the ink. When the ink is used in a small amount, the valve tube 42 is opened, the movable inner cover 4 is pressed downwards through the axial damping, the ink enters the quantitative cup 43 through the liquid outlet tube 41 and the valve tube 42 under the reaction force, and at the moment, the valve tube 42 is closed, so that the residual ink in the quantitative cup 43 can be independently used. The bottom of the quantitative cup 43 can be provided with an independent sealing valve, and after the valve pipe 42 is closed, the bottom valve of the quantitative cup 43 is closed, so that the quantitative cup 43 can be taken away for use. The mode of taking can solve the problem that the ink barrel is large in size and the lifting and placing difficulty is large, the problem that the ink barrel can still be used on the ground, the height of the axial damping movable inner cover 4 is reduced along with the increase of the use frequency and the times, and the ink on the inner wall of the barrel body 1 is scraped through the sealing layer on the side wall of the axial damping movable inner cover 4 continuously, so that the ink is effectively utilized.

In this embodiment, the two ends of the axial connecting band 21 have end bending portions 23, the end bending portions 23 are located between the end connecting band 24 and the lateral binding band 22, and an elastic U-shaped metal sheet is fixedly connected to the inside of the end bending portions 23.

In this embodiment, the elastic U-shaped metal sheet is attached to the end bending portion 23, so that the two ends of the axial connecting band 21 naturally form the curved end bending portion 23 under the condition of no stress, thereby facilitating the insertion of the lifting node or the fork of the forklift. The end point bending portion 23 is elastically deformed when the person holds it, and provides a part of the allowance to the suspended portion of the axial connecting band 21.

In this embodiment, the valve tube 42 is located above the axially damping movable inner cap 4, and the dosing cup 43 is inserted and fixed with the valve tube 42. When the metering cup 43 is not separated from the valve tube 42 after taking, the valve tube 42 is closed, so that the ink below the valve tube 42 is prevented from contacting with air, and the quality of the ink is protected.

In this embodiment, the cavity of the dosing cup 43 is disc-shaped or cylindrical, and the cylindrical cavity is provided with graduation marks. The disc-shaped dosing cup 43 allows a larger level of spreading of the removed ink, facilitating the brushing. The cylindrical cavity is provided with scales, and a user controls the pressing stroke of the axial damping movable inner cover 4, so that the liquid level gradually rises to a required amount to be taken out.

In this embodiment, the top of the axial damping movable inner cap 4 is provided with the exhaust pipe 44, and the top of the exhaust pipe 44 and the top of the shielding gas delivery hole 31 are both closed by the cap body. In the process of inflating the protective gas conveying holes 31, protective gas sinks, and air is discharged from the other protective gas conveying hole 31 until the protective gas is completely arranged between the fixed outer cover 3 and the axial damping movable inner cover 4, at the moment, one protective gas conveying hole 31 is closed, and the inflation is continued through the other protective gas conveying hole 31, so that the air pressure in the fixed outer cover 3 and the axial damping movable inner cover 4 is increased, and the pressure is applied to the axial damping movable inner cover 4, so that the axial damping movable inner cover 4 cannot easily move, and the transportation requirement is met.

In the embodiment, foam blocks are filled between the bottom surface of the inner wall of the fixed outer cover 3 and the top surface of the axial damping movable inner cover 4, and can play a supporting role between the fixed outer cover 3 and the axial damping movable inner cover 4, so that the axial damping movable inner cover 4 is further prevented from moving.

In this embodiment, the circumferential side of the axial damping movable inner cap 4 is provided with a sealing rubber strip. Resistance is generated between the sealing rubber strip and the barrel body 1, so that the barrel body 1 cannot slide easily.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (4)

1. The ink storage barrel comprises a barrel body (1) and a fixed outer cover (3) which is connected to the top of the barrel body (1) in a sealing and disassembling mode, and is characterized in that four protruding ribs (11) are fixedly connected to the periphery of the barrel body (1), the four protruding ribs (11) are distributed in pairs to form two annular grooves, a binding mechanism (2) is fixedly connected to the periphery of the barrel body (1), the binding mechanism (2) comprises a transverse binding belt (22) which is fixed between the two protruding ribs (11) and two end connecting belts (24) which are fixed at the upper end and the lower end of the barrel body (1), an axial connecting belt (21) is fixedly connected between the two adjacent end connecting belts (24), and the axial connecting belts (21) are bound in the annular grooves by the transverse binding belt (22);

The novel water-saving water tank is characterized in that an axial damping movable inner cover (4) is connected inside the tank body (1) in a sliding manner, a protection air cavity is formed between the fixed outer cover (3) and the axial damping movable inner cover (4), two protection air conveying holes (31) are formed in the top of the fixed outer cover (3), a liquid outlet pipe (41) is fixedly connected to the center of the axial damping movable inner cover (4), a valve pipe (42) is fixedly connected to the top of the liquid outlet pipe (41), a quantitative cup (43) is detachably connected to the top of the liquid outlet pipe (41), the quantitative cup (43) is located above the axial damping movable inner cover (4) and below the fixed outer cover (3), an exhaust pipe (44) is arranged at the top of the axial damping movable inner cover (4), and the top of the exhaust pipe (44) and the top of the protection air conveying holes (31) are all sealed through covers;

The two ends of the axial connecting belt (21) are provided with end bending parts (23), the end bending parts (23) are positioned between the end connecting belt (24) and the transverse binding belt (22), and elastic U-shaped metal sheets are fixedly connected inside the end bending parts (23);

the valve tube (42) is positioned above the axial damping movable inner cover (4), and the quantitative cup (43) is fixedly inserted into the valve tube (42).

2. An ink storage tank according to claim 1, wherein the cavity of the dosing cup (43) is disc-shaped or cylindrical, the cylindrical cavity being provided with graduation marks.

3. An ink storage barrel according to claim 1, wherein a foam block is filled between the bottom surface of the inner wall of the fixed outer cap (3) and the top surface of the axially damped movable inner cap (4).

4. An ink storage tank according to claim 1, wherein the circumferential side of the axially damping movable inner lid (4) is provided with a sealing rubber strip.