Pigment storage device

Abstract

The utility model provides a kind of pigment anti-deterioration storage device, comprising: shell component, connecting component, rotating component, storage cavity component, transmission structure, knob component and support foot;Shell component is square inside hollow structure, two symmetrical guide grooves are provided on shell, guide groove is movably connected with connecting rod, one end of spring is connected with shell, the other end is connected with limit ball one, limit slot one is provided on connecting rod, limit slot one is composed of two hemispherical grooves and transition groove, the mutual cooperation of two hemispherical grooves and limit ball one can control the upper and lower limit of knob component, the upper and lower limit of knob component can control the opening or closing of pigment anti-deterioration device, ensure that pigment is stored in closed cavity, avoid pigment hygroscopic or oxidation and occur deterioration, simultaneously solve the problem that air gap is generated in cavity after pigment is used, cause pigment hygroscopic agglomeration and mildew.

Description

Technical Field

[0001] This utility model relates to the field of anti-deterioration storage technology, and more specifically, to a pigment anti-deterioration storage device. Background Technology

[0002] Art pigments, industrial coatings, and printing inks are important pigment products, mainly used in artistic creation, coating production, and the printing industry. However, pigment products are easily affected by environmental factors (such as humidity, temperature, light, and oxidation).

[0003] Existing pigment storage devices mainly rely on ordinary sealed containers, desiccant packaging, or simple temperature-controlled environments. Although ordinary sealed containers are airtight, the interior contains a large amount of air. The pigment reacts with the air inside the cavity, leading to oxidation and discoloration, or moisture absorption, clumping, and mold growth. Moreover, when pigments are retrieved from storage devices, the contact area between the pigment and air is relatively large, accelerating moisture absorption and oxidation, thus causing deterioration. Traditional pigment storage devices are ineffective at effectively isolating the pigment from air. Therefore, there is a need to provide a pigment anti-deterioration storage device to solve the above problems. Utility Model Content

[0004] The present invention aims to solve the problem that pigment storage devices are difficult to effectively isolate from air. When pigments are used, a large amount of air exists inside the storage device cavity. Moreover, when pigments are taken out, they come into direct contact with the air, which leads to the pigments oxidizing and discoloring, or absorbing moisture, clumping, and becoming moldy.

[0005] This utility model provides a pigment anti-deterioration storage device, including: an outer shell component, a connecting component, a rotating component, a storage cavity component, a transmission structure, a knob component, and support feet; the outer shell component is a square hollow structure, the connecting component is movably installed on the inner wall of the outer shell component, the lower end of the connecting component is movably connected to the rotating component, the storage cavity component is fixedly installed inside the outer shell component, the upper end of the connecting component is movably connected to the transmission structure through a bearing, the transmission structure is movably connected to the knob component through a slot, and four support feet are fixedly installed on the lower surface of the outer shell component.

[0006] Furthermore, the outer shell component includes: an outer shell, a guide groove, a spring, a limiting ball, and a fixing post; the outer shell has an internal hollow structure, and two symmetrical square guide grooves are provided on the inner wall of the outer shell. The outer shell is fixedly connected to one end of the spring, and the other end of the spring is fixedly connected to the limiting ball. A fixing post is fixedly installed at the center of the bottom of the outer shell.

[0007] Furthermore, the connecting component includes: a connecting rod, a first slot, a first limiting groove, and a second limiting ball; the connecting rod is provided with the first slot, the first slot is movably connected to the first limiting ball, the upper end of the connecting rod is provided with the first limiting groove, and the lower end of the connecting rod is fixedly connected to the second limiting ball.

[0008] Furthermore, the rotating component includes: a rotating shaft, a second limiting groove, a rotating disk, a through hole, and a sealing block; the rotating shaft is provided with two second limiting grooves, which are movably connected to the second limiting ball; the rotating disk is fixedly installed on the upper surface of the rotating shaft; the rotating disk is provided with a through hole; and the sealing block is fixedly installed on the upper surface of the rotating disk.

[0009] Furthermore, the storage cavity component includes: a cavity, a guide tube, a piston, a sealing ring, and a guide post; the cavity has an internal hollow structure, the guide tube is fixedly connected to the lower surface of the cavity, the piston is movably connected to the upper surface of the cavity, a sealing ring for sealing is provided around the piston, and a guide post is movably installed on the piston, the guide post being provided with internal threads.

[0010] Furthermore, the transmission structure includes: a transmission shaft and a second groove; the transmission shaft is cylindrical, and the surface of the transmission shaft is provided with external threads, which are movably connected to the internal threads on the guide post, and the transmission shaft is provided with a second groove inside.

[0011] Furthermore, the knob component includes: a connecting block, a rotating disk, a connecting post, and a knob; the connecting block is square and movably connected to the slot, the rotating disk is fixedly installed on the connecting block, the rotating disk is movably connected to the limiting groove, the connecting post is fixedly installed on the upper surface of the rotating disk, and the knob is fixedly installed on the upper surface of the connecting post.

[0012] Beneficial effects:

[0013] 1. In the utility model, the rotating disk in the knob component can move up and down to move the connecting component up and down. The limiting ball on the connecting component will drive the rotating component to rotate. The through hole and sealing block in the rotating component will switch cyclically under the action of the rotating component. When the knob component is at the lower limit, the through hole is located below the guide tube. When the knob component is at the upper limit, the sealing block is tangent to the surface of the guide tube. After the pigment is used, the knob component is pulled upward. The sealing block can seal the outlet of the guide tube to form a closed cavity to prevent the pigment from absorbing moisture or oxidizing and deteriorating.

[0014] 2. In the utility model, a piston is movably connected to the upper surface of the cavity, and a sealing ring is provided around the piston for sealing. A guide post is fixedly installed on the piston, and the guide post is provided with an internal thread. The internal thread is movably connected to the external thread on the drive shaft. The second groove on the drive shaft is movably connected to the connecting block in the knob component. By rotating the knob, the piston can be pushed downward to squeeze the pigment out of the guide tube, thus avoiding the formation of air gaps in the cavity after the pigment is used, which would cause the pigment to absorb moisture, clump, and become moldy. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0016] Figure 2 This is a cross-sectional view of the present invention;

[0017] Figure 3 This is a schematic diagram of the outer shell structure of this utility model;

[0018] Figure 4 This is a cross-sectional view of the outer shell of this utility model;

[0019] Figure 5 This is a schematic diagram of the connecting component structure of this utility model;

[0020] Figure 6 This is a schematic diagram of the rotating component structure of this utility model;

[0021] Figure 7 This is a schematic diagram of the storage cavity component structure of this utility model;

[0022] Figure 8 This is a schematic diagram of the transmission component structure of this utility model;

[0023] Figure 9 This is a schematic diagram of the knob component structure of this utility model.

[0024] In the figure, the correspondence between the component names and the attached drawing numbers is as follows: outer shell component 1, outer shell 101, guide groove 102, spring 103, limit ball one 104, fixing post 105, connecting component 2, connecting rod 201, slot one 202, limit groove one 203, limit ball two 204, rotating component 3, rotating shaft 301, limit groove two 302, rotating disk 303, through hole 304, sealing block 305, storage cavity component 4, cavity 401, guide tube 402, piston 403, sealing ring 404, guide post 405, transmission structure 5, transmission shaft 501, slot two 502, knob component 6, connecting block 601, rotating disk 602, connecting post 603, knob 604, support foot 7. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0026] As attached Figure 1 To be continued Figure 9 As shown:

[0027] This embodiment provides a pigment anti-deterioration storage device, including: an outer shell component 1, a connecting component 2, a rotating component 3, a storage cavity component 4, a transmission structure 5, a knob component 6, and support feet 7; the outer shell component 1 is a square hollow structure, the connecting component 2 is movably installed on the inner wall of the outer shell component 1, the lower end of the connecting component 2 is movably connected to the rotating component 3, the storage cavity component 4 is fixedly installed inside the outer shell component 1, the upper end of the connecting component 2 is movably connected to the transmission structure 5 through a bearing, the transmission structure 5 is movably connected to the knob component 6 through a slot, and four support feet 7 are fixedly installed on the lower surface of the outer shell component 1.

[0028] Preferably, the outer shell component 1 includes: an outer shell 101, a guide groove 102, a spring 103, a limiting ball 104, and a fixing post 105; the outer shell 101 has an internal hollow structure, and two symmetrical square guide grooves 102 are provided on the inner wall of the outer shell 101. The outer shell 101 is fixedly connected to one end of the spring 103, and the other end of the spring 103 is fixedly connected to the limiting ball 104. The fixing post 105 is fixedly installed at the bottom center of the outer shell 101.

[0029] Preferably, the connecting member 2 includes: a connecting rod 201, a slot 202, a limiting groove 203, and a limiting ball 204; the connecting rod 201 is provided with a slot 202, which is movably connected to the limiting ball 104; the upper end of the connecting rod 201 is provided with a limiting groove 203; and the lower end of the connecting rod 201 is fixedly connected to the limiting ball 204.

[0030] Preferably, the rotating component 3 includes: a rotating shaft 301, a second limiting groove 302, a rotating disk 303, a through hole 304, and a sealing block 305; the rotating shaft 301 is provided with two second limiting grooves 302, the second limiting grooves 302 are movably connected to the second limiting ball 204, the rotating disk 303 is fixedly installed on the upper surface of the rotating shaft 301, the rotating disk 303 is provided with a through hole 304, and the sealing block 305 is fixedly installed on the upper surface of the rotating disk 303.

[0031] Preferably, the knob component 6 includes: a connecting block 601, a rotating disk 602, a connecting post 603, and a knob 604; the connecting block 601 is square and movably connected to the second slot 502, the rotating disk 602 is fixedly installed on the connecting block 601, the rotating disk 602 is movably connected to the first limiting slot 203, the connecting post 603 is fixedly installed on the upper surface of the rotating disk 602, and the knob 604 is fixedly installed on the upper surface of the connecting post 603.

[0032] In a specific embodiment: two guide grooves 102 are symmetrically arranged on the outer shell 101 of the outer shell component 1. The guide grooves 102 are movably connected to the connecting rod 201. The guide grooves 102 have springs 103 and limiting balls 104. The rotating disk 602 in the knob component 6 moves up and down, causing the connecting component 2 to move up and down as a whole. The limiting groove 103 and the limiting ball 104 in the connecting component 2 cooperate to control the upper and lower limits of the limiting ball 204. The up and down movement of the limiting ball 204 causes the rotating disk 303 to rotate, so that the cooperation between the guide tube 402 and the through hole 304 or the sealing block 305 is switched cyclically. When the knob component 6 is at the lower limit, the through hole 304 is below the guide tube 402, allowing the pigment to flow out through the through hole 304. When the knob component 6 is at the upper limit, the sealing block 305 can seal the outlet of the guide tube 402, blocking the pigment from contacting the air and effectively preventing the pigment from absorbing moisture or oxidizing and deteriorating.

[0033] Preferably, the storage cavity component 4 includes: a cavity 401, a guide pipe 402, a piston 403, a sealing ring 404, and a guide post 405; the cavity 401 has an internal hollow structure, the guide pipe 402 is fixedly connected to the lower surface of the cavity 401, the piston 403 is movably connected to the upper surface of the cavity 401, the sealing ring 404 for sealing is provided around the piston 403, and the guide post 405 is movably installed on the piston 403, and the guide post 405 is provided with internal threads.

[0034] Preferably, the transmission structure 5 includes: a transmission shaft 501 and a second groove 502; the transmission shaft 501 is cylindrical, and the surface of the transmission shaft 501 is provided with external threads, which are movably connected to the internal threads on the guide post 405, and the transmission shaft 501 is provided with a second groove 502 inside.

[0035] In a specific embodiment: the cavity 401 is a hollow structure with an open upper surface. A guide pipe 402 is fixedly connected to the lower surface of the cavity 401, allowing the pigment stored in the cavity 401 to flow out through the guide pipe 402. The upper surface of the cavity 401 is movably connected to the piston 403. A sealing ring 404 for sealing is provided around the piston 403. The piston 403 can move up and down to change the size of the internal space of the cavity 401 to compress the pigment, preventing air gaps in the cavity 401 after the pigment is used. A guide post 405 is movably connected to the piston 403 through a bearing. The guide post 405 is cylindrical and has an internal thread. The drive shaft 501 is cylindrical, and its end face is movably connected to the outer shell 101 through a bearing. The outer surface of the drive shaft 501 has an external thread, which is movably connected to the internal thread on the guide post 405. Rotation of the drive shaft 501 can push the piston 403 downward.

[0036] The end face of the drive shaft 501 is movably connected to the housing 101 via a bearing. The outer surface of the drive shaft 501 is provided with an external thread, which is movably connected to the internal thread on the guide post 405. The drive shaft 501 is provided with a second slot 502, which is a square hole structure. The connecting block 601 is a square protrusion structure. The second slot 502 and the connecting block 601 are clearance-fitted. When the knob component 6 is at the lower limit, the connecting block 601 is inserted into the second slot 502. Rotating the knob 604 can drive the transmission structure 5, causing the piston 403 to move downward and squeeze out the pigment. When the knob component 6 is at the upper limit, the connecting block 601 is completely disengaged from the second slot 502. Rotating the knob 604 can not drive the transmission structure 5, and the pigment cannot be squeezed out.

[0037] Working principle: The up-and-down movement of the knob component 6 controls the opening or closing of the pigment anti-deterioration device. Two symmetrical guide grooves 102 are provided on the outer casing 101, which are movably connected to the connecting rod 201. One end of the spring 103 is connected to the outer casing 101, and the other end is connected to the limiting ball 104. The connecting rod 201 is provided with a limiting groove 203, which consists of two hemispherical grooves and a transition groove. The interaction between the two hemispherical grooves and the limiting ball 104 controls the upper and lower limits of the knob component 6. When the knob component 6 is at the lower limit, the connecting block 601 in the knob component 6 inserts into the slot 502 in the transmission structure 5. The connecting rod 201 drives the limiting ball 204 downwards, and the limiting ball 204 moves through the limiting groove 202... The through hole 304 is rotated to the bottom of the guide tube 402. The rotating knob 604 drives the connecting member 2 to rotate, which in turn pushes the piston 403 to move downward so that the pigment flows out of the guide tube 402. When the knob member 6 is at the upper limit, the connecting block 601 in the knob member 6 is completely disengaged from the second slot 502 in the transmission structure 5. The rotating knob 604 cannot squeeze out the pigment. The connecting rod 201 drives the second limiting ball 204 to move upward. The rotating member 3 rotates under the cooperation of the second limiting ball 204 and the second limiting groove 302. The groove provided on the sealing block 305 is connected to the cut of the guide tube 402. The sealing block 305 is made of rubber material and can seal the cut of the guide tube 402 so that the pigment is stored in the sealed cavity 401 to prevent the pigment from absorbing moisture or oxidizing and deteriorating.

[0038] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A pigment anti-deterioration storage device, comprising: The outer shell component (1), connecting component (2), rotating component (3), storage cavity component (4), transmission structure (5), knob component (6) and support feet (7) are characterized in that: the outer shell component (1) is a square hollow structure, the connecting component (2) is movably installed on the inner wall of the outer shell component (1), the lower end of the connecting component (2) is movably connected to the rotating component (3), the storage cavity component (4) is fixedly installed inside the outer shell component (1), the upper end of the connecting component (2) is movably connected to the transmission structure (5) through a bearing, the transmission structure (5) is movably connected to the knob component (6) through a slot, and four support feet (7) are fixedly installed on the lower surface of the outer shell component (1).

2. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The outer shell component (1) includes: outer shell (101), guide groove (102), spring (103), limiting ball (104) and fixing post (105); the outer shell (101) has an internal hollow structure, and two symmetrical square guide grooves (102) are provided on the inner wall of the outer shell (101). One end of the outer shell (101) is fixedly connected to the spring (103), and the other end of the spring (103) is fixedly connected to the limiting ball (104). The fixing post (105) is fixedly installed at the bottom center of the outer shell (101).

3. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The connecting component (2) includes: a connecting rod (201), a slot 1 (202), a limiting slot 1 (203), and a limiting ball 2 (204); the connecting rod (201) is provided with a slot 1 (202), the slot 1 (202) is movably connected to the limiting ball 1 (104), the upper end of the connecting rod (201) is provided with a limiting slot 1 (203), and the lower end of the connecting rod (201) is fixedly connected to the limiting ball 2 (204).

4. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The rotating component (3) includes: a rotating shaft (301), a second limiting groove (302), a rotating disk (303), a through hole (304), and a sealing block (305); the rotating shaft (301) is provided with two second limiting grooves (302), the second limiting grooves (302) are movably connected with the second limiting ball (204), the rotating disk (303) is fixedly installed on the upper surface of the rotating shaft (301), the rotating disk (303) is provided with a through hole (304), and the sealing block (305) is fixedly installed on the upper surface of the rotating disk (303).

5. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The storage cavity component (4) includes: cavity (401), guide pipe (402), piston (403), sealing ring (404) and guide post (405); the cavity (401) is a hollow structure inside, the guide pipe (402) is fixedly connected to the lower surface of the cavity (401), the piston (403) is movably connected to the upper surface of the cavity (401), the sealing ring (404) for sealing is provided around the piston (403), and the guide post (405) is movably installed on the piston (403), and the guide post (405) is provided with internal thread.

6. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The transmission structure (5) includes: a transmission shaft (501) and a second slot (502); the transmission shaft (501) is cylindrical, and the surface of the transmission shaft (501) is provided with an external thread. The external thread on the transmission shaft (501) is movably connected with the internal thread on the guide post (405), and the second slot (502) is provided inside the transmission shaft (501).

7. The pigment anti-deterioration storage device as described in claim 1, characterized in that: The knob component (6) includes: a connecting block (601), a rotating disk (602), a connecting post (603), and a knob (604); the connecting block (601) is square and movably connected to the second slot (502), the rotating disk (602) is fixedly installed on the connecting block (601), the rotating disk (602) is movably connected to the first limiting slot (203), the connecting post (603) is fixedly installed on the upper surface of the rotating disk (602), and the knob (604) is fixedly installed on the upper surface of the connecting post (603).

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