CN113713408A

CN113713408A - Multifunctional vacuum decompression concentration tank

Info

Publication number: CN113713408A
Application number: CN202110986636.8A
Authority: CN
Inventors: 陈华; 邓惠山
Original assignee: Shanghai Jingri New Material Technology Co ltd
Current assignee: Shanghai Jingri New Material Technology Co ltd
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2021-11-30

Abstract

The invention provides a multifunctional vacuum decompression concentration tank, relates to the field of concentration tanks, and aims to solve the problems that the existing vacuum decompression concentration tank has single function when in use, cannot assist in enhancing the cooling effect and cannot improve the working efficiency; the main body is a vacuum decompression concentration tank body, and the top end of the main body is provided with a top piece; the top piece is of a cylindrical tubular structure, the top piece is sleeved on the outer side of the condenser, the top end of the top piece is of a funnel-shaped structure, a rectangular groove is formed in the side edge of the top piece, and a moving piece is installed inside the top piece; the moving part comprises an auxiliary moving mechanism. After the moving member moves, the air is discharged through the rectangular groove of the ejecting member, so that the side edge of the ejecting member can be decompressed, the moving member can fall down again, the auxiliary member can move up and down along with the moving member, the auxiliary member can move up and down on the outer side of the cooler, and the heat circulation is promoted in an auxiliary mode, so that the cooling effect of the cooler is better, and the working efficiency is improved.

Description

Multifunctional vacuum decompression concentration tank

Technical Field

The invention belongs to the technical field of concentration tanks, and particularly relates to a multifunctional vacuum decompression concentration tank.

Background

When the adhesive is produced, such as epoxy resin, polyurethane organosilicon and other products, a vacuum reduced pressure concentration tank is needed, and then materials are processed.

For example, application No.: CN201410369008.5 relates to vacuum decompression concentration equipment, which comprises a concentration tank and a first vertical condenser vertically connected with the top of the concentration tank, wherein the top of the first vertical condenser is connected with a vapor-liquid separator, the bottom liquid outlet of the vapor-liquid separator is connected with the concentration tank through a return pipe, the gas outlet on one side of the vapor-liquid separator is connected with the top of a second vertical condenser, the bottom of the second vertical condenser is connected with a cooler, the bottom of the cooler is connected with a liquid storage tank, the return pipe is connected with a return flow compensator in series, the bottom of the second vertical condenser is connected with the cooler through a spherical compensator, and the return flow compensator and the spherical compensator are flexible compensators made of polyvinyl chloride materials.

When the existing vacuum pressure reduction concentration tank is used, the condensation effect cannot be assisted and enhanced, the condensation efficiency cannot be improved, the existing vacuum pressure reduction concentration tank has single function when being used, the cooling effect cannot be assisted and enhanced, and the working efficiency cannot be improved.

Disclosure of Invention

In order to solve the technical problems, the invention provides a multifunctional vacuum pressure-reducing concentration tank, which aims to solve the problems that the existing vacuum pressure-reducing concentration tank cannot assist in enhancing the condensation effect and cannot improve the condensation efficiency when in use, and the existing vacuum pressure-reducing concentration tank has single function and cannot assist in enhancing the cooling effect and cannot improve the working efficiency when in use.

The invention relates to a purpose and an effect of a multifunctional vacuum decompression concentration tank, which are achieved by the following specific technical means:

a multi-functional vacuum reduced-pressure concentration tank, comprising: a main body; the main body is a vacuum decompression concentration tank body, and the top end of the main body is provided with a top piece; the top piece is of a cylindrical tubular structure, the top piece is sleeved on the outer side of the condenser, the top end of the top piece is of a funnel-shaped structure, a rectangular groove is formed in the side edge of the top piece, and a moving piece is installed inside the top piece; the moving member, the moving member is including supplementary moving mechanism, and the side of moving member is connected with supplementary moving mechanism, and the moving member is protruding cylindrical structure in the middle of.

Further, the body includes: the guide plate is of a horn-shaped structure and is fixed at the top end inside the main body; the inner rod is of a conical structure and is annularly arranged and fixed at the bottom of the guide plate; the main body further includes: the inner part is of a tubular structure and is positioned in the main body; the connecting rod is of a cylindrical structure, the connecting rod is fixed on two sides of the internal part, and the outer end of the connecting rod is connected with the inner wall of the main body; the main body further includes: the bottom piece is of a U-shaped structure, a rotating head with a middle convex cylindrical structure is arranged in the middle of the top end of the bottom piece, a spring is sleeved outside the rotating head, and the upper parts of two ends of the bottom piece are connected with the connecting rod; the moving plate is of a circular plate-shaped structure and is arranged at the bottom end of the inner part, a circular hole is formed in the moving plate, and a rotating head is inserted into the circular hole; the main body further includes: the support plate is of a U-shaped plate structure, two ends of the section of the support plate are of T-shaped structures, and the support plate is fixed below the gas-liquid separator; the control groove is of a T-shaped structure and is arranged on two sides of the supporting plate.

Further, the top member includes: the fans are arranged on two sides of the bottom of the top piece; the guide block is of a triangular structure, a round hole is formed in the middle of the guide block, and the guide block is fixed at the bottom end inside the top piece; the top piece further comprises: the top block is of an L-shaped structure, the bottom of the top block is of an arc-shaped structure, and the top block is fixed on two sides of the inside of the top piece; the auxiliary groove is of a circular structure and is arranged on the outer side of the top end of the main body.

Further, the moving member includes: the inner groove is of a circular structure, the bottom of the inner groove is of a horn-shaped structure, the inner groove is formed in the moving part, and a condenser is embedded in the inner groove; the connecting plate is of a rectangular plate-shaped structure, the right side of the moving piece is fixed by the connecting plate, and the connecting plate is inserted into the rectangular groove in the side edge of the top piece; the moving member further includes: the stress piece is of a rectangular frame structure, two ends of the bottom of the stress piece are connected with the connecting plate, and the stress piece is arranged on the outer side of the supporting plate; the embedded block is of a T-shaped structure, is fixed on two sides of the interior of the stressed part and is inserted into the control groove; the auxiliary moving mechanism includes: the fixing plate is of an arc-shaped plate structure, the left end of the fixing plate is connected with the connecting plate, and the fixing plate is positioned on the left side of the cooler; the auxiliary part is of a circular tubular structure, a through groove is formed in the auxiliary part, the auxiliary part is installed at the upper end and the lower end of the fixing plate, and the auxiliary part is sleeved on the outer side of the cooler; the inner ring is of a circular ring-shaped structure, the outer side of the inner ring is of an inclined structure, the inner ring is fixed inside the auxiliary part, and the inner ring is sleeved on the outer side of the cooler.

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

1. in the device, the top piece is arranged and is used for being installed at the top end of the main body and further sleeved outside the condenser, when the device is used, the fan can operate, so that wind can be guided through the guide block and can flow upwards, the fan can be attached to the condenser to flow in the flowing process, the condenser can be assisted to perform rapid condensation, the condensation efficiency can be improved, the auxiliary groove on the outer side of the top piece can play a role in assisting in exhausting air, and meanwhile, the amount of wrapping of the condenser is reduced;

2. in this device, the moving member has been set up, the moving member is used for installing inside the ejecting, when making the fan operation of ejecting, can promote the moving member rebound, make the moving member can remove through connecting plate control fixed plate, after the moving member removes, the air is discharged through the rectangular channel of ejecting, and then make the side of ejecting can the pressure release, and then make the moving member fall down again, and then make the auxiliary member can follow and reciprocate, make the auxiliary member can reciprocate in the outside of cooler, and then supplementary promotion heat circulation, make the cooler cooling effect better, and then improve work efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic bottom view of the present invention.

Fig. 3 is an exploded perspective view of the present invention.

Fig. 4 is an exploded bottom view of the present invention.

Fig. 5 is a partial cross-sectional view and a partial enlarged structure of the main body of the present invention.

Fig. 6 is a perspective view of the top assembly of the present invention.

Fig. 7 is a schematic cross-sectional structure of the top member of the present invention.

Fig. 8 is a perspective view of the moving member of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body; 101. a guide plate; 102. an inner rod; 103. an internal member; 104. a connecting rod; 105. a bottom piece; 106. moving the plate; 107. a support plate; 108. a control slot; 2. a top piece; 201. a fan; 202. a guide block; 203. a top block; 204. an auxiliary groove; 3. a moving member; 301. an inner tank; 302. a connecting plate; 303. a force-receiving member; 304. embedding a block; 305. a fixing plate; 306. an auxiliary member; 307. an inner ring.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a multifunctional vacuum decompression concentration tank, which comprises a main body 1; the main body 1 is a vacuum decompression concentration tank body, and the top end of the main body 1 is provided with a top piece 2; the condenser comprises a top piece 2, wherein the top piece 2 is of a cylindrical tubular structure, the top piece 2 is sleeved on the outer side of the condenser, the top piece 2 plays a role of enhancing a condensation effect of the auxiliary condenser, the top end of the top piece 2 is of a funnel-shaped structure, a rectangular groove is formed in the side edge of the top piece 2, and a moving piece 3 is installed inside the top piece 2; moving member 3, moving member 3 are connected with supplementary moving mechanism including supplementary moving mechanism, moving member 3's side, and moving member 3 is middle bellied cylindrical structure, and moving member 3 has played the effect that receives wind-force and reciprocate, and then supplementary reinforcing cooler cooling effect.

As shown in fig. 5, wherein the main body 1 includes: the guide plate 101 is of a horn-shaped structure, the guide plate 101 is fixed at the top end of the interior of the main body 1, and the guide plate 101 plays a role in gathering so as to gather and circulate airflow; the inner rod 102 is of a conical structure, the inner rod 102 can guide and circulate when condensate flows back, and the inner rod 102 is annularly arranged and fixed at the bottom of the guide plate 101; the main body 1 further includes: the internal part 103 is of a tubular structure, the internal part 103 plays a role in temporarily gathering and collecting condensate, so that the material at the bottom end inside the main body 1 is fully condensed, the condensed liquid can be stored firstly, and when the condensate does not appear any more, the liquid inside the internal part 103 can press the moving plate 106 to move downwards, so that the condensate can flow back, and the internal part 103 is located inside the main body 1; the connecting rod 104 is of a cylindrical structure, the connecting rod 104 is fixed on two sides of the inner part 103, the outer end of the connecting rod 104 is connected with the inner wall of the main body 1, and the connecting rod 104 plays a role in supporting the inner part 103; the main body 1 further includes: the bottom piece 105, the bottom piece 105 is a U-shaped structure, a rotating head with a middle convex cylindrical structure is arranged in the middle of the top end of the bottom piece 105, a spring is sleeved outside the rotating head, and the upper parts of the two ends of the bottom piece 105 are connected with the connecting rod 104; the moving plate 106 is of a circular plate-shaped structure, the moving plate 106 plays a role of receiving the spring power movement at the top end of the bottom piece 105, and then moves up and down to discharge liquid, the moving plate 106 is installed at the bottom end of the inner piece 103, a circular hole is formed in the moving plate 106, and a rotating head is inserted into the circular hole; the main body 1 further includes: the supporting plate 107 is of a U-shaped plate structure, two ends of the cross section of the supporting plate 107 are of T-shaped structures, the supporting plate 107 plays a role of being installed at the bottom of the gas-liquid separator, the stress element 303 is controlled to move in a guiding mode through the control groove 108, and the supporting plate 107 is fixed below the gas-liquid separator; and the control groove 108, wherein the control groove 108 is in a T-shaped structure, and the control groove 108 is arranged at two sides of the supporting plate 107.

As shown in fig. 8, the auxiliary moving mechanism includes: the fixing plate 305 is of an arc-shaped plate structure, the left end of the fixing plate 305 is connected with the connecting plate 302, the fixing plate 305 plays a role in driving the two auxiliary pieces 306 to move simultaneously, and the fixing plate 305 is located on the left side of the cooler; the auxiliary piece 306 is of a circular tubular structure, a through groove is formed in the auxiliary piece 306, the auxiliary piece 306 is installed at the upper end and the lower end of the fixing plate 305, the auxiliary piece 306 is sleeved on the outer side of the cooler, the auxiliary piece 306 plays a role in driving the inner ring 307 to move on the outer side of the cooler, the inner ring 307 can move along with the auxiliary piece, heat emitted by the cooler is pushed, the heat can be better discharged, and the cooling effect is further enhanced; the inner ring 307 is of an annular structure, the outer side of the inner ring 307 is of an inclined structure, the inner ring 307 is fixed inside the auxiliary 306, and the inner ring 307 is sleeved outside the cooler.

As shown in fig. 7, wherein the top member 2 includes: the fans 201 are arranged on two sides of the bottom of the top part 2; the guide block 202 is of a triangular structure, a round hole is formed in the middle of the guide block 202, the guide block 202 is fixed to the bottom end of the inner portion of the top part 2, and the guide block 202 plays a role in guiding wind emitted by the fan 201, so that the wind can flow upwards, and the condensation effect of the condenser is enhanced; the top member 2 further includes: the top block 203 is of an L-shaped structure, the bottom of the top block 203 is of an arc-shaped structure, the top block 203 is formed in such a way that the moving member 3 can be jacked to deform due to the fact that the moving member 3 is made of rubber after the moving member 3 moves upwards, air flow can further flow upwards, and the top block 203 is fixed on two sides inside the top member 2; the auxiliary groove 204 is circular, the auxiliary groove 204 is arranged at the outer side of the top end of the main body 1, and the auxiliary groove 204 plays a role in auxiliary discharge of wind.

As shown in fig. 8, the moving member 3 includes: the inner groove 301, the inner groove 301 is a circular structure, the bottom of the inner groove 301 is a horn-shaped structure, the inner groove 301 plays a role of being embedded into a condenser, the bottom of the inner groove 301 is a horn-shaped structure, so that the inner groove can be moved under better stress, the moving member 3 can be rapidly displaced, the inner groove 301 is arranged in the moving member 3, and the condenser is embedded into the inner groove 301; the connecting plate 302 is of a rectangular plate-shaped structure, the connecting plate 302 fixes the right side of the moving part 3, the connecting plate 302 is inserted into the rectangular groove on the side edge of the top part 2, and the connecting plate 302 plays a role in auxiliary connection and power transmission; the moving member 3 further includes: the stress piece 303, the stress piece 303 is a rectangular frame structure, the stress piece 303 plays a role of being installed on the outer side of the supporting plate 107, two ends of the bottom of the stress piece 303 are connected with the connecting plate 302, and the stress piece 303 is installed on the outer side of the supporting plate 107; the embedded block 304 is a T-shaped structure, the embedded block 304 is fixed on two sides of the interior of the stress member 303, the embedded block 304 is inserted into the control slot 108, the embedded block 304 plays a role of being embedded into the control slot 108 to move up and down, and then the connecting plate 302 can move up and down in the horizontal direction.

When in use: when the device is needed to be used, materials can be added into the device for use, then a control switch of a fan 201 is turned on, wind can flow upwards, after liquid is condensed in the condenser, the condensed liquid can flow downwards, then the condensed liquid is controlled to drip through the inner rod 102, and meanwhile the condensed liquid is temporarily stored in the inner part 103, so that all the condensed liquid can enter the inner part 103 firstly, after a large amount of condensed liquid is gathered, the moving plate 106 can be automatically pressed to move downwards, the condensed liquid can flow back, meanwhile, after the wind in the jacking part 2 flows upwards, the moving part 3 can be forced to move, the moving part 3 can be jacked by the jacking block 203 to deform, the wind can conveniently pass through, and after the moving part 3 rises, the moving part can move downwards through self characteristics and air flow pressure relief, and then the connecting plate 302 is driven to move downwards, make connecting plate 302 can move through atress piece 303 and embedding piece 304 direction, make its embedding piece 304 can move at the inside direction of control tank 108, make connecting plate 302 can be in the horizontal condition displacement from top to bottom, fixed plate 305 moves up and down along with connecting plate 302 simultaneously, make fixed plate 305 can drive auxiliary 306 and inner ring 307 and move, when making auxiliary 306 remove, can push up and down the heat that the cooler gived off, and then make the circulation diffusion that the air current can be faster, and then reinforcing cooling effect.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a multi-functional vacuum decompression concentration jar which characterized in that, a multi-functional vacuum decompression concentration jar includes:

a main body (1);

the vacuum decompression concentration tank is characterized in that the main body (1) is a vacuum decompression concentration tank body, and the top end of the main body (1) is provided with a top piece (2); the top piece (2) is of a cylindrical tubular structure, the top piece (2) is sleeved on the outer side of the condenser, the top end of the top piece (2) is of a funnel-shaped structure, a rectangular groove is formed in the side edge of the top piece (2), and a moving piece (3) is installed inside the top piece (2); the moving part (3), the moving part (3) is including supplementary moving mechanism, and the side of moving part (3) is connected with supplementary moving mechanism, and the moving part (3) are protruding cylindrical structure in the middle.

2. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the main body (1) comprises:

the guide plate (101), the guide plate (101) is of a horn-shaped structure, and the guide plate (101) is fixed at the top end of the interior of the main body (1); the inner rod (102), the inner rod (102) is the toper structure, and the inner rod (102) is fixed in the bottom of baffle (101) in the form of cyclic arrangement.

3. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the main body (1) further comprises:

the inner part (103), the inner part (103) is of a tubular structure, and the inner part (103) is positioned in the main body (1); the connecting rod (104), connecting rod (104) are cylindrical structure, and connecting rod (104) are fixed in the both sides of internals (103), and the outer end and the inner wall of main part (1) of connecting rod (104) are connected.

4. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the main body (1) further comprises:

the bottom piece (105), the bottom piece (105) is a U-shaped structure, a rotating head with a middle convex cylindrical structure is arranged in the middle of the top end of the bottom piece (105), a spring is sleeved outside the rotating head, and the upper parts of the two ends of the bottom piece (105) are connected with the connecting rod (104);

the moving plate (106) is of a circular plate-shaped structure, the moving plate (106) is installed at the bottom end of the inner part (103), a round hole is formed in the moving plate (106), and a rotating head is inserted into the round hole.

5. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the main body (1) further comprises:

the supporting plate (107), the supporting plate (107) is a U-shaped plate structure, two ends of the cross section of the supporting plate (107) are T-shaped structures, and the supporting plate (107) is fixed below the gas-liquid separator;

the control groove (108) is of a T-shaped structure, and the control groove (108) is arranged on two sides of the supporting plate (107).

6. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the top member (2) comprises:

the fan (201), the fan (201) is installed on both sides of the bottom of the top part (2); the guide block (202), guide block (202) are the triangle-shaped structure, and the intermediate position of guide block (202) is equipped with the round hole, and guide block (202) are fixed in the inside bottom of top member (2).

7. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the top member (2) further comprises:

the ejection block (203), the ejection block (203) is of an L-shaped structure, the bottom of the ejection block (203) is of an arc-shaped structure, and the ejection block (203) is fixed on two sides of the interior of the top piece (2);

the auxiliary groove (204), auxiliary groove (204) are circular structure, and auxiliary groove (204) set up in the top outside of main part (1).

8. A multifunctional vacuum reduced-pressure concentrating tank according to claim 1, wherein the moving member (3) comprises:

the inner groove (301), the inner groove (301) is of a circular structure, the bottom of the inner groove (301) is of a horn-shaped structure, the inner groove (301) is formed in the moving part (3), and a condenser is embedded in the inner groove (301);

the connecting plate (302), connecting plate (302) are rectangular plate-shaped structure, and the right side of moving member (3) is fixed in connecting plate (302), and connecting plate (302) inserts in the rectangular channel of top member (2) side.

9. A multifunctional vacuum reduced-pressure concentrating tank according to claim 1, wherein the moving member (3) further comprises:

the stress piece (303), the stress piece (303) is a rectangular frame structure, two ends of the bottom of the stress piece (303) are connected with the connecting plate (302), and the stress piece (303) is arranged on the outer side of the supporting plate (107); the embedded block (304), the embedded block (304) is T-shaped, the embedded block (304) is fixed on two sides of the inner part of the stress piece (303), and the embedded block (304) is inserted into the control groove (108).

10. The multifunctional vacuum reduced-pressure concentrating tank as claimed in claim 1, wherein the auxiliary moving mechanism comprises:

the fixing plate (305), the fixing plate (305) is an arc-shaped plate-shaped structure, the left end of the fixing plate (305) is connected with the connecting plate (302), and the fixing plate (305) is positioned on the left side of the cooler;

the auxiliary piece (306), the auxiliary piece (306) is a round tubular structure, a through groove is arranged in the auxiliary piece (306), the auxiliary piece (306) is installed at the upper end and the lower end of the fixing plate (305), and the auxiliary piece (306) is sleeved on the outer side of the cooler; the inner ring (307) is of an annular structure, the outer side of the inner ring (307) is of an inclined structure, the inner ring (307) is fixed inside the auxiliary piece (306), and the inner ring (307) is sleeved outside the cooler.