CN215589072U - Constant temperature heating vibrations column type membrane module pouring workstation - Google Patents

Abstract

The utility model belongs to the technical field of membrane component end sealing, and particularly relates to a constant-temperature heating vibration column type membrane component pouring workbench which comprises a hoisting mechanical arm and a rack, wherein a high-frequency vibration platform is arranged above the rack, a vibration damping device is fixedly connected between the high-frequency vibration platform and the rack, first mounting openings are formed in the inner walls of two ends of the high-frequency vibration platform, high-frequency vibrators are fixedly mounted on the inner walls of the two first mounting openings, a fixing groove is formed in the upper surface of the high-frequency vibration platform, and a membrane component pouring mold is arranged on the inner wall of the fixing groove. This workstation is pour to constant temperature heating vibrations column type membrane module, high frequency vibration ware make high frequency vibration platform drive membrane module casting die carry out high frequency vibration for the even distribution of colloid shakes out the bubble in the colloid in the vibration, carries out effectual end-capping to membrane module casting die.

Description

Constant temperature heating vibrations column type membrane module pouring workstation

Technical Field

The utility model relates to the technical field of end sealing of membrane components, in particular to a constant-temperature heating vibration column type membrane component pouring workbench.

Background

Ultrafiltration membranes are filter materials for water treatment, and most of the membranes are hollow fibers. The hollow fiber membrane component is cylindrical, and two ends of the hollow fiber membrane component are sealed by glue, so that the membrane wire and the shell are integrated, and the sealing property and the firmness are ensured. In the field of casting of hollow fiber membranes, a centrifugal casting method is traditionally adopted;

when the existing ultrafiltration membrane is subjected to end sealing pouring, due to the fact that operation is carried out at a normal temperature state, glue density is high, flowing speed is low, glue injection efficiency is low, air holes can be generated in a glue layer formed after glue injection, and the end sealing effect and the using effect of the ultrafiltration membrane are affected.

SUMMERY OF THE UTILITY MODEL

Based on the technical problems that when the existing ultrafiltration membrane is used for end sealing pouring, the glue density is high, the flowing speed is low, the glue injection efficiency is low, air holes are generated in a glue layer formed after glue injection, and the end sealing effect and the using effect of the ultrafiltration membrane are affected, the utility model provides a constant-temperature heating vibration column type membrane assembly pouring workbench.

The constant-temperature heating vibration column type membrane assembly pouring workbench comprises a hoisting mechanical arm and a rack, wherein a high-frequency vibration platform is arranged above the rack, a vibration damping device is fixedly connected between the high-frequency vibration platform and the rack, first mounting ports are formed in the inner walls of two ends of the high-frequency vibration platform, high-frequency vibrators are fixedly mounted on the inner walls of the two first mounting ports, a fixing groove is formed in the upper surface of the high-frequency vibration platform, and a membrane assembly pouring mold is arranged on the inner wall of the fixing groove;

the high-frequency vibration membrane module mould comprises a high-frequency vibration platform, connecting blocks, a first limiting block, a second limiting block, a T-shaped sliding block and a glue injection pipe, wherein the upper surfaces of two ends of the high-frequency vibration platform are fixedly connected with connecting blocks, the relative surface of each connecting block is fixedly connected with the first limiting block, the relative surface of each connecting block is provided with a sliding groove in a T-shaped structure, the inner wall of each sliding groove is inserted with the corresponding T-shaped sliding block in a sliding mode, the relative surface of each T-shaped sliding block is fixedly connected with the second limiting block, a fixing opening and a clamping opening are formed in the surface of one side of each first limiting block and the surface of one side of each second limiting block, the glue injection pipe is located on the first limiting block, the inner wall of the fixing opening is fixedly connected with a glue injection system, and the glue injection pipe of the glue injection system penetrates through the high-frequency vibration platform and extends to the inside of the membrane module mould.

Preferably, the inner bottom walls of the fixing grooves are provided with a placing groove, the inner walls of the placing grooves are provided with constant-temperature heating plates, and the upper surfaces of the constant-temperature heating plates are in contact with the lower surface of the membrane assembly pouring mold;

through above-mentioned technical scheme, reached the constant temperature hot plate and heated the colloid that will get into membrane module casting die inside for the colloid melts, when pouring into membrane module casting die, the velocity of flow is fast.

Preferably, the inner wall of the clamping interface is fixedly connected with a buffer block, and a sponge is arranged inside the buffer block;

through above-mentioned technical scheme, reached and made the membrane module pour the mould and can not receive the damage when the vibration through the buffer block of sponge material.

Preferably, the surface of one side of the first limiting block is provided with a socket, and the inner top wall and the inner bottom wall of the socket are both provided with telescopic openings;

through above-mentioned technical scheme, reached through having seted up the bellmouth in the interface for limit structure can all be installed to the upper end and the lower extreme of interface.

Preferably, the inner wall of one end of the telescopic opening is fixedly connected with a pressure spring, the free end of the pressure spring is fixedly connected with a clamping block, and the outer surface of one end, close to the telescopic opening, of the clamping block is movably inserted into the inner wall of the telescopic opening;

through above-mentioned technical scheme, reached through the extrusion force of pressure spring to joint piece for two joint pieces can in close contact with.

Preferably, a limiting frame in a U-shaped structure is fixedly connected to the surface of one side of the second limiting block, the outer surface of the limiting frame is movably inserted into the inner wall of the insertion port, and the outer surface of one end of the clamping block is movably inserted into the inner surface of the limiting frame;

through above-mentioned technical scheme, reached and carried on spacingly to spacing frame through the joint piece, fixed spacing frame in the interface for be connected between first stopper and the second stopper and pour the mould to the membrane module and carry out spacingly and the protection.

The beneficial effects of the utility model are as follows:

1. first installing ports are formed in the inner walls of the two ends of the high-frequency vibration platform, high-frequency vibrators are fixedly installed on the inner walls of the two first installing ports, the high-frequency vibrators enable the high-frequency vibration platform to drive the membrane assembly pouring mold to vibrate at high frequency, so that the colloid is uniformly distributed, bubbles in the colloid are vibrated out when the colloid vibrates, and effective end sealing is conducted on the membrane assembly pouring mold.

2. The standing groove has all been seted up through the interior diapire that sets up a plurality of fixed slots, and the inner wall of standing groove is provided with the constant temperature hot plate, and the upper surface of constant temperature hot plate and the lower surface contact of membrane module casting die, the constant temperature hot plate heats the colloid that will get into membrane module casting die inside for the colloid melts, increases the flow rate of colloid.

Drawings

FIG. 1 is a schematic view of a constant temperature heating vibrating column type membrane module casting workbench according to the present invention;

FIG. 2 is a structural sectional view of a high-frequency vibration platform of a constant-temperature heating vibration column type membrane assembly pouring workbench, which is provided by the utility model;

FIG. 3 is a sectional view of a first limiting block structure of a constant temperature heating vibrating column type membrane assembly casting workbench according to the present invention;

fig. 4 is a sectional view of a chute structure of a constant-temperature heating vibrating column type membrane assembly pouring workbench provided by the utility model.

In the figure: 1. hoisting the mechanical arm; 2. a frame; 3. a high frequency vibration platform; 4. a vibration damping device; 5. a first mounting port; 51. a high-frequency vibrator; 6. fixing grooves; 7. pouring a mould for the membrane assembly; 8. connecting blocks; 9. a first stopper; 91. a chute; 92. a T-shaped slider; 93. a second limiting block; 94. a fixed port; 95. a card interface; 10. a glue injection system; 11. a placement groove; 12. heating the plate at constant temperature; 13. a buffer block; 14. an interface; 141. a flexible opening; 142. a pressure spring; 143. a clamping block; 144. and a limiting frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, a constant-temperature heating vibration column type membrane assembly pouring workbench comprises a hoisting mechanical arm 1 and a frame 2, wherein a high-frequency vibration platform 3 is arranged above the frame 2, a vibration damper 4 is fixedly connected between the high-frequency vibration platform 3 and the frame 2, first mounting ports 5 are respectively formed in the inner walls of two ends of the high-frequency vibration platform 3, high-frequency vibrators 51 are respectively fixedly mounted on the inner walls of the two first mounting ports 5, a fixing groove 6 is formed in the upper surface of the high-frequency vibration platform 3, a membrane assembly pouring mold 7 is arranged on the inner wall of the fixing groove 6, and the high-frequency vibrators 51 enable the high-frequency vibration platform 3 to drive the membrane assembly pouring mold 7 to perform high-frequency vibration so that colloid is uniformly distributed, bubbles in the colloid are vibrated out while vibration is performed, and effective end sealing is performed on the membrane assembly pouring mold 7;

furthermore, the inner bottom walls of the plurality of fixing grooves 6 are provided with placing grooves 11, the inner walls of the placing grooves 11 are provided with constant-temperature heating plates 12, the upper surfaces of the constant-temperature heating plates 12 are in contact with the lower surface of the membrane assembly casting mold 7, the colloid which is about to enter the membrane assembly casting mold 7 is heated by the constant-temperature heating plates 12, the colloid is melted, and the flow rate is high when the colloid is injected into the membrane assembly casting mold 7;

the upper surfaces of two ends of the high-frequency vibration platform 3 are fixedly connected with connecting blocks 8, the opposite surfaces of the two connecting blocks 8 are fixedly connected with first limiting blocks 9, the opposite surfaces of the two connecting blocks 8 are respectively provided with a sliding chute 91 in a T-shaped structure, the inner wall of the sliding chute 91 is inserted with a T-shaped sliding block 92 in a sliding manner, the opposite surfaces of the two T-shaped sliding blocks 92 are fixedly connected with second limiting blocks 93, and one side surfaces of the first limiting blocks 9 and the second limiting blocks 93 are respectively provided with a fixing port 94 and a clamping port 95;

furthermore, the inner wall of the clamping interface 95 is fixedly connected with a buffer block 13, and sponge is arranged inside the buffer block 13, so that the membrane component pouring mold 7 cannot be damaged during vibration through the buffer block 13 made of sponge;

the inner wall of the fixing opening 94 positioned on the first limiting block 9 is fixedly connected with a glue injection system 10, and a glue injection pipe of the glue injection system 10 penetrates through the high-frequency vibration platform 3 and extends into the membrane module pouring mold 7;

furthermore, the surface of one side of the first limiting block 9 is provided with a socket 14, and the inner top wall and the inner bottom wall of the socket 14 are both provided with a telescopic opening 141, so that the upper end and the lower end of the socket 14 can be provided with limiting structures by arranging the telescopic opening 141 in the socket 14;

further, the inner wall of one end of the telescopic port 141 is fixedly connected with a pressure spring 142, the free end of the pressure spring 142 is fixedly connected with a clamping block 143, the outer surface of one end of the clamping block 143, which is close to the telescopic port 141, is movably inserted into the inner wall of the telescopic port 141, so that the extrusion force of the pressure spring 142 on the clamping block 143 is achieved, and the two clamping blocks 143 can be in close contact with each other.

Furthermore, a limiting frame 144 in a U-shaped structure is fixedly connected to the surface of one side of the second limiting block 93, the outer surface of the limiting frame 144 is movably inserted into the inner wall of the insertion port 14, the outer surface of one end of the clamping block 143 is movably inserted into the inner surface of the limiting frame 144, so that the limiting frame 144 is limited by the clamping block 143, the limiting frame 144 is fixed in the insertion port 14, and the first limiting block 9 and the second limiting block 93 are connected to limit and protect the membrane assembly casting mold 7;

the constant temperature heating plate 12 heats the colloid about to enter the membrane module casting mold 7, so that the colloid melts and the flowing speed of the colloid is increased.

The working principle is as follows: the membrane assembly pouring mold 7 is placed into the fixing groove 6 through the hoisting mechanical arm 1, meanwhile, the middle part of the membrane assembly pouring mold 7 is in contact with the inner surface of the clamping interface 95 on the first limiting block 9, after the membrane assembly pouring mold 7 needing end sealing is placed into the fixing groove 6, a worker pushes the second limiting block 93, and the second limiting block 93 is driven to move through the matching between the sliding groove 91 and the T-shaped sliding block 92;

the limiting frame 144 on one surface of the second limiting block 93 is inserted into the socket 14, the two clamping blocks 143 are extruded, the two clamping blocks 143 are separated, when the limiting frame 144 is inserted into the innermost end of the socket 14, the clamping blocks 143 lose the blocking, the two clamping blocks 143 are moved through the pressure spring 142, the limiting frame 144 is blocked inside the socket 14, and the first limiting block 9 is connected with the second limiting block 93;

the glue injection system 10 is started, the high-frequency vibrator 51 and the constant-temperature heating plate 12 are electrified, the high-frequency vibrator 51 enables the high-frequency vibration platform 3 to drive the membrane assembly pouring mold 7 to perform high-frequency vibration, the constant-temperature heating plate 12 heats colloid to be fed into the membrane assembly pouring mold 7, the colloid is melted, the colloid is injected into the membrane assembly pouring mold 7 at a high flow rate, the colloid is uniformly distributed by matching with the vibration of the high-frequency vibration platform 3, bubbles in the colloid are vibrated out during vibration, the membrane assembly pouring mold 7 is sealed, and the vibration force transmitted to the rack 2 is eliminated through the vibration reduction device 4.

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

Claims (6)

1. The utility model provides a workstation is pour to constant temperature heating shock column type membrane module, includes hoist and mount arm (1) and frame (2), its characterized in that: a high-frequency vibration platform (3) is arranged above the rack (2), a vibration damping device (4) is fixedly connected between the high-frequency vibration platform (3) and the rack (2), first mounting openings (5) are formed in the inner walls of two ends of the high-frequency vibration platform (3), high-frequency vibrators (51) are fixedly mounted on the inner walls of the two first mounting openings (5), a fixing groove (6) is formed in the upper surface of the high-frequency vibration platform (3), and a membrane component pouring mold (7) is arranged on the inner wall of the fixing groove (6);

the upper surfaces of two ends of the high-frequency vibration platform (3) are fixedly connected with connecting blocks (8), the opposite surfaces of the two connecting blocks (8) are fixedly connected with first limiting blocks (9), the opposite surfaces of the two connecting blocks (8) are respectively provided with a sliding chute (91) in a T-shaped structure, the inner wall of the sliding groove (91) is inserted with T-shaped sliding blocks (92) in a sliding way, the opposite surfaces of the two T-shaped sliding blocks (92) are fixedly connected with second limiting blocks (93), one side surfaces of the first limiting block (9) and the second limiting block (93) are respectively provided with a fixing port (94) and a clamping port (95), the inner wall of the fixing port (94) on the first limiting block (9) is fixedly connected with a glue injection system (10), and a glue injection pipe of the glue injection system (10) penetrates through the high-frequency vibration platform (3) and extends to the interior of the membrane module pouring mold (7).

2. The constant-temperature heating vibration column type membrane assembly pouring workbench according to claim 1, characterized in that: a plurality of placing grooves (11) are formed in the inner bottom wall of each fixing groove (6), constant-temperature heating plates (12) are arranged on the inner walls of the placing grooves (11), and the upper surfaces of the constant-temperature heating plates (12) are in contact with the lower surface of the membrane assembly pouring mold (7).

3. The constant-temperature heating vibration column type membrane assembly pouring workbench according to claim 1, characterized in that: the inner wall fixedly connected with buffer block (13) of joint interface (95), the inside of buffer block (13) is provided with the sponge.

4. The constant-temperature heating vibration column type membrane assembly pouring workbench according to claim 1, characterized in that: socket (14) have been seted up to one side surface of first stopper (9), telescopic mouth (141) have all been seted up to the interior roof and the interior diapire of socket (14).

5. The constant-temperature heating vibration column type membrane assembly pouring workbench according to claim 4, characterized in that: the one end inner wall fixedly connected with pressure spring (142) of telescopic opening (141), the free end fixedly connected with joint piece (143) of pressure spring (142), joint piece (143) be close to the one end surface of telescopic opening (141) with the inner wall activity of telescopic opening (141) is pegged graft.

6. The constant-temperature heating vibration column type membrane assembly pouring workbench according to claim 5, characterized in that: the surface of one side of the second limiting block (93) is fixedly connected with a limiting frame (144) which is of a U-shaped structure, the outer surface of the limiting frame (144) is movably inserted into the inner wall of the insertion port (14), and the outer surface of one end of the clamping block (143) is movably inserted into the inner surface of the limiting frame (144).

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