CN210934101U - Fiber material bonded composite activated carbon rod filter element preparation device - Google Patents

Abstract

The utility model discloses a fiber material bonded composite activated carbon rod filter element preparation device, which comprises a three-in-one host machine for adsorption molding, dehydration and shaping of a composite activated carbon rod and a microcomputer controller for controlling the operation of the three-in-one host machine; the three-in-one host comprises a carbon slurry storage tank, a host bracket, a lifting frame, an adsorption forming mechanism and a rolling and shaping mechanism, wherein the carbon slurry storage tank is used for storing composite carbon slurry, the lifting frame can drive the adsorption forming mechanism to enter the composite carbon slurry in the carbon slurry storage tank to form an activated carbon rod blank, the activated carbon rod blank formed on the activated carbon rod filter element enters the rolling and shaping mechanism after being lifted by the lifting frame, and is rolled and shaped to obtain the formed activated carbon rod filter element; the utility model discloses an effort of negative pressure is in the same place various activated carbon material and fibre adhesion, and the adsorption specific surface area and the adsorption rate of filter core have been increased to the at utmost, have improved adsorption efficiency, have prolonged the effective live time of filter core, have reduced user's use cost.

Description

Fiber material bonded composite activated carbon rod filter element preparation device

Technical Field

The utility model relates to an activated carbon stick preparation technical field especially relates to a bonded compound activated carbon stick filter core preparation facilities of fiber material.

Background

Because the activated carbon rod filter core has the following advantages compared with the granular activated carbon filter core: the excellent adsorption performance of the active carbon filter material is kept, the structure is more compact, the pores are more developed, the strength is higher, and no black water exists; the high-efficiency filtering, purifying and adsorbing functions are integrated; therefore, it is widely used in the field of liquid purification such as water purifiers. However, various commonly used activated carbon rod filter elements have certain disadvantages due to the reasons of process or materials and the like: for example, a common compressed activated carbon rod filter element is formed by mixing an activated carbon powder material and an inorganic liquid binder, pouring the mixture into a special mold, and compressing the mixture by a press machine under high pressure. The activated carbon rod filter element processed by the process has high activated carbon content and better filtering effect than a granular activated filter element; however, the inorganic bonding material can not form pores, the pore diameter is mainly controlled by the granularity of the activated carbon, and the adsorption performance of the activated carbon material is greatly reduced by coating the surface of the activated carbon material with the bonding agent, so that the pore forming performance of the produced activated carbon rod filter element is not good, and the adsorption efficiency is not improved greatly. The other sintered active carbon rod filter element is formed by taking carbon powder and other bonding materials as raw materials through special processes of stirring, filling a mold, prepressing, high-temperature roasting at 200-300 ℃, post-processing and the like. The binding material is carbonized after high-temperature sintering, has certain pore-forming property, keeps the characteristic of large surface area of the activated carbon powder after being mixed with the activated carbon powder, has excellent pore-forming property, is more fully contacted with liquid, and has better filtering effect. But the application range of the method is limited due to the complex processing technology, limited productivity, large energy consumption, high cost, high selling price and the like.

Disclosure of Invention

The utility model aims at providing a fiber material bonded composite activated carbon rod filter element preparation device, which is used for solving the problems existing in the prior art, various activated carbon materials are bonded with fibers by the acting force of negative pressure, and the problems of activated carbon material pore blockage and filter element adsorption performance weakening caused by using inorganic liquid binder are avoided; the produced filter element has compact structure and high purification efficiency; the device has simple operation, short production period and low cost, and is suitable for large-scale production; the problems that the adsorption function of the surface of the compressed activated carbon rod is greatly reduced due to the coating of the binder and the problems of complex process and high cost of the production of the sintered activated carbon rod are well solved.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides a fiber material bonded composite activated carbon rod filter element preparation device, which comprises a three-in-one host machine for adsorption molding, dehydration and shaping of a composite activated carbon rod and a microcomputer controller for controlling the operation of the three-in-one host machine;

the three-in-one host comprises a carbon slurry storage tank, a host support, a lifting frame, an adsorption forming mechanism and a rolling and shaping mechanism, wherein the carbon slurry storage tank is used for storing composite carbon slurry, the host support is fixed at the top of the carbon slurry storage tank, the lifting frame is arranged between the host support and the carbon slurry storage tank, the adsorption forming mechanism is arranged on the lifting frame, the lifting frame can drive the adsorption forming mechanism to enter the composite carbon slurry of the carbon slurry storage tank to form an activated carbon rod blank, and after the carbon rod blank is formed, the lifting frame drives the activated carbon rod blank to move out of the carbon slurry storage tank;

the adsorption forming mechanism comprises an adsorption rod, an activated carbon rod filter element framework and a driving motor, wherein an axial through hole is formed in the adsorption rod, a plurality of air suction holes are formed in the circumferential side wall of the adsorption rod, the activated carbon rod filter element framework is sleeved outside the adsorption rod, the wall body of the activated carbon rod filter element framework is a meshed net-shaped wall body, a layer of non-woven fabric is wrapped on the periphery of the activated carbon rod filter element framework, an activated carbon rod blank is formed on the activated carbon rod filter element framework, two ends of the adsorption rod are respectively connected with a negative pressure vacuum pump through a negative pressure left air suction pipe and a negative pressure right air suction pipe, the rod body of the adsorption rod is driven to rotate by the driving motor, two ends of the rod body of the adsorption rod are also connected with the lifting frame, and the lifting is controlled by the lifting frame;

the formed active carbon rod blank on the active carbon rod filter element enters the rolling and shaping mechanism after being lifted by the lifting frame, and is rolled and shaped to obtain the formed active carbon rod filter element.

Preferably, the crane is a rectangular frame, two lifting cylinders are arranged at the top of the host bracket, piston rods of the two lifting cylinders penetrate through the host bracket and are connected with a frame top plate of the crane, guide rail sleeves are respectively arranged on the outer sides of two side plates of the crane, a guide rail is respectively arranged on two opposite inner sides of the host bracket, and the two guide rail sleeves are respectively sleeved on one of the guide rails.

Preferably, a left shaping roller and a right shaping roller are arranged on two sides of the adsorption rod, a middle shaping roller is arranged in the middle of the rod body of the adsorption rod, the left shaping roller and the adsorption rod are integrally arranged, the middle shaping roller is sleeved outside the adsorption rod, the right shaping roller is rotatably connected to the end part of the adsorption rod, two activated carbon rod filter element frameworks are arranged, one is arranged between the left shaping roller and the middle shaping roller, and the other is arranged between the middle shaping roller and the right shaping roller;

one end of the right shaping roller, which is far away from the adsorption rod, is also provided with a connecting pipe, the connecting pipe is connected with the negative pressure right air suction pipe through a corrugated hose, and the connecting pipe is also connected with the lifting frame;

one side of the adsorption rod, which is provided with the left shaping roller, is also connected with a driving motor driven wheel, the driving motor driven wheel is connected with a driving wheel of a driving motor through a transmission belt, and the driving wheel of the driving motor is connected with a power output end of the driving motor; the driving motor is provided with an axial through hole in the driven wheel, the end part of the driven wheel of the driving motor is rotatably connected with a left air suction pipe joint, the left air suction pipe joint is connected with the negative pressure left air suction pipe through a corrugated hose, and the driving motor is connected with the lifting frame through the driven wheel and the left air suction pipe joint.

Preferably, the rolling and shaping mechanism comprises a rolling mechanism base, a roller base, a rolling mechanism cylinder, a rolling mechanism movable guide rail, an upper shaping roller, a lower shaping roller, an upper shaping roller right rotating arm, a lower shaping roller right rotating arm, a right tension spring, a right traction spring, an upper shaping roller left rotating arm, a lower shaping roller left rotating arm, a left tension spring, a left traction spring and a spray pipe;

the bottom of the rolling mechanism base is fixed on the rear groove wall of the carbon slurry storage groove, the roller base is oppositely arranged on the front side of the rolling mechanism base, the rolling mechanism cylinder is arranged on the rear side wall of the rolling mechanism base, a piston rod of the rolling mechanism cylinder penetrates through the rolling mechanism base to be connected with the roller base, and rolling mechanism movable guide rails are respectively arranged on the rolling mechanism base on two sides of the piston rod of the rolling mechanism cylinder and used for guiding the roller base;

one end of the right rotating arm of the upper shaping rolling shaft is rotatably connected with the top of the right side wall of the rolling shaft base, the other end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with one end of the upper shaping rolling shaft, one end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with the bottom of the right side wall of the rolling shaft base, and the other end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with one end of the lower shaping rolling shaft; a right tension spring which is vertically arranged and a right traction spring which is obliquely arranged are also arranged between the upper shaping rolling shaft right rotating arm and the lower shaping rolling shaft right rotating arm, the fixed position of the bottom of the right traction spring is the same as that of the right tension spring, and the top of the right traction spring is fixed at one end of the upper shaping rolling shaft right rotating arm, which is connected with the right side wall of the rolling shaft base;

one end of the upper shaping roller left rotating arm is rotatably connected with the top of the left side wall of the roller base, the other end of the upper shaping roller left rotating arm is rotatably connected with the other end of the upper shaping roller, one end of the lower shaping roller left rotating arm is rotatably connected with the bottom of the left side wall of the roller base, and the other end of the lower shaping roller left rotating arm is rotatably connected with the other end of the lower shaping roller; a left tension spring which is vertically arranged and a left traction spring which is obliquely arranged are also arranged between the upper shaping rolling shaft left rotating arm and the lower shaping rolling shaft left rotating arm, the fixed position of the bottom of the left traction spring is the same as that of the left tension spring, and the top of the left traction spring is fixed at one end of the upper shaping rolling shaft left rotating arm connected with the left side wall of the rolling shaft base;

the top of the base of the rolling mechanism is provided with a transverse plate towards the front side, and the spray pipe is arranged on the transverse plate and is opposite to the upper shaping roller and the lower shaping roller.

Preferably, the three-in-one host further comprises a primary opening and closing mechanism, the primary opening and closing mechanism comprises a right clamping plate of the adsorption rod, a right supporting plate and a pushing cylinder which are arranged on one side of the adsorption rod, a right clamping plate sleeve and a connecting pipe guide sleeve are sleeved on the connecting pipe, a top plate body of the right clamping plate of the adsorption rod is in sliding connection with a bottom plate of the lifting frame, and the bottom of the right clamping plate of the adsorption rod is fixedly connected with the right clamping plate sleeve; the top end of the right supporting plate is fixedly connected with the top plate of the lifting frame, and a bottom plate body of the right supporting plate is sleeved outside the connecting pipe guide sleeve and is fixedly connected with the connecting pipe guide sleeve; the top pushes away the cylinder set up in the crane, the cylinder body that pushes away the cylinder is fixed in on a fixed plate, push away the piston rod of cylinder with adsorb excellent right splint fixed connection, on the curb plate of crane with still be provided with on the right branch fagging and be used for the direction adsorb excellent right splint movable guide of right splint.

Preferably, the three-in-one main machine further comprises a second-stage opening and closing mechanism, the second-stage opening and closing mechanism comprises an opening and closing frame, an opening and closing cylinder, a hinge upper joint and a hinge lower joint, the opening and closing frame is arranged on the other side of the adsorption rod, a left opening and closing frame connecting plate and a right opening and closing frame connecting plate are arranged at the bottom of a bottom plate of the lifting frame, the opening and closing frame comprises an opening and closing frame left plate and an opening and closing frame right plate, the opening and closing frame left plate is arranged on the inner side of the left opening and closing frame connecting plate, the opening and closing frame right plate is arranged on the outer side of the right opening and closing frame connecting plate, the tops of the opening and closing frame left plate and the opening and closing frame right plate are connected with the left opening and closing frame connecting plate and the right opening and closing frame connecting plate through an opening and closing frame rotating shaft, the bottom of the opening and closing frame left plate is connected with the left air suction pipe joint, the bottom of the opening and closing frame, the bottom end of a piston rod of the opening and closing cylinder is connected with the top end of an upper hinge joint, the bottom end of the upper hinge joint is hinged with the top end of a lower hinge joint through a pin shaft, the bottoms of a left opening and closing frame plate and a right opening and closing frame plate are connected through an opening and closing support shaft, the bottom end of the lower hinge joint is connected with the opening and closing support shaft, and the vertical center line of the upper hinge joint is positioned on the rear side of the vertical center line of the lower hinge joint; the driving motor is arranged on the outer side of the opening and closing frame right plate, and the driving wheel of the driving motor is arranged on the inner side of the opening and closing frame right plate and is positioned at the top end of the driving motor driven wheel.

Preferably, a low-level liquid level probe and a high-level liquid level probe are further fixed on the carbon slurry storage tank, a feeding valve is further arranged on a feeding pipe for conveying the composite carbon slurry to the carbon slurry storage tank, and the low-level liquid level probe, the high-level liquid level probe and the feeding valve are electrically connected with the microcomputer controller, so that the control of the liquid level of the composite carbon slurry in the carbon slurry storage tank is realized.

Preferably, still be provided with host computer stirring impeller in the charcoal thick liquid hold up tank, host computer stirring impeller is rotated by host computer agitator motor drive, host computer agitator motor with the microcomputer control ware electricity is connected.

Preferably, microcomputer controller set up in one side of trinity host computer for control the operation of whole device, arrange sleeve pipe, work pilot lamp and fault indicator lamp including touch-control display screen, starting switch, stop switch, control wire, starting switch stop switch the work pilot lamp with the fault indicator lamp set up in on the touch-control display screen outline, control wire arrange the sleeve pipe set up in touch-control display screen's top is used for accomodating microcomputer controller with the connection electric wire between the trinity host computer.

Preferably, the device also comprises a composite carbon slurry primary grinding stirrer and a composite carbon slurry secondary stirring barrel; putting a mixture of activated carbon fiber cloth and water into a composite carbon slurry primary grinding stirrer for cutting and grinding to obtain activated carbon fiber cloth slurry, putting the mixture of activated carbon fiber cloth and water into the composite carbon slurry primary grinding stirrer for cutting and grinding to obtain activated carbon fiber cloth slurry, then adding other raw materials into the composite carbon slurry primary grinding stirrer for primary stirring and grinding to obtain composite activated carbon slurry; conveying the composite activated carbon slurry into the composite carbon slurry secondary stirring barrel, adding a proper amount of water, and conveying the composite carbon slurry uniformly stirred by the composite carbon slurry secondary stirring barrel into the carbon slurry storage tank for adsorption molding, dehydration and sizing of the composite activated carbon rod;

preferably, still include the power supply cabinet, the power supply cabinet is for trinity host computer with microcomputer controller provides electric power.

The utility model discloses following beneficial technological effect has been gained for prior art:

1. the utility model provides a fiber material bonded composite activated carbon rod filter element preparation device, which can avoid high-temperature sintering to prepare composite activated carbon rods, replaces adhesives with fiber materials, uses polymer fiber materials, composite activated carbon filter materials and the like as raw materials, and can manufacture high-quality composite activated carbon rod filter elements by special processes such as grinding, pulping, stirring, vacuum dehydration molding, rolling, shaping, low-temperature baking and the like; the produced activated carbon rod filter element can avoid the phenomenon that the adsorption performance of the activated carbon surface is reduced due to the wrapping of a binder, the adsorption specific surface area and the adsorption speed of the filter element are increased to the maximum extent, and the advantages of the adsorption capacities among various activated carbon materials are complemented, so that the adsorption efficiency is greatly improved, the effective service time of the filter element is prolonged, and the use cost of a user is reduced; in addition, the composite carbon rod filter element has the advantages of compact structure, developed pores, high strength, difficult crushing and less dust, can bear the water pressure of 10 kilograms, can well ensure the purity and safety of water quality, and ensures that the outlet water has a more mellow and delicious taste. Therefore, the purification performance of the activated carbon rod filter element produced by the device can be compared favorably with that of a sintered activated carbon rod filter element, and the cost is lower than that of the sintered filter element; the method has the advantages of simple process, low manufacturing cost, high yield, good purification effect and the like; and through the adjustment of the component formula, the activated carbon rod filter element with different performances such as sterilization, bacteriostasis and the like can be conveniently manufactured, and the activated carbon rod filter elements with different sizes and specifications can be produced through the adjustment of the size of key accessories, so the device is the activated carbon rod filter element production device with stronger practicability.

2. The utility model provides a bonded compound activated carbon rod filter core preparation facilities of fiber material has set up automatic spray mechanism, lets the user can convenient and fast ground in time clean design roller bearing more for can not leave the residue of compound filter material on the design roller bearing and lead to the damage of design roller bearing or the quality variation of raw and other materials, thereby improved this kind of preparation facilities's security and prolonged its life. The problem that a common activated carbon rod filter element production device is not easy to clean is well solved.

3. The utility model provides a fiber material bonded composite activated carbon rod filter element preparation device, which has high automation degree, integrates multiple functions of automatic feeding, stirring, forming, dewatering, rolling and shaping, cleaning, water replenishing, fault early warning and the like, and has simple operation, short production period, no high temperature process and lower energy consumption; therefore, the device is an intelligent, high-efficiency and convenient activated carbon rod filter element production device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of a device for preparing a composite activated carbon rod filter element bonded by fiber materials according to the present invention;

fig. 2 is a schematic three-in-one main frame of the present invention;

fig. 3 is a schematic perspective view of the top view angle of the three-in-one main machine of the present invention;

fig. 4 is a schematic perspective view of a side view angle of the three-in-one main machine of the present invention;

fig. 5 is a schematic view of the forward structure of the three-in-one main machine of the present invention;

FIG. 6 is a partial exploded view of the adsorption molding mechanism of the present invention;

FIG. 7 is an assembled sectional view of the adsorption molding mechanism of the present invention;

FIG. 8 is a longitudinal sectional view of the right side of the three-in-one main machine of the present invention, wherein the activated carbon filter element skeleton of the adsorption molding mechanism has been inserted between the upper and lower shaping rollers;

FIG. 9 is an enlarged view at F of FIG. 7;

fig. 10 is a left side view of the rolling and shaping mechanism of the present invention;

FIG. 11 is an assembly view of the middle lifting frame, the adsorption molding mechanism, the first-stage opening and closing mechanism and the second-stage opening and closing mechanism of the present invention;

FIG. 12 is an enlarged view at G of FIG. 11;

fig. 13 is a schematic view of the opening state of the three-in-one main frame opening and closing frame of the present invention;

fig. 14 is a view illustrating the opening and closing operation principle of the opening and closing frame of the present invention;

FIG. 15 is an enlarged view at E in FIG. 12;

in the figure: 1-primary grinding and stirring machine of composite carbon slurry;

2-a composite carbon slurry secondary stirring barrel;

3-three-in-one host, 31-carbon slurry storage tank, 3101-host stirring impeller, 3102-host stirring motor, 3103-feeding pipe and 3104-feeding valve;

32-a host support;

33-lifting rack, 3301-lifting cylinder, 3302-guide rail sleeve, 3303-guide rail;

34-adsorption forming mechanism, 3401-adsorption rod, 3402-activated carbon rod filter element framework, 3403-driving motor, 3404-negative pressure left air suction pipe, 3405-negative pressure right air suction pipe, 3406-negative pressure vacuum pump, 3407-left shaping roller, 3408-right shaping roller, 3409-middle shaping roller, 3410-connecting pipe, 3411-corrugated hose, 3412-driving motor driven wheel, 3413-transmission belt, 3414-driving motor driving wheel and 3415-left air suction pipe joint;

35-rolling shaping mechanism, 3501-rolling mechanism base, 3502-roller base, 3503-rolling mechanism cylinder, 3504-rolling mechanism movable guide rail, 3505-upper shaping roller, 3506-lower shaping roller, 3507-upper shaping roller right rotating arm, 3508-lower shaping roller right rotating arm, 3509-fulcrum screw a, 3510-right tension spring, 3511-right traction spring, 3512-upper shaping roller left rotating arm, 3513-lower shaping roller left rotating arm, 3514-left tension spring, 3515-left traction spring, 3516-spray pipe, 3517-fulcrum screw b, 3518-fulcrum screw c and 3519-fulcrum screw d;

36-first-stage opening and closing mechanism, 3601-right clamping plate of adsorption rod, 3602-right supporting plate, 3603-pushing cylinder, 3604-right clamping plate sleeve, 3605-connecting pipe guide sleeve, 3606-fixing plate and 3607-movable guide rail of right clamping plate of adsorption rod

37-a secondary opening and closing mechanism, 3701-a left opening and closing frame connecting plate, 3702-a right opening and closing frame connecting plate, 3703-a left opening and closing frame plate, 3704-a right opening and closing frame plate, 3705-a rotating shaft of the opening and closing frame, 3706-an opening and closing cylinder, 3707-a hinge upper joint, 3708-a hinge lower joint and 3709-an opening and closing support shaft;

38-low level liquid level probe, 39-high level liquid level probe

4-a microcomputer controller, 41-a touch display screen, 42-a starting switch, 43-a stopping switch, 44-a control wire arrangement sleeve, 45-a working indicator light and 46-a fault indicator light;

5-power supply cabinet;

6-suction pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing a fibre material adhesive compound activated carbon stick filter core preparation facilities to solve the problem that prior art exists.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

This embodiment provides a fibrous material bonded composite activated carbon rod filter core preparation facilities, as shown in fig. 1, still include that compound charcoal thick liquid one-level grinds mixer 1, compound charcoal thick liquid second grade agitator 2, the trinity host computer 3 that is used for the absorption shaping, dehydration and the design of compound activated carbon rod, the little computer control ware 4 of the three-in-one host computer 3 operation of control and for the three-in-one host computer 3 and little computer control ware 4 provide the power supply cabinet 5 of electric power.

The method comprises the steps of putting a mixture of activated carbon fiber cloth and water into a composite carbon pulp primary grinding stirrer 1 to be cut off and ground for about 20 minutes to obtain activated carbon fiber cloth pulp with the length of about 0.5mm, adding coconut shell activated carbon, wood activated carbon, acrylic fiber glue and other raw materials into the composite carbon pulp primary grinding stirrer 1 to be preliminarily stirred and ground, arranging a material suction pump 6 on a pipeline between the composite carbon pulp primary grinding stirrer 1 and a composite carbon pulp secondary stirring barrel 2, starting the material suction pump 6 to convey composite activated carbon pulp into the composite carbon pulp secondary stirring barrel 2, and conveying the composite carbon pulp which is uniformly stirred by adding a proper amount of water through the composite carbon pulp secondary stirring barrel 2 into a carbon pulp storage tank 31 to perform adsorption forming, dehydration and sizing of a composite activated carbon rod.

As shown in fig. 2-5, in this embodiment, the three-in-one host 3 includes a carbon slurry storage tank 31, a host bracket 32, a lifting frame 33, an adsorption forming mechanism 34 and a rolling shaping mechanism 35, the host bracket 32 is fixed on the top of the carbon slurry storage tank 31, the lifting frame 33 is disposed between the host bracket 32 and the carbon slurry storage tank 31, the adsorption forming mechanism 34 is disposed on the lifting frame 33, the lifting frame 33 can drive the adsorption forming mechanism 34 to enter the composite carbon slurry in the carbon slurry storage tank 31 to form an activated carbon rod blank, and after the forming, the lifting frame 33 drives the activated carbon rod blank to move out of the carbon slurry storage tank 31;

as shown in fig. 5-7, the adsorption forming mechanism 34 includes an adsorption rod 3401, an activated carbon rod filter element framework 3402 and a driving motor 3403, an axial through hole is provided inside the adsorption rod 3401, a plurality of air suction holes are provided on a circumferential side wall of the adsorption rod 3401, the activated carbon rod filter element framework 3402 is sleeved outside the adsorption rod 3401, a wall body of the activated carbon rod filter element framework 3402 is a square-hole net-shaped wall body, a layer of non-woven fabric is further wrapped on the periphery of the activated carbon rod filter element framework 3402, an activated carbon rod blank is formed on the activated carbon rod filter element framework 3402, two ends of the adsorption rod 3401 are respectively connected with a negative pressure vacuum pump 3406 through a negative pressure left air suction pipe 3404 and a negative pressure right air suction pipe 3405, a rod body of the adsorption rod 3401 is driven to rotate by the driving motor 3403, two ends of the rod body of the adsorption rod 3401 are further connected with a;

the formed active carbon rod blank on the active carbon rod filter element framework 3402 is lifted by the lifting frame 33 and then enters the rolling and shaping mechanism 35 for rolling and shaping so as to obtain the formed active carbon rod filter element.

As shown in fig. 5, in this embodiment, the lifting frame 33 is a rectangular frame, two lifting cylinders 3301 are disposed at the top of the host bracket 32, piston rods of the two lifting cylinders 3301 penetrate through the host bracket 32 to be connected with a top plate of the frame of the lifting frame 33, a guide rail sleeve 3302 is disposed on the outer side of each of two side plates of the lifting frame 33, a guide rail 3303 is disposed on each of two opposite inner sides of the host bracket 32, and the two guide rail sleeves 3302 are respectively sleeved on one of the guide rails 3303; when the lifting frame 33 drives the adsorption rod 3401 to lift, the microcomputer controller 4 controls the lifting cylinder 3301 to work, and the piston rod of the lifting cylinder 3301 stretches and retracts to drive the lifting frame 33 to lift along the guide rail 3303.

As for the specific structure of the adsorption molding mechanism 34, as shown in fig. 6 and 7, a left shaping roller 3407 and a right shaping roller 3408 are arranged on two sides of an adsorption rod 3401, a middle shaping roller 3409 is arranged in the middle of the rod body of the adsorption rod 3401, the left shaping roller 3407 and the adsorption rod 3401 are integrally arranged, the middle shaping roller 3409 is sleeved outside the adsorption rod 3401 and can be detached from the adsorption rod 3401, the right shaping roller 3408 is rotatably connected to the end of the adsorption rod 3401, a horn-shaped opening matched with the conical surface of the end of the adsorption rod 3401 is arranged at the end of the right shaping roller 3408, the two inclined surfaces are precisely matched, and the adsorption molding mechanism can play a role of sealing after being attached and can rotate with each other; two activated carbon rod filter element frameworks 3402 are arranged, one is arranged between the left shaping roller 3407 and the middle shaping roller 3409, and the other is arranged between the middle shaping roller 3409 and the right shaping roller 3408;

a connecting pipe 3410 is integrally formed at one end of the right shaping roller 3408, which is far away from the adsorption rod 3401, the end of the connecting pipe 3410 is provided with threads, is in threaded connection with a corrugated hose 3411, and is connected with a negative pressure right air suction pipe 3405 through the corrugated hose 3411; when the corrugated hose 3411 is arranged to facilitate the disassembly of the formed activated carbon rod filter element, the right shaping roller 3408 moves towards the right side to make room.

A driving motor driven wheel 3412 is connected to one side, provided with the left shaping roller 3407, of the adsorption rod 3401, the driving motor driven wheel 3412 is connected with a driving motor driving wheel 3414 through a transmission belt 3413, and the driving motor driving wheel 3414 is connected with a power output end of the driving motor 3403; an axial through hole is formed inside the driving motor driven wheel 3412, a left air suction pipe joint 3415 is rotatably connected to the end of the driving motor driven wheel 3412, and the left air suction pipe joint 3415 is in threaded connection with another corrugated hose 3411 and is connected with a negative pressure left air suction pipe 3404 through the corrugated hose 3411.

In this embodiment, the process and principle of the formation of the activated carbon rod are as follows: when the forming is started, the microcomputer controller 4 controls the lifting cylinder 3301 to simultaneously extend downwards and drive the adsorption rod 3401 to descend so that the adsorption rod 3401 falls below the liquid level of the composite carbon slurry, then the driving motor 3403 starts to work and drives the adsorption rod 3401 to rotate, simultaneously the negative pressure vacuum pump 3406 also starts to work and sucks air from the two sides of the negative pressure right air suction pipe 3405 and the negative pressure left air suction pipe 3404, the wall body of the air suction hole on the adsorption rod 3401 and the activated carbon rod filter element framework 3402 is designed in a square hole net shape, the periphery of the wall body is evenly wrapped with a layer of precise non-woven fabric with filtering function, so that the composite material particles in the composite carbon slurry can be adsorbed on the non-woven fabric on the periphery of the activated carbon rod filter element framework 3402 under the action of negative pressure to generate a round activated carbon rod blank, the activated carbon rod embryo bodies with different outer diameters can be formed by setting different adsorption time and adsorption force. However, the minimum outer diameter of the formed activated carbon rod blank is about 3-5 mm larger than the outer diameters of the left sizing roller 3407, the middle sizing roller 3409 and the right sizing roller 3408, so that the production of the next process is facilitated. If the minimum outer diameter is too small, the rolled activated carbon rod is not firm enough or the surface is not smooth enough, and the size is too large, which wastes working hours.

In this embodiment, as shown in fig. 8 to 10, the rolling and sizing mechanism 35 includes a rolling mechanism base 3501, a roller base 3502, a rolling mechanism cylinder 3503, a rolling mechanism movable rail 3504, an upper sizing roller 3505, a lower sizing roller 3506, an upper sizing roller right rotating arm 3507, a lower sizing roller right rotating arm 3508, a right tension spring 3510, a right traction spring 3511, an upper sizing roller left rotating arm 3512, a lower sizing roller left rotating arm 3513, a left tension spring 3514, a left traction spring 3515 and a shower pipe 3516;

wherein, the bottom of the grinding mechanism base 3501 is welded on the rear wall of the carbon slurry storage tank 31, the roller base 3502 is oppositely arranged on the front side of the grinding mechanism base 3501, the grinding mechanism cylinder 3503 is arranged on the rear wall of the grinding mechanism base 3501, the piston rod of the grinding mechanism cylinder 3503 passes through the grinding mechanism base 3501 to be connected with the roller base 3502, and the grinding mechanism base 3501 on both sides of the piston rod of the grinding mechanism cylinder 3503 is also respectively provided with a grinding mechanism movable guide rail 3504 for guiding the roller base 3502;

one end of the upper shaping roller right rotating arm 3507 is rotatably connected with the top of the right side wall of the roller base 3502 through a fulcrum screw a3509, the other end is rotatably connected with one end of the upper shaping roller 3505, one end of the lower shaping roller right rotating arm 3508 is rotatably connected with the bottom of the right side wall of the roller base 3502 through a fulcrum screw b3517, and the other end is rotatably connected with one end of the lower shaping roller 3506; a vertically arranged right tension spring 3510 and an obliquely arranged right traction spring 3511 are further arranged between the upper shaping roller right rotating arm 3507 and the lower shaping roller right rotating arm 3508, the fixed position of the bottom of the right traction spring 3511 is the same as that of the right tension spring 3510, and the top of the right traction spring 3511 is fixed on a fulcrum screw a3509 at the joint of the upper shaping roller right rotating arm 3507 and the right side wall of the roller base 3502;

one end of the left rotating arm 3512 of the upper shaping roller is rotatably connected with the top of the left side wall of the roller base 3502 through a fulcrum screw c3518, the other end of the left rotating arm 3512 of the lower shaping roller is rotatably connected with the other end of the upper shaping roller 3505, one end of the left rotating arm 3513 of the lower shaping roller is rotatably connected with the bottom of the left side wall of the roller base 3502 through a fulcrum screw d3519, and the other end of the left rotating arm 3513 of the lower shaping roller is rotatably connected with the other end of; a vertically arranged left tension spring 3514 and an obliquely arranged left traction spring 3515 are further arranged between the upper shaping roller left rotating arm 3512 and the lower shaping roller left rotating arm 3513, the fixed position of the bottom of the left traction spring 3515 is the same as that of the left tension spring 3514, and the top of the left traction spring 3515 is fixed on a fulcrum screw c3518 at the connecting part of the upper shaping roller left rotating arm 3512 and the left side wall of the roller base 3502.

A transverse plate is arranged on the front side of the top of the rolling mechanism base 3501, and a spray pipe 3516 is arranged on the transverse plate and is opposite to the upper shaping roller 3505 and the lower shaping roller 3506; the spray pipe 3516 is provided to flush the rolling and sizing mechanism 35.

In this embodiment, the process and principle of shaping the activated carbon rod are as follows: after the molding is finished, the microcomputer controller 4 controls the lifting cylinder 3301 to rise to the highest point and drives the adsorption molding mechanism 34 to rise to the central position between the upper shaping roller 3505 and the lower shaping roller 3506, then the microcomputer controller 4 controls the grinding mechanism cylinder 3503 to work so that the upper shaping roller 3505 and the lower shaping roller 3506 move to the middle position of the machine, and the adsorption rod 3401 on the adsorption molding mechanism 34 is in a rotating state from the beginning of the molding, so that the two shaping rollers are separated from the upper position and the lower position of the activated carbon rod blank under the action of friction force, the elastic force of the left tension spring 3514 and the elastic force of the right tension spring 3510, and the two rollers rotate along with the rotation of the activated carbon rod blank, so that redundant and irregular activated carbon materials on the surface of the activated carbon rod blank can be removed. The density of the shaped activated carbon rod can be adjusted to a certain degree by adjusting the elasticity of the tension spring and the traction spring, the extension length of the middle shaft of the rolling mechanism cylinder 3503, the adsorption and rolling time and other parameters; the activated carbon rod filter elements with different specifications can be produced by adjusting the distance between the left sizing roller 3407, the middle sizing roller 3409 and the right sizing wheel of the adsorption rod 3401 and the size of the adsorption rod 3401. After the setting time is over, the negative pressure vacuum pump 3406 stops working, the adsorption forming mechanism 34 also stops rotating, and the rolling mechanism cylinder 3503 is reset to retract the upper setting roller 3505 and the lower setting roller 3506 to the original positions.

When an active carbon rod production cycle is completed, the spray pipe 3516 can automatically spray water to clean the upper sizing roller 3505 and the lower sizing roller 3506, so that on one hand, the sizing rollers are not worn or raw materials are polluted and varied due to the fact that residues of composite filter materials are not left on the sizing rollers, and the safety of the preparation device is improved; on the other hand, the water consumed by production can be supplemented in the carbon slurry storage tank, so that the uniformity of the carbon slurry and the working stability of the machine are ensured; and the user can clean the shaping roller and nearby parts more conveniently and quickly, and the service life of the machine is prolonged.

In this embodiment, the dehydration process and principle of the activated carbon rod are as follows: since the negative pressure vacuum pump 3406 is in an operating state from the start of molding to the end of molding, the dehydration operation is performed in both steps. The removed waste water is discharged from a drain pipe at the bottom of the negative pressure vacuum pump 3406 to a waste water recovery tank for further treatment and recycling.

After the activated carbon rod filter element is prepared and molded, the activated carbon rod filter element needs to be disassembled, and a new activated carbon rod filter element framework 3402 is installed, so that the three-in-one main machine 3 in the embodiment further comprises a primary opening and closing mechanism 36 and a secondary opening and closing mechanism 37;

as shown in fig. 5 and 11, the primary opening and closing mechanism 36 includes a right clamping plate 3601, a right supporting plate 3602 and a pushing cylinder 3603 which are arranged on one side of the adsorption rod 3401, a right clamping plate sleeve 3604 and a connecting pipe guide sleeve 3605 are sleeved on the connecting pipe 3410, the right clamping plate sleeve 3604 and the connecting pipe 3410 are fixed together through bolts, and the connecting pipe guide sleeve 3605 is connected with the connecting pipe 3410 in a sliding manner; a top plate body of the right clamping plate 3601 of the adsorption rod is connected with a bottom plate of the lifting frame 33 in a sliding mode, and the right clamping plate sleeve 3604 is fixedly welded in a bottom mounting hole of the right clamping plate 3601 of the adsorption rod; the top end of the right supporting plate 3602 is fixedly connected with the top plate of the lifting frame 33, and a bottom plate body of the right supporting plate 3602 is sleeved outside the connecting pipe guide sleeve 3605 and is fixedly connected with the connecting pipe guide sleeve 3605; the pushing cylinder 3603 is arranged in the lifting frame 33, a cylinder body of the pushing cylinder 3603 is fixed on a fixing plate 3606, a piston rod of the pushing cylinder 3603 is fixedly connected with the right clamping plate 3601 of the adsorption rod, and a movable guide rail 3607 of the right clamping plate of the adsorption rod for guiding the right clamping plate 3601 is further arranged on a side plate of the lifting frame 33 and the right supporting plate 3602.

As shown in fig. 5 and 11, the second stage opening and closing mechanism 37 includes an opening and closing frame disposed on the other side of the absorbing rod 3401, an opening and closing cylinder 3706, a hinge upper joint 3707, and a hinge lower joint 3708, a left opening and closing frame connecting plate 3701 and a right opening and closing frame connecting plate 3702 are welded to the bottom of the bottom plate of the crane 33, the opening and closing frame includes a left opening and closing frame plate 3703 and a right opening and closing frame plate 3704, the left opening and closing frame plate 3703 is disposed on the inner side of the left opening and closing frame connecting plate 3701, the right opening and closing frame plate 3704 is disposed on the outer side of the right opening and closing frame connecting plate 3702, the top of the left opening and closing frame plate 3703 and the right opening and closing frame plate 3704 are connected to the left opening and closing frame connecting plate 3701 and the right opening and closing frame connecting plate 3702 through an opening and closing frame rotating shaft 3705, the bottom of the left opening and closing frame plate 3703 is connected to the left suction pipe joint 3415, the bottom of the right opening and closing frame plate 3704 is connected to the driving, the bottom end of a piston rod of an opening and closing air cylinder 3706 is connected with the top end of a hinge upper joint 3707, the bottom end of the hinge upper joint 3707 is hinged with the top end of a hinge lower joint 3708 through a pin shaft, the bottoms of an opening and closing frame left plate 3703 and an opening and closing frame right plate 3704 are connected through an opening and closing support shaft 3709, the bottom end of the hinge lower joint 3708 is connected with the opening and closing support shaft 3709, and a vertical center line of the hinge upper joint 3707 is located on the rear side of the vertical center line of the hinge lower joint 3708, so that the hinge lower joint 3708 can be bent towards the front side when the piston rod of the opening and closing.

Based on the above structure, in this embodiment, the driving motor 3403 is disposed outside the opening and closing frame right plate 3704, and the driving motor driving wheel 3414 is disposed inside the opening and closing frame right plate 3704 and at the top end of the driving motor driven wheel 3412.

In this embodiment, the specific working processes of the first-stage opening and closing mechanism 36 and the second-stage opening and closing mechanism 37 are as follows: after the molding, dehydration and shaping are finished, the microcomputer controller 4 firstly controls the pushing cylinder 3603 to work to push the right clamping plate 3601 of the adsorption rod to the right so that the right shaping roller 3408 on the right clamping plate 3601 of the adsorption rod is separated from the adsorption rod 3401, the microcomputer controller 4 then controls the opening and closing cylinder 3706 to work to extend the piston rod downward (as shown in the left drawing of fig. 14), as shown in fig. 15, it is known that the upper hinge joint 3707 and the lower hinge joint 3708 on the switching cylinder 3706 are not connected with a central axis to a central axis, which is about 8mm apart (as shown by the distance between the two arrows in fig. 15), and the lower hinge joint 3708 is rotatable around the opening and closing support shaft 3709, it is known from the lever principle that the lower hinge joint 3708 is rotated in the arrow direction shown in the left drawing of fig. 14 by the pushing of the opening and closing cylinder 3706, thereby driving the opening and closing frame (the opening and closing frame left plate 3703 and the opening and closing frame right plate 3704) to rotate around the opening and closing frame rotating shaft 3705 by a certain angle (as shown in fig. 13); then, an operator takes out the two well-shaped activated carbon rods and the middle shaping roller 3409 to finish the production of one period; then a new active carbon rod filter element framework 3402 and a middle shaping roller 3409 are sequentially arranged and reset, and then the production of the next period can be carried out; the circulation can produce a large amount of activated carbon rod filter elements. In addition, a section of flexible high-strength plastic corrugated hose 3411 is also connected to the left air intake pipe joint 3415, so that the retractable frame can be freely extended and retracted when being opened and closed.

In this embodiment, the carbon slurry storage tank 31 is further fixed with a low level liquid level probe 38 and a high level liquid level probe 39, and the low level liquid level probe 38 and the high level liquid level probe 39 are first fixed on an insulating substrate made of bakelite, and then fixed on the left side of the inner side tank wall of the carbon slurry storage tank 31 by conventional screws; a feed valve 3104 is also arranged on the feed pipe 3103 for conveying the composite carbon slurry to the carbon slurry storage tank 31, and the low-level liquid level probe 38, the high-level liquid level probe 39 and the feed valve 3104 are electrically connected with the microcomputer controller 4, so that the control of the liquid level of the composite carbon slurry in the carbon slurry storage tank 31 is realized; when the carbon slurry is fed for the first time, the machine automatically feeds to the high level liquid level probe 39 and then automatically stops feeding, when the carbon slurry level is lowered to the low level liquid level probe 38, the feeding valve 3104 is automatically opened to feed after working for a period of time, and the feeding is automatically stopped until the carbon slurry level reaches the high level liquid level probe 104, and the operation is circulated. By this control it is ensured that the carbon slurry level is maintained within an optimum range at all times.

In this embodiment, a main stirring impeller 3101 is further disposed in the carbon slurry storage tank 31, the main stirring impeller 3101 is driven to rotate by a main stirring motor 3102, and the main stirring motor 3102 is electrically connected with the microcomputer controller 4; the three-in-one main machine 3 is in a working state from the beginning to the shutdown of the main machine stirring motor 3102, namely the main machine stirring impeller 3101 is rotated all the time, so that the uniform content of each component of the carbon slurry in the carbon slurry storage tank can be ensured, and the phenomenon of granular material precipitation can not occur.

In this embodiment, the microcomputer controller 4 is disposed at one side of the three-in-one host 3, and includes a touch display screen 41, a start switch 42, a stop switch 43, a control wire arrangement sleeve 44, a work indicator lamp 45 and a fault indicator lamp 46, the start switch 42, the stop switch 43, the work indicator lamp 45 and the fault indicator lamp 46 are disposed on an outer frame of the touch display screen 41, and the control wire arrangement sleeve 44 is disposed at the top of the touch display screen 41 and is used for accommodating a connection wire between the microcomputer controller 4 and the three-in-one host 3; the touch display screen 41 of the microcomputer controller 4 can set the adsorption time, rotation speed, suction force, dehydration time, automatic spray cleaning time of the sizing roller, carbon slurry stirring speed and other common parameters of the three-in-one host 3 adsorption rod 3401. Thereby improving the working efficiency of the preparation device.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete examples, and the explanation of the above examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present description should not be construed as a limitation of the present invention.

Claims (10)

1. The utility model provides a fiber material bonded compound activated carbon stick filter core preparation facilities which characterized in that: comprises a three-in-one host machine for adsorption molding, dehydration and shaping of the composite activated carbon rod and a microcomputer controller for controlling the operation of the three-in-one host machine;

the three-in-one host comprises a carbon slurry storage tank, a host support, a lifting frame, an adsorption forming mechanism and a rolling and shaping mechanism, wherein the carbon slurry storage tank is used for storing composite carbon slurry, the host support is fixed at the top of the carbon slurry storage tank, the lifting frame is arranged between the host support and the carbon slurry storage tank, the adsorption forming mechanism is arranged on the lifting frame, the lifting frame can drive the adsorption forming mechanism to enter the composite carbon slurry of the carbon slurry storage tank to form an activated carbon rod blank, and after the carbon rod blank is formed, the lifting frame drives the activated carbon rod blank to move out of the carbon slurry storage tank;

the adsorption forming mechanism comprises an adsorption rod, an activated carbon rod filter element framework and a driving motor, wherein an axial through hole is formed in the adsorption rod, a plurality of air suction holes are formed in the circumferential side wall of the adsorption rod, the activated carbon rod filter element framework is sleeved outside the adsorption rod, the wall body of the activated carbon rod filter element framework is a meshed net-shaped wall body, a layer of non-woven fabric is wrapped on the periphery of the activated carbon rod filter element framework, an activated carbon rod blank is formed on the activated carbon rod filter element framework, two ends of the adsorption rod are respectively connected with a negative pressure vacuum pump through a negative pressure left air suction pipe and a negative pressure right air suction pipe, the rod body of the adsorption rod is driven to rotate by the driving motor, two ends of the rod body of the adsorption rod are also connected with the lifting frame, and the lifting is controlled by the lifting frame;

the formed active carbon rod blank on the active carbon rod filter element enters the rolling and shaping mechanism after being lifted by the lifting frame, and is rolled and shaped to obtain the formed active carbon rod filter element.

2. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: the lifting frame is a rectangular frame, two lifting cylinders are arranged at the top of the host support, piston rods of the two lifting cylinders penetrate through the host support and are connected with a frame top plate of the lifting frame, guide rail sleeves are respectively arranged on the outer sides of two side plates of the lifting frame, the two guide rail sleeves are respectively arranged on two opposite inner sides of the host support, and one guide rail sleeve is respectively sleeved on the guide rail.

3. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 2, characterized in that: the two sides of the adsorption rod are provided with a left shaping roller and a right shaping roller, the middle part of the rod body of the adsorption rod is provided with a middle shaping roller, the left shaping roller and the adsorption rod are integrally arranged, the middle shaping roller is sleeved outside the adsorption rod, the right shaping roller is rotatably connected to the end part of the adsorption rod, two activated carbon rod filter element frameworks are arranged, one is arranged between the left shaping roller and the middle shaping roller, and the other is arranged between the middle shaping roller and the right shaping roller;

one end of the right shaping roller, which is far away from the adsorption rod, is also provided with a connecting pipe, the connecting pipe is connected with the negative pressure right air suction pipe through a corrugated hose, and the connecting pipe is also connected with the lifting frame;

one side of the adsorption rod, which is provided with the left shaping roller, is also connected with a driving motor driven wheel, the driving motor driven wheel is connected with a driving wheel of a driving motor through a transmission belt, and the driving wheel of the driving motor is connected with a power output end of the driving motor; the driving motor is provided with an axial through hole in the driven wheel, the end part of the driven wheel of the driving motor is rotatably connected with a left air suction pipe joint, the left air suction pipe joint is connected with the negative pressure left air suction pipe through a corrugated hose, and the driving motor is connected with the lifting frame through the driven wheel and the left air suction pipe joint.

4. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: the rolling and shaping mechanism comprises a rolling mechanism base, a rolling shaft base, a rolling mechanism cylinder, a rolling mechanism movable guide rail, an upper shaping rolling shaft, a lower shaping rolling shaft, an upper shaping rolling shaft right rotating arm, a lower shaping rolling shaft right rotating arm, a right tension spring, a right traction spring, an upper shaping rolling shaft left rotating arm, a lower shaping rolling shaft left rotating arm, a left tension spring, a left traction spring and a spray pipe;

the bottom of the rolling mechanism base is fixed on the rear groove wall of the carbon slurry storage groove, the roller base is oppositely arranged on the front side of the rolling mechanism base, the rolling mechanism cylinder is arranged on the rear side wall of the rolling mechanism base, a piston rod of the rolling mechanism cylinder penetrates through the rolling mechanism base to be connected with the roller base, and rolling mechanism movable guide rails are respectively arranged on the rolling mechanism base on two sides of the piston rod of the rolling mechanism cylinder and used for guiding the roller base;

one end of the right rotating arm of the upper shaping rolling shaft is rotatably connected with the top of the right side wall of the rolling shaft base, the other end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with one end of the upper shaping rolling shaft, one end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with the bottom of the right side wall of the rolling shaft base, and the other end of the right rotating arm of the lower shaping rolling shaft is rotatably connected with one end of the lower shaping rolling shaft; a right tension spring which is vertically arranged and a right traction spring which is obliquely arranged are also arranged between the upper shaping rolling shaft right rotating arm and the lower shaping rolling shaft right rotating arm, the fixed position of the bottom of the right traction spring is the same as that of the right tension spring, and the top of the right traction spring is fixed at one end of the upper shaping rolling shaft right rotating arm, which is connected with the right side wall of the rolling shaft base;

one end of the upper shaping roller left rotating arm is rotatably connected with the top of the left side wall of the roller base, the other end of the upper shaping roller left rotating arm is rotatably connected with the other end of the upper shaping roller, one end of the lower shaping roller left rotating arm is rotatably connected with the bottom of the left side wall of the roller base, and the other end of the lower shaping roller left rotating arm is rotatably connected with the other end of the lower shaping roller; a left tension spring which is vertically arranged and a left traction spring which is obliquely arranged are also arranged between the upper shaping rolling shaft left rotating arm and the lower shaping rolling shaft left rotating arm, the fixed position of the bottom of the left traction spring is the same as that of the left tension spring, and the top of the left traction spring is fixed at one end of the upper shaping rolling shaft left rotating arm connected with the left side wall of the rolling shaft base;

the top of the base of the rolling mechanism is provided with a transverse plate towards the front side, and the spray pipe is arranged on the transverse plate and is opposite to the upper shaping roller and the lower shaping roller.

5. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 3, characterized in that: the three-in-one host machine further comprises a primary opening and closing mechanism, the primary opening and closing mechanism comprises a right clamping plate of the adsorption rod, a right supporting plate and a pushing cylinder, the right clamping plate, the right supporting plate and the pushing cylinder are arranged on one side of the adsorption rod, a right clamping plate sleeve and a connecting pipe guide sleeve are sleeved on the connecting pipe, a top plate body of the right clamping plate of the adsorption rod is in sliding connection with a bottom plate of the lifting frame, and the bottom of the right clamping plate of the adsorption rod is fixedly connected with the right clamping plate; the top end of the right supporting plate is fixedly connected with the top plate of the lifting frame, and a bottom plate body of the right supporting plate is sleeved outside the connecting pipe guide sleeve and is fixedly connected with the connecting pipe guide sleeve; the top pushes away the cylinder set up in the crane, the cylinder body that pushes away the cylinder is fixed in on a fixed plate, push away the piston rod of cylinder with adsorb excellent right splint fixed connection, on the curb plate of crane with still be provided with on the right branch fagging and be used for the direction adsorb excellent right splint movable guide of right splint.

6. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 3, characterized in that: the three-in-one main machine further comprises a second-stage opening and closing mechanism, the second-stage opening and closing mechanism comprises an opening and closing frame, an opening and closing cylinder, a hinge upper joint and a hinge lower joint, the opening and closing frame, the opening and closing cylinder, the hinge upper joint and the hinge lower joint are arranged on the other side of the adsorption rod, a left opening and closing frame connecting plate and a right opening and closing frame connecting plate are arranged at the bottom of a bottom plate of the lifting frame, the opening and closing frame comprises an opening and closing frame left plate and an opening and closing frame right plate, the opening and closing frame left plate is arranged on the inner side of the left opening and closing frame connecting plate, the opening and closing frame right plate is arranged on the outer side of the right opening and closing frame connecting plate, the tops of the opening and closing frame left plate and the opening and closing frame right plate are connected with the left opening and closing frame connecting plate and the right opening and closing frame connecting plate through an opening and closing frame rotating shaft, the bottom end of a piston rod of the opening and closing cylinder is connected with the top end of an upper joint of the hinge, the bottom end of the upper joint of the hinge is hinged with the top end of a lower joint of the hinge through a pin shaft, the bottoms of a left plate of the opening and closing frame and a right plate of the opening and closing frame are connected through an opening and closing supporting shaft, and the bottom end of the lower joint of the hinge is connected with the opening and closing supporting shaft; the vertical center line of the upper joint of the hinge is positioned at the rear side of the vertical center line of the lower joint of the hinge; the driving motor is arranged on the outer side of the opening and closing frame right plate, and the driving wheel of the driving motor is arranged on the inner side of the opening and closing frame right plate and is positioned at the top end of the driving motor driven wheel.

7. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: the carbon slurry storage tank is also fixedly provided with a low-level liquid level probe and a high-level liquid level probe, a feed pipe for conveying the composite carbon slurry to the carbon slurry storage tank is also provided with a feed valve, and the low-level liquid level probe, the high-level liquid level probe and the feed valve are electrically connected with the microcomputer controller, so that the control of the liquid level of the composite carbon slurry in the carbon slurry storage tank is realized.

8. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: still be provided with host computer impeller in the charcoal thick liquid hold up tank, host computer impeller is rotatory by host computer agitator motor drive, host computer agitator motor with the microcomputer control ware electricity is connected.

9. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: microcomputer controller set up in one side of trinity host computer for control the operation of whole device, arrange sleeve pipe, work pilot lamp and fault indicator lamp including touch-control display screen, starting switch, stop switch, control wire, starting switch stop switch the work pilot lamp with fault indicator lamp set up in on the touch-control display screen outline, control wire arrange the sleeve pipe set up in touch-control display screen's top is used for accomodating microcomputer controller with connecting wire between the trinity host computer.

10. The device for preparing a fiber material bonded composite activated carbon rod filter element according to claim 1, characterized in that: the device also comprises a composite carbon slurry primary grinding stirrer and a composite carbon slurry secondary stirring barrel; putting the mixture of the activated carbon fiber cloth and water into the primary grinding stirrer of the composite carbon slurry for cutting and grinding to obtain activated carbon fiber cloth slurry, then adding raw materials into the primary grinding stirrer of the composite carbon slurry, and primarily stirring and grinding to obtain composite activated carbon slurry; conveying the composite activated carbon slurry into the composite carbon slurry secondary stirring barrel, adding a proper amount of water, and conveying the composite carbon slurry uniformly stirred by the composite carbon slurry secondary stirring barrel into the carbon slurry storage tank for adsorption molding, dehydration and sizing of the composite activated carbon rod;

still include the power supply cabinet, the power supply cabinet does the trinity host computer with microcomputer control ware provides electric power.

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