CN112176428A - Jade fiber blending mixer - Google Patents

Abstract

The invention discloses a jade fiber blending mixer, which is structurally provided with a stabilizing seat, a control platform, a mixer and a top cover, wherein water vapor penetrates through a penetration path and then is attached to a guide plate, a centrifugal ball generates centrifugal force to enable the centrifugal ball to continuously slide and press the rear edge end of the guide plate, a curved guide plate is pressed to curve, so that the whole guide plate tends to be in a straight inclined state, the activity force of the guide plate in pressing has certain activity force on the attached water, so that the attached water can more easily slide and flow to the rear end of the guide plate to be discharged, when a water absorption block is not pressed by the centrifugal ball, hot gas enters, the water absorption block expands and props against the inner side edge of a telescopic port, the attached water vapor is absorbed by the water absorption block through the telescopic port, so that the accumulated water at the bottom of a plate frame is less, the dripping condition is avoided, when the centrifugal ball slides and presses the upper part of the plate frame, the whole curve, an extrusion rod extrudes the water absorbed by the water absorption block, the, the water flow exerts the slipstream force to the rotating rod, so that the rotating rod continuously rotates, and water is drained more quickly.

Description

Jade fiber blending mixer

Technical Field

The invention belongs to the field of jade fiber blending equipment, and particularly relates to a jade fiber blending mixer.

Background

The jade fiber blended fabric is formed by blending and spinning jade fibers and natural fibers, the blended fabric usually contains two or more different fiber materials, and the advantages and the disadvantages of the different fiber materials are utilized to make up for the deficiencies of the different fiber materials, so that the fabric becomes an excellent fabric.

Based on the discovery of the inventor, the existing jade fiber blending mixer has the following defects:

the preparation of jade fibre needs to fuse likepowder jade material and spinning fuse-element earlier one step in the blender, carries out spinning processing to the polymer then, because the spinning fuse-element temperature reaches the fusing point when being the fluid state, both need just can carry out mixing work under the high temperature condition, and at the mixing process, gas in the mixing courage can become steam, attaches to on the top cap internal face, accumulates easily and forms the water droplet, during the drippage falls into the mixture, causes the proportion volume of jade fibre blending to receive the influence.

Therefore, a jade fiber blending mixer needs to be provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a jade fiber blending mixer to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a jade fibre blending mixes machine, its structure is equipped with firm seat, controls the platform, mixes machine, top cap, the bottom welding of controlling the platform is in firm seat one side upper end position, it is located firm seat inboard position to mix the machine, the top cap block is connected at the top position that mixes the machine, it is located the outside end that mixes the machine to control the platform.

The mixing machine is provided with an outer container, an inner container, a driving shaft, a stirring paddle and a water guide plate block, wherein the inner container is connected to the inner side of the outer container in a clearance fit manner, the driving shaft penetrates through the inner container in a movable manner, the stirring paddle is movably connected with the driving shaft in a movable manner and is movably matched with the driving shaft, the water guide plate block is positioned at the upper end of the inner container, and the driving shaft penetrates through the center of the water guide plate block in a movable manner.

As a further improvement of the present invention, the water guide plate block is provided with a plate frame body, a movable cavity, a bottom plate, a transparent diameter and an outlet, the movable cavity is arranged inside the plate frame body, the bottom plate and the plate frame body are in an integrated structure and are arranged at the bottom position of the plate frame body, the transparent diameter and the bottom plate are in an integrated structure, the outlet and the plate frame body are integrated and are arranged at the peripheral position of the plate frame body, the movable cavity is in a ring-shaped structure, the outlet is an empty peripheral ring, the bottom plate is a circular plate block, and ten rows of transparent diameters are arranged on the bottom plate and are in a state of being wide at the top and narrow at the bottom.

As a further improvement of the invention, the movable cavity is provided with a traction rod, a centrifugal ball, a connecting block, a guide plate and a clamping gap, one end of the traction rod is connected with the centrifugal ball and movably matched with the centrifugal ball, the connecting block is connected with the front end of the guide plate, the connecting block is embedded and installed in the clamping gap, the centrifugal ball is connected above the guide plate in a clearance fit manner and movably matched with the guide plate, the traction rod is made of solid gel and is in a long rod state, the centrifugal ball is a ball body made of alloy steel, and the guide plate is in a micro-arc shape and is distributed in a circular ring shape.

As a further improvement of the invention, the guide plate is provided with a hard front end, a curved guide plate and a linking guide block, the hard front end and the guide plate are of an integrated structure and are positioned at the front end position in the guide plate, the linking guide block is embedded and installed in the guide plate, the curved guide plate is connected to the rear end position of the hard front end, the hard front end is made of resin materials and has better hardness, the linking guide block is made of adhesive tape materials and has certain toughness, and the curved guide plate has certain flexibility and can perform curved movement.

As a further improvement of the invention, the curved guide plate is provided with a plate frame, a telescopic port, a hollow cavity, a water absorption block, a squeezing rod and a convex block, the telescopic port and the plate frame are of an integrated structure and are arranged at the bottom end of the plate frame, the hollow cavity is positioned at the inner side of the plate frame, the water absorption block is embedded and connected in the hollow cavity, the water absorption block is in clearance fit connection and movable fit with the telescopic port, the squeezing rods are connected on the upper and lower side walls of the hollow cavity in a sliding way, are positioned between the water absorbing blocks and are in movable fit with the water absorbing blocks, the fast convex embedded part is fixedly connected at the rear end of the bottom of the plate frame, the telescopic port is made of rubber strip edge material with certain toughness, the water absorption block is provided with four rows of holes and is made of water absorption cotton which is easy to expand when being heated, four groups of extrusion rods are arranged and are in an inclined rod state, and the plate frame is in an arc shape when not pressed.

As a further improvement of the invention, the male block is provided with an inner connecting block, a rotating bottom and a rotating rod, the rotating bottom is connected with the periphery of the inner connecting block, the rotating rod is movably connected with the rotating bottom, the rotating rod is movably arranged on the periphery of the inner connecting block, the inner connecting block is a trapezoidal convex block, and eight rotating rods are arranged on the periphery of the inner connecting block.

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

1. because the water vapor floats upwards, penetrates through the penetrating channel and then is attached to the guide plate, the centrifugal ball rotates under the traction of the traction rod to generate centrifugal force to enable the centrifugal ball to continuously slide and press the rear edge end of the guide plate, the hard front end stabilizes the integral front end supporting point, the curved guide plate is pressed to curve, the curved guide plate is pressed downwards to do arc movement, the guide plate integrally tends to a straight-inclined state, the moving force of the guide plate during pressing has certain active force on the attached water, the guide plate can more easily slide to the rear end of the guide plate and then is discharged from the guide plate.

2. When the water absorption block is not pressed by the centrifugal ball in a sliding manner, the telescopic port is stretched due to the pulling force, hot gas enters the water absorption block, the water absorption block expands and abuts against the inner side edge of the telescopic port, attached water vapor is absorbed by the water absorption block through the telescopic port, accumulated water at the bottom of the plate frame is less, the dripping condition is avoided, when the centrifugal ball slides over the upper part of the plate frame, the centrifugal ball is bent integrally, the water absorbed by the water absorption block is extruded by the extrusion rod, and when the plate frame is pressed to move downwards and bent, the integral part tends to be in a straight oblique shape from the arc shape, so that the accumulated water slides, when the centrifugal ball flows to the rear end, the water flow applies sliding force to the rotary rod, the rotary rod rotates continuously, the rotary rod and the water flow out quickly due to the interaction of.

Drawings

FIG. 1 is a schematic structural diagram of a jade fiber blending mixer of the present invention.

FIG. 2 is a schematic diagram of an internal front view of a mixer according to the present invention.

Fig. 3 is a schematic view of an interior front view of a water guide plate block according to the present invention.

Fig. 4 is a schematic top view of the interior of a water guide plate block according to the present invention.

Fig. 5 is a schematic view of an interior elevation structure of a movable chamber according to the present invention.

Fig. 6 is a schematic view of an internal front view structure of a baffle according to the present invention.

FIG. 7 is a schematic view of an interior elevation structure of a curved guide plate according to the present invention.

FIG. 8 is a schematic diagram of a top view of an inner portion of a cam according to the present invention.

In the figure: the device comprises a stabilizing seat-1, a console-2, a mixer-3, a top cover-4, an outer container-31, an inner container-32, a driving shaft-33, a stirring blade-34, a water guide plate-35, a plate frame-351, a movable cavity-352, a bottom plate-353, a diameter-354, an outflow port-355, a pull rod-521, a centrifugal ball-522, a connecting block-523, a guide plate-524, a clamping gap-525, a hard front end-241, a curved guide plate-242, a connecting force guide block-243, a plate frame-421, a telescopic port-422, a hollow diameter cavity-423, a water absorption block-424, an extrusion rod-425, a convex block-426, an internal connecting block-261, a rotary bottom-262 and a rotary rod-263.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a jade fiber blending mixer which is structurally provided with a stabilizing base 1, a control platform 2, a mixer 3 and a top cover 4, wherein the bottom end of the control platform 2 is welded at the upper end of one side of the stabilizing base 1, the mixer 3 is positioned at the inner side position of the stabilizing base 1, the top cover 4 is connected to the top position of the mixer 3 in a clamping mode, and the control platform 2 is positioned at the outer side end of the mixer 3.

The mixing machine 3 is provided with anouter container 31, aninner container 32, adriving shaft 33, astirring paddle 34 and a waterguide plate block 35, theinner container 32 is connected to the inner side of theouter container 31 in a clearance fit mode, thedriving shaft 33 penetrates through theinner container 32 in a movable mode, thestirring paddle 34 is movably connected with thedriving shaft 33 in a movable mode and is movably matched with thedriving shaft 33, the waterguide plate block 35 is located at the upper end position of the inner side of theinner container 32, and thedriving shaft 33 penetrates through the center of the waterguide plate block 35 and is movably matched.

The waterguide plate block 35 is provided with aplate frame body 351, amovable cavity 352, abottom plate 353, atransparent path 354 and anoutlet 355, themovable cavity 352 is arranged inside theplate frame body 351, thebottom plate 353 and theplate frame body 351 are in an integrated structure and are arranged at the bottom position of theplate frame body 351, thetransparent path 354 and thebottom plate 353 are in an integrated structure, theoutlet 355 and theplate frame body 351 are in an integrated structure and are arranged at the peripheral position of theplate frame body 351, themovable cavity 352 is in a ring-shaped structure, theoutlet 355 is an empty peripheral ring, thebottom plate 353 is a circular plate block, thetransparent path 354 is provided with ten rows on thebottom plate 353, is in a state of being wide at the top and narrow at the bottom, is convenient for water vapor floating upwards to enter themovable cavity 352 from the lower narrow opening, is condensed in the inner part of the movable cavity and.

Wherein, themovable cavity 352 is provided with adrawbar 521, acentrifugal ball 522, a connectingblock 523, abaffle 524 and aclamping gap 525, one end of thedrawbar 521 is connected with thecentrifugal ball 522 and is movably matched, the connectingblock 523 is connected with the front end of thebaffle 524, the connectingblock 523 is embedded in theclamping gap 525, thecentrifugal ball 522 is connected above thebaffle 524 in a clearance fit manner and is movably matched, thedrawbar 521 is made of solid gel material and is in a long rod state, thecentrifugal ball 522 is a ball made of alloy steel material, thebaffle 524 is in a micro-arc shape and is distributed in a ring shape, thecentrifugal ball 522 can have telescopic displacement change under the traction of thedrawbar 521, and can have an outer limit distance to thecentrifugal ball 522 due to the small toughness of thedrawbar 521, thecentrifugal ball 522 has a certain weight, generates centrifugal force during the rotation process, and applies pressure to thebaffle 524 below in a rotating manner, causing thedeflector 524 to undulate.

Wherein,guide plate 524 is equipped withhard front end 241,crooked baffle 242, links up and leadspower piece 243,hard front end 241 andguide plate 524 be the integral structure and be locatedguide plate 524 middle front position, it installs insideguide plate 524 to link uppower piece 243 embedding,crooked baffle 242 is connected in the rear end position ofhard front end 241,hard front end 241 is the resin material, has better hardness, it leadspower piece 243 to link up the material for the adhesive tape, has certain toughness,crooked baffle 242 has certain compliance, andcrooked baffle 242 receives the pressure and can do the bending activity, under linking effect of joiningpower piece 243 is supplementary, when firmly whole bending degree, leads the power to the rear end, makes its bending that is convenient for bigger degree.

The specific use mode and function of the embodiment are as follows: a person puts jade powder materials and spinning melt into theinner container 32, controls the console 2, so that the drivingshaft 33 drives thestirring paddle 34 to mix and stir in theinner container 32, because theinner container 32 needs to be in a high-temperature environment, the air in the inner container is easy to float upwards through water vapor under a high-temperature condition, enters themovable cavity 352 through thethrough diameter 354, is attached to theguide plate 524, thecentrifugal ball 522 rotates under the traction of thetraction rod 521 to generate centrifugal force to enable the centrifugal force to continuously slide and press the rear edge end of theguide plate 524, thehard front end 241 stabilizes the supporting point of the integral front end, meanwhile, under the assistance of the guiding force of the connectingguide block 243, thebending guide plate 242 is not limited to be pressed to bend, thebending guide plate 242 is pressed downwards to do arc movement, so that theguide plate 524 integrally tends to be in a straight and oblique state, the moving force when the guide plate is pressed has certain moving force on the attached water, and enables theguide plate 524 to more easily slide and flow to the rear end of the guide, and then out of thedeflector 524.

Example 2:

as shown in fig. 7 to 8:

wherein thecurved guide plate 242 is provided with aplate frame 421, atelescopic port 422, ahollow cavity 423, awater absorption block 424, asqueezing rod 425 and aconvex block 426, thetelescopic port 422 and theplate frame 421 are of an integrated structure and are arranged at the bottom end of theplate frame 421, thehollow cavity 423 is arranged at the inner side of theplate frame 421, thewater absorption block 424 is embedded and connected in thehollow cavity 423, thewater absorption block 424 and thetelescopic port 422 are in clearance fit and movable fit, thesqueezing rod 425 is connected on the upper and lower side walls of thehollow cavity 423 in a sliding manner, thesqueezing rod 425 is arranged between thewater absorption blocks 424 and is movably fit, theconvex block 426 is fixedly connected at the rear end of the bottom of theplate frame 421, thetelescopic port 422 is made of a rubber strip material with certain toughness and is provided with a hole, thewater absorption block 424 is provided with four rows and is made of a water absorption cotton material which is easy to expand when exposed to heat, thesqueezing rod 425 is provided with four groups and is in an inclined, when theplate frame 421 is not pressed, the plate frame is in an arc shape, the lower end of the plate frame is provided with a larger stretching opening, water vapor attached to the lower bottom end penetrates through the holes of thetelescopic ports 422 and is adsorbed by thewater absorption block 424, when the plate frame is pressed, the arc shape tends to be in a straight inclined state, theextrusion rod 425 inclines along with the bending force in thehollow cavity 423 to extrude thewater absorption block 424, so that the water absorbed by thewater absorption block 424 is extruded out and is discharged through thehollow cavity 423, and the water at the outside bottom slides to the side wall along with the straight inclination, so that the drainage is facilitated.

Themale block 426 is provided with aninner connection block 261, arotation base 262 and arotation rod 263, therotation base 262 is connected with the periphery of theinner connection block 261, therotation rod 263 is movably connected with therotation base 262, therotation rod 263 is movably arranged on the periphery of theinner connection block 261, theinner connection block 261 is a trapezoidal protruding block, eightrotation rods 263 are arranged on the periphery of theinner connection block 261, therotation rods 263 can rotate, water which flows to the rear end in a sliding mode generates a flow rotation force to therotation rods 263, therotation rods 263 continuously rotate, an auxiliary flow driving effect is achieved, and accumulated water drops can be conveniently and quickly drained out.

The specific use mode and function of the embodiment are as follows: when thewater absorption block 424 is not under the sliding pressure of thecentrifugal ball 522, theplate frame 421 is in an arc shape as a whole, theexpansion port 422 at the lower end of the plate frame is extended by pulling force, the self hollow hole of the water absorption block causes hot air to enter, thewater absorption block 424 expands to abut against the inner side edge of theexpansion port 422, the attached water vapor is absorbed by thewater absorption block 424 through theexpansion port 422, the accumulated water at the bottom of theplate frame 421 is less, the dripping situation is avoided, when thecentrifugal ball 522 slides over theplate frame 421, the whole bending changes, the bending force causes theextrusion rod 425 to have displacement change in thehollow cavity 423, thewater absorption block 424 is extruded, the water absorbed by thewater absorption block 424 is extruded and then flows out from thehollow cavity 423, theconvex block 426 plays a supporting role in the lower part of theplate frame 421, when theplate frame 421 is pressed to move downwards and bend, the whole tends to a straight oblique shape from the arc shape, the water flow is convenient for the sliding flow of the accumulated water flow, when the water flow flows to the rear end, the water flow exerts the, the water is continuously rotated and the two interact with each other, so that the water is drained out more quickly.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a jade fibre blending mixes machine, its structure is equipped with firm seat (1), controls platform (2), mixes machine (3), top cap (4), the bottom welding of controlling platform (2) is in firm seat (1) one side upper end position, mix machine (3) and be located the inboard position of firm seat (1), top cap (4) block is connected in the top position of mixing machine (3), control platform (2) and be located the outside end that mixes machine (3), its characterized in that:

mix machine (3) and be equipped with outer courage (31), inner bag (32), drive shaft (33), stirring paddle leaf (34), water guide plate piece (35), inner bag (32) clearance fit connects in the inboard of outer courage (31), the activity is run through inside inner bag (32) in drive shaft (33), stirring paddle leaf (34) and drive shaft (33) swing joint and clearance fit, water guide plate piece (35) are located inner bag (32) inboard upper end position, drive shaft (33) run through in water guide plate piece (35) center and clearance fit.

2. The jade fiber blending mixer of claim 1, wherein: the water guide plate block (35) is provided with a plate frame body (351), a movable cavity (352), a bottom plate (353), a penetrating diameter (354) and an outlet (355), the movable cavity (352) is arranged inside the plate frame body (351), the bottom plate (353) and the plate frame body (351) are of an integrated structure and are arranged at the bottom of the plate frame body (351), the penetrating diameter (354) and the bottom plate (353) are of an integrated structure, and the outlet (355) and the plate frame body (351) are of an integrated structure and are arranged at the peripheral position of the plate frame body (351).

3. The jade fiber blending mixer of claim 2, wherein: the movable cavity (352) is provided with a draw bar (521), a centrifugal ball (522), a connecting block (523), a guide plate (524) and a clamping gap (525), one end of the draw bar (521) is connected with the centrifugal ball (522) and is in movable fit, the connecting block (523) is connected with the front end of the guide plate (524), the connecting block (523) is embedded in the clamping gap (525), and the centrifugal ball (522) is in clearance fit and is connected above the guide plate (524) and is in movable fit.

4. The jade fiber blending mixer of claim 3, wherein: the guide plate (524) is provided with a hard front end (241), a curved guide plate (242) and a linking force guide block (243), the hard front end (241) and the guide plate (524) are of an integrated structure and are located at the front end of the guide plate (524), the linking force guide block (243) is embedded and installed inside the guide plate (524), and the curved guide plate (242) is connected at the rear end of the hard front end (241).

5. The jade fiber blending mixer of claim 4, wherein: it is equipped with board frame (421), flexible port (422), empty footpath chamber (423), water absorption piece (424), crowded pole (425), protruding fast (426) to warp baffle (242), flexible port (422) and board frame (421) are integrated structure and establish the bottom end position at board frame (421), empty footpath chamber (423) is located board frame (421) inboardly, water absorption piece (424) embedding is connected in empty footpath chamber (423), water absorption piece (424) and flexible port (422) clearance fit are connected and clearance fit, crowded pole (425) sliding connection is on the upper and lower limit wall in empty footpath chamber (423), crowded pole (425) are located between water absorption piece (424) and clearance fit, protruding fast (426) are inlayed the bottom rear end position of connecting in board frame (421).

6. The jade fiber blending mixer of claim 5, wherein: protruding fast (426) are equipped with interior joint block (261), the end of turning (262), bull stick (263), the end of turning (262) is connected with interior joint block (261) periphery, bull stick (263) with turn end (262) swing joint, bull stick (263) activity is in interior joint block (261) periphery.

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