CN214270235U - Extruder for removing nano zinc oxide crystal water - Google Patents

Abstract

The utility model discloses a get rid of extruder of nanometer zinc oxide crystal water, including under casing, spacing subassembly, extrusion mechanism, the under casing is vertical rectangle case form of placing, and the under casing bottom is equipped with the open collection box of sliding connection and top surface, and the middle part is equipped with the arc of horizontal placing in the under casing, and the left side limit of arc is articulated through round pin axle and under casing left side wall middle part activity in, and the right side limit of arc is equipped with spacing subassembly, is located the arc top and is equipped with extrusion mechanism in the under casing roof left side. The utility model discloses a cooperation of each subassembly mechanism is used, has solved the current extruder and has got rid of the inconvenient problem of crystal water operation, and whole operation step is simple, has made things convenient for the raw materials after the extrusion of nanometer zinc oxide to collect, improves the efficiency that crystal water got rid of.

Description

Extruder for removing nano zinc oxide crystal water

Technical Field

The utility model relates to a nanometer zinc oxide production technical field especially relates to an get rid of extruder of nanometer zinc oxide crystal water.

Background

The nano zinc oxide, white hexagonal crystal system crystal or spherical particle, the grain diameter is less than 100nm, the average grain diameter is 50nm, has extremely high chemical activity, excellent catalytic activity and photocatalytic activity, and has the functions of infrared ray resistance, ultraviolet radiation resistance and sterilization.

In the process of producing the nano zinc oxide, crystal water is generated and is removed by adopting an extruder, and the existing extruder has the following defects: the operation steps need to be matched with multiple stations for use, so that the nano zinc oxide raw material can be extruded, the extruded raw material is inconvenient to collect, and the labor burden of workers is increased.

Disclosure of Invention

The utility model aims at solving the defects existing in the prior art and providing an extruder for removing the crystal water of nano zinc oxide.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a get rid of extruder of nanometer zinc oxide crystal water, includes under casing, spacing subassembly, extrusion mechanism, the under casing is vertical rectangle boxlike of placing, the bottom is equipped with sliding connection and the open collection box of top surface in the under casing, the middle part is equipped with the arc of horizontal placing in the under casing, the left side limit of arc is through round pin axle and under casing left side wall middle part activity hinge joint, the right side limit of arc is equipped with spacing subassembly, is located the arc top and is equipped with extrusion mechanism on the left of the roof in the under casing.

Preferably, the right flank of collecting the box is equipped with a pair of handle, the rectangle through-hole has been seted up to the right flank bottom of under casing, the bottom surface of under casing is equipped with the T shape slide rail of a pair of horizontal symmetry rigid coupling, four corners in the bottom surface of collecting the box all are equipped with the U-shaped slider, and every the equal slip block of U-shaped slider is on the T shape slide rail that corresponds.

Preferably, the limiting assembly comprises a trapezoidal stop block, an elliptical ring and a T-shaped pin, the trapezoidal stop block is arranged in the middle of the right side wall in the bottom box, the elliptical ring fixedly connected with the right side edge of the arc plate is arranged, the T-shaped pin penetrating in a sliding mode is inserted into the elliptical ring, the bottom end of the T-shaped pin is fixedly connected with the trapezoidal stop block, and a limiting spring is sleeved at the bottom end portion of the T-shaped pin between the elliptical ring and the trapezoidal stop block.

Preferably, set up a plurality of align to grid's extrusion pore on the top surface of arc, the left side edge top that is located the arc is equipped with the row's of running through the rigid coupling row's sediment channel-section steel in the left surface of under casing, is located the below of arc and is equipped with the swash plate of a pair of slant rigid coupling on the both sides inner wall in the under casing, and two the equal slant of swash plate extends the uncovered department of top surface of collecting the box.

Preferably, the extrusion mechanism includes slide cartridge, slide bar, extrusion wheel, articulated jar, roof left side is equipped with the ears seat in the under casing, be equipped with activity articulated slide cartridge in the ears seat, the top is equipped with tension spring in the slide cartridge, the bottom is equipped with the slide bar that slides and run through in the slide cartridge, the top and tension spring's bottom rigid coupling of slide bar, the bottom of slide bar is equipped with the U-shaped support, be equipped with roll connection's extrusion wheel in the U-shaped support, evenly be equipped with a plurality of extrusion lugs on the lateral surface of extrusion wheel, roof right side is equipped with activity articulated jar in the under casing, the articulated rod tip of articulated jar is articulated with the bottom activity of slide cartridge.

Preferably, the top surface right side of under casing is equipped with the toper feeding section of thick bamboo that runs through the rigid coupling, is located toper feeding section of thick bamboo below and is equipped with swing joint's buffering baffle at under casing right side wall top, buffering baffle's bottom surface is equipped with a pair of arc spring, every the bottom of arc spring all with under casing right side wall rigid coupling.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the hinge rod reciprocating expansion of control hinge cylinder, under the cooperation of articulated effect, drive slide bar along the ears seat articulated swing, under tension spring's effect, drive the slide bar along slide bar reciprocating sliding, drive slide bar and extrusion wheel along the reciprocal roll of arc simultaneously, because under the cooperation operation of spacing spring, drive the elliptical ring and carry out small amplitude vibrations along T shape round pin, and then drive the arc and cooperate the extrusion wheel and carry out the vibration operation, made things convenient for and extruded nanometer zinc oxide raw materials;

2. in the utility model, the extruded raw material falls onto the sloping plate along the extrusion pore and slides to the collection box along the sloping plate, and the collection box is pulled by the handle to drive the U-shaped slider to slide transversely along the T-shaped slide rail, so that the collection box slides out of the bottom box along the rectangular through hole, thereby facilitating the collection of the extruded raw material;

to sum up, the utility model discloses a cooperation of each subassembly mechanism is used, has solved the current extruder and has got rid of the inconvenient problem of crystal water operation, and whole operation step is simple, has made things convenient for the raw materials after the extrusion of nanometer zinc oxide to collect, improves the efficiency that crystal water got rid of.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limitation. In the drawings:

fig. 1 is a front view of the present invention;

FIG. 2 is a front sectional view of the present invention;

fig. 3 is a right side view of the present invention;

fig. 4 is an enlarged view of a point a in fig. 2 according to the present invention;

number in the figure: the device comprises a bottom box 1, a conical feeding barrel 11, a collecting box 12, a T-shaped slide rail 13, a U-shaped slide block 14, a handle 15, a rectangular through hole 16, an inclined plate 17, an arc-shaped plate 2, a slag discharge channel steel 21, an elliptical ring 22, a T-shaped pin 23, a trapezoidal stop block 24, a buffer baffle 25, a slide barrel 3, a tension spring 31, a slide rod 32, a U-shaped support 33, an extrusion wheel 34 and a hinged cylinder 35.

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.

Example 1: in order to solve the inconvenient problem of crystal water removal operation of current extruder, provide an extruder of getting rid of nanometer zinc oxide crystal water in this implementation, refer to fig. 1-4, including under casing 1, spacing subassembly, extrusion mechanism, under casing 1 is the vertical rectangle boxlike of placing, the bottom is equipped with sliding connection and the open collection box 12 of top surface in under casing 1, the middle part is equipped with horizontal placing arc 2 in under casing 1, left side limit of arc 2 is articulated through round pin axle and under casing 1 interior left side wall middle part activity, the right side limit of arc 2 is equipped with spacing subassembly, is located arc 2 top and is equipped with extrusion mechanism on the left of the roof in under casing 1.

In the utility model, a pair of handles 15 is arranged on the right side surface of the collecting box 12, a rectangular through hole 16 is arranged at the bottom of the right side surface of the bottom box 1, a pair of T-shaped slide rails 13 which are transversely symmetrically and fixedly connected are arranged on the bottom surface of the bottom box 1, U-shaped sliders 14 are arranged at four corners of the bottom surface of the collecting box 12, and each U-shaped slider 14 is slidably clamped on the corresponding T-shaped slide rail 13; a plurality of extruding fine holes which are uniformly arranged are formed in the top surface of the arc-shaped plate 2, a slag discharging channel steel 21 which penetrates and is fixedly connected is arranged on the left side surface of the bottom box 1 and is positioned above the left side edge of the arc-shaped plate 2, a pair of inclined plates 17 which are obliquely and fixedly connected are arranged on the inner walls of the two sides in the bottom box 1 and are positioned below the arc-shaped plate 2, and the two inclined plates 17 extend obliquely to the open top surface of the collecting box 12; the raw materials after the extrusion drop to the swash plate 17 along the extrusion pore to collect box 12 along swash plate 17 landing, collect box 12 through the pulling of handle 15, drive U-shaped slider 14 along T shape slide rail 13 lateral sliding, make collect box 12 along 16 roll-off under sheds 1 of rectangle through-hole, made things convenient for the raw materials after the extrusion to collect.

In the utility model, the limiting component comprises a trapezoidal stop block 24, an elliptical ring 22 and a T-shaped pin 23, the trapezoidal stop block 24 is arranged in the middle of the right side wall in the bottom box 1, the elliptical ring 22 fixedly connected in an oblique manner is arranged on the right side edge of the arc plate 2, the T-shaped pin 23 penetrating in a sliding manner is inserted in the elliptical ring 22, the bottom end of the T-shaped pin 23 is fixedly connected with the trapezoidal stop block 24, and a limiting spring is sleeved at the bottom end part of the T-shaped pin 23 between the elliptical ring 22 and the trapezoidal stop block 24; because under spacing spring's the cooperation operation, drive elliptical ring 22 and carry out small amplitude vibrations along T shape round pin 23, and then drive arc 2 cooperation extrusion wheel 34 and vibrate the operation, made things convenient for and extruded nanometer zinc oxide raw materials.

In the utility model, the extrusion mechanism comprises a slide cylinder 3, a slide rod 32, an extrusion wheel 34 and a hinged cylinder 35, the left side of the top wall in the bottom box 1 is provided with a double-lug seat, a sliding cylinder 3 which is movably hinged is arranged in the double-lug seat, a tension spring 31 is arranged at the top in the sliding cylinder 3, a sliding rod 32 which penetrates through the sliding cylinder 3 in a sliding manner is arranged at the bottom in the sliding cylinder 3, the top end of the slide bar 32 is fixedly connected with the bottom end of the tension spring 31, the bottom end of the slide bar 32 is provided with a U-shaped bracket 33, an extrusion wheel 34 in rolling connection is arranged in the U-shaped support 33, a plurality of extrusion convex blocks are uniformly arranged on the outer side surface of the extrusion wheel 34, the right side of the top wall in the bottom box 1 is provided with a hinged cylinder 35 in movable hinge joint, the type of the hinged cylinder 35 is LSH-064, the hinged cylinder 35 is electrically connected with an external power supply through a power line, and the end part of a hinged rod of the hinged cylinder 35 is movably hinged with the bottom end of the sliding barrel 3; the reciprocating expansion of the hinge rod of the hinge cylinder 35 is controlled to drive the sliding barrel 3 to perform hinge swing along the double-lug seat, and under the action of the tension spring 31, the sliding rod 32 is driven to slide along the sliding barrel 3 in a reciprocating manner, and meanwhile, the sliding rod 32 and the extrusion wheel 34 are driven to roll along the arc-shaped plate 2 in a reciprocating manner.

In the utility model, a conical feeding cylinder 11 which is fixedly connected in a penetrating way is arranged on the right side of the top surface of the bottom box 1, a movably hinged buffer baffle 25 is arranged on the top of the right side wall in the bottom box 1 and positioned below the conical feeding cylinder 11, a pair of arc springs are arranged on the bottom surface of the buffer baffle 25, and the bottom end of each arc spring is fixedly connected with the right side wall in the bottom box 1; the raw materials drop to the buffer baffle 25, drive the arc spring compression deformation, and the raw materials slide to the arc 2 along the buffer baffle 25.

Example 2: the utility model discloses when specifically using, its operating procedure is as follows:

firstly, pouring a proper amount of raw materials into a bottom box 1 through a conical feeding cylinder 11, enabling the raw materials to fall onto a buffer baffle 25, driving an arc spring to compress and deform, and enabling the raw materials to slide onto an arc plate 2 along the buffer baffle 25;

step two, controlling the hinge rod of the hinge cylinder 35 to extend and retract in a reciprocating manner, driving the sliding barrel 3 to swing in a hinged manner along the two lug seats under the cooperation of the hinge action, driving the sliding rod 32 to slide in a reciprocating manner along the sliding barrel 3 under the action of the tension spring 31, and driving the sliding rod 32 and the extrusion wheel 34 to roll in a reciprocating manner along the arc-shaped plate 2;

thirdly, under the matching operation of the limiting spring, the elliptical ring 22 is driven to vibrate in a small amplitude along the T-shaped pin 23, the arc-shaped plate 2 is further driven to vibrate along the extrusion wheel 34, raw materials fall onto the inclined plate 17 along the extrusion pore and slide onto the collection box 12 along the inclined plate 17, and impurity residues which do not meet requirements are on the top surface of the arc-shaped plate 2 and are discharged out of the bottom box 1 along the slag discharge channel steel 21;

step four, after the collection box 12 finishes collecting the raw materials, the collection box 12 is pulled through the handle 15 to drive the U-shaped sliding block 14 to transversely slide along the T-shaped sliding rail 13, so that the collection box 12 slides out of the bottom box 1 along the rectangular through hole 16, and the extruded raw materials are conveniently collected.

The utility model discloses a cooperation of each subassembly mechanism is used, has solved the current extruder and has got rid of the inconvenient problem of crystal water operation, and whole operation step is simple, has made things convenient for the raw materials after the extrusion of nanometer zinc oxide to collect, improves the efficiency that crystal water got rid of.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a get rid of extruder of nanometer zinc oxide crystal water, includes under casing (1), spacing subassembly, extrusion mechanism, its characterized in that: the utility model discloses a set of box-type solar cell module, including end box (1), the bottom is equipped with open collection box (12) of sliding connection and top surface in end box (1), the middle part is equipped with horizontal arc (2) of placing in end box (1), the left side limit of arc (2) is articulated through round pin axle and end box (1) interior left side wall middle part activity, the right side limit of arc (2) is equipped with spacing subassembly, is located arc (2) top roof left side in end box (1) and is equipped with extrusion mechanism.

2. The extruder for removing the crystal water of the nano zinc oxide, according to claim 1, is characterized in that: the right flank of collecting box (12) is equipped with a pair of handle (15), rectangle through-hole (16) have been seted up to the right flank bottom of under casing (1), the bottom surface of under casing (1) is equipped with T shape slide rail (13) of a pair of horizontal symmetry rigid coupling, four corners in the bottom surface of collecting box (12) all are equipped with U-shaped slider (14), and every U-shaped slider (14) all slide the block on T shape slide rail (13) that correspond.

3. The extruder for removing the crystal water of the nano zinc oxide, according to claim 1, is characterized in that: spacing subassembly includes trapezoidal dog (24), elliptical ring (22), T shape round pin (23), right side wall middle part is equipped with trapezoidal dog (24) in bottom case (1), the right flank of arc (2) is equipped with elliptical ring (22) of slant rigid coupling, elliptical ring (22) interpolation is equipped with the T shape round pin (23) that the slip runs through, just the bottom and trapezoidal dog (24) rigid coupling of T shape round pin (23), and the bottom portion cover that is located between elliptical ring (22) and trapezoidal dog (24) and is equipped with spacing spring at T shape round pin (23).

4. The extruder for removing the crystal water of the nano zinc oxide, according to claim 1, is characterized in that: offer a plurality of align to grid's extrusion pore on the top surface of arc (2), the left side edge side that is located arc (2) is equipped with row's sediment channel-section steel (21) that runs through the rigid coupling in the left surface of under casing (1), and the below that is located arc (2) is equipped with swash plate (17) of a pair of slant rigid coupling on both sides inner wall in under casing (1), and two swash plate (17) are all to extending to the uncovered department of top surface of collecting box (12) to one side.

5. The extruder for removing the crystal water of the nano zinc oxide, according to claim 1, is characterized in that: the extrusion mechanism comprises a sliding cylinder (3), a sliding rod (32), an extrusion wheel (34) and a hinged cylinder (35), the left side of the inner top wall of the bottom box (1) is provided with a double-lug seat, a sliding cylinder (3) which is movably hinged is arranged in the double-lug seat, a tension spring (31) is arranged at the top in the sliding cylinder (3), a sliding rod (32) which is penetrated in a sliding manner is arranged at the bottom in the sliding cylinder (3), the top end of the sliding rod (32) is fixedly connected with the bottom end of the tension spring (31), the bottom end of the sliding rod (32) is provided with a U-shaped bracket (33), an extrusion wheel (34) in rolling connection is arranged in the U-shaped support (33), a plurality of extrusion convex blocks are uniformly arranged on the outer side surface of the extrusion wheel (34), a hinged cylinder (35) which is movably hinged is arranged on the right side of the inner top wall of the bottom box (1), the end part of a hinged rod of the hinged cylinder (35) is movably hinged with the bottom end of the sliding barrel (3).

6. The extruder for removing the crystal water of the nano zinc oxide, according to claim 1, is characterized in that: the top surface right side of under casing (1) is equipped with a toper feeding section of thick bamboo (11) that runs through the rigid coupling, is located toper feeding section of thick bamboo (11) below and is equipped with activity articulated buffer stop (25) in under casing (1) right side wall top, the bottom surface of buffer stop (25) is equipped with a pair of bow spring, every the bottom of bow spring all with under casing (1) interior right side wall rigid coupling.

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