CN216925085U - Algae drying and dewatering equipment for water pollution prevention and control service - Google Patents

Abstract

The utility model relates to the field of dehydration equipment, in particular to algae drying and dehydration equipment for water pollution prevention service, which comprises a feed inlet arranged on a dehydration area; a support is installed at the bottom end of the dehydration area, a feed opening is arranged above the feed opening, and a filter screen piece is horizontally arranged in the feed opening; a disassembly assembly is arranged between the feed port and the filter screen piece and comprises assembly blocks, cavity insertion rods and positioning blocks, the assembly blocks are arranged on two sides of the filter screen piece, and the assembly blocks are clamped in grooves matched with the bottom end of the inner wall of the feed port; both sides of the lower part inside the filter screen piece are horizontally provided with transverse openings, and the cavity inserted bar is movably arranged inside the matched transverse openings; through the design of dismouting subassembly to when the staff separates between with feed inlet and the filter screen spare, realized the convenience of dismouting, can clear up and change the operation such as the feed inlet after using for a long time simultaneously.

Description

Algae drying and dewatering equipment for water pollution prevention and control service

Technical Field

The utility model relates to the field of dehydration equipment, in particular to algae drying and dehydration equipment for water pollution prevention service.

Background

Blue algae belongs to one kind of algae, and during the growth process, algae toxin is secreted, which has harmful effect on the physiological metabolism of fishes, even causes fish diseases in severe cases, and has great harm to water quality.

In the water pollution prevention and control service, blue algae belong to organisms which can harm a water system, but if the blue algae are fermented and then used in drying and dewatering integrated equipment, the blue algae can be changed into valuable bio-organic fertilizer, the organic fertilizer is used in places at present, and the nutritive value is high.

The prior algae drying and dewatering equipment for water pollution prevention service generally adopts a filter screen piece to perform selection operation along with materials in the using process, but the filter screen piece cannot be removed, replaced and the like in the long-term using process, so that the subsequent using effect of the equipment is influenced; therefore, the algae drying and dehydrating device for the water pollution prevention service is provided aiming at the problems.

SUMMERY OF THE UTILITY MODEL

In order to make up for the defects of the prior art and solve the problem that the filter element is not convenient to assemble and disassemble by the existing algae drying and dehydrating equipment for the water pollution prevention service, the utility model provides the algae drying and dehydrating equipment for the water pollution prevention service.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the algae drying and dehydrating device for the water pollution prevention service comprises a feeding hole, a drying area and a dehydrating area, wherein the feeding hole is formed in the dehydrating area; a support is installed at the bottom end of the dehydration area, a feed opening is arranged above the feed opening, and a filter screen piece is horizontally arranged in the feed opening;

a disassembly assembly is arranged between the feed port and the filter screen piece and comprises assembly blocks, cavity insertion rods and positioning blocks, the assembly blocks are arranged on two sides of the filter screen piece, and the assembly blocks are clamped in grooves matched with the bottom end of the inner wall of the feed port; both sides of the lower part inside the filter screen piece are horizontally provided with transverse openings, and the cavity inserted bar is movably arranged inside the matched transverse openings; the other end of the cavity insert rod is inserted into a groove formed in the side edge of the assembling block and matched with the groove, a moving rod is movably mounted in the cavity insert rod groove, the positioning block penetrates through the cavity insert rod and is mounted on the upper surface of the moving rod, and the other end of the positioning block is inserted into a groove formed in the assembling block and matched with the groove; spacing springs are arranged in the moving rod and the cavity insert rod groove, and through the design of the dismounting assembly, when workers separate the feed inlet from the filter screen piece, the dismounting convenience is realized.

Preferably, the cavity inserted bar inslot is vertical installs the slide bar, sliding connection has the nested piece on the slide bar, and the other end fixed mounting of nested piece can improve the stability of structures such as carriage release lever in the displacement process at the lateral wall of carriage release lever.

Preferably, the positioning block is designed in an arc shape, and the moving rod is designed in an L shape, so that the convenience of operation is improved.

Preferably, a stabilizing assembly is arranged between the feed opening and the feed opening, the stabilizing assembly comprises a U-shaped stabilizing frame body, a compression spring and a limiting slide rail, the U-shaped stabilizing frame body is movably sleeved on two sides of the joint of the feed opening and the feed opening, the front ends and the rear ends of the two groups of U-shaped stabilizing frame bodies are both provided with a movable notch and a movable rod piece, the movable rod pieces are horizontally and movably arranged in the two groups of movable notches, the limiting slide rail is connected with a limiting slide block in a sliding manner, and the other end of the limiting slide block is arranged on the matched movable rod piece; the movable rod piece is characterized in that inner notches are formed in two sides of the movable rod piece, the compression springs are arranged on the inner notches and the inner wall of the movable notch, and through the design of the stabilizing assembly, in the blanking process, the phenomenon of material omission is avoided.

Preferably, the inner surface of the U-shaped stable frame is glued with the non-slip mat, and the non-slip mat is made of rubber, so that the friction force of the contact surface can be increased.

Preferably, the inner wall of the movable notch is glued with a cushion body, and the cushion body and the movable rod piece are in a mutually-jointed state, so that the acting force of the cushion body and the movable rod piece can be buffered.

The utility model has the advantages that:

1. the movable rod is pressed downwards, so that the movable rod moves in the cavity insertion rod groove, the positioning block is driven to move in the same direction along with the movable rod, the limiting spring is extruded, the positioning block is separated from a locking state in the assembly block groove and then moves to the inside of the cavity insertion rod, the cavity insertion rod is in a movable state at the moment, the integral structure of the cavity insertion rod is moved to one end far away from the assembly block and is moved out of the transverse opening groove, and then the insertion state in the assembly block groove is separated from the assembly block groove, through the design of the dismounting assembly, when workers separate the feed port from the filter screen piece, convenience in dismounting is realized, and meanwhile, the operations such as cleaning and replacing the feed port after long-term use can be performed;

2. through being provided with the firm framework of U-shaped at feed inlet and feed opening butt joint position, can fix its junction, the firm framework of U-shaped through holding both sides setting, then move to the one end of keeping away from feed inlet and feed opening, because spacing slider sliding connection is in the inside of spacing slide rail, can drive spacing slider and move about inside the spacing slide rail, because formula structural design as an organic whole between spacing slider and the movable rod piece, and then at the in-process that spacing slider removed, can drive the movable rod piece and move about in the inside of activity notch, thereby tensile to compression spring, design through firm subassembly, at the in-process of unloading, in order to avoid producing the phenomenon that the material was omitted, can improve the holistic result of use of device simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art 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 inventive exercise.

FIG. 1 is a perspective view of a first embodiment;

FIG. 2 is a schematic cross-sectional front view illustrating a structure of the first embodiment;

FIG. 3 is a schematic top sectional view of a U-shaped frame according to an embodiment;

FIG. 4 is an enlarged schematic view of a portion A of FIG. 2 according to an embodiment;

FIG. 5 is an enlarged schematic view of a portion B of FIG. 3 according to an embodiment;

FIG. 6 is an enlarged view of a portion C of FIG. 4 according to an embodiment;

fig. 7 is a schematic partial sectional view illustrating a second embodiment of the present invention.

In the figure: 1. a dewatering zone; 101. a support; 102. a protective bottom cover; 2. a feed inlet; 3. a filter mesh element; 4. a feeding port; 5. a U-shaped stabilizing frame; 501. a non-slip mat; 502. a movable notch; 503. a movable rod member; 504. an inner recess; 505. a compression spring; 506. a limiting slide rail; 507. a limiting slide block; 508. a cushion pad body; 6. assembling the block; 601. a transverse port; 602. a cavity insert rod; 603. a travel bar; 604. a limiting spring; 605. positioning blocks; 606. a slide bar; 607. and (5) sleeving blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 6, an algae drying and dehydrating apparatus for water pollution prevention and treatment service includes a feed port 2 provided on a dehydrating zone 1; the bottom end of the dehydration area 1 is provided with a bracket 101, a feed opening 4 is arranged above the feed opening 2, and a filter screen member 3 is horizontally arranged in the feed opening 2;

a dismounting assembly is arranged between the feed port 2 and the filter screen element 3 and comprises an assembly block 6, a cavity insertion rod 602 and a positioning block 605, the assembly block 6 is arranged on two sides of the filter screen element 3, and the assembly block 6 is clamped in a groove matched with the bottom end of the inner wall of the feed port 2; both sides of the lower part inside the filter screen element 3 are horizontally provided with transverse openings 601, and the cavity inserted bar 602 is movably arranged inside the matched transverse openings 601; the other end of the cavity insertion rod 602 is inserted into a groove arranged on the side of the assembling block 6 and matched with the groove, a moving rod 603 is movably arranged in the groove of the cavity insertion rod 602, the positioning block 605 penetrates through the cavity insertion rod 602 and is arranged on the upper surface of the moving rod 603, and the other end of the positioning block 605 is inserted into a groove arranged in the assembling block 6 and matched with the groove; a limit spring 604 is arranged in the groove of the moving rod 603 and the cavity insert rod 602; when the algae dewatering device works, firstly, the deleting work is needed, a large amount of algae are guided in from the feed inlet 2, the guided algae can be screened through the design of the filter screen piece 3, unqualified and overlarge algae are retained above the filter screen piece 3, qualified algae flow to the inside of the dewatering area 1 from the inside of a hole formed in the filter screen piece 3, the algae are dewatered through a structure arranged in the dewatering area 1 to ensure the rationality in the process operation, the detachable filter screen piece 3 and the feed inlet 2 can be designed through the design of the dismounting assembly, so that the later-stage filter screen piece 3 can be dismounted for cleaning and replacing under the condition of long-term use, when the filter screen piece 3 needs to be dismounted, only the moving rod 603 needs to be held by hand and then pressed downwards, and the moving rod 603 and the positioning block 605 are designed into an integrated structure, further, under the driving of the force, the moving rod 603 moves in the slot of the cavity insertion rod 602, and simultaneously drives the positioning block 605 to move in the same direction therewith, the limit spring 604 is pressed, so that the positioning block 605 is separated from the locking state in the groove of the assembly block 6, and then moved into cavity plunger 602, with cavity plunger 602 in an active position, followed by moving the overall structure of cavity plunger 602 toward the end remote from mounting block 6, driven by force, the movable assembling block can be moved out of the groove of the transverse opening 601 and then is separated from the inserting state in the groove of the assembling block 6, at the moment, the assembling block 6 is in a movable state, because the assembly block 6 and the filter screen 3 are designed into an integral structure, the filter screen 3 and the filter screen 3 can be moved upwards, so that the filter element 3 is removed to the outside of the feed opening 2 and is cleaned and replaced.

A sliding rod 606 is vertically arranged in the groove of the cavity inserted link 602, the sliding rod 606 is connected with a sleeve block 607 in a sliding manner, and the other end of the sleeve block 607 is fixedly arranged on the side wall of the movable rod 603; during operation, the sleeve block 607 is slidably connected to the sliding rod 606, wherein the sleeve block 607 and the moving rod 603 are designed to be an integrated structure, so that when the moving rod 603 moves in the groove of the cavity insert rod 602, the sleeve block 607 can be driven to slide on the sliding rod 606 in the same direction as the sliding rod, and the design can improve the stability of the moving rod 603 and other structures in the displacement process.

The positioning block 605 is designed in an arc shape, and the moving rod 603 is designed in an L shape; during operation, through establishing the end design for the arc with inserting of locating piece 605 to do benefit to and aim at the hole site and insert when establishing, improved the convenience of operation, simultaneously be designing for L shape with carriage release lever 603, the operator of being convenient for holds carriage release lever 603 and then removes.

A stabilizing assembly is arranged between the feed opening 4 and the feed opening 2, the stabilizing assembly comprises a U-shaped stabilizing frame body 5, a compression spring 505 and a limiting slide rail 506, the U-shaped stabilizing frame body 5 is movably sleeved on two sides of the joint of the feed opening 2 and the feed opening 4, the front ends and the rear ends of the two groups of U-shaped stabilizing frame bodies 5 are both provided with a movable notch 502 and a movable rod member 503, the movable rod members 503 are horizontally and movably arranged in the two groups of movable notches 502, a limiting slide block 507 is connected in the limiting slide rail 506 in a sliding manner, and the other end of the limiting slide block 507 is arranged on the matched movable rod member 503; the two sides of the movable rod 503 are both provided with inner notches 504, and the compression spring 505 is arranged on the inner walls of the inner notches 504 and the movable notch 502; when the device works, in the process of putting algae from the opening of the feed inlet 2, a stable structure is not arranged between the feed inlet 4 and the feed inlet 2, so that in the feeding process, the abutting joint of the feed inlet 4 and the feed inlet 2 is easy to displace, and the materials are left out from the outlet of the feed inlet 4, thereby affecting the feeding effect, the U-shaped stable frame body 5 is arranged at the abutting joint of the feed inlet 2 and the feed inlet 4, the connecting part of the U-shaped stable frame body 5 is fixed through structures such as the U-shaped stable frame body 5, thereby avoiding the phenomenon of material missing, meanwhile, when the feed inlet 4 and the feed inlet 2 need to be separated, the U-shaped stable frame body 5 arranged at two sides is only needed to be held by hands, then the device moves towards one end far away from the feed inlet 2 and the feed inlet 4, because the limiting slide block 507 is connected in the limiting slide rail 506 in a sliding way, thereby under the action of pulling force, can drive limit slider 507 and move about inside the spacing slide rail 506, because formula structural design as an organic whole between limit slider 507 and the movable rod piece 503, and then at the in-process that limit slider 507 removed, can drive movable rod piece 503 and move about in the inside of activity notch 502, thereby stretch compression spring 505, when stretching the width between two sets of U-shaped steady frame 5 to be greater than the width between feed inlet 2 and the feed opening 4, feed opening 4 is located mobilizable state this moment, immediately, only need to move up feed opening 4, under the effect of force, can shift out it to the firm frame 5 outsidely of U-shaped, thereby and carry out the separation operation between the feed inlet 2.

The anti-skid pad 501 is glued on the inner surface of the U-shaped stabilizing frame body 5, and the anti-skid pad 501 is made of rubber; during operation, when the U-shaped stable frame 5 is used for fixing the joint of the feed inlet 2 and the feed outlet 4, the non-slip mat 501 is designed on the contact surface of the U-shaped stable frame, the non-slip mat 501 is made of rubber, and therefore in the fixing process, the friction force of the contact surface can be increased, the fixing process is more stable, and the phenomenon of slipping is avoided.

A cushion body 508 is glued on the inner wall of the movable notch 502, and the cushion body 508 and the movable rod 503 are in a mutually jointed state; the during operation receives the in-process of elastic deformation reconversion at compression spring 505, under the effect of elasticity, can drive movable rod 503 and remove, produces the collision with activity notch 502 inner wall, through being provided with cushion body 508 at the face of colliding, wherein cushion body 508 is the preparation of rubber material and forms, has certain elasticity, and then receives the in-process of extrusion force at mutual collision, can cushion its effort to avoid the in-process of collision to produce wearing and tearing.

Example two

Referring to fig. 7, in a first comparative example, as another embodiment of the present invention, a protective bottom cover 102 is sleeved on a bottom end of a support 101, and a plurality of sets of anti-skid bumps are disposed on a bottom end of the protective bottom cover 102; during operation, one end cover through at support 101 and ground contact is equipped with protection under cover 102, can protect support 101 to avoid producing the phenomenon of wearing and tearing rather than ground and take place, it has multiunit skid proof block to glue in protection under cover 102 bottom simultaneously, and the material of its lug is the rubber design, and then the frictional force of multiplicable contact surface, causes support 101 junction more stable.

The working principle is that when the algae is dewatered, firstly, the deleting work is needed, a large amount of algae are led in from the feed inlet 2, the led-in algae can be screened through the design of the filter screen piece 3, unqualified and overlarge algae are retained above the filter screen piece 3, qualified algae flow to the inside of the dewatering area 1 from the inside of a hole formed in the filter screen piece 3, the dewatering operation is carried out through the structure arranged in the dewatering area 1 to ensure the rationality in the process operation, through the design of the dismounting assembly, the detachable design can be designed between the filter screen piece 3 and the feed inlet 2, so that the later-stage filter screen piece 3 can be dismounted for cleaning and replacing under the condition of long-term use, when the filter screen piece 3 needs to be dismounted, only the moving rod 603 needs to be held by hand and then pressed downwards, because the moving rod 603 and the positioning block 605 are designed to be an integral structure, the moving rod 603 moves in the groove of the cavity insert rod 602 under the driving of force, and simultaneously drives the positioning block 605 to move along with the moving rod 605 in the same direction, and extrudes the limiting spring 604, so that the positioning block 605 is separated from the locking state in the groove of the assembling block 6, and then moves to the inside of the cavity insert rod 602, at the moment, the cavity insert rod 602 is in a movable state, and then the integral structure of the cavity insert rod 602 is moved to one end far away from the assembling block 6, and can be moved out of the groove of the transverse opening 601 under the driving of force, and then is separated from the inserting state in the groove of the assembling block 6, at the moment, the assembling block 6 is in a movable state, because the integral structure design is adopted between the assembling block 6 and the filter screen element 3, the filter screen element 3 and the filter screen element 3 can be moved upwards, so that the filter screen element 3 is removed to the outside of the feed port 2, cleaning and replacing the waste water tank;

in the process of putting algae from the opening of the feed inlet 2, wherein a stable structure is not arranged between the feed inlet 4 and the feed inlet 2, so that the displacement of the butt joint of the feed inlet 4 and the feed inlet 2 is easily caused in the feeding process, the leakage of the materials from the outlet of the feed inlet 4 to the outside is caused, and the feeding effect is further influenced, the U-shaped stable frame body 5 is arranged at the butt joint position of the feed inlet 2 and the feed outlet 4, the connection position of the U-shaped stable frame body 5 is fixed through structures such as the U-shaped stable frame body 5, and the like, so as to avoid the leakage of the materials, and meanwhile, when the feed inlet 4 and the feed inlet 2 need to be separated, the U-shaped stable frame body 5 arranged at two sides is only needed to be held by hands, and then the feed inlet 2 and the one end of the feed inlet 4 are moved, because the limiting slide block 507 is connected in the limiting slide rail 506, and further under the action of pulling force, can drive limit slider 507 and move about inside the spacing slide rail 506, because formula structural design as an organic whole between limit slider 507 and the movable rod piece 503, and then at the in-process that limit slider 507 removed, can drive movable rod piece 503 and move about in the inside of activity notch 502, thereby stretch compression spring 505, when stretching the width between two sets of U-shaped steady frame 5 to be greater than the width between feed inlet 2 and the feed opening 4, feed opening 4 is located mobilizable state this moment, immediately, only need to move up feed opening 4, under the effect of force, can shift out it to the firm frame 5 outsidely of U-shaped, thereby and carry out the separation operation between the feed inlet 2.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (6)

1. The utility model provides an alga stoving dewatering equipment is used in water pollution prevention and cure service which characterized in that: comprises a feed inlet (2) arranged on a dewatering area (1); a support (101) is installed at the bottom end of the dewatering area (1), a feed opening (4) is arranged above the feed opening (2), and a filter screen element (3) is horizontally arranged in the feed opening (2);

a dismounting assembly is arranged between the feed port (2) and the filter screen element (3), the dismounting assembly comprises an assembly block (6), a cavity insert rod (602) and a positioning block (605), the assembly block (6) is arranged on two sides of the filter screen element (3), and the assembly block (6) is clamped in a groove which is arranged at the bottom end of the inner wall of the feed port (2) and matched with the bottom end; both sides of the lower part inside the filter screen element (3) are horizontally provided with transverse openings (601), and the cavity inserted bar (602) is movably arranged inside the matched transverse openings (601); the other end of the cavity insertion rod (602) is inserted into a groove formed in the side edge of the assembling block (6) and matched with the groove, a moving rod (603) is movably mounted in the groove of the cavity insertion rod (602), the positioning block (605) penetrates through the cavity insertion rod (602) and is mounted on the upper surface of the moving rod (603), and the other end of the positioning block (605) is inserted into a groove formed in the assembling block (6) and matched with the groove; and a limiting spring (604) is arranged in the groove of the movable rod (603) and the cavity insert rod (602).

2. The algae drying and dewatering apparatus for water pollution prevention and treatment service according to claim 1, wherein: the cavity inserted bar (602) inslot is vertical installs slide bar (606), sliding connection has sleeve piece (607) on slide bar (606), and the other end fixed mounting of sleeve piece (607) is at the lateral wall of carriage release lever (603).

3. The algae drying and dewatering apparatus for water pollution prevention and treatment service according to claim 2, wherein: the positioning block (605) is designed in an arc shape, and the moving rod (603) is designed in an L shape.

4. The algae drying and dewatering apparatus for water pollution prevention and treatment service according to claim 3, wherein: a stabilizing assembly is arranged between the feed opening (4) and the feed opening (2), the stabilizing assembly comprises a U-shaped stabilizing frame body (5), a compression spring (505) and a limiting slide rail (506), the U-shaped stabilizing frame body (5) is movably sleeved on two sides of the joint of the feed opening (2) and the feed opening (4), movable notches (502) and movable rod pieces (503) are formed in the front end and the rear end of each of two groups of U-shaped stabilizing frame bodies (5), the movable rod pieces (503) are horizontally and movably arranged in each of the two groups of movable notches (502), a limiting slide block (507) is connected in the limiting slide rail (506) in a sliding manner, and the other end of each limiting slide block (507) is arranged on the corresponding movable rod piece (503); the two sides of the movable rod piece (503) are both provided with inner notches (504), and the compression spring (505) is arranged on the inner notches (504) and the inner wall of the movable notch (502).

5. The algae drying and dewatering apparatus for water pollution prevention and treatment service according to claim 4, wherein: the anti-skid device is characterized in that an anti-skid pad (501) is glued on the inner surface of the U-shaped stabilizing frame body (5), and the anti-skid pad (501) is made of rubber.

6. The algae drying and dewatering apparatus for water pollution prevention and treatment service according to claim 5, wherein: the inner wall of the movable notch (502) is glued with a cushion body (508), and the cushion body (508) and the movable rod piece (503) are in a mutually attached state.

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