CN211316417U

CN211316417U - Energy-saving clean laboratory

Info

Publication number: CN211316417U
Application number: CN201921724373.8U
Authority: CN
Inventors: 闫庆海; 邢智慧; 邢生鑫; 闫维嘉; 宋森
Original assignee: Jinan Hanhai Purification Engineering Co ltd
Current assignee: Jinan Hanhai Purification Engineering Co ltd
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-08-21
Anticipated expiration: 2029-10-15

Abstract

The utility model discloses an energy-saving clean laboratory, including the main outer wall body, the bottom surface horizontal welding of the main outer wall body has the support base box, the inboard side even level of support base box is provided with the ventilation rectangle pipeline, and the inboard side of ventilation rectangle pipeline is close to both ends position symmetry joint and has the fixed stay frame, the inboard side of fixed stay frame is provided with the exhaust fan leaf, the top surface horizontal welding who supports the base box has the support ground panel, the top surface that supports the ground panel has evenly seted up and has kept apart grid piece, the inboard side of the main outer wall body bonds and has kept apart the heat preservation, the outside limit of the main outer wall body is close to the bottom surface position and pegs graft perpendicularly and has main conveying pipe. The utility model discloses laboratory design integration has adopted multiple circulation for the air and the temperature of laboratory inside can maintain the level of needs, have adopted light energy conversion to utilize simultaneously, let more energy-conservation and environmental protection in laboratory.

Description

Energy-saving clean laboratory

Technical Field

The utility model relates to a laboratory technical field especially relates to an energy-saving clean laboratory.

Background

The laboratory is the place where the test is performed. The laboratory is a scientific cradle, is a base of scientific research and a source of scientific development, and plays a very important role in the scientific development. The laboratories can be divided into three types according to attribution, wherein the first type is the laboratory belonging to university or managed by university, the second type is the laboratory belonging to national institution, some even international institution, and the third type is directly attributed to industrial enterprise department and provides development and research services for industrial technology.

Traditional laboratory all carries out high power equipment such as internally mounted has the air conditioner, carries out the temperature and the air requirement that the inside keeps needs all the time, and this mode effect can embody but very big to the waste of electric power, is unfavorable for national energy saving and emission reduction policy, and inside dust bacterium need carry out the manpower and clean simultaneously, delays time very and lets staff work efficiency not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving clean laboratory through the integration of laboratory design, has adopted multiple circulation for the inside air of laboratory and temperature can be maintained at the level of needs, are adopting light energy conversion to utilize simultaneously, let more energy-conservation and the environmental protection in laboratory.

The utility model provides a technical scheme that its technical problem adopted does: the utility model provides an energy-saving clean laboratory, which comprises a main outer wall body, wherein a supporting base box body is horizontally welded on the bottom surface of the main outer wall body, a ventilation rectangular pipeline is uniformly and horizontally arranged on the inner side edge of the supporting base box body, fixed supporting frames are symmetrically clamped and connected near the two ends of the inner side edge of the ventilation rectangular pipeline, exhaust fan blades are arranged on the inner side edge of the fixed supporting frames, a supporting ground plate is horizontally welded on the top surface of the supporting base box body, an isolation grid block is uniformly arranged on the top surface of the supporting ground plate, an isolation heat-insulation layer is bonded on the inner side edge of the main outer wall body, a main conveying water pipe is vertically inserted and connected near the bottom surface of the outer side edge of the main outer wall body, a conveying condensate pipe is bonded on the inner side edge of the isolation heat-insulation layer, an operating platform is arranged on the top surface of the supporting, the even lock joint of top surface of the main outer wall body has triangle supporting box, the inboard of triangle supporting box is close to bottom surface position bolted connection and has joint cover frame, the perpendicular bolted connection of top surface intermediate position of joint cover frame has the motor of airing exhaust, the output of the motor of airing exhaust has cup jointed the flabellum, the perpendicular downward welding in bottom surface of triangle supporting box has the siphunculus that pierces through, bolted connection has solar panel on the top inclined plane of triangle supporting box, the outside limit bolted connection of the main outer wall body has main conversion box.

Furthermore, the number of the rectangular ventilation pipelines is a plurality of, the rectangular ventilation pipelines are parallel to each other, two ends of each rectangular ventilation pipeline penetrate through two side edges of the supporting base box body, and the number of the fixed supporting frames is consistent with that of the exhaust fan blades.

Furthermore, the exhaust fan blades at two ends of the inner side edge of the same ventilation rectangular pipeline are arranged in the same direction, the number of the isolation grid blocks is consistent with that of the ventilation rectangular pipeline, and the inner side edge of the isolation grid blocks penetrates through the ventilation rectangular pipeline and is communicated with the inside of the main outer wall body.

Further, the inboard side of keeping apart the heat preservation is provided with the isolation layer, and the conveying condensate pipe evenly coils in the inside of isolation layer, and the outside limit that the one end of main delivery pipe runs through main outer wall body extends to the one end of inside welding at the conveying condensate pipe, and conveying condensate pipe other end threaded connection has outlet valve, and the bottom of operation panel is pegged graft perpendicularly downwards and is had drainage pipe.

Further, the number of triangle supporting box is a plurality of, and is parallel to each other between a plurality of triangle supporting box, and the number that pierces through the siphunculus keeps unanimous with the number of triangle supporting box, and the bottom that pierces through the siphunculus runs through the inside of the outer wall body of main and extends to the inboard side of keeping apart the heat preservation.

Furthermore, through electric connection between solar panel and the main conversion box, the inside solar charge controller and the battery of including of main conversion box, the output of main conversion box and the inboard light source electric connection of motor and isolation heat preservation of airing exhaust.

Compared with the prior art, the utility model beneficial effect who has is:

1. light energy is absorbed through the solar panel on the inclined plane of triangular support box top, convey inside the main conversion box with absorptive light energy, work in the main conversion box makes light energy conversion for usable electric energy, make the inboard motor of airing exhaust of the joint cover frame of triangular support box inside rotate under the effect of electric energy, make the flabellum extract the inside air of the inboard isolation heat preservation of main outer wall under the pivoted effect, the air of extraction is discharged from the triangular support box externally, convert and flow indoor air.

2. Through making water enter into the inside of conveying condensate pipe under the transport effect at main conveying water pipe, make the effect of playing the cooling to indoor under the effect of conveying condensate pipe's conveying, make water can obtain the circulation when the operation panel is used, waste water discharges the bottom surface that supports the base box from drainage pipe at last, simultaneously make under the effect of wind power and rotate at the inboard exhaust fan leaf of the fixed stay frame that supports the base box inside, make wind enter into the inside of ventilation rectangular pipeline, and absorb main outer wall internal portion ground dust and bacterium through supporting the ground panel under the effect of isolation grid piece, then discharge the other end of ventilation rectangular pipeline under the exhaust fan leaf effect of the other end. Laboratory design integration has adopted multiple circulation effect, the laboratory is to all needing a certain environment of relative low temperature for the experiment, isolated external cold and hot air under the effect of keeping apart the heat preservation, winter can open the top exhaust less and carry out inside cold-proof, and the water of circulation makes indoor temperature still can be in a homothermal position, make the air and the temperature of laboratory inside can maintain the level of needs, the light energy conversion utilization has been adopted simultaneously, let the laboratory more energy-conservation and environmental protection.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic perspective view of an energy-saving clean laboratory according to the present invention;

fig. 2 is a schematic view of the internal detail structure of an energy-saving clean laboratory according to the present invention;

FIG. 3 is a schematic view of the front view of the internal detail structure of an energy-saving clean laboratory according to the present invention;

fig. 4 is a schematic perspective detail structure diagram of a supporting floor panel of an energy-saving clean laboratory according to the present invention.

In the figure: 1-main outer wall body, 2-supporting base box body, 3-ventilating rectangular pipeline, 4-fixed supporting frame, 5-exhaust fan blade, 6-supporting floor board, 7-isolating grid block, 8-isolating heat-insulating layer, 9-main conveying water pipe, 10-conveying condensate pipe, 11-operation table, 12-drainage pipeline, 13-triangular supporting box, 14-clamping sleeve frame, 15-exhaust motor, 16-fan blade, 17-penetrating through pipe, 18-solar panel and 19-main conversion box body.

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.

Referring to fig. 1-4, an energy-saving clean laboratory comprises a main outer wall 1, a support base box 2 is horizontally welded on the bottom surface of the main outer wall 1, ventilation rectangular pipelines 3 are uniformly and horizontally arranged on the inner side edge of the support base box 2, the number of the ventilation rectangular pipelines 3 is several, a plurality of ventilation rectangular pipelines 3 are parallel to each other, two ends of each ventilation rectangular pipeline 3 penetrate through two side edges of the support base box 2, the number of the fixed support frames 4 is consistent with the number of the exhaust fan blades 5, the fixed support frames 4 are symmetrically clamped at positions close to two ends on the inner side edge of each ventilation rectangular pipeline 3, the exhaust fan blades 5 are arranged on the inner side edge of each fixed support frame 4, a support ground plate 6 is horizontally welded on the top surface of the support base box 2, the top surface of the support ground plate 6 is uniformly provided with grid blocks 7, the exhaust fan blades 5 at two ends of the inner side edge of the same ventilation rectangular pipeline 3 are arranged in the, the number of the isolation grid blocks 7 is consistent with that of the ventilation rectangular pipelines 3, the inner side edge of the isolation grid block 7 penetrates through the ventilation rectangular pipelines 3 and is communicated with the inside of the main outer wall 1, the inner side edge of the main outer wall 1 is bonded with an isolation heat-insulation layer 8, the inner side edge of the isolation heat-insulation layer 8 is provided with an isolation layer, a transmission condensate pipe 10 is uniformly coiled inside the isolation layer, one end of the main water conveying pipe 9 penetrates through the outer side edge of the main outer wall 1 and extends to the inside and is welded at one end of the transmission condensate pipe 10, the other end of the transmission condensate pipe 10 is in threaded connection with a water outlet valve, the bottom of an operation platform 11 is vertically and downwards inserted with a drainage pipe 12, the outer side edge of the main outer wall 1 is vertically inserted with the main water conveying pipe 9 close to the bottom surface, the inner side edge of the isolation heat-insulation layer 8 is bonded with the transmission, a drainage pipe 12 is vertically inserted into the inner side of the operation table 11, the top surface of the main outer wall 1 is evenly buckled with a plurality of triangular supporting boxes 13, the number of the triangular supporting boxes 13 is equal to that of the triangular supporting boxes 13, the bottom end of the through pipe 17 penetrates through the inner side of the main outer wall 1 and extends to the inner side of the insulating layer 8, the inner side of the triangular supporting box 13 close to the bottom surface is in bolted connection with a clamping sleeve frame 14, the middle position of the top surface of the clamping sleeve frame 14 is in vertical bolted connection with an exhaust motor 15, the output end of the exhaust motor 15 is sleeved with a fan blade 16, the bottom surface of the triangular supporting box 13 is vertically welded downwards with the through pipe 17, the top inclined surface of the triangular supporting box 13 is in bolted connection with a solar panel 18, the outer side of the main outer wall 1 is in bolted connection with a main conversion box 19, the solar panel 18 is electrically connected with the main conversion box body 19, a solar charging controller and a storage battery are arranged in the main conversion box body 19, the type of the solar charging controller is YCX-01-914B, and the output end of the main conversion box body 19 is electrically connected with the exhaust motor 15 and a light source on the inner side of the isolation heat preservation layer 8.

When the solar energy conversion and heat preservation device is used, concrete is poured on the ground, the supporting base box body 2 is fixed on a concrete pouring layer of the ground through bolts, then the main outer wall body 1 is installed on the top surface of the supporting base box body 2 through fixing bolts, a laboratory can be stably and firmly installed on the ground, the solar panel 18 on the inclined plane at the top of the triangular supporting box 13 absorbs light energy and transmits the absorbed light energy to the inside of the main conversion box body 19, the light energy is converted into usable electric energy through the work in the main conversion box body 19, the exhaust motor 15 on the inner side of the clamping sleeve frame 14 in the triangular supporting box 13 is rotated under the action of the electric energy, the fan blades 16 extract air in the insulating layer 8 on the inner side of the main outer wall body 1 under the action of rotation, the extracted air is exhausted from the triangular supporting box body 13 to the outside, and indoor air is converted and flows, then make water enter into the inside of conveying condensate pipe 10 under the conveying effect of main conveying water pipe 9, make the effect of playing the cooling to indoor under the effect of conveying condensate pipe 10's conveying, make water can obtain the circulation when operation panel 11 goes on using, waste water discharges the bottom surface that supports base box 2 from drainage pipe 12 at last, the fan leaf 5 of arranging that is supporting the inboard fixed stay frame 4 of base box 2 inside simultaneously makes under the effect of wind power and rotates, make wind enter into the inside of ventilation rectangular pipeline 3, and absorb main outer wall 1 inside ground dust and bacterium through supporting floor 6 under the effect of isolation grid piece 7, then discharge the other end of ventilation rectangular pipeline 3 under the effect of fan leaf 5 of the exhaust of the other end.

The details of the present invention are well known to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-saving clean laboratory, includes main outer wall body (1), its characterized in that: the bottom surface of the main outer wall body (1) is horizontally welded with a supporting base box body (2), the inner side edge of the supporting base box body (2) is uniformly and horizontally provided with a ventilation rectangular pipeline (3), the inner side edge of the ventilation rectangular pipeline (3) is symmetrically clamped with fixed supporting frames (4) close to two ends, the inner side edge of each fixed supporting frame (4) is provided with a fan exhaust blade (5), the top surface of the supporting base box body (2) is horizontally welded with a supporting ground panel (6), the top surface of the supporting ground panel (6) is uniformly provided with isolating grid blocks (7), the inner side edge of the main outer wall body (1) is bonded with an isolating and heat-insulating layer (8), the outer side edge of the main outer wall body (1) is vertically spliced with a main conveying and water pipe (9) close to the bottom surface, and the inner side edge of the isolating and heat-insulating layer (8) is, the top surface that supports ground panel (6) is provided with operation panel (11), the inboard vertical side of operation panel (11) is pegged graft there is drainage pipe (12), the even lock joint of top surface of the main outer wall body (1) has triangle supporting box (13), the inboard of triangle supporting box (13) is close to bottom surface position bolted connection and has joint cover frame (14), the perpendicular bolted connection of top surface intermediate position of joint cover frame (14) has air exhaust motor (15), fan blade (16) have been cup jointed to the output of air exhaust motor (15), the perpendicular downward welding in bottom surface of triangle supporting box (13) has and pierces through siphunculus (17), bolted connection has solar panel (18) on the top inclined plane of triangle supporting box (13), the outside limit bolted connection of the main outer wall body (1) has main conversion box (19).

2. The energy-saving clean laboratory according to claim 1, wherein: the number of the ventilation rectangular pipelines (3) is a plurality of, the ventilation rectangular pipelines (3) are parallel to each other, two ends of each ventilation rectangular pipeline (3) penetrate through two side edges of the supporting base box body (2), and the number of the fixed supporting frames (4) is consistent with that of the exhaust fan blades (5).

3. The energy-saving clean laboratory according to claim 1, wherein: the exhaust fan blades (5) at two ends of the inner side edge of the same ventilation rectangular pipeline (3) are arranged in the same direction, the number of the isolation grid blocks (7) is consistent with that of the ventilation rectangular pipeline (3), and the inner side edge of each isolation grid block (7) penetrates through the ventilation rectangular pipeline (3) and is communicated with the inside of the main outer wall body (1).

4. The energy-saving clean laboratory according to claim 1, wherein: the inboard side of keeping apart heat preservation (8) is provided with the isolation layer, and conveys condenser pipe (10) and evenly coil the inside at the isolation layer, and the main one end of carrying water pipe (9) runs through the outside limit of main outer wall body (1) and extends to the one end of inside welding at conveying condenser pipe (10), and the other end threaded connection of conveying condenser pipe (10) has outlet valve door, and the bottom of operation panel (11) is pegged graft perpendicularly downwards and is had drainage pipe (12).

5. The energy-saving clean laboratory according to claim 1, wherein: the number of triangle supporting box (13) is a plurality of, and is parallel to each other between a plurality of triangle supporting box (13), and the number that pierces through siphunculus (17) keeps unanimous with the number of triangle supporting box (13), and the bottom that pierces through siphunculus (17) runs through the inside of main outer wall body (1) and extends to the inboard side of keeping apart heat preservation (8).

6. The energy-saving clean laboratory according to claim 1, wherein: the solar panel (18) is electrically connected with the main conversion box body (19), the main conversion box body (19) is internally provided with a solar charging controller and a storage battery, and the output end of the main conversion box body (19) is electrically connected with the exhaust motor (15) and a light source on the inner side of the isolation heat-preservation layer (8).