CN112856667B - Be applicable to hotel fitment with intelligent energy-conserving ventilation system - Google Patents

Abstract

The invention relates to an intelligent energy-saving ventilation system suitable for hotel decoration, which comprises a bearing bottom plate, a fixed triangular plate, a driving box, an air outlet, square ventilation pipes, a C-shaped fixed plate, a connecting assembly and an air inlet assembly, wherein the fixed triangular plate is symmetrically arranged at the bottom of the bearing bottom plate through bolts, the driving box is fixedly arranged at the top of the bearing bottom plate through bolts, the air outlet is arranged at one end of the driving box, a vent hole is formed in the other end of the driving box, the outer wall of one end, positioned at the vent hole, of the driving box is connected with the square ventilation pipes, the C-shaped fixed plate is sleeved on the outer wall of the square ventilation pipes, the connecting assembly is arranged at the central position of the bottom of the square ventilation pipes, and the air inlet assembly is arranged at the bottom of the connecting assembly. The requirement of independent ventilation of different areas is met, and the working process is more energy-saving.

Description

Be applicable to hotel fitment with intelligent energy-conserving ventilation system

Technical Field

The invention relates to the technical field of ventilation equipment, in particular to an intelligent energy-saving ventilation system suitable for hotel decoration.

Background

Ventilation is a building environment control technology which controls the propagation and harm of air pollutants by means of ventilation dilution or ventilation removal and the like, and realizes the quality guarantee of indoor and outdoor air environments. The ventilation system realizes the ventilation function and comprises an air inlet, an air outlet, an air supply pipeline, a fan and the like. Ventilation systems are widely used in interior decoration or in general for indoor air flow. In the hotel fitment process, easily produce a large amount of dusts, can take the dust of inside out through ventilation system this moment, the constructor operation of being convenient for.

The traditional intelligent energy-saving ventilation system for hotel decoration generally adopts an integrated design, namely an air inlet and a pipeline are integrated, so that regional ventilation cannot be performed in a targeted manner in a part of decoration operation environment, and the practicability is poor; b. traditional intelligent energy-conserving ventilation system is used to hotel fitment is taking out when leaving to the dust, takes out the dust of leaving the department and can gather on the surface of flabellum, leads to the appeal of air-blower to reduce, needs the artifical rotational speed that increases the air-blower, causes ventilation system's whole energy-conservation to go relatively poor.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent energy-saving ventilation system suitable for hotel decoration, which can solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the intelligent energy-saving ventilation system comprises a bearing bottom plate, a fixed triangular plate, a driving box, an air outlet, a square ventilation pipe, a C-shaped fixed plate, a connecting assembly and an air inlet assembly, wherein the fixed triangular plate is symmetrically installed at the bottom of the bearing bottom plate through bolts, the driving box is fixedly installed at the top of the bearing bottom plate through bolts, the air outlet is installed at one end of the driving box, an air vent is formed in the other end of the driving box, the outer wall of one end, located at the air vent, of the driving box is connected with the square ventilation pipe, the C-shaped fixed plate is sleeved on the outer wall of the square ventilation pipe, the connecting assembly is arranged at the central position of the bottom of the square ventilation pipe, and the air inlet assembly is installed at the bottom of the connecting assembly;

the inner wall of the square ventilation pipe is fixedly provided with a first sealing plate through bolts, one side of the first sealing plate is close to a second sealing plate, circular through holes are formed in the first sealing plate and the second sealing plate at equal intervals, the second sealing plate is inserted into the outer wall of a T-shaped rod, the T-shaped rod is welded on the inner wall of the square ventilation pipe, a water injection hole is formed in the top of the square ventilation pipe, a water storage unit is arranged on the inner wall of the square ventilation pipe and is positioned right below the water injection hole, a dust collection unit is arranged on the inner wall of the square ventilation pipe and is positioned on the right side of the water storage unit, a ventilation round hole is formed in the bottom of the square ventilation pipe, and an arc hole is formed in the bottom of the square ventilation pipe and at the joint of the bottom of the square ventilation pipe and the connection component;

the connecting assembly comprises a connecting block fixed at a vent circular hole at the bottom of a square vent pipe through a bolt, a circular groove is formed in the lower end face of the connecting block, arc-shaped holes are symmetrically formed in the bottom of the circular groove and are located right below the arc-shaped holes, a first connecting groove is formed in the inner wall of the circular groove, a square groove is symmetrically formed in the top of the first connecting groove, a second connecting groove is formed in the inner wall of the circular groove and is located right below the first connecting groove, a mounting groove is symmetrically formed in the inner wall of the second connecting groove, a hollow arc-shaped plate is placed in the second connecting groove, a rectangular hole is formed in the center of the inside of the connecting block, two inner walls of the rectangular hole are communicated with the mounting groove, sealing strips are welded on the inner wall of the rectangular hole at equal intervals, sealing pipes are arranged at gaps adjacent to the sealing strips, and two ends of the sealing pipes are both mounted on the inner wall of the rectangular hole through shaft sleeves, a semicircular positioning groove is formed in the lower end face of the connecting block and is positioned between the circular groove and the rectangular hole;

the air inlet subassembly includes air inlet end, stripper plate, ball, limiting plate and positioning unit, and the air inlet end is located under the connecting block, and the top symmetrical welding of air inlet end has the stripper plate, and the stripper plate passes hollow arc, arc hole and circular arc hole in proper order, and the inner wall welding of stripper plate has the limiting plate, and the limiting plate is the cooperation structure with first connecting groove, and equidistant embedding in the top of stripper plate has the ball, and positioning unit is installed to the up end symmetry of air inlet end.

Further, the hole of induced drafting has been seted up to the inside of sealing tube, and the welding of the one end of sealing tube has the round bar, and the round bar is located the mounting groove, and the helicla flute has been seted up to the outer wall of round bar, and it has L type actuating lever to peg graft in the inside of helicla flute, and the one end welding of L type actuating lever is at the lateral wall of hollow arc, and one side of L type actuating lever is provided with the extension spring, and the both ends of extension spring are all fixed at hollow arc outer wall and mounting groove inner wall through spot welding.

Furthermore, the positioning unit comprises a supporting spring embedded in the air inlet end, a steel ball is tightly attached to the top of the supporting spring and placed in a limiting cylinder, the limiting cylinder is installed at the top of the air inlet end through a bolt in a matched mode, and the upper end face of the limiting cylinder is flush with the upper end face of the air inlet end.

Further, the water storage unit includes and fixes the storage water tank at square vent pipe inner wall through spot welding, and the storage water tank is located the water injection hole under, the inner wall welding of storage water tank has the breakwater, the apopore has been seted up to the inside central point of breakwater, the inside of apopore is pegged graft and is had the sealing plug, the sealing plug slides and cup joints the outer wall at the bracing piece, the both ends of bracing piece weld respectively at the up end of square vent pipe inner wall and breakwater, the bottom of sealing plug is near there being steel plate, two be provided with the foam-rubber cushion that absorbs water between the steel plate, the terminal surface welding has the gangbar under the steel plate that is close to storage water tank bottom one end, the one end of gangbar is passed the storage water tank and is linked to each other with the second closing plate.

Further, the water storage unit still includes the bellows that bonds at steel board terminal surface down through glue, and the inside of bellows is pegged graft and is had first cotton rope that absorbs water, and the one end of first cotton rope that absorbs water is passed the steel board and is linked to each other with the foam-rubber cushion that absorbs water, and the other end of first cotton rope that absorbs water is connected with the second cotton rope that absorbs water, and the second cotton rope that absorbs water runs through in the lateral wall of storage water tank, and the second cotton rope outer wall that absorbs water that is located the storage water tank outside has cup jointed the leak protection pipe, and the one end welding of leak protection pipe is at the storage water tank lateral wall.

Further, the dust absorption unit includes the rectangle fixed plate of installing at square ventilation duct inner wall through bolt fixed mounting, and the welding of one side of rectangle fixed plate has fixed shell, and one side of fixed shell links to each other with the leak protection pipe, and the sponge piece that absorbs water has been placed to the inside of leak protection pipe, and the top one side of the sponge piece that absorbs water pastes with the second cotton rope that absorbs water mutually, and one side equidistant bonding of sponge piece that absorbs water has the third cotton rope that absorbs water, and is a plurality of the third cotton rope that absorbs water all runs through in the rectangle fixed plate.

The invention has the beneficial effects that:

1. compared with the traditional integrated air inlet and pipeline design, the connecting assembly and the air inlet assembly in the invention are designed independently, the connecting assembly without the air inlet assembly is in a closed state in a normal state, and the connecting assembly is in an open state after the air inlet assembly is installed, namely the number of the air inlet assemblies can be arranged according to the actual decoration area requirement.

2. According to the intelligent energy-saving ventilation system suitable for hotel decoration, the sealing pipe and the sealing strip are combined to serve as the sealing piece of the connecting component, on one hand, the contact area between the sealing pipe and the sealing strip is large, the sealing effect is good, when the non-installed connecting component is in a closed state, air is not prone to leaking at the position, the suction force of the installed air inlet component is not affected by the non-installed connecting component, on the other hand, the air suction hole is formed in the sealing pipe, the air outlet hole is long-strip-shaped, and compared with a traditional multi-hole type air inlet channel, the air inlet area is larger.

3. The intelligent energy-saving ventilation system suitable for hotel decoration is provided with the water storage unit and the dust absorption unit, the water storage unit can be driven to be linked through the air inlet assembly in the process of manually installing the air inlet assembly, the water storage unit discharges water through the water storage unit, and a third water absorption cotton rope arranged in the dust absorption unit is wetted.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the overall construction of the present invention;

FIG. 2 is a cross-sectional view of a square ventilation tube with the air intake assembly installed in accordance with the present invention;

FIG. 3 is a cross-sectional view of a square draft tube of the present invention without the air intake assembly;

FIG. 4 is an enlarged, fragmentary view of region A of FIG. 2 in accordance with the present invention;

FIG. 5 is a perspective view of the connection assembly of the present invention;

FIG. 6 is a cross-sectional view of the overall structure of FIG. 5 taken in the direction N-N according to the present invention;

FIG. 7 is a cross-sectional view of the overall structure of FIG. 5 taken along the line M-M;

FIG. 8 is a perspective view of the seal tube of the present invention;

FIG. 9 is a perspective view of the intake assembly of the present invention;

fig. 10 is an enlarged partial view of the area B of fig. 9 according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 10, an intelligent energy-saving ventilation system suitable for hotel decoration comprises a bearing bottom plate 1, a fixed triangular plate 2, a driving box 3, an air outlet 4, a square ventilation pipe 5, a C-shaped fixed plate 6, a connecting assembly 7 and an air inlet assembly 8, wherein the fixed triangular plate 2 is symmetrically installed at the bottom of the bearing bottom plate 1 through bolts, the driving box 3 is fixedly installed at the top of the bearing bottom plate 1 through bolts, the air outlet 4 is installed at one end of the driving box 3, an air vent is formed in the other end of the driving box 3, the outer wall of one end, located at the air vent, of the driving box 3 is connected with the square ventilation pipe 5, the C-shaped fixed plate 6 is sleeved on the outer wall of the square ventilation pipe 5, the connecting assembly 7 is arranged at the center of the bottom of the square ventilation pipe 5, the air inlet assembly 8 is installed at the bottom of the connecting assembly 7, the fixed triangular plate 2 is manually installed at the outer wall of a hotel through expansion screws, then, the square ventilation pipes 5 are connected in series through bolts until the square ventilation pipes 5 are located in a hotel interior decoration area, the C-shaped fixing plate 6 is sleeved on the outer wall of the square ventilation pipes 5, the C-shaped fixing plate 6 is fixed on the inner wall of the decoration area through expansion screws, and finally the connecting assembly 7 and the air inlet assembly 8 are sequentially installed to complete the installation of the invention, and as the air blower is arranged in the driving box 3, the air blower is manually controlled to work during actual operation, so that the ventilation and dust collection effects can be realized;

the connecting assembly 7 comprises a connecting block 71 fixed at the position of the ventilation circular hole 56 at the bottom of the square ventilation pipe 5 through a bolt, the lower end surface of the connecting block 71 is provided with a circular groove 72, the bottom of the circular groove 72 is symmetrically provided with an arc-shaped hole 73, the arc-shaped hole 73 is positioned under the arc-shaped hole 57, the inner wall of the circular groove 72 is provided with a first connecting groove 79, the top of the first connecting groove 79 is symmetrically provided with a square groove 78, the inner wall of the circular groove 72 is provided with a second connecting groove 77 at a position under the first connecting groove 79, the inner wall of the second connecting groove 77 is symmetrically provided with mounting grooves, a hollow arc-shaped plate 76 is placed inside the second connecting groove 77, the center position inside the connecting block 71 is provided with a rectangular hole, two inner walls of the rectangular hole are communicated with the mounting grooves, the inner walls of the rectangular hole are welded with sealing strips 75 at equal intervals, and a sealing pipe 74 is arranged at a gap between the two adjacent sealing strips 75, two ends of the sealing pipe 74 are both mounted on the inner wall of the rectangular hole through shaft sleeves, and a semicircular positioning groove is formed in the lower end face of the connecting block 71 and located between the circular groove 72 and the rectangular hole;

the air inlet component 8 comprises an air inlet end 81, an extrusion plate 82, a ball 83, a limiting plate 84 and a positioning unit 85, the air inlet end 81 is positioned under the connecting block 71, the extrusion plate 82 is symmetrically welded on the top of the air inlet end 81, the extrusion plate 82 sequentially penetrates through the hollow arc-shaped plate 76, the arc-shaped hole 73 and the arc-shaped hole 57, the limiting plate 84 is welded on the inner wall of the extrusion plate 82, the limiting plate 84 and the first connecting groove 79 are in a matched structure, the ball 83 are embedded in the top of the extrusion plate 82 at equal intervals, the positioning unit 85 is symmetrically installed on the upper end surface of the air inlet end 81, during specific work, the air inlet end 81 is manually held, the limiting plate 84 on the inner wall of the extrusion plate 82 on the top of the air inlet end 81 is aligned with the square groove 78, after alignment is finished, the extrusion plate 82 on the top of the air inlet end 81 is manually vertically inserted into the circular groove 72, after a certain distance is inserted, the extrusion plate 82 is in contact with the hollow arc-shaped plate 76, as the depth of insertion of the pressing plate 82 into the circular groove 72 increases, the arc-shaped surface of the pressing plate 82 gradually applies a horizontal pressing force to the hollow arc-shaped plate 76, the two hollow arc-shaped plates 76 move back to back until the outer walls of the two hollow arc-shaped plates 76 cling to the inner wall of the circular groove 72 and stop moving, the extrusion plate 82 is pushed to move manually until the extrusion plate 82 passes through the arc-shaped holes 73 and the arc-shaped holes 57, at this time, the top of the extrusion plate 82 pushes the second sealing plate 52 to move upwards, the limiting plate 84 is just moved to the groove wall of the first connecting groove 79, and finally the air inlet end 81 is manually rotated again, so that the limiting plate 84 enters the first connecting groove 79, the air inlet end 81 is longitudinally limited by the limiting plate 84 and the first connecting groove 79, and after the air inlet end 81 rotates by a certain angle, the positioning unit 85 arranged on the end surface of the air inlet end 81 is clamped into the semicircular positioning groove.

The inner wall of the square ventilation pipe 5 is fixedly provided with a first sealing plate 51 through bolts, one side of the first sealing plate 51 is abutted against a second sealing plate 52, circular through holes are arranged in the first sealing plate 51 and the second sealing plate 52 at equal intervals, the second sealing plate 52 is inserted in the outer wall of a T-shaped rod 53, the T-shaped rod 53 is welded on the inner wall of the square ventilation pipe 5, the top of the square ventilation pipe 5 is provided with a water injection hole 58, a water storage unit 54 is arranged on the inner wall of the square ventilation pipe 5 and under the water injection hole 58, a dust absorption unit 55 is arranged on the inner wall of the square ventilation pipe 5 and at the right side of the water storage unit 54, the bottom of the square ventilation pipe 5 is provided with a ventilation circular hole 56, the bottom of the square ventilation pipe 5 and the connection part with the connection component 7 are provided with circular holes 57, in the initial state, the circular through holes between the first sealing plate 51 and the second sealing plate 52 are mutually staggered, that is, the area of the second sealing plate 52 without the circular through hole is directed at the circular through hole of the first sealing plate 51, at this time, one end of the square ventilation tube 5 is in a closed state, when the square ventilation tube 5 is installed in series manually, a sealing baffle plate is not required to be arranged at the tail end of the square ventilation tube 5, when the top of the extrusion plate 82 pushes the second sealing plate 52 to move upwards, the second sealing plate 52 slides upwards along the T-shaped rod 53, the maximum distance of the upward sliding is equal to the diameter of the circular through hole, after the maximum distance of the upward sliding is reached, the built-in circular through holes of the first sealing plate 51 and the second sealing plate 52 are overlapped, and at this time, the square ventilation tube 5 are communicated with each other.

The sealing structure is characterized in that an air suction hole 741 is formed in the sealing pipe 74, a round rod 742 is welded at one end of the sealing pipe 74, the round rod 742 is located in the installation groove, a spiral groove 743 is formed in the outer wall of the round rod 742, an angle formed by the spiral groove 743 relative to the outer wall of the round rod 742 is 90 degrees, the maximum rotation angle of the round rod 742 is ninety degrees, an L-shaped driving rod 744 is inserted into the spiral groove 743, one end of the L-shaped driving rod 744 is welded on the side wall of the hollow arc plate 76, a tension spring 745 is arranged on one side of the L-shaped driving rod 744, two ends of the tension spring 745 are fixed on the outer wall of the hollow arc plate 76 and the inner wall of the installation groove through spot welding, during specific work, the air suction holes 741 are arranged in parallel relative to the sealing strip 75 in an initial state, when the two hollow arc plates 76 move in a backward direction, the hollow arc plate 76 drives the L-shaped driving rod 744 to move together, when the L-shaped driving rod 744 moves, one end of the L-shaped driving rod 744 slides along the spiral groove 743, thereby exert axial extrusion force to round bar 742 through L type actuating lever 744, make round bar 742 rotate ninety degrees under the effect of this extrusion force, round bar 742 rotates and drives sealing tube 74 promptly and rotates ninety degrees jointly, namely make the built-in hole 741 perpendicular to sealing strip 75 that induced drafts of sealing tube 74, at this moment, air inlet subassembly 8, coupling assembling 7, form the route between square ventilation pipe 5 and the drive case 3, the manual drive air-blower switch can work, this stand alone type air inlet mode guarantees that the air inlet of every department square ventilation pipe 5 bottom is decided by air inlet subassembly 8's mounted state, alright carry out actual assembly according to actual hotel fitment region, the practicality is higher.

The positioning unit 85 comprises a supporting spring 853 embedded in the air inlet end 81, a steel ball 852 is tightly attached to the top of the supporting spring 853, the steel ball 852 is placed in a limiting cylinder 851, the limiting cylinder 851 is installed at the top of the air inlet end 81 through a bolt in a matching manner, the upper end surface of the limiting cylinder 851 is flush with the upper end surface of the air inlet end 81, when the air inlet end 81 is manually driven to move to the maximum value, namely the limiting plate 84 is just displaced to the groove wall of the first connecting groove 79, the steel ball 852 is adducted relative to the limiting cylinder 851, the steel ball 852 extrudes the supporting spring 853 to generate resilience force, when the air inlet end 81 is manually driven to rotate, the steel ball 852 rolls on the surface of the connecting block 71, after the air inlet end 81 rotates for a certain angle, the steel ball 852 enters the semicircular locating groove, the resilience force generated by compression of the supporting spring 853 counteracts the steel ball 852, so that the steel ball 852 is tightly attached to the semicircular locating groove, alright carry on spacingly to the axial of air inlet end 81 like this, carry out further fixed to air inlet end 81, prevent that the condition that drops from appearing in air inlet end 81 in the course of the work.

The water storage unit 54 comprises a water storage tank 541 fixed on the inner wall of the square ventilation pipe 5 through spot welding, the water storage tank 541 is located right below the water injection hole 58, a water baffle plate 542 is welded on the inner wall of the water storage tank 541, a water outlet hole is formed in the center of the water baffle plate 542, a sealing plug 543 is inserted into the water outlet hole, the sealing plug 543 is slidably sleeved on the outer wall of the support rod 544, two ends of the support rod 544 are respectively welded on the inner wall of the square ventilation pipe 5 and the upper end face of the water baffle plate 542, a steel plate 545 abuts against the bottom of the sealing plug 543, a water absorption sponge pad 546 is arranged between the two steel plates 545, a linkage rod is welded on the lower end face of the steel plate 545 at one end close to the bottom of the water storage tank 541, one end of the linkage rod 547 penetrates through the water storage tank 541 to be connected with the second sealing plate 52, in an initial state, the water storage tank 541 is filled with water through the water injection hole 58 manually, when the water storage tank 541 works in detail, the top of the extrusion plate 82 pushes the second sealing plate 52 to move upwards, the second sealing plate 52 drives the linkage rod 547 to move, when the linkage rod 547 moves upwards, the linkage rod 547 pushes the steel plate 545 to move vertically upwards, then the steel plate 545 extrudes the sealing plug 543 to vertically slide upwards along the supporting rod 544, the steel plate 545 and the water absorption sponge pad 546 replace the sealing plug 543 to move to a water outlet, the steel plate 545 is attached to the water outlet, the water absorption sponge pad 546 is located in the water storage tank 541, and water absorption is carried out through the water absorption sponge pad 546.

The water storage unit 54 further comprises a corrugated pipe 548 which is bonded on the lower end face of the steel plate 545 through glue, a first water absorption cotton rope is spliced in the corrugated pipe 548, one end of the first water absorption cotton rope penetrates through the steel plate 545 to be connected with a water absorption sponge cushion 546, the other end of the first water absorption cotton rope is connected with a second water absorption cotton rope 549, the second water absorption cotton rope 549 penetrates through the side wall of the water storage tank 541, a leakage-proof pipe 540 is sleeved on the outer wall of the second water absorption cotton rope 549 positioned outside the water storage tank 541, one end of the leakage-proof pipe 540 is welded on the side wall of the water storage tank 541, the water absorption saturated water absorption sponge cushion 546 transfers water to the first water absorption cotton rope arranged in the corrugated pipe 548, and the first water absorption cotton rope transfers water to the second water absorption cotton rope.

The dust suction unit 55 comprises a rectangular fixing plate 553 fixedly arranged on the inner wall of the square ventilation pipe 5 through bolts, one side of the rectangular fixing plate 553 is welded with a fixing shell 551, one side of the fixing shell 551 is connected with a leakage-proof pipe 540, a water-absorbing sponge block 552 is arranged inside the leakage-proof pipe 540, one side of the top of the water-absorbing sponge block 552 is attached to a second water-absorbing cotton rope 549, one side of the water-absorbing sponge block 552 is bonded with a third water-absorbing cotton rope 554 at equal intervals, a plurality of the third water-absorbing cotton ropes 554 penetrate through the rectangular fixing plate 553, after water is absorbed by the second water-absorbing cotton rope 549, water is transferred to the water-absorbing sponge block 552, and finally the water is transferred to a plurality of the third water-absorbing cotton ropes 554 through the water-absorbing sponge block 552, when the blower operates, because the diameter of the third water-absorbing cotton ropes 554 is relatively small, the blower can be gradually in a parabolic state or a horizontal state under the effect of the absorption, and part of impurities such as dust and the like absorbed into the square ventilation pipe 5 can be contacted with the wet third water-absorbing cotton ropes 554, part of dust is attached to the third absorbent cotton rope 554, so that the dust accumulation amount on the surface of the fan blade of the air blower is reduced, the condition that the rotating speed of the air blower needs to be adjusted when the dust layer of the fan blade is thick is prevented, the dust removal effect is achieved, and the energy-saving effect is achieved.

The working principle of the invention is as follows:

the integral installation process comprises the following steps: the fixed triangular plate 2 is manually installed on the outer wall of a hotel through expansion screws, then a plurality of square ventilation pipes 5 are connected in series through bolts until the square ventilation pipes 5 are located in the interior decoration area of the hotel, then the C-shaped fixed plate 6 is sleeved on the outer wall of the square ventilation pipes 5, the C-shaped fixed plate 6 is fixed on the inner wall of the decoration area through the expansion screws, and finally the connecting assembly 7 and the air inlet assembly 8 are sequentially installed.

The installation process of the air inlet assembly is as follows: air inlet end 81 is handed to manual work, align limiting plate 84 and square groove 78 with air inlet end 81 top stripper plate 82 inner wall, aim at the back that finishes, the manual work is with the vertical circular recess 72 of inserting of stripper plate 82 at air inlet end 81 top, inject after the certain distance, limiting plate 84 displacement just to first connecting slot 79 cell wall, last manual work rotates air inlet end 81 again, make limiting plate 84 enter into first connecting slot 79 in, obviously hinder and feel when appearing, locating element 85 that air inlet end 81 terminal surface set up will block into in the semicircle constant head tank promptly, alright install air inlet subassembly 8 on coupling assembling 7.

Energy-saving and dust-removing processes: in the installation process of the air inlet component 8, the water storage unit 54 is driven to work, water in the water storage unit 54 is transferred into the third water absorption cotton rope 554, the third water absorption cotton rope 554 is changed from a dry state to a wet state, when the air blower works, the diameter of the third water absorption cotton rope 554 is relatively small, the third water absorption cotton rope can be gradually in a parabolic state or a horizontal state under the action of the suction force of the air blower, part of impurities such as dust sucked into the square ventilation pipe 5 are in contact with the wet third water absorption cotton rope 554, part of dust is attached to the third water absorption cotton rope 554, the dust accumulation amount on the surface of fan blades of the air blower is reduced, the condition that the rotating speed of the air blower needs to be adjusted when the dust layer of the fan blades is thick is prevented, the dust removal effect is achieved, and the energy-saving effect is achieved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an intelligent energy-conserving ventilation system suitable for hotel fitment is used, includes bearing bottom plate (1), fixed set-square (2), drive box (3), air outlet (4), square ventilation pipe (5), C type fixed plate (6), coupling assembling (7) and air inlet subassembly (8), its characterized in that: the support base plate is characterized in that fixed triangular plates (2) are symmetrically installed at the bottom of the support base plate (1) through bolts, a driving box (3) is fixedly installed at the top of the support base plate (1) through bolts, an air outlet (4) is installed at one end of the driving box (3), an air vent is formed in the other end of the driving box (3), a square ventilation pipe (5) is connected to the outer wall of one end, located at the air vent, of the driving box (3), a C-shaped fixing plate (6) is sleeved on the outer wall of the square ventilation pipe (5), a connecting assembly (7) is arranged at the center of the bottom of the square ventilation pipe (5), and an air inlet assembly (8) is installed at the bottom of the connecting assembly (7);

the inner wall of the square ventilation pipe (5) is fixedly provided with a first sealing plate (51) through bolts, one side of the first sealing plate (51) is abutted against a second sealing plate (52), circular through holes are formed in the first sealing plate (51) and the second sealing plate (52) at equal intervals, the second sealing plate (52) is inserted into the outer wall of a T-shaped rod (53), the T-shaped rod (53) is welded on the inner wall of the square ventilation pipe (5), a water injection hole (58) is formed in the top of the square ventilation pipe (5), a water storage unit (54) is arranged on the inner wall of the square ventilation pipe (5) and is positioned right below the water injection hole (58), a dust collection unit (55) is arranged on the inner wall of the square ventilation pipe (5) and is positioned on the right side of the water storage unit (54), a ventilation circular hole (56) is formed in the bottom of the square ventilation pipe (5), and a connecting assembly is formed in the connection position of the bottom of the square ventilation pipe (5) and the circular arc (7);

the connecting assembly (7) comprises a connecting block (71) fixed at a ventilation circular hole (56) at the bottom of the square ventilation pipe (5) through a bolt, a circular groove (72) is formed in the lower end face of the connecting block (71), arc-shaped holes (73) are symmetrically formed in the bottom of the circular groove (72), the arc-shaped holes (73) are located under the arc-shaped holes (57), a first connecting groove (79) is formed in the inner wall of the circular groove (72), a square groove (78) is symmetrically formed in the top of the first connecting groove (79), a second connecting groove (77) is formed in the inner wall of the circular groove (72) and is located under the first connecting groove (79), a mounting groove is symmetrically formed in the inner wall of the second connecting groove (77), a hollow arc-shaped plate (76) is placed inside the second connecting groove (77), a rectangular hole is formed in the center position of the inside of the connecting block (71), and two inner walls of the rectangular hole are communicated with the mounting groove, sealing strips (75) are welded on the inner wall of the rectangular hole at equal intervals, a sealing pipe (74) is arranged at the gap between two adjacent sealing strips (75), two ends of each sealing pipe (74) are mounted on the inner wall of the rectangular hole through shaft sleeves, and a semicircular positioning groove is formed in the lower end face of each connecting block (71) and is located between each circular groove (72) and the corresponding rectangular hole; an air suction hole (741) is formed in the sealing pipe (74), a round rod (742) is welded at one end of the sealing pipe (74), the round rod (742) is located in the mounting groove, a spiral groove (743) is formed in the outer wall of the round rod (742), an L-shaped driving rod (744) is inserted into the spiral groove (743), one end of the L-shaped driving rod (744) is welded on the side wall of the hollow arc-shaped plate (76), a tension spring (745) is arranged on one side of the L-shaped driving rod (744), and two ends of the tension spring (745) are fixed to the outer wall of the hollow arc-shaped plate (76) and the inner wall of the mounting groove through spot welding;

the air inlet subassembly (8) is including air inlet end (81), stripper plate (82), ball (83), limiting plate (84) and positioning unit (85), air inlet end (81) are located under connecting block (71), the top symmetry welding of air inlet end (81) has stripper plate (82), and stripper plate (82) pass hollow arc (76) in proper order, arc hole (73) and circular arc hole (57), the top of stripper plate (82) can promote second closing plate (52) and shift up, the inner wall welding of stripper plate (82) has limiting plate (84), limiting plate (84) are the cooperation structure with first connecting groove (79), the equidistant embedding in top of stripper plate (82) has ball (83), positioning unit (85) are installed to the up end symmetry of air inlet end (81).

2. The intelligent energy-saving ventilation system suitable for hotel fitment according to claim 1, characterized in that: positioning unit (85) including embedding at inside supporting spring (853) of air inlet end (81), steel ball (852) have been hugged closely at the top of supporting spring (853), and steel ball (852) are placed in spacing cylinder (851), and the top at air inlet end (81) is installed through the bolt cooperation in spacing cylinder (851), and the up end of spacing cylinder (851) flushes with the up end of air inlet end (81).

3. The intelligent energy-saving ventilation system suitable for hotel fitment according to claim 1, characterized in that: the water storage unit (54) comprises a water storage tank (541) fixed on the inner wall of the square ventilation pipe (5) through spot welding, and storage water tank (541) is located under water injection hole (58), breakwater (542) has been welded to the inner wall of storage water tank (541), the inside central point of breakwater (542) has been seted up the apopore, the inside of apopore is pegged graft and is had sealing plug (543), sealing plug (543) slip cup joints the outer wall at bracing piece (544), the both ends of bracing piece (544) weld respectively at the up end of square ventilation pipe (5) inner wall and breakwater (542), the bottom of sealing plug (543) is near having steel board (545), two be provided with between steel board (545) and inhale water sponge pad (546), the end face welding has gangbar (547) under steel board (545) that is close to storage water tank (541) bottom one end, the one end of gangbar (547) passes storage water tank (541) and links to each other with second closing plate (52).

4. The intelligent energy-saving ventilation system suitable for hotel fitment according to claim 3, characterized in that: the water storage unit (54) still includes bellows (548) of terminal surface under steel system board (545) through glue bonding, the inside grafting of bellows (548) has first cotton rope that absorbs water, the one end of first cotton rope that absorbs water is passed steel system board (545) and is linked to each other with sponge pad (546) that absorbs water, the other end of first cotton rope that absorbs water is connected with second cotton rope (549) that absorbs water, and second cotton rope (549) that absorbs water runs through in the lateral wall of storage water tank (541), second cotton rope (549) outer wall that absorbs water that is located the storage water tank (541) outside has cup jointed leak protection pipe (540), the one end welding of leak protection pipe (540) is at storage water tank (541) lateral wall.

5. The intelligent energy-saving ventilation system suitable for hotel fitment according to claim 4, characterized in that: dust absorption unit (55) include rectangle fixed plate (553) through bolt fixed mounting at square ventilation pipe (5) inner wall, the welding of one side of rectangle fixed plate (553) has fixed shell (551), one side of fixed shell (551) links to each other with leak protection pipe (540), sponge piece (552) that absorbs water has been placed to the inside of leak protection pipe (540), and the top one side of sponge piece (552) that absorbs water pastes mutually with second cotton rope (549) that absorbs water, one side equidistant bonding of sponge piece (552) that absorbs water has third cotton rope (554) that absorbs water, and a plurality of cotton rope (554) that absorb water of third all run through in rectangle fixed plate (553).

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