CN221924673U - A cold and hot heat source tower - Google Patents

Abstract

The utility model relates to the technical field of heat source towers, and specifically to a cold and hot type heat source tower, comprising a heat source tower main body, a heat source tower base is arranged at the bottom of the heat source tower main body, a fixed seat is arranged between the heat source tower main body and the heat source tower base, an air inlet box is arranged on the front side of the heat source tower base, an air inlet is arranged inside the air inlet box, a plurality of shutters are arranged inside the air inlet, a filtering mechanism is arranged inside the air inlet box and behind the plurality of shutters; the filtering mechanism comprises two groups of filter plates, two groups of filter plates are arranged inside the air inlet box and at the back side of the shutters, rotating blocks are arranged on the left and right sides of the two groups of filter plates, two groups of sliding grooves are arranged on the inner side wall of the air inlet box and at the rear of the two groups of shutters, sliding blocks are arranged on the left and right sides of the two groups of filter plates and at positions corresponding to the sliding grooves. The utility model improves the overall practicality of the heat source tower through design.

Description

Cold and hot type heat source tower

Technical Field

The utility model relates to the technical field of heat source towers, in particular to a cold and hot type heat source tower.

Background

The heat source tower is used as heat exchange equipment, and the working principle is as follows: the heat in the low-temperature air is absorbed in winter, so that a low-temperature heat source is provided for the heat pump host; in summer, heat is discharged into the air by utilizing the evaporation and heat dissipation of water to realize refrigeration; the heat source tower can be divided into two types, namely an open heat source tower and a closed heat source tower according to the contact mode of a circulating medium and air, wherein the open heat source tower absorbs the heat of the air by spraying a circulating medium solution, the circulating medium is directly contacted with the air, the temperature of the circulating medium solution is greatly affected by external meteorological conditions, the heat exchange efficiency is low, and the water bleaching amount is large; the closed heat source tower absorbs the heat of the air by exchanging heat between the heat exchanger and the outside air, the circulating medium is not in direct contact with the air, the heat exchange efficiency is high, and the water drift loss is avoided, so that the closed heat source tower is widely applied;

In the prior art, a closed heat source tower comprises a shell, a heat exchanger arranged in the shell, a fan and a heat exchange system, wherein the fan is used for providing heat exchange airflow for the heat exchanger, and the heat exchange system is used for carrying out heat exchange with the heat exchange airflow; when the heat source tower is used, air is required to be sucked for ventilation treatment, but air filtering equipment is lacked, dust in the air is sucked into the heat source tower when the air is sucked, so that the dust is easily accumulated in the heat source tower, and the service life of the heat source tower is influenced;

Therefore, for improving the existing heat source tower, it is important to design a novel heat source tower to change the technical defects and improve the practicability of the whole heat source tower.

Disclosure of utility model

The present utility model is directed to a heat source tower for cooling and heating, which solves the above-mentioned problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The cold and hot type heat source tower comprises a heat source tower main body, wherein a heat source tower base is arranged at the bottom of the heat source tower main body, a fixed seat is arranged between the heat source tower main body and the heat source tower bottom, an air inlet box is arranged on the front surface of the heat source tower base, an air inlet is formed in the air inlet box, a plurality of shutters are arranged in the air inlet box, and a filtering mechanism is arranged in the air inlet box and behind the shutters;

The filter mechanism comprises two groups of filter plates, two groups of filter plates are arranged in the air inlet box and positioned on the back of the shutter, rotating blocks are arranged on the left side and the right side of the filter plates, two groups of sliding grooves are formed in the inner side wall of the air inlet box and positioned on the rear of the two groups of shutter, and sliding blocks are arranged on the left side and the right side of the filter plates and positioned at the corresponding positions of the sliding grooves.

As a preferable scheme of the utility model, the top of the air inlet box is provided with air inlet knobs at positions corresponding to the two groups of rotating blocks, the two groups of air inlet knobs penetrate through the air inlet box and are connected with the rotating blocks, and the two groups of air inlet knobs are connected with the air inlet box in a rotating way.

As a preferable scheme of the utility model, the right side of the air inlet box and the positions corresponding to the two groups of sliding blocks are respectively provided with a fixed block, the inside of each sliding block is provided with a fixed groove, and the two groups of fixed blocks penetrate through the air inlet box and extend to the inside of each fixed groove.

As a preferable scheme of the utility model, the fixing blocks are connected with the air inlet box and the fixing grooves in a threaded manner, mounting seats are arranged in the air inlet box and between the plurality of shutters and the filter plates, a first rotating seat is arranged at the top of each mounting seat, and a second rotating seat is arranged at the bottom of each mounting seat.

As a preferable scheme of the utility model, the interiors of the first rotating seat and the second rotating seat are respectively provided with a rotating groove, the interiors of the first rotating seat and the second rotating seat are respectively provided with a rotating roller, and the interiors of the first rotating seat and the outside of the rotating rollers are respectively provided with a filter screen.

As a preferable scheme of the utility model, two groups of connecting ropes are arranged in the second rotating seat and positioned on the outer side of the rotating roller, the left sides of the first rotating seat and the second rotating seat are respectively provided with a rotating knob, and the two groups of rotating knobs respectively penetrate through the first rotating seat and the second rotating seat and are respectively connected with the two groups of rotating rollers.

As the preferable scheme of the utility model, the two groups of connecting ropes and the filter screen are of an integrated structural design, the filter screen and the two groups of connecting ropes are made of nylon materials, and the two groups of rotating rollers are respectively connected with the first rotating seat and the second rotating seat in a rotating way.

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

According to the utility model, through the design of the heat source tower main body, the heat source tower base, the fixing seat, the air inlet box, the air inlet, the shutter and the filter mechanism, when air is sucked through the air inlet box, dust in the air can be filtered through the filter mechanism, the dust in the air can be screened down, the filter screen can be screwed out of the first rotating seat, the filter effect is improved through the filter screen, the purifying capacity of the air inlet box is improved, when the air enters a cleaner area, the filter mechanism can be closed, the service life of the filter mechanism is prolonged, and meanwhile, the energy loss of the air inlet box is saved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a split view of the overall three-dimensional structure of the present utility model;

FIG. 3 is a schematic perspective view of an air inlet box according to the present utility model;

FIG. 4 shows an air inlet box according to the present utility model schematic view of the inside of the three-dimensional structure;

FIG. 5 shows a portion of an air inlet box according to the present utility model schematic view of the inside of the three-dimensional structure;

Fig. 6 is a schematic perspective view of the mounting base of the present utility model.

In the figure: 1. a heat source tower body; 2. a heat source tower base; 3. a fixing seat; 4. an air inlet box; 5. an air inlet; 6. a shutter; 7. a filtering mechanism; 701. a filter plate; 702. a rotating block; 703. a sliding groove; 704. a sliding block; 705. an air inlet knob; 706. a fixed block; 707. a fixing groove; 708. a mounting base; 709. a first rotating seat; 710. a second rotating seat; 711. a rotating groove; 712. a rotating roller; 713. a filter screen; 714. a connecting rope; 715. the knob is rotated.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Examples:

Aiming at the defects of the prior art, the utility model aims to provide a cold and hot type heat source tower, which aims to solve the technical problems that the heat source tower needs to suck air for ventilation treatment in use, but lacks filtering equipment for air, dust in the air is sucked into the heat source tower in the process of sucking the air, so that the dust is easily accumulated in the heat source tower body, and the service life of the heat source tower is influenced.

Referring to fig. 1-6, the present utility model provides a technical solution:

The cold and hot type heat source tower comprises a heat source tower body 1, wherein a heat source tower base 2 is arranged at the bottom of the heat source tower body 1, a fixed seat 3 is arranged between the heat source tower body 1 and the heat source tower base 2, an air inlet box 4 is arranged on the front surface of the heat source tower base 2, an air inlet 5 is formed in the air inlet box 4, a plurality of louver windows 6 are arranged in the air inlet 5, and a filtering mechanism 7 is arranged in the air inlet box 4 and behind the louver windows 6;

Further, firstly, the heat source tower main body is arranged at the top of the heat source tower base 2 for 1 minute, the heat source tower main body 1 and the heat source tower base 2 are fixed through the fixing base 3, air is sucked through the air inlet box 4 when the heat source tower is in use, air is sucked into the air inlet box 4 from the air inlet 5, the sucked air is filtered through the filtering mechanism 7, dust contained in the air is screened off, the filtering effect on the air can be improved through the filtering mechanism 7, the purifying capacity of the air inlet box 4 is improved, when the heat source tower enters a cleaner area, the filtering mechanism 7 can be closed, the service life of the filtering mechanism 7 is prolonged, meanwhile, the energy loss of the air inlet box 4 is saved, when the heat source tower is idle, the louver 6 is closed, and the air and dust in the air are prevented from entering the air inlet box 4.

Referring to fig. 3 to 6, the specific structure of the filtering mechanism 7 is as follows:

The filter mechanism 7 comprises two groups of filter plates 701, two groups of filter plates 701 are arranged in the air inlet box 4 and positioned on the back of the shutter 6, rotating blocks 702 are arranged on the left side and the right side of the two groups of filter plates 701, two groups of sliding grooves 703 are arranged on the inner side wall of the air inlet box 4 and positioned on the rear of the two groups of shutter 6, sliding blocks 704 are arranged on the left side and the right side of the two groups of filter plates 701 and positioned on the corresponding positions of the two groups of filter plates 702, air inlet knobs 705 are arranged on the top of the air inlet box 4 and positioned on the corresponding positions of the two groups of filter plates 702, fixing blocks 706 are arranged on the right side of the air inlet box 4 and positioned on the corresponding positions of the two groups of sliding blocks 704, fixing grooves 709 are arranged in the interior of the sliding blocks 704, a first rotating seat 709 is arranged on the top of the mounting seat 708 between the plurality of shutter 6 and the filter plates 701, a second rotating seat 710 is arranged on the bottom of the mounting seat 708, rotating rollers 709 are arranged on the inner sides of the first rotating seat 709, rotating rollers 712 are arranged on the inner sides of the first rotating seats 709 and the second rotating seat 710, the inner sides of the first rotating seat 709 and the inner sides of the second rotating seat 710 are arranged on the inner sides of the first rotating seats 709, and the inner sides of the first rotating seats 709 are arranged on the outer sides of the inner sides of the first rotating seats and the inner rotating belts 710 are arranged on the inner sides of the first rotating seats and the inner rotating shafts, and the inner rotating shafts 710.

Further, the filter mechanism 7 filters the sucked air, the two sets of rotary knobs 715 penetrate the first rotary seat 709 and the second rotary seat 710 respectively and are connected with the two sets of rotary rollers 712 respectively, the rotary knobs 715 on the left side of the first rotary seat 709 are rotated to drive the rotary rollers 712 to rotate in the rotary grooves 711, the rotary rollers 712 in the first rotary seat 709 retract the filter screen 713, when in use, the rotary knobs 715 on the left side of the second rotary seat 710 are rotated to drive the rotary rollers 712 to rotate in the rotary grooves 711, the rotary rollers 712 in the second rotary seat 710 retract the connecting ropes 714, the connecting ropes 714 pull the filter screen 713 down when in retraction, the filter screen 713 is pulled out from the first rotary seat 709, the air in the air inlet box 4 is filtered through the filter screen 713, when in a region with more dust is driven, the fixing block 706 is rotated out of the inside of the fixing groove 707, the limit of the fixed block 706 to the sliding block 704 is canceled, the two groups of air inlet knobs 705 penetrate through the air inlet box 4 and are connected with the rotating block 702, the two groups of air inlet knobs 705 are connected with the air inlet box 4 in a rotating way, the two groups of filter plates 701 are respectively connected with the air inlet box 4 in a rotating way through the two groups of rotating blocks 702, the air inlet knobs 705 drive the filter plates 701 to rotate through the rotating block 702, the two groups of sliding blocks 704 are respectively connected with the two groups of sliding grooves 703 in a sliding way, the filter plates 701 drive the sliding blocks 704 to move in the sliding grooves 703 during rotation, the external structure size of the two groups of filter plates 701 when being spliced is correspondingly arranged with the internal structure size of the air inlet box 4, so that the two groups of filter plates 701 are spliced, the two groups of filter plates 706 penetrate through the air inlet box 4 and extend into the inner parts of the fixed grooves 707 during rotation of the fixed block 706, the fixed block 706 is in threaded connection with the air inlet box 4 and the fixed groove 707, the fixed block 706 is screwed into the fixed groove 707, the fixed block 706 is clamped with the sliding block 704, and air can be filtered for the second time through the filter plate 701, so that the air quality is further improved.

The working flow of the utility model is as follows: when the heat source tower is used, firstly, the heat source tower main body is arranged on the top of the heat source tower base 2 for 1 minute, the heat source tower main body 1 and the heat source tower base 2 are fixed through the fixing seat 3, when the heat source tower is used, air is sucked into the air inlet box 4 through the air inlet box 4, the sucked air is filtered through the filtering mechanism 7, dust contained in the air is screened off, the filtering effect on the air can be improved through the filtering mechanism 7, the purifying capacity of the air inlet box 4 is improved, when the heat source tower enters a cleaner area, the filtering mechanism 7 can be closed, the service life of the filtering mechanism 7 is prolonged, meanwhile, the energy loss of the air inlet box 4 is saved, when the heat source tower is idle, the louver 6 is closed, and the air and dust in the air are prevented from entering the air inlet box 4.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (7)

1. A cold-hot type heat source tower, comprising a heat source tower main body (1), characterized in that: the heat source tower comprises a heat source tower body (1), a heat source tower base (2) is arranged at the bottom of the heat source tower body (1), a fixing seat (3) is arranged between the heat source tower body (1) and the heat source tower base (2), an air inlet box (4) is arranged on the front surface of the heat source tower base (2), an air inlet (5) is formed in the air inlet box (4), a plurality of louver windows (6) are arranged in the air inlet (5), and a filtering mechanism (7) is arranged in the air inlet box (4) and behind the louver windows (6);

The filter mechanism (7) comprises two groups of filter plates (701), two groups of filter plates (701) are arranged in the air inlet box (4) and positioned on the back of the shutter (6), rotating blocks (702) are arranged on the left side and the right side of each filter plate (701), two groups of sliding grooves (703) are formed in the inner side wall of the air inlet box (4) and positioned at the rear of each shutter (6), and sliding blocks (704) are arranged on the left side and the right side of each filter plate (701) and positioned at the corresponding positions of the sliding grooves (703).

2. A heat source tower of the cold and hot type as set forth in claim 1, wherein: the top of air inlet case (4) and be located two sets of rotary block (702) corresponding position department all are equipped with air inlet knob (705), two sets of air inlet knob (705) all run through air inlet case (4) and are connected with rotary block (702), two sets of air inlet knob (705) are the rotation with the connected mode of air inlet case (4) and are connected.

3. A heat source tower of the cold and hot type as set forth in claim 1, wherein: the right side of the air inlet box (4) and the positions corresponding to the two groups of sliding blocks (704) are respectively provided with a fixed block (706), the inside of the sliding blocks (704) is provided with a fixed groove (707), and the two groups of fixed blocks (706) penetrate through the air inlet box (4) and extend to the inside of the fixed groove (707).

4. A heat source tower of the cold and hot type as claimed in claim 3, wherein: the fixed block (706) is in threaded connection with the air inlet box (4) and the fixed groove (707), an installation seat (708) is arranged inside the air inlet box (4) and between a plurality of shutters (6) and the filter plate (701), a first rotating seat (709) is arranged at the top of the installation seat (708), and a second rotating seat (710) is arranged at the bottom of the installation seat (708).

5. A heat source tower of the cold and hot type as set forth in claim 4, wherein: the inside of first rotation seat (709) and second rotation seat (710) has all seted up rotation groove (711), the inside of first rotation seat (709) and second rotation seat (710) all is equipped with rotor (712), the inside of first rotation seat (709) and the outside that is located rotor (712) are equipped with filter screen (713).

6. A heat source tower of the cold and hot type as set forth in claim 5, wherein: two groups of connecting ropes (714) are arranged in the second rotating seat (710) and located on the outer side of the rotating roller (712), rotating knobs (715) are arranged on the left sides of the first rotating seat (709) and the second rotating seat (710), and the two groups of rotating knobs (715) penetrate through the first rotating seat (709) and the second rotating seat (710) respectively and are connected with the two groups of rotating rollers (712) respectively.

7. A heat source tower of the cold and hot type as set forth in claim 6, wherein: the two groups of connecting ropes (714) and the filter screen (713) are of an integrated structural design, the filter screen (713) and the two groups of connecting ropes (714) are made of nylon materials, and the two groups of rotating rollers (712) are respectively connected with the first rotating seat (709) and the second rotating seat (710) in a rotating manner.