CN105091347A - Energy-saving environment-friendly combustion heating control device - Google Patents

Abstract

The invention discloses an energy-saving environment-friendly combustion heating control device. The energy-saving environment-friendly combustion heating control device comprises a controller, and the controller is connected with an atmospheric pressure sensor, a gas proportional valve and a fan through power conductors. The energy-saving environment-friendly combustion heating control device is simple in structure, and in the working process, according to atmospheric pressure data led in advance, the atmospheric pressure sensor detects the atmospheric pressure value of the exterior environment, and through the real-time atmospheric pressure value, the corresponding atmospheric pressure data which are led in advance can be found out; according to the corresponding atmospheric pressure data, power for starting the fan is determined, meanwhile, the controller determines the opening proportion of the gas proportional valve according to the preset data, and the proportion of entering of gas is controlled; and in the ignition process, gas and oxygen in the air are mixed so as to achieve the optimum gas and oxygen proportion needed by optimum ignition starting, and the mixed gas is fully combusted in a combustion heat exchanger.

Description

Energy saving and environment friendly combustion heating control device

Technical field

The present invention relates to burning heater, specifically a kind of energy saving and environment friendly combustion heating control device.

Background technology

Existing water heater is all atmospheric burning type mode of heating.After complete machine starts, blower fan is capacity operation always, burner is fire grate type burning, gas valve is ratio control by a small margin after opening, and leaving water temperature realizes mainly through the combination of artificial knob or the following 3 kinds of modes of button or these 3 kinds of modes: 1, control flame intensity by the row of catching fire of summer, feast-brand mark knowledge prompting in winter client control combustion device fire row and control leaving water temperature.2, leaving water temperature is controlled by discharge size.3, the manual adjustment combustion gas amount of feeding regulates intensity of fire.But, in actual use, after water heater is opened fire, sometimes have blue fire, Huang Huo, flourishing difference, its intensity of fire is also different, whether this is relevant to oxygen Thorough combustion or oxygen implication is relevant combustion gas, above control is all realized by the mode of artificial knob, the water temperature of manual adjustment, people often only focus on the temperature of water, ignore or do not know combustion gas and air stoichiometry and reach the Thorough combustion of combustion gas, causing a large amount of thermal waste and the overproof discharge of the nuisance such as carbon monoxide and nitrogen oxide.

Summary of the invention

In order to solve above-mentioned technical problem, the invention provides a kind of structure simple, according to the different air pressure of height above sea level, automatic adjustment power of fan, increase the oxygen quantity delivered in air and determine the air inflow of gas ratio valve, reach after making the oxygen mix in combustion gas and air optimum start-up light a fire needed for combustion gas, oxygen optimum proportioning energy saving and environment friendly combustion heating control device.

The scheme solving above-mentioned technical problem is:

Energy saving and environment friendly combustion heating control device, combustion heating control device comprises controller (1), and controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor.

Further: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; Described blower fan (13) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

Further: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; Described blower fan (13) is connected with blast pipe (132), described blast pipe (132) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

Further: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; The afterbody of described combustion heat exchanger (14) is provided with lambda sensor (17), and lambda sensor (17) is connected on controller (1) by power line; Described blower fan (13) is connected with blast pipe (132), described blast pipe (132) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

Further: described blower fan (13) is frequency conversion fan.

Further: described combustion heat exchanger (14) afterbody is connected with smoke exhaust pipe (141), smoke exhaust pipe (141) is provided with lambda sensor (17).

Further: described combustion heat exchanger (14) is provided with water inlet (142) and delivery port (143).Advantage of the present invention:

This product structure of the present invention is simple, during work, according to the atmospheric pressure data imported in advance, the atmospheric pressure intensity values of external environment condition is detected by atmospheric pressure intensity sensor, found by Real-Time Atmospheric pressure values and import corresponding atmospheric pressure data in advance, the power starting blower fan is determined according to the atmospheric pressure Value Data of correspondence, controller is simultaneously according to the ratio that the data determination gas ratio valve preset is opened, control the ratio that combustion gas enters, during igniting, reach after making the oxygen mix in combustion gas and air optimum start-up light a fire needed for combustion gas, oxygen optimum proportioning, make after mixing at combustion gas Thorough combustion in combustion heat exchanger.

Software data according to controller sets, and also automatically adjusts by controller the ratio that gas ratio valve opens, and controls the ratio that combustion gas enters, reaches air and mix with the optimal proportion of combustion gas, makes after mixing at combustion gas Thorough combustion in combustion heat exchanger.

Software data according to controller sets, and lambda sensor carries out Secondary Control gas ratio valve, makes after mixing at combustion gas Thorough combustion in combustion heat exchanger.

Accompanying drawing explanation

Fig. 1 is the control device block diagram of product of the present invention;

Fig. 2 is the control device block diagram of product of the present invention;

Fig. 3 is the control device block diagram of product of the present invention;

Fig. 4 is the control device application structure schematic diagram of product of the present invention;

Fig. 5 is the control device application structure schematic diagram of product of the present invention;

Fig. 6 is the control device application structure schematic diagram of product of the present invention.

Detailed description of the invention

As shown in figs 1 to 6: energy saving and environment friendly combustion heating control device, combustion heating control device comprises controller 1, and controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor.

Further: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor, blower fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire; Described blower fan 13 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12.

Further: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor, blower fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire; Described blower fan 13 is connected with blast pipe 132, described blast pipe 132 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12.

Further: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor, blower fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire; The afterbody of described combustion heat exchanger 14 is provided with lambda sensor 17, and lambda sensor 17 is connected on controller 1 by power line; Described blower fan 13 is connected with blast pipe 132, described blast pipe 132 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12.

Further: described blower fan 13 is frequency conversion fan.

Further: described combustion heat exchanger 14 afterbody is connected with smoke exhaust pipe 141, smoke exhaust pipe 141 is provided with lambda sensor 17.

Further: described combustion heat exchanger 14 is provided with water inlet 142 and delivery port 143.

Embodiment 1:

As shown in Figure 1, Figure 2, Figure 4 shows: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor, blower fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire, described combustion heat exchanger 14 is provided with water inlet 142 and delivery port 143, described blower fan 13 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12, during work, current enter from water inlet 142, flow out at delivery port 143, the ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, also controller 1 controls the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition simultaneously, controlled the starting power of blower fan 13 again by controller 1 according to the feedback pressure values of atmospheric pressure intensity sensor 11, operating power is decided to be by the starting power of blower fan 13, oxygen content is determined according to blower fan 13 operating power determination intake, controller 1 controls gas ratio valve 12 and opens, make the incendivity proportioning that the oxygen in combustion gas and air intake reaches best, ignition electrode 15 is lighted fast when lighting a fire, such as: when gas ratio valve 12 sets the ratio 30% opened, the operating power of blower fan 13 is 50 watts-100 watts, and corresponding blower fan 13 rotating speed is 1500 revs/min-8000 revs/min, the operating power of blower fan 13 reduces along with atmospheric pressure intensity values and improves blower fan 13 operating power, accelerates the rotating speed of blower fan, increases oxygen delivery capacity, the detection range of atmospheric pressure intensity sensor 41 is: 100Kpa-30Kpa, corresponding height above sea level is 0 meter-9000 meters, during work, the ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, also the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition is controlled with Time Controller 1, when the atmospheric pressure intensity values detected is 90Kpa, presumption height above sea level about 1000 meters, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that blower fan 13 starts 55 watts is controlled by controller 1, according to 55 watts of power that blower fan 13 starts, the estimating rotation speed of blower fan 13 is 2000 revs/min, this just can make the oxygen content in intake and gas ratio valve 12 open 30% enter to reach after gas quantity mixes minimum requirements that start-up point catches fire and burn, make combustion gas, oxygen reaches the igniting requirement of optimum proportioning, when the atmospheric pressure intensity values detected is 70Kpa, presumption height above sea level about 3000 meters, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that blower fan 13 starts 65 watts is controlled by controller 1, according to 65 watts of power that blower fan 13 starts, the estimating rotation speed of blower fan 13 is 3000 revs/min, this just can make the oxygen content in intake and gas ratio valve 12 open 30% enter to reach after gas quantity mixes minimum requirements that start-up point catches fire and burn, and makes combustion gas, igniting requirement that oxygen reaches optimum proportioning, the constant rate that gas ratio valve 12 is once opened, but along with the rising of height above sea level, content of oxygen in air gradually reduces, rotating speed is increased by the operating power improving blower fan 13, make air intake quantitative change greatly to reach the quantity delivered of supplemental oxygen, make the supply gas quantity fixed and adjust blower fan 13 operating power because of different altitude height and carry out adjusting rotary speed, to ensure minimum oxygen quantity delivered, to reach the minimum requirements of a little catching fire and to burn, make combustion gas, igniting requirement that oxygen reaches optimum proportioning.

Embodiment 2:

As shown in Figure 1, Figure 2, Figure 5: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, frequency conversion fan 13 respectively by power conductor, frequency conversion fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire; Described frequency conversion fan 13 is connected with blast pipe 132, described blast pipe 132 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12; Described combustion heat exchanger 14 is provided with water inlet 142 and delivery port 143; During work, current enter from water inlet 142, flow out from delivery port 143; The ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, controller 1 also controls the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition simultaneously, controlled the starting power of frequency conversion fan 13 again by controller 1 according to the feedback pressure values of atmospheric pressure intensity sensor 11, according to the starting power of frequency conversion fan 13, controller 1 controls the ratio that gas ratio valve 12 is opened again, reach air to mix with the optimal proportion of combustion gas, make mixed combustion gas Thorough combustion in combustion heat exchanger 14; Such as: when to set the proportion opened be 30%-100% to gas ratio valve 12, the ratio that activates to open is minimum opens 30%; The operating power of frequency conversion fan 13 is 50 watts-100 watts, and corresponding frequency conversion fan 13 rotating speed is 1500 revs/min-8000 revs/min; The operating power of frequency conversion fan 13 reduces along with atmospheric pressure intensity values and improves frequency conversion fan 13 operating power, accelerates the rotating speed of blower fan, increases oxygen delivery capacity; The detection range of atmospheric pressure intensity sensor 11 is: 100Kpa-30Kpa, and corresponding height above sea level is 0 meter-9000 meters; The ratio that gas ratio valve 12 is opened adjusts by controller 1 ratio of opening according to the starting power of frequency conversion fan 13 automatically; Gas ratio valve 12 increases along with the raising of frequency conversion fan 13 operating power the ratio of opening, and forms the curve tendency figure of direct ratio between frequency conversion fan 13, atmospheric pressure intensity sensor 11, gas ratio valve 12 three; If the ratio that frequency conversion fan 13 and atmospheric pressure, gas ratio valve 12 are opened is set as follows: when atmospheric pressure intensity values is 100Kpa, frequency conversion fan 13 starts operating power and is: 50 watts, and the ratio that gas ratio valve 12 is opened is 30%; When atmospheric pressure intensity values is 80Kpa, frequency conversion fan 13 starts operating power and is: 60 watts, and the ratio that gas ratio valve 12 is opened is 40%; Atmospheric pressure intensity values is that the frequency conversion fan 13 between 60Kpa starts operating power and is: 65 watts, the ratio that gas ratio valve 12 is opened is 50%, analogizes in proportion successively; Frequency conversion fan 13 is connected with combustion heat exchanger 14 by airduct 131, and combustion heat exchanger 14 is provided with water inlet 142 and delivery port 143, and current enter from water inlet 142, flows out from delivery port 143; The ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, controller 1 also controls the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition simultaneously, when the atmospheric pressure intensity values detected is 80Kpa, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that frequency conversion fan 13 starts 60 watts is controlled by controller 1, according to 60 watts of power that frequency conversion fan 13 starts, it is 40% that controller 4 controls the ratio that gas ratio valve 12 opens, reach air like this to mix with the optimal proportion of combustion gas, make after mixing at combustion gas Thorough combustion in combustion heat exchanger 14; When the atmospheric pressure intensity values detected is 60Kpa, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that frequency conversion fan 13 starts 65 watts is controlled by controller 1, according to 60 watts of power that frequency conversion fan 13 starts, it is 50% that controller 1 controls the ratio that gas ratio valve 12 opens, reach air like this to mix with the optimal proportion of combustion gas, make mixed combustion gas Thorough combustion in combustion heat exchanger 14.

Embodiment 3:

As shown in Fig. 1, Fig. 3, Fig. 6: combustion heating control device comprises controller 1, controller 1 is connected with atmospheric pressure intensity sensor 11, gas ratio valve 12, blower fan 13 respectively by power conductor, blower fan 13 is connected with combustion heat exchanger 14 by airduct 131, combustion heat exchanger 14 is installed with ignition electrode 15, ignition electrode 15 is connected on controller 1 by electric wire, described combustion heat exchanger 14 afterbody is connected with smoke exhaust pipe 141, smoke exhaust pipe 141 is provided with lambda sensor 17, and lambda sensor 17 is connected on controller 1 by power line, described blower fan 13 is connected with blast pipe 132, described blast pipe 132 is connected with gas inlet pipe 16, gas inlet pipe 16 is provided with gas ratio valve 12, described combustion heat exchanger 14 is provided with water inlet 142 and delivery port 143, during work, current enter from water inlet 142, flow out at delivery port 143, the ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, also controller 1 controls the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition simultaneously, controlled the starting power of blower fan 13 again by controller 1 according to the feedback pressure values of atmospheric pressure intensity sensor 11, operating power is decided to be by the starting power of blower fan 13, oxygen content is determined according to blower fan 13 operating power determination intake, controller 1 controls gas ratio valve 12 and opens, make the incendivity proportioning that the oxygen in combustion gas and air intake reaches best, ignition electrode 15 is lighted fast when lighting a fire, after fire normal combustion, controller 1 controls lambda sensor 17 and detects the oxygen content after burning, that feeds back according to lambda sensor 17 contains oxygen value height, control gas ratio valve 12 by controller 1 and open ratio, mix with the optimal proportion of combustion gas to reach air, make mixed combustion gas Thorough combustion in combustion heat exchanger 14, such as: when gas ratio valve 12 sets the ratio 30% opened for the first time, the operating power of blower fan 13 is 50 watts-100 watts, and corresponding blower fan 13 rotating speed is 1500 revs/min-8000 revs/min, the operating power of blower fan 13 reduces along with atmospheric pressure intensity values and improves frequency conversion fan 13 operating power, accelerates the rotating speed of blower fan, increases oxygen delivery capacity, the detection range of atmospheric pressure intensity sensor 41 is: 100Kpa-30Kpa, corresponding height above sea level is 0 meter-9000 meters, during work, the ignition electrode 15 of controller 1 control combustion heat exchanger 14 is lighted a fire, also the atmospheric pressure intensity values that atmospheric pressure intensity sensor 11 detects external environment condition is controlled with Time Controller 1, when the atmospheric pressure intensity values detected is 90Kpa, presumption height above sea level about 1000 meters, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that blower fan 13 starts 55 watts is controlled by controller 1, according to 55 watts of power that blower fan 13 starts, the estimating rotation speed of blower fan 13 is 2000 revs/min, this just can make the oxygen content in intake and gas ratio valve 12 open 30% enter to reach after gas quantity mixes minimum requirements that start-up point catches fire and burn, make combustion gas, oxygen reaches the igniting requirement of optimum proportioning, after burning, blower fan 13 operating power is constant, by lambda sensor 17, controller 1 detects that oxygen content in smoke evacuation is higher than institute's preset value, now, by the controller 1 chip error of calculation, gained is calculated according to the data preset, gas ratio valve 12 should be opened for 33% ability Thorough combustion, now, control gas ratio valve 12 by controller 1 and increase the ratio opened, reach and be opened for 33%, to reach the Thorough combustion that combustion gas mixes with air, when the atmospheric pressure intensity values detected is 70Kpa, presumption height above sea level about 3000 meters, according to the feedback pressure values of atmospheric pressure intensity sensor 11, the power that blower fan 13 starts 65 watts is controlled by controller 1, according to 65 watts of power that blower fan 13 starts, the estimating rotation speed of blower fan 13 is 3000 revs/min, this just can make the oxygen content in intake and gas ratio valve 12 open 30% enter to reach after gas quantity mixes minimum requirements that start-up point catches fire and burn, make combustion gas, oxygen reaches the igniting requirement of optimum proportioning, after burning, blower fan 13 operating power is constant, by lambda sensor 17, controller 1 detects that oxygen content in smoke evacuation is higher than institute's preset value, now, by the controller 1 chip error of calculation, gained is calculated according to the data preset, gas ratio valve 12 should be opened for 35% ability Thorough combustion, now, control gas ratio valve 12 by controller 1 and increase the ratio opened, reach and be opened for 35%, to reach the Thorough combustion that combustion gas mixes with air, lambda sensor 17 mainly secondary fine setting, the constant rate that gas ratio valve 12 is opened for the first time, but along with the rising of height above sea level, content of oxygen in air gradually reduces, rotating speed is increased by the operating power improving blower fan 13, make air intake quantitative change greatly to reach the quantity delivered of supplemental oxygen, make the supply gas quantity fixed and adjust blower fan 13 operating power because of different altitude height and carry out adjusting rotary speed, to ensure minimum oxygen quantity delivered, to reach the minimum requirements of a little catching fire and to burn, make combustion gas, oxygen reaches the igniting requirement of optimum proportioning, after burning, the oxygen content of tail gas is detected by lambda sensor 17, Secondary Control gas ratio valve 12 again, to reach Thorough combustion.

Claims (7)

1. energy saving and environment friendly combustion heating control device, it is characterized in that: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor.

2. energy saving and environment friendly combustion heating control device according to claim 1, it is characterized in that: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; Described blower fan (13) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

3. energy saving and environment friendly combustion heating control device according to claim 1, it is characterized in that: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; Described blower fan (13) is connected with blast pipe (132), described blast pipe (132) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

4. energy saving and environment friendly combustion heating control device according to claim 1, it is characterized in that: combustion heating control device comprises controller (1), controller (1) is connected with atmospheric pressure intensity sensor (11), gas ratio valve (12), blower fan (13) respectively by power conductor, blower fan (13) is connected with combustion heat exchanger (14) by airduct (131), combustion heat exchanger (14) is installed with ignition electrode (15), ignition electrode (15) is connected on controller (1) by electric wire; The afterbody of described combustion heat exchanger (14) is provided with lambda sensor (17), and lambda sensor (17) is connected on controller (1) by power line; Described blower fan (13) is connected with blast pipe (132), described blast pipe (132) is connected with gas inlet pipe (16), gas inlet pipe (16) is provided with gas ratio valve (12).

5., according to the arbitrary described energy saving and environment friendly combustion heating control device of claim 1-4, it is characterized in that: described blower fan (13) is frequency conversion fan.

6. energy saving and environment friendly combustion heating control device according to claim 4, it is characterized in that: described combustion heat exchanger (14) afterbody is connected with smoke exhaust pipe (141), smoke exhaust pipe (141) is provided with lambda sensor (17).

7. the energy saving and environment friendly combustion heating control device according to claim 1 or 2 or 3 or 4 or 6, is characterized in that: described combustion heat exchanger (14) is provided with water inlet (142) and delivery port (143).