CN214582429U - High-efficient roller kiln burns out production line - Google Patents

Abstract

The utility model discloses a high-efficient roller kiln burns production line relates to pottery and fires technology technical field. The utility model discloses a base, the upper surface central point of base puts furnace body under the fixedly connected with, is provided with the furnace body directly over the furnace body down, and intake pipe A and intake pipe B's one end run through the outer wall that goes up the furnace body and furnace body down respectively and is connected with the oxygen boosting nozzle, and smoking pipe B and smoking pipe A's one end run through the outer wall that goes up furnace body and furnace body down respectively and are connected with the smoking cover, and front end terminal surface one side of base is provided with the oxygen jar, and the fan is installed to upper surface one side of water tank. The utility model discloses an utilize oxygen jar and fan, open in the oxygen jar lets in proper amount oxygen roller kilns, efficiency when improving the gas combustion, the efficient burns the body more, starts the fan and carries out the heat replacement with the cold water in the water tank in with the high temperature flue gas suction in the roller kilns to S type radiator pipe, with the heat recycle of high temperature flue gas, reduces energy loss.

Description

High-efficient roller kiln burns out production line

Technical Field

The utility model belongs to the technical field of the pottery technique of firing, especially, relate to a high-efficient roller kilns firing production line.

Background

China is the country of porcelain, the pottery is also more and more collected by people because of its exquisite appearance and complicated craft, and the pottery fires the core including processes such as throwing, benefiting the base, drawing the base, glazing and firing the kiln, with the development of society, the apparatus of firing the kiln is replaced by modern science and technology too, including roller kilns, tunnel kilns, shuttle kilns, etc., wherein the roller kilns are also called roller kilns, mainly used for the production of ceramic building materials such as ceramic tile, the roller kilns are the kilns fired continuously, use the tunnel kiln of the blank carrier with the rotatory roller, the cross-section of the roller kilns is smaller, the upper and lower distribution burner of the roller, the temperature is uniform in the kiln, suitable for firing fast, and can link into the automatic line with the previous and subsequent processes, can fire the blank fast, but it still has the following drawbacks in the actual use:

1. most of the existing roller kiln firing production lines increase the temperature through gas combustion, and because a large amount of oxygen needs to be consumed during combustion inside the roller kiln, the shortage of oxygen is caused, insufficient gas combustion can be caused, the combustion efficiency is low, and the green body firing is not facilitated;

2. the existing roller kiln firing production line can remove a large amount of generated smoke in the green body firing process, but can also cause a large amount of energy loss.

Therefore, the existing high-efficiency roller kiln sintering production line cannot meet the requirements in actual use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient roller kilns burns till production line, through utilizing oxygen jar and fan, open the solenoid valve on the oxygen jar through external controller control, oxygen passes through the oxygen boosting nozzle and adds proper amount oxygen in to the roller kilns, thereby efficiency when can improving gas combustion, make the more abundant burning of coal gas, can fire the body by the efficient more, start the fan and carry out the heat replacement with the cold water in the water tank in with the high temperature flue gas suction in the roller kilns to S type radiator pipe, can clear away the flue gas in the roller kilns and can also carry out recycle to the heat in the roller kilns, energy loss is reduced.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a high-efficiency roller kiln firing production line, which comprises a base, the upper surface central position of the base is fixedly connected with a lower furnace body, an upper furnace body is arranged right above the lower furnace body, the front end surface central positions of the lower furnace body and the upper furnace body are respectively provided with an air inlet pipe B and an air inlet pipe A, one ends of the air inlet pipe A and the air inlet pipe B respectively penetrate through the outer walls of the upper furnace body and the lower furnace body and are connected with an oxygen enrichment nozzle, the rear end surface central positions of the lower furnace body and the upper furnace body are respectively provided with a smoke absorbing pipe B and a smoke absorbing pipe A, one ends of the smoke absorbing pipe B and the smoke absorbing pipe A respectively penetrate through the outer walls of the lower furnace body and the upper furnace body and are connected with the smoke absorbing hood, one side of the front end surface of the base is provided with an oxygen tank, the outer side of the rear end surface of the base is provided with a water tank, one side of the upper surface of the water tank is provided with a fan, a green body is simultaneously heated up and down through the lower furnace body and the upper furnace body, the production efficiency of the green body is improved, the fan can suck the flue gas in the roller kiln into the water tank for energy replacement, and the energy loss is reduced.

Further, the inside of furnace body and last furnace body is from a left side to the even interval fixedly connected with baffle in the right side down, the outer wall of one side of furnace body and last furnace body all is provided with the gas pipe down, the one end of gas pipe runs through the outer wall and the baffle of furnace body and last furnace body down in proper order, the even interval in bottom of gas pipe is installed the stove fire nozzle, will divide into preheating zone, high temperature district and cooling space with last furnace body down through the baffle.

Further, the front end terminal surface opposite side of base is provided with the motor, the cover is equipped with belt pulley A on the output shaft of motor, belt pulley A passes through the belt and is connected with belt pulley C, both ends are respectively through horizontal pole A and horizontal pole B and last furnace body fixed connection around the bottom of furnace body down, be provided with transmission device from a left side to the even interval in right between horizontal pole A and the horizontal pole B, the motor operation drives belt pulley A and rotates and drive belt pulley C through the belt and rotate.

Further, transport mechanism includes roller stick A, roller stick B and roller stick C, roller stick A and roller stick C are located roller stick B's both sides respectively, roller stick B's the equal fixedly connected with pivot A of both ends terminal surface central point position around, roller stick A and roller stick C's the equal fixedly connected with pivot A of rear end terminal surface central point position, pivot A's the other end is installed in the bearing on horizontal pole A and horizontal pole B terminal surface, and the staff of being convenient for through transport mechanism fires the body in carrying to the roll table kiln.

Further, the equal fixedly connected with pivot B of front end terminal surface central point of roller stick A and roller stick C puts, pivot B's the other end runs through bearing and belt pulley B on the horizontal pole A terminal surface in proper order and is connected with belt pulley C, adjacent two belt pulley B and belt pulley C all pass through belt interval connection, and belt pulley C drives pivot B and belt pulley B and rotates to messenger roller stick A and roller stick C rotate.

Further, the top central point of oxygen cylinder puts and is provided with the outlet duct, be provided with the solenoid valve on the outlet duct, the other end of outlet duct passes through the coupling and is connected with connecting pipe A, connecting pipe A's the other end is connected with connecting pipe B and connecting pipe C through three fens joints, connecting pipe B's the other end passes through the coupling and is connected with intake pipe A, connecting pipe C's the other end passes through the coupling and is connected with intake pipe B, through the switch of external control ware control solenoid valve to the oxygen content in the roll table kiln is added in the control, improves the utilization ratio of coal gas on the one hand, and on the other hand avoids oxygen too much to take place dangerously.

Further, the end of giving vent to anger of fan passes through the coupling and is connected with S type cooling tube, the other end of S type cooling tube runs through the top central point that the water tank put and one side outer wall bottom of water tank in proper order, the inlet end of fan is connected with connecting pipe D and connecting pipe E through three fens joints, connecting pipe D 'S the other end passes through the coupling and is connected with smoking pipe A, connecting pipe E' S the other end passes through the coupling and is connected with smoking pipe B, and the fan passes through smoking pipe A and smoking pipe B with the high temperature flue gas suction in the roller kiln to S type cooling tube in, through the replacement efficiency of S type cooling tube improvement energy.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the oxygen jar, when the staff uses, to wait to burn in the roller kilns is put into to the blank, let in coal gas to the gas pipe, open stove fire nozzle and fire the blank, fire the in-process and open the solenoid valve on the oxygen jar through external control ware control, oxygen adds proper amount oxygen to going up the furnace body and lower furnace body through the oxygen boosting nozzle on intake pipe A and the intake pipe B, thereby efficiency when can improving gas combustion, make more abundant burning of coal gas, can fire the blank more efficient, it improves the temperature through gas combustion mostly to have solved current roller kilns and has fired the production line, need consume a large amount of oxygen when roller kilns inside burning, thereby can cause the oxygen shortage, can lead to gas combustion insufficient, and combustion efficiency, be unfavorable for the problem that the blank was fired.

2. The utility model discloses a set up the fan, when the roller kiln is inside to be fired the body, the inside a large amount of flue gas that can produce of roller kiln, start the fan, the fan passes through smoke absorption pipe A and smoke absorption pipe B with the flue gas suction in the roller kiln and discharges into in the S type radiator pipe, the high temperature flue gas in the S type radiator pipe carries out the heat replacement with the cold water in the water tank, thereby can clear away the flue gas in the roller kiln and can also carry out recycle to the heat in the roller kiln, reduce energy loss, the current roller kiln is fired the production line and is firing the in-process to the body, can clear away a large amount of flue gas that produces, but also can cause a large amount of energy loss' S problem simultaneously.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of the present invention;

fig. 2 is a cross-sectional view of the base of the present invention;

FIG. 3 is a structural diagram of the conveying mechanism of the present invention;

FIG. 4 is a schematic view of the oxygen tank of the present invention;

FIG. 5 is a structural diagram of the water tank of the present invention;

fig. 6 is a sectional view of the water tank of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a base; 101. a lower furnace body; 102. an upper furnace body; 103. a partition plate; 104. a gas pipe; 105. a fire nozzle; 106. a cross bar A; 107. a cross bar B; 108. a motor; 1081. a belt pulley A; 1082. a belt; 109. a transport mechanism; 1091. a roller A; 1092. a roller B; 1093. a roller C; 1094. a rotating shaft A; 1095. a rotating shaft B; 1096. a belt pulley B; 1097. a belt pulley C; 2. an oxygen tank; 201. an air outlet pipe; 202. an electromagnetic valve; 203. a pipe joint; 204. a connecting pipe A; 205. a trisection joint; 206. a connecting pipe B; 207. an air inlet pipe A; 208. a connecting pipe C; 209. an air inlet pipe B; 2010. an oxygen-enriched nozzle; 3. a water tank; 301. a fan; 302. an S-shaped radiating pipe; 303. a connecting pipe D; 304. a smoking pipe A; 305. a connecting pipe E; 306. a smoke suction pipe B; 307. a smoke suction hood.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the utility model relates to a high-efficiency roller kiln firing production line, which comprises a base 1, a lower furnace body 101 fixedly connected to the center of the upper surface of the base 1, an upper furnace body 102 disposed directly above the lower furnace body 101, an air inlet pipe B209 and an air inlet pipe a207 respectively disposed at the center of the front end surfaces of the lower furnace body 101 and the upper furnace body 102, one ends of the air inlet pipe a207 and the air inlet pipe B209 respectively penetrate through the outer walls of the upper furnace body 102 and the lower furnace body 101 to be connected with an oxygen-enriched nozzle 2010, a smoke absorbing pipe B306 and a smoke absorbing pipe a304 respectively disposed at the center of the rear end surfaces of the lower furnace body 101 and the upper furnace body 102, one ends of the smoke absorbing pipe B306 and the smoke absorbing pipe a304 respectively penetrate through the outer walls of the lower furnace body 101 and the upper furnace body 102 to be connected with the smoke absorbing cover 307, an oxygen tank 2 disposed at one side of the front end surface of the base 1, a water tank 3 disposed at the outer side of the rear end surface of the base 1, a fan 301 disposed at one side of the upper surface of the water tank 3, the green bodies are heated up and down simultaneously through the lower furnace body 101 and the upper furnace body 102, the production efficiency of the green bodies is improved, oxygen is added into the upper furnace body 102 and the lower furnace body 101 through the oxygen enrichment nozzles 2010 on the air inlet pipe A207 and the air inlet pipe B209, so that coal gas is combusted more sufficiently, the fan 301 is started, the fan 301 sucks high-temperature flue gas in the roller kiln into the high-temperature flue gas through the smoke suction pipe A304 and the smoke suction pipe B306 and performs heat replacement with cold water in the water tank 3, and the energy loss is reduced.

As shown in fig. 1-2, the interiors of the lower furnace body 101 and the upper furnace body 102 are fixedly connected with partition plates 103 at uniform intervals from left to right, the outer walls of one sides of the lower furnace body 101 and the upper furnace body 102 are both provided with gas pipes 104, one ends of the gas pipes 104 sequentially penetrate through the outer walls of the lower furnace body 101 and the upper furnace body 102 and the partition plates 103, the bottoms of the gas pipes 104 are uniformly provided with fire nozzles 105 at intervals, the lower furnace body 101 and the upper furnace body 102 are divided into a preheating zone, a high-temperature zone and a cooling zone through the partition plates 103, gas is introduced into the gas pipes 104, and the fire nozzles 105 are opened to fire the blanks.

As shown in fig. 1 and 3, a motor 108 is disposed on the other side of the front end face of the base 1, a pulley a1081 is sleeved on an output shaft of the motor 108, the pulley a1081 is connected with a pulley C1097 through a belt 1082, the front and rear ends of the bottom of the lower furnace body 101 are respectively fixedly connected with the upper furnace body 102 through a cross rod a106 and a cross rod B107, transmission mechanisms 109 are uniformly arranged between the cross rod a106 and the cross rod B107 from left to right at intervals, the transmission mechanisms 109 comprise a roller rod a1091, a roller rod B1092 and a roller rod C1093, the roller rod a1091 and the roller rod C1093 are respectively located on two sides of the roller rod B1092, a rotating shaft a1094 is fixedly connected at the center of the front and rear end faces of the roller rod B1092, a rotating shaft a1094 is fixedly connected at the center of the rear end faces of the roller rod a1091 and the roller rod C1093, the other end of the rotating shaft a1094 is mounted in bearings on the end faces of the cross rod a106 and the cross rod B107, a rotating shaft B1095 is fixedly connected at the center of the front end faces of the roller rod A1 and the roller rod C1093, the other end of the rotating shaft B1095 sequentially penetrates through a bearing on the end face of the cross rod A106 and a belt pulley B1096 to be connected with a belt pulley C1097, two adjacent belt pulleys B1096 and the belt pulley C1097 are connected at intervals through a belt 1082, a worker can conveniently convey blanks into the roller kiln to be fired through the transmission mechanism 109, the motor 108 is started, an output shaft of the motor 108 rotates to drive the belt pulley A1081 to rotate, the belt pulley A1081 is connected with the belt pulley C1097 through the belt 1082, so that the belt pulley C1097 rotates and drives the belt pulley B1096 and the roller rod A1091 to rotate through the rotating shaft B1095, and the two adjacent belt pulleys B1096 and the belt pulley C1097 are connected at intervals through the belt 1082, so that the roller rod C1093 rotates to convey blanks to be fired into the roller kiln.

Wherein as shown in fig. 1, 4, the top central point of oxygen cylinder 2 puts and is provided with outlet duct 201, be provided with solenoid valve 202 on the outlet duct 201, the other end of outlet duct 201 passes through coupling 203 and is connected with connecting pipe A204, the other end of connecting pipe A204 passes through three piecings 205 and is connected with connecting pipe B206 and connecting pipe C208, the other end of connecting pipe B206 passes through coupling 203 and is connected with intake pipe A207, the other end of connecting pipe C208 passes through coupling 203 and is connected with intake pipe B209, control the solenoid valve 202 switch through external controller, thereby the oxygen content of control joining in the roller kilns, improve the utilization ratio of coal gas on the one hand, on the other hand, avoid oxygen to take place danger too much.

As shown in fig. 1, 5, and 6, the air outlet end of the blower 301 is connected to the S-shaped heat dissipation pipe 302 through the pipe joint 203, the other end of the S-shaped heat dissipation pipe 302 sequentially penetrates through the top center of the water tank 3 and the bottom end of the outer wall of one side of the water tank 3, the air inlet end of the blower 301 is connected to the connection pipe D303 and the connection pipe E305 through the three-way joint 205, the other end of the connection pipe D303 is connected to the fume pipe a304 through the pipe joint 203, the other end of the connection pipe E305 is connected to the fume pipe B306 through the pipe joint 203, the blower 301 pumps the high-temperature fume in the roller kiln into the S-shaped heat dissipation pipe 302 through the fume pipe a304 and the fume pipe B306, and the energy replacement efficiency is improved through the S-shaped heat dissipation pipe 302.

One specific application of this embodiment is: switching on a device power supply and starting the device; when the roller kiln is used by a worker, the motor 108 is started, an output shaft of the motor 108 rotates to drive the belt pulley A1081 to rotate, the belt pulley A1081 is connected with the belt pulley C1097 through the belt 1082, so that the belt pulley C1097 rotates and drives the belt pulley B1096 and the roller rod A1091 to rotate through the rotating shaft B1095, because the two adjacent belt pulleys B1096 and the belt pulley C1097 are connected at intervals through the belt 1082, the roller rod C1093 rotates to convey a blank to be fired into the roller kiln, coal gas is introduced into the gas pipe 104, the fire nozzle 105 is opened to fire the blank, the electromagnetic valve 202 on the oxygen tank 2 is controlled to be opened through the external controller in the firing process, oxygen is added into the upper furnace body 102 and the lower furnace body 101 through the air inlet pipe A207 and the air inlet pipe B209, the efficiency in the coal gas combustion is improved, the coal gas is more fully combusted, when the blank is fired in the roller kiln, a large amount of flue gas is generated inside the roller kiln, the fan 301 is started, the fan 301 sucks the flue gas in the roller kiln into the S-shaped radiating pipe 302 through the smoke absorbing pipe A304 and the smoke absorbing pipe B306, the high-temperature flue gas in the S-shaped radiating pipe 302 and the cold water in the water tank 3 are subjected to heat replacement, the flue gas in the roller kiln can be removed, and the heat in the roller kiln can be recycled.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a high-efficient roller kilns firing production line, includes base (1), its characterized in that: the upper surface center position of the base (1) is fixedly connected with a lower furnace body (101), an upper furnace body (102) is arranged right above the lower furnace body (101), the front end face center positions of the lower furnace body (101) and the upper furnace body (102) are respectively provided with an air inlet pipe B (209) and an air inlet pipe A (207), one ends of the air inlet pipe A (207) and the air inlet pipe B (209) respectively penetrate through the outer walls of the upper furnace body (102) and the lower furnace body (101) to be connected with an oxygen enrichment nozzle (2010), the rear end face center positions of the lower furnace body (101) and the upper furnace body (102) are respectively provided with a smoke absorbing pipe B (306) and a smoke absorbing pipe A (304), one ends of the smoke absorbing pipe B (306) and the smoke absorbing pipe A (304) respectively penetrate through the outer walls of the lower furnace body (101) and the upper furnace body (102) to be connected with the smoke absorbing hood (307), one side of the front end face of the base (1) is provided with an oxygen tank (2), the rear end face of base (1) outside is provided with water tank (3), fan (301) are installed to the upper surface one side of water tank (3).

2. The high-efficiency roller kiln firing production line of claim 1, characterized in that the interiors of the lower furnace body (101) and the upper furnace body (102) are fixedly connected with partition plates (103) at uniform intervals from left to right, the outer walls of one side of the lower furnace body (101) and one side of the upper furnace body (102) are both provided with gas pipes (104), one ends of the gas pipes (104) sequentially penetrate through the outer walls of the lower furnace body (101) and the upper furnace body (102) and the partition plates (103), and furnace fire nozzles (105) are installed at the bottoms of the gas pipes (104) at uniform intervals.

3. The high-efficiency roller kiln firing production line of claim 1, characterized in that a motor (108) is arranged on the other side of the front end face of the base (1), a belt pulley A (1081) is sleeved on an output shaft of the motor (108), the belt pulley A (1081) is connected with a belt pulley C (1097) through a belt (1082), the front and rear ends of the bottom of the lower furnace body (101) are fixedly connected with the upper furnace body (102) through a cross rod A (106) and a cross rod B (107), and transmission mechanisms (109) are uniformly arranged between the cross rod A (106) and the cross rod B (107) at intervals from left to right.

4. The high-efficiency roller kiln firing production line of claim 3, wherein the conveying mechanism (109) comprises a roller rod A (1091), a roller rod B (1092) and a roller rod C (1093), the roller rod A (1091) and the roller rod C (1093) are respectively located on two sides of the roller rod B (1092), the centers of the front end face and the rear end face of the roller rod B (1092) are fixedly connected with a rotating shaft A (1094), the centers of the rear end face of the roller rod A (1091) and the rear end face of the roller rod C (1093) are fixedly connected with a rotating shaft A (1094), and the other end of the rotating shaft A (1094) is installed in a bearing on the end faces of the cross rod A (106) and the cross rod B (107).

5. The high-efficiency roller kiln firing production line of claim 4, wherein the center positions of the front end faces of the roller bar A (1091) and the roller bar C (1093) are both fixedly connected with a rotating shaft B (1095), the other end of the rotating shaft B (1095) sequentially penetrates through a bearing on the end face of the cross bar A (106) and a belt pulley B (1096) to be connected with a belt pulley C (1097), and two adjacent belt pulleys B (1096) and C (1097) are both connected at intervals through a belt (1082).

6. The high-efficiency roller kiln firing production line according to claim 1, characterized in that an outlet pipe (201) is arranged at the top center of the oxygen tank (2), an electromagnetic valve (202) is arranged on the outlet pipe (201), the other end of the outlet pipe (201) is connected with a connecting pipe A (204) through a pipe joint (203), the other end of the connecting pipe A (204) is connected with a connecting pipe B (206) and a connecting pipe C (208) through a three-way joint (205), the other end of the connecting pipe B (206) is connected with an inlet pipe A (207) through the pipe joint (203), and the other end of the connecting pipe C (208) is connected with an inlet pipe B (209) through the pipe joint (203).

7. The high-efficiency roller kiln firing production line as claimed in claim 1, wherein the air outlet end of the blower (301) is connected with an S-shaped heat dissipation pipe (302) through a pipe joint (203), the other end of the S-shaped heat dissipation pipe (302) sequentially penetrates through the top center position of the water tank (3) and the bottom end of the outer wall of one side of the water tank (3), the air inlet end of the blower (301) is connected with a connection pipe D (303) and a connection pipe E (305) through a three-way joint (205), the other end of the connection pipe D (303) is connected with a smoke suction pipe a (304) through the pipe joint (203), and the other end of the connection pipe E (305) is connected with a smoke suction pipe B (306) through the pipe joint (203).

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