RU2788374C1 - Electronic spraying apparatus - Google Patents

Abstract

FIELD: spraying.

SUBSTANCE: invention relates to an electronic spraying apparatus. Electronic spraying apparatus includes a body, a spraying unit and a heating unit located in the body. The spraying unit comprises a base, a spraying unit positioned on the base, and a spraying shell attached to the base; and includes a first air flow passage configured to discharge the sprayed gas, and the heating unit includes a heating cavity configured to receive and heat a solid smoke-forming medium. The first air flow passage is in communication with the heating cavity so as to be able to mix the smoke with the sprayed gas. The spraying unit is located detachably in the body.

EFFECT: combined use of a spraying unit with a heating unit allows all user requirements for the taste and mouth sensations to be met.

20 cl, 14 dwg

Description

Technical field

[0001] The present disclosure relates to the field of spray devices, in particular to an electronic spray device.

State of the art

[0002] Conventional smoking is carried out by igniting an open flame of tobacco that burns to produce smoke for the smoker to inhale. The smoke generated by burning tobacco usually contains many harmful substances, and therefore, traditional tobacco can not only cause serious respiratory problems for the smoker, but also easily create the danger of passive smoking.

[0003] In order to solve the technical problem that conventional combustion of tobacco generates relatively more harmful substances, technicians have developed spray electronic cigarettes and flue-cured electronic cigarettes. Wherein, the atomizing electronic cigarette generates smoke by atomizing the electronic cigarette liquid to be sucked by the smoker, and the atomizing electronic cigarette overcomes the aforementioned disadvantages of the conventional cigarette and can satisfy the consumer's addiction to tobacco to a certain extent. However, the e-liquid of an e-cigarette is composed of flavorings and flavoring additives, which is not a real cigarette product and cannot be widely accepted by consumers due to its light smoke and lack of tobacco flavor. The prior art low-temperature flue-drying electronic cigarette uses a low-temperature (about 100 degrees Celsius) method of heating tobacco without burning, because due to its low heating temperature, harmful substances generated during heating become less, but the amount of smoke is significantly insufficient. If the tobacco is heated to a high temperature, it can be easily blackened and carbonized, and the heat distribution becomes uneven, which easily causes the problem that one part of the tobacco is carbonized and the other part of the tobacco is not sufficiently heated, and thus more harmful substances are generated. The issue of flavoring tobacco and reducing the amount of harmful substances to a relatively large extent has become an important problem to be solved in the tobacco industry.

Disclosure of the essence of the invention

[0004] The present disclosure provides an improved electronic spray device to address the shortcomings of the above technology.

[0005] In order to achieve the above object, the present disclosure provides an electronic atomizing device, including a housing, and a spraying unit and a heating unit, which are housed in the housing; wherein the atomization unit includes a first air flow passage configured to discharge the atomized gas, and the heating unit includes a heating cavity configured to receive and heat a solid smoke-generating medium; wherein the first air flow passage communicates with the heating cavity so that the smoke can be mixed with the nebulized gas.

[0006] In some embodiments, the first air flow passage includes a first air inlet and a first air outlet, the heating cavity includes a second air inlet and a second air outlet, the second air outlet communicates with the second air inlet.

[0007] In some embodiments, the first air outlet is located on the spray block side adjacent to the heating block, and the first air inlet is located on the spray block side, away from the heating block.

[0008] In some embodiments, the first airflow passage extends transversely in the atomization block and the heating cavity extends longitudinally in the heating block.

[0009] In some embodiments, the electronic atomizer further includes a communication unit including a communication passage for communicating the first air outlet of the atomization unit with the second air inlet of the heating cavity.

[0010] In some embodiments, the body includes a suction nozzle; a heating block which is tubular and placed longitudinally in the housing, wherein the lower end of the heating block is connected to the connection block and the upper end of the heating block is connected to the suction nozzle.

[0011] In some embodiments, the communication block includes a third air outlet located at its top and a third air inlet located on its side surface adjacent to one side of the spray block, the third air inlet communicating with the first air outlet, and the third air outlet communicates with the second air inlet.

[0012] In this embodiment, the bonding block includes a front half and a rear half mated to each other, wherein the surface of the front half in the direction of the rear half is provided with a first arcuate groove having a semicircular cross section, the surface of the rear half in the direction the front half is provided with a second semicircular arcuate groove, the third air outlet communicating with the upper end of the second arcuate groove, and the third air inlet communicating with the lower end of the second arcuate groove; when the front half and the back half are mated, the first arcuate groove and the second arcuate groove are closed to form an arcuate bonding passage.

[0013] In some embodiments, the upper portion of the rear half is further provided with a groove, the groove being located at the lower end of the heating block such that the communication passage communicates with the heating cavity.

[0014] In some embodiments, the implementation of the spray unit is located in the housing with the possibility of detachment.

[0015] In some embodiments, the spray unit includes a base, a spray assembly placed on the base, and a spray shell attached to the base; the spray shell forms a liquid storage cavity for receiving a liquid medium, the liquid storage cavity being fluidly connected to the spray assembly; the spray assembly includes a spray surface, and the spray surface communicates with the first airflow passage.

[0016] In some embodiments, the outer side of the spray shell includes a convex push portion, and the body is provided with a cutout to expose the push portion.

[0017] In some embodiments, the base includes an air guide hole, one end of which communicates with the first airflow passage and the other end extends down to the bottom surface of the base.

[0018] In some embodiments, the electronic spray device further includes an air switch unit located upside down in the housing and a second airflow passage formed in the housing for communicating the air switch unit with the first airflow passage.

[0019] In some embodiments, the housing includes a holder, including a holder; the second air flow passage includes an arcuate first air guide groove formed on the upper surface of the baffle, the first air guide groove extending from the first end of the baffle away from the air switch unit to the second end of the baffle adjacent to the air switch unit.

[0020] In some embodiments, the baffle further includes a second air guide groove associated with the second end of the first air guide groove and extending longitudinally downward, and a third air guide groove connecting the second air guide groove to the air switch assembly.

[0021] In some embodiments, the bottom of the second air guide groove is below the end of the third air guide groove connected to the second air guide groove.

[0022] In some embodiments, the housing includes a cover covering the top of the baffle to seal the first air guide groove; the cover is provided with a vent hole connected to the first end of the first air guide groove, and the vent hole communicates with the air guide hole of the spray unit.

[0023] In some embodiments, the air switch unit includes a seat and an air switch located in the seat, the seat including a receiving cavity with an opening at the top; the air switch is placed upside down in the upper hole, and a space is formed between the operation surface on the top of the air switch and the lower part of the receiving cavity; the mounting base further includes a connecting tube for communication space with the outer part; and the connecting tube communicates with the second airflow passage in the housing.

[0024] In some embodiments, the electronic spray device further includes a power supply, the housing further includes a suction nozzle, the power supply being located at the distal end of the housing away from the suction nozzle, and the atomization unit and heating unit being located at the proximal end of the housing next to the suction nozzle.

[0025] In some embodiments, the heating unit includes a tubular heating element, a tubular heat conductive element coaxially disposed within the heating element, and a tubular guard coaxially disposed outside the heating element.

[0026] In some embodiments, the implementation of the spray unit and the heating unit are placed side by side in the transverse direction of the housing.

[0027] In some embodiments, the heating unit heating temperature is the temperature to maintain the internal temperature of the solid smoke generating medium at 40 to 50 degrees.

[0028] The beneficial effects of the present disclosure are as follows: through the combined use of the atomization unit and the heating unit, the taste and mouth feel requirements of the user can be fully satisfied.

Brief description of the drawings

[0029] FIG. 1 is a schematic perspective view of an electronic spray device according to some embodiments of the present disclosure;

[0030] FIG. 2 is a longitudinal sectional view of the electronic spray device shown in FIG. 1;

[0031] In FIG. 3 is a partially exploded perspective view of the electronic spray device shown in FIG. 1;

[0032] FIG. 4 is a longitudinal sectional view of the electronic spray device shown in FIG. 3, with spatial spacing of parts;

[0033] FIG. 5 is a longitudinal sectional view of the electronic spray device shown in FIG. 1 when the spray assembly is removed;

[0034] FIG. 6 is a schematic sectional view of the body of the electronic spray device shown in FIG. 1;

[0035] FIG. 7 is a perspective view of the holder of the electronic spray device shown in FIG. 1;

[0036] FIG. 8 is a perspective view of the heating unit of the electronic atomizer shown in FIG. 1;

[0037] FIG. 9 is a partially exploded perspective view of the electronic spray device shown in FIG. 8;

[0038] FIG. 10 is a perspective view of the air switch unit of the electronic spray device shown in FIG. 1;

[0039] FIG. 11 is an exploded perspective view of the air switch assembly shown in FIG. 10;

[0040] In FIG. 12 is a perspective view of the communication unit of the electronic spray device shown in FIG. 1;

[0041] FIG. 13 is an exploded perspective view of the communication unit shown in FIG. 12; and

[0042] FIG. 14 is a perspective view of the electronic spray device shown in FIG. 1 with a solid smoke generating medium inserted.

Implementation of the invention

[0043] For a better understanding of the present disclosure, it will now be described in detail with reference to the accompanying drawings.

[0044] FIG. 1 and 2 show an electronic spray device 1 in some embodiments of the present disclosure, this electronic spray device 1 may include a body 10 and a spray unit 20, a heating unit 30, a power unit 40, an air switch unit 50, a main control unit 60, and a communication block 70, which are housed in the body 10. The atomization block 20 is configured to spray a liquid medium such as electronic cigarette liquid and the like, and the heating unit 30 is configured to heat the solid smoke-generating medium 2, such as an aromatic ampoule or the like. ., for the formation of smoke. The spraying unit 20 and the heating unit 30 are placed side by side in the upper part of the housing 10, that is, in the upper part of the housing 10 in its transverse direction. The power supply unit 40 is configured to supply power to the atomization unit 20 and the heating unit 30 and is housed at the bottom of the case 10, in other words, the power unit 40, the atomization unit 20 and the heating unit 30 are distributed in the longitudinal direction of the body 10. The air switch unit 50 is placed between the heating unit 30 and the power unit 40, and is configured to control on-off between the power unit 40 and the atomization unit 20 and the heating unit 30 by driving the airflow. The main control unit 60 is housed in the side of the case 10 and is configured to perform functions such as unlock, input, control, and the like. 1. A coupling unit 70 is provided at the bottom of the heating unit 30, and is configured to communicate the heating unit 30 with the atomization unit 20, so that smoke and atomized gas can be mixed and then discharged to the outside, thereby satisfying the user's requirements. With reference to FIG. 3 and 4, spray unit 20 is, in some embodiments, releasably housed in housing 10 so that spray unit 20 can be replaced. The power supply 40 includes a battery.

[0045] With reference to FIG. 5 and 6, the body 10 may in some embodiments be elongated and flat in shape and may include a cup 11, a holder 13 placed in the cup 11, and a suction nozzle 15 placed on the upper end of the holder 13. In some embodiments, the holder 13 may be made in one piece and may include the first receiving space 131 for receiving the spray unit 20, the second receiving space 132 for receiving the heating unit 30, the third receiving space 133 for receiving the power unit 40, the fourth receiving space 134 for receiving the air unit 50 switch, a fifth receiving space 135 for receiving the main control unit 60, and a sixth receiving space 136 for receiving the communication unit 70. Between the first receiving space 131 and the third receiving space 133, a partition wall 137 is provided, and the upper surface of the partition partition 137 is provided with a pair of electrode holes 1371 , pair of holes 1372 for receiving magnetic elements and an arcuate first air guide groove 1373. A pair of electrode holes 1371 are spaced along the length direction of the partition wall 137. The first air guide groove 1373 extends from the first end away from the fourth receiving space 134 to a second end adjacent to the fourth receiving space 134. The third receiving space 133 is located at the distal end away from the suction nozzle 15, and the first receiving space 131 and the second receiving space 132 are located at the proximal end adjacent to the suction nozzle 15. Accordingly, the power supply 40 is located at the far end aside from the suction nozzle 15, and the atomization unit 20 and the heating unit 30 are located at the proximal end next to the suction nozzle 15, so that the overall structure of the electronic atomizer 1 is more compact.

[0046] As further shown in FIG. 6, the baffle 137 further includes a second air guide groove 1374 connected to the second end of the first air guide groove 1373 and extending downward in the longitudinal direction, and a third air guide groove 1375 connecting the second air guide groove 1374 to the fourth receiving space 134 and extending into transversely so as to form a second airflow passage in communication with the air switch unit 50. The first air guiding groove 1373 has an arcuate shape, so that the possibility of leaking fluid entering the air switch unit 50 can be reduced to a certain extent so as to prevent the leaking fluid from adversely affecting the air switch unit 50. Preferably, the bottom of the second air guide groove 1374 is lower than the end of the third air guide groove 1375 connected to the second air guide groove 1374, so that even if the outflowing liquid enters the second air guide groove, the bottom end of the air guide groove 1374 is able to receive part of the outflowing liquid to further reduce the possibility of the outflowing liquid entering the air switch unit 50.

[0047] As further shown in FIG. 4, in some embodiments, the spray unit 20 may include a base 21, a spray assembly 22 located on the base 21, and a spray shell 23 mounted on the base 21. The spray shell 23 defines a liquid storage cavity 230 for receiving a liquid medium. The liquid absorption surface on the top of the spray assembly 22 protrudes into the liquid storage cavity 230 so as to be fluidly connected to the liquid storage cavity 230 . The base 21 includes a first transverse airflow passage 210 located below the spray assembly 22, with a spray surface on the bottom of the spray assembly 22 protruding into the first airflow passage 210. The outer side and inner side of the spray shell 23 are respectively provided with an air inlet 231 and an air outlet 232 in communication with the first air flow passage 210 . The air inlet 231 allows external air to enter the first airflow passage 210 to mix with the atomization gas generated by the atomization unit 22. The air outlet 232 allows the mixed gas to flow out of the atomization unit 20. The outer side of the spray shell 23 is further provided with a plurality of convex push-out portions 233 to facilitate pushing the spray unit 20 out of the body 10. Accordingly, the cup 11 of the body is provided with a cut-out 110 to expose the push-out portions 233. In some embodiments, the base 21 further includes an air guide hole 212, wherein one end of the air guide hole 212 communicates with the end of the first air flow passage 210 adjacent to the air inlet 231, and the other end of the air guide hole 212 extends down to the bottom surface of the base 21 for communication with the second air flow passage. in the holder 13. The spray unit 20 may further include a pair of electrodes 24 extending through the bottom surface of the base 21 and electrically connected to the spray assembly 22.

[0048] As further shown in FIG. 5, housing 10 in some embodiments further includes a cover 17, a pair of electrode contacts 12, and a pair of magnetic elements 14. Cover 17 covers the top of baffle plate 137 to seal the first air guide groove 1373. Electrode contact 12 extends through electrode hole 1371. and electrically connected to the power supply 40 . The magnetic member 14 is embedded in the hole 1372 to receive the magnet to retract the spray unit 20 . The cover 17 defines a vent 170 communicating with the first end of the first air guide groove 1373. The vent 170 is configured to communicate the second airflow passage with the air guide hole 212 of the spray unit 20. Cover 17 is additionally provided with a hole (not numbered) for exposing contacts 12 of electrodes and magnetic elements 14.

[0049] As shown in FIG. 8 and 9, in some embodiments, heater block 30 may be tubular and housed longitudinally in housing 10. The lower end of heater block 30 is connected to connection block 70, and the upper end of heater block 30 is connected to suction nozzle 15. In some embodiments, embodiment, the heating unit 30 may include a tubular heating element 31, a tubular heat-conducting element 32 coaxially disposed in the heating element 31, and a tubular protective element 33 coaxially disposed outside the heating element. The heating element 31 may include an electrode end 310. The tubular heat-conducting member 32 defines a heating cavity 320 for receiving the solid smoke-generating medium 2, the heating cavity 320 having an air inlet at a lower end and an air outlet at an upper end. The tubular heat-conducting element 32 may be made of a material with good thermal conductivity, such as copper, aluminum, stainless steel, etc., and electrically insulated from the heating element 31, so as to isolate the heating element 31 from the solid smoke-producing environment to prevent damage to the heating element 31 due to external pollution. The tubular protective element 33 may be made of an electrically insulating material and applied to the outer periphery of the heating element to protect the heating element from a short circuit, such as a short circuit. The heating unit 30 can heat a solid smoke-generating medium such as tobacco and the like in a low-temperature manner without combustion, so that less harmful substances can be emitted during heating due to the low heating temperature. Preferably, the heating temperature of the heating unit 30 is a temperature that maintains the internal temperature of the solid smoke generating medium at 40 to 50 degrees. In some embodiments, the heating unit 30 heating temperature is from 45 to 55 degrees.

[0050] As shown in FIG. 10 and 11, in some embodiments, the air switch unit 50 may include a seat 51 and an air switch 52 located in the seat 51. The seat 51 includes a receiving cavity 510 with an opening at the top. As shown in FIG. 4 and 5, the air switch 52 is located upside down in the upper opening, and a space is formed between the operation surface on the top of the air switch 52 and the lower part of the receiving cavity 510. The mounting base 51 further includes a connecting tube 512 for space communication with the outside. The connecting tube 512 is configured to communicate with the second airflow passage in the housing 10. Thus, the operating surface of the air switch 52 communicates with the first airflow passage 210 of the atomizer 20 via the second airflow passage. When the air flow is sucked in the first air flow passage 210, a negative pressure is generated in the second air flow passage, and in addition, a negative pressure is generated on the operating surface of the air switch 52 to turn on the air switches 52. It should be noted that since the air the switch 52 is inverted, and the space between the air switch 52 and the bottom of the receiving cavity 510 is limited, so that even if the outflowing liquid enters the receiving cavity 510, it will be difficult for it to touch the operation surface of the air switch 52, thereby further ensuring the normal operation of the air switch 52.

[0051] As shown in FIG. 12 and 13, in some embodiments, the tie block 70 may include a front half 71 and a back half 72 mated to each other. The surface of the front half 71 towards the rear half 72 is provided with a first arcuate groove 710 having a semicircular cross section. The surface of the rear half 72 in the direction of the front half 71 is provided with a second arcuate groove 720 with a semicircular cross section, and the top of the rear half 72 is further provided with an air outlet 722 associated with the upper end of the second arcuate groove 720, and the side of the rear half 72 adjacent to the spray unit 20 is provided with an air inlet 721 communicating with the lower end of the second arcuate groove 720. The front half 71 and the rear half 72 are connected to form an arcuate connecting passage 73 for directing the transverse to the longitudinal airflow.

[0052] In addition, as shown in FIG. 2, the connecting passage 73 connects the first airflow passage 210 passing in the transverse direction of the spray unit 20 with the heating chamber extending in the longitudinal direction of the heating unit 30. The upper part of the rear half 72 is further provided with a circumferential groove 723 which is tightly fitted to the lower part of the heating unit 30 so as to allow the connection passage 73 to be tightly communicated with the heating cavity of the heating unit 30.

[0053] With reference to FIG. 14, in the process of using the electronic spray device 1, the following steps can be performed:

[0054] (1) The liquid medium atomization unit 20 (not shown) is inserted into the body 10, while the electrodes 24 of the atomization unit 20 come into electrical contact with the electrode contacts 12 on the body 10.

[0055] (2) The solid smoke generating medium 20 is introduced into the heating unit 30 through the suction nozzle 15.

[0056] (3) When sucked through the suction nozzle 15, the air flow drives the air switch 52, and the atomization unit 20 starts to atomize the liquid medium to generate an atomized gas, and the heating unit 30 starts to heat the solid smoke-generating medium 2 to generate smoke.

[0057] (4) Finally, the mixture of air with atomized gas and smoke exits the electronic atomizer 1 through the suction nozzle 15.

[0058] It should be understood that the heating unit 30 can be used to atomize a liquid medium to generate an atomized gas when the solid smoke medium 2 does not need to be heated.

[0059] The above embodiments are only preferred embodiments of the disclosure, however, the disclosure is not limited thereto, and any variations that a person skilled in the art may think of should fall within the protection scope of this disclosure.

Claims (22)

1. An electronic atomizing device, characterized in that it comprises a housing and a spray unit and a heating unit located in the housing, the atomization unit comprising a first air flow passage configured to output the atomized gas, and the heating unit comprising a heating cavity configured to receive and heating a solid smoke-forming medium; wherein the first air flow passage communicates with the heating cavity so as to allow mixing of the smoke with the nebulized gas; the spray unit includes a base, a spray assembly placed on the base, and a spray shell attached to the base; the spray shell forms a liquid storage cavity for receiving a liquid medium, and the liquid storage cavity is fluidly connected to the spray assembly; the spray assembly includes a spray surface in communication with the first airflow passage; the spray unit is located in the housing with the possibility of detachment. 2. The electronic atomizer according to claim 1, wherein the first air flow passage comprises a first air inlet and a first air outlet, the heating cavity comprises a second air inlet and a second air outlet, the first air outlet for air is in communication with the second air inlet. 3. The electronic atomizer according to claim 2, wherein the first air outlet is located on the side of the atomization unit next to the heating unit, and the first air inlet is located on the side of the atomization unit away from the heating unit. 4. Electronic spray device according to any one of paragraphs. 1-3, in which the first airflow passage extends transversely in the atomization block and the heating cavity extends longitudinally in the heating block. 5. The electronic atomizer according to claim 4, which further comprises a communication unit comprising a communication passage for communicating the first air outlet of the atomization unit with the second air inlet of the heating cavity. 6. Electronic spray device according to claim 5, in which the housing contains a suction nozzle; the heating block is tubular and placed in the housing in the longitudinal direction, and the lower end of the heating block is connected to the connecting block, and the upper end of the heating block is connected to the suction nozzle. 7. Electronic spray device according to claim 5, in which the connecting unit includes a third air outlet located in its upper part, and a third air inlet located on its side surface near one side of the spray unit, and the third inlet the air outlet communicates with the first air outlet, and the third air outlet communicates with the second air inlet. 8. The electronic spray device according to claim 7, wherein the connecting unit comprises a front half and a rear half that are mated to each other, wherein the surface of the front half in the direction of the rear half is provided with a first arcuate groove having a semicircular cross section, the surface of the rear half in the direction of the front half is provided with a second arcuate groove with a semicircular cross section, wherein the third air outlet communicates with the upper end of the second arcuate groove, and the third air inlet communicates with the lower end of the second arcuate groove, wherein when the front half and the back half are joined, the first arcuate groove and the second arcuate groove are connected to form an arcuate connecting passage. 9. The electronic atomizer according to claim 8, wherein the upper part of the rear half is further provided with a groove, the groove being located at the lower end of the heating unit so that the communication passage communicates with the heating cavity. 10. The electronic atomizer according to claim 1, wherein the outer side of the atomization shell comprises a convex projecting portion and the housing is provided with a cutout to expose the ejected portion. 11. The electronic atomizer according to claim 10, wherein the base includes an air guide hole, one end of the air guide hole communicates with the first air flow passage, and the other end of the air guide hole extends down to the bottom surface of the base. 12. The electronic spray device of claim 1, wherein the electronic spray device further comprises an air switch unit housed in the housing, and a second air flow passage is formed in the housing for communicating the air switch unit with the first air flow passage. 13. Electronic spray device according to claim 12, in which the housing contains a holder; the second air flow passage comprises an arcuate first air guide groove formed on the upper surface of the baffle, the first air guide groove extending from the first end of the baffle away from the air switch unit to the second end of the baffle adjacent to the air switch unit. 14. The electronic atomizer according to claim 13, wherein the baffle further comprises a second air guide groove in communication with the second end of the first air guide groove and extend longitudinally downward, and a third air guide groove allowing the second air guide groove to communicate with the block. air switch. 15. The electronic atomizer according to claim 14, wherein the bottom of the second air guide groove is lower than the end of the third air guide groove connected to the second air guide groove. 16. Electronic spray device according to claim 13, in which the housing includes a cover covering the upper part of the baffle plate to seal the first air guide groove; the cover is provided with a vent in communication with the first end of the first air guide groove, the vent in communication with the air guide hole of the atomizer unit. 17. The electronic spray device according to claim 12, in which the air switch unit contains a seat and an air switch placed in the seat, and the seat contains a receiving cavity with an opening in the upper part; the air switch is placed upside down in the upper opening and a space is formed between the actuation surface at the top of the air switch and the lower part of the receiving cavity, the mounting base further comprising a connecting tube for communicating the space with the outer part; and the connecting tube communicates with the second airflow passage in the housing. 18. The electronic spray device according to claim 1, wherein the heating unit comprises a tubular heating element, a tubular heat-conducting element coaxially disposed in the heating element, and a tubular protective element coaxially disposed outside the heating element. 19. Electronic spray device according to any one of paragraphs. 1-3 and 12-18, in which the atomization unit and the heating unit are placed side by side in the transverse direction of the body. 20. Electronic spray device according to any one of paragraphs. 1-3 and 12-18, wherein the heating temperature of the heating unit is the temperature for maintaining the internal temperature of the solid smoke generating medium at 40 to 50 degrees.

Images