CN210929464U - Controllable novel tealeaves charcoal of temperature is baked over a slow fire assembly line - Google Patents

Abstract

A novel tea leaf charcoal baking production line with controllable temperature, which comprises a base, wherein a heat source cavity with a right opening is arranged in the base, a red carbon containing block is arranged in the heat source cavity in a sliding manner, a containing cavity for containing carbon is arranged in the red carbon containing block with an upward opening, a communicating cavity with an upward opening is arranged in the inner wall of the upper side of the heat source cavity, a heat source partition component is arranged in the communicating cavity, a support is fixedly connected on the upper side end surface of the base, a circulation hole is arranged in the support in a vertically penetrating manner, the inner wall of the circulation hole is fixedly provided with a temperature sensor which can be used for monitoring the temperature, the embodiment aims at designing a device which can automatically adjust the temperature, and the baking temperature is kept in a novel tea leaf charcoal baking production line with controllable temperature of fifty to sixty degrees centigrade.

Description

Controllable novel tealeaves charcoal of temperature is baked over a slow fire assembly line

Technical Field

The utility model relates to the technical field of tea processing, in particular to a novel tea charcoal baking production line with controllable temperature.

Background

Tea is one of three major beverages in the world, the tea is widely distributed in China, the tea drinking culture of China for thousands of years has been achieved so far, in the middle of the culture distribution, branches of the tea are gradually increased, the Tieguanyin tea, the Longjing tea and other tens of branches are achieved so far, however, no matter which type of tea needs to be baked during processing, the baking time is as long as several hours, and the temperature needing to be baked in the baking process is kept between fifty and sixty degrees centigrade, which is extremely tedious, so that the tea charcoal baking production line aims to design a novel tea charcoal baking production line which can automatically adjust the temperature and control the baking temperature between fifty and sixty degrees centigrade.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the embodiment designs a novel tea leaf charcoal baking line with controllable temperature, which comprises a base, wherein a heat source cavity with a right opening is arranged in the base, a red charcoal containing block is slidably arranged in the heat source cavity, a containing cavity for containing charcoal is arranged in the red charcoal containing block with an upward opening, a communicating cavity with an upward opening is arranged in the inner wall of the upper side of the heat source cavity, a heat source partition component is arranged in the communicating cavity, a support is fixedly connected to the end surface of the upper side of the base, a circulation hole is arranged in the support in a vertically penetrating manner, open slots with upward openings are arranged in the arc-shaped inner walls of the periphery of the circulation hole in a communicating manner, a temperature sensor for monitoring the temperature is fixedly arranged on the inner wall of the circulation hole, and the temperature sensor can control the heat source partition component according to the monitored temperature in the circulation, and then regulation and control heat source chamber flow direction the heat of opening, can be used to place the cage body of waiting to hold tealeaves in the red charcoal holds the piece, the cage is internal to run through from top to bottom is provided with the cage chamber, the fixed baffle that holds that is provided with of cage intracavity, hold the baffle can be used to prevent tealeaves and drop and ensure steam and pass through the cage chamber, and then to placing the tealeaves of cage intracavity is carried out the charcoal and is baked over, the base downside just is located the cage intracavity is provided with the water pipe, wherein, be provided with respectively in the side inner wall about the open slot communicate in the external world and can respectively with the mouth of a river of end intercommunication about the water pipe, work as the water pipe with during mouth of a river intercommunication, the mouth of a river with the water pipe inner circulation has fifty degrees centigrade water, through a part of heat of water in the water pipe, and then the prevention.

Preferably, the heat source partition component comprises symmetrically arranged rotating grooves in the inner walls of the left side and the right side of the communicating cavity, the rotating grooves on the left side and the right side are respectively rotatably provided with a circular rotating block, a spacing block component is fixedly connected between the opposite side end faces of the circular rotating blocks on the two sides, a driving cavity is arranged in the inner wall of the left side of the rotating groove on the left side, a driving rotating block capable of rotating in the driving cavity is fixedly connected on the end face of the left side of the circular rotating block on the left side, branches are respectively and fixedly connected on the upper end face, the lower end face and the lower end face of the driving rotating block on the two sides, the branches are distributed in a front-back arrangement mode and are connected through a push rod, the driving rotating block at the most middle position is in power connection with a driving motor fixedly arranged in the inner wall of the left side of the driving cavity, and when, the push rod can be pushed to move by the branches, so that the driving rotating blocks are driven to rotate, the overturning angle of the spacer assembly can be adjusted, and the heat of the heat source cavity flowing to the circulation hole can be adjusted.

Preferably, the spacer assembly comprises a mandrel fixedly connected to the end face of the opposite side of the round rotating block on the left side and the right side, a flaky spacer is arranged on the outer side of the mandrel, the spacer is made of heat insulation cotton, the mandrel can be used for supporting the spacer, the upper end and the lower end of the communicating cavity can be separated through the rotating angle of the spacer, and then the heat in the heat source cavity flowing to the through hole is reduced.

Preferably, the push rod is made of a hard rod, so that when the branches swing, the branches on the front side and the rear side can be pushed to swing through the push rod, and the driving rotating blocks distributed in the front and the rear direction are connected in series, so that synchronous rotation of each spacer assembly can be realized.

Preferably, the temperature sensor recommends the platinum resistance that uses the model to be PT100/1000, through but temperature sensor real-time supervision the heat source chamber flow direction to the temperature of the heat in the through-hole, and pass through driving motor carries out real-time adjustment to the circulation temperature, and then keeps the heat source intracavity flow direction the temperature in the through-hole keeps between fifty degrees centigrade to sixty degrees centigrade, and the tealeaves taste that cures through fifty degrees centigrade to sixty degrees centigrade is the best.

Preferably, the handle is fixedly connected to the end face of the right side of the red carbon containing block, a user can take out the red carbon containing block through the handle, the carbon in the containing cavity is added, and the handle can avoid direct contact of the user with the red carbon containing block.

The utility model has the advantages that: when using, this device can be real-time to the temperature control, can cut off tealeaves and heat source when the high temperature and lower the temperature, and low temperature communicates heat source and tealeaves once more when crossing to this control tealeaves cures the temperature, and at the in-process of curing, this device complete automation accomplishes, need not workman real time monitoring, great reduction staff's intensity of labour is worth recommending and uses.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a novel temperature-controllable tea leaf charcoal baking line of the present invention;

FIG. 2 is an enlarged schematic view of "A" in FIG. 1;

FIG. 3 is a diagram of a profile of a drive rotor;

FIG. 4 is a cross-sectional view of a spacer;

FIG. 5 is a schematic view of the structure in the direction "B-B" in FIG. 1.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and for convenience of description, the following orientations will be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The utility model relates to a controllable novel tealeaves charcoal bakes over a slow fire assembly line of temperature will combine below the utility model discloses the drawing is right the utility model discloses do further elucidation:

according to the utility model, a novel tea charcoal baking line with controllable temperature comprises a base 101, a heat source cavity 102 with a right opening is arranged in the base 101, a red charcoal containing block 103 is slidably arranged in the heat source cavity 102, a containing cavity 104 for containing charcoal is arranged in the red charcoal containing block 103 with an upward opening, a communicating cavity 105 with an upward opening is arranged in the inner wall of the upper side of the heat source cavity 102, a heat source partition component is arranged in the communicating cavity 105, a support 117 is fixedly connected on the end surface of the upper side of the base 101, a circulation hole 109 is arranged in the support 117 in a vertical through mode, an open slot 113 with an upward opening is arranged in the arc-shaped inner wall of the periphery side of the circulation hole 109 in a communicating mode, a temperature sensor 111 capable of monitoring the temperature is fixedly arranged on the inner wall of the circulation hole 109, the temperature sensor 111 can control the heat source partition component according to the monitored temperature in the circulation hole 109, and then regulate and control the heat that the heat source chamber 102 flows to the circulation hole 109, the red charcoal holds the cage body 115 that can be used for placing the tealeaves to hold in the piece 103, it is provided with the cage chamber 126 to run through from top to bottom in the cage body 115, cage chamber 126 internal fixation is provided with holds the baffle 116, it can be used for preventing tealeaves from dropping and ensure that steam passes through the cage chamber 126, and then to the tealeaves of placing in the cage chamber 126 roast the charcoal, the base 101 downside just is located cage chamber 126 is provided with water pipe 114, wherein, be provided with respectively in the left and right sides inner wall of open slot 113 and communicate with the external world and can respectively with the mouth 112 of water pipe 114 left and right ends intercommunication, when water pipe 114 with mouth 112 communicates, mouth 112 with the water pipe 114 in-flow has fifty five degrees centigrade water, can absorb a part of heat through the water in the water pipe 114, thereby preventing the baking temperature from being too high.

Advantageously, the heat source partition assembly includes rotating slots 124 symmetrically disposed in inner walls of left and right sides of the communicating cavity 105, circular rotating blocks 125 are respectively rotatably disposed in the rotating slots 124 of the left and right sides, a partition assembly is fixedly connected between opposite end surfaces of the circular rotating blocks 125 of the two sides, a driving cavity 119 is disposed in an inner wall of a left side of the rotating slot 124 of the left side, a driving rotating block 121 capable of rotating in the driving cavity 119 is fixedly connected to an end surface of a left side of the circular rotating block 125 of the left side, branches 123 are respectively fixedly connected to upper and lower end surfaces of the driving rotating block 121, the branches 123 arranged in a front-to-back arrangement are connected by a push rod 122, the driving rotating block 121 located at the most middle position is dynamically connected to a driving motor 118 fixedly disposed in an inner wall of the left side of the driving cavity 119, when the driving motor 118 is started and drives the driving rotating block 121 at the middle position to rotate, the pushing rod 122 can be pushed by the branch 123 to move, so as to drive each driving rotating block 121 to rotate, and further, the turning angle of the partition plate assembly can be adjusted, and the heat of the heat source cavity 102 flowing to the circulation hole 109 can be adjusted.

Advantageously, the spacer assembly includes a mandrel 107 fixedly connected to the opposite end surfaces of the circular rotating blocks 125 on the left and right sides, a sheet-shaped spacer 106 is disposed outside the mandrel 107, the spacer 106 is made of heat-insulating cotton, the mandrel 107 can be used to support the spacer 106, and the upper and lower ends of the communicating cavity 105 can be separated by the rotation angle of the spacer 106, so as to reduce the heat flowing from the heat source cavity 102 to the circulating hole 109.

Advantageously, the push rod 122 is made of a hard rod, so that when the branch 123 swings, the push rod 122 can push the branches 123 at the front and rear sides to swing, and thus the driving rotating blocks 121 distributed front and rear are connected in series, so that the synchronous rotation of each spacer assembly can be realized.

Advantageously, the temperature sensor 111 recommends the use of a platinum thermistor of type PT100/1000, the temperature of the heat flowing into the circulation hole 109 from the heat source cavity 102 can be monitored in real time by the temperature sensor 111, and the circulation temperature can be adjusted in real time by the driving motor 118, so as to keep the temperature flowing into the circulation hole 109 from the heat source cavity 102 between fifty degrees celsius and sixty degrees celsius, and the taste of the tea baked at fifty degrees celsius to sixty degrees celsius is optimal.

Beneficially, a handle 108 is fixedly connected to the right end face of the red carbon containing block 103, and a user can take out the red carbon containing block 103 through the handle 108, so as to add the carbon in the containing cavity 104, and the handle 108 can prevent the user from directly contacting the red carbon containing block 103.

Before use, a user puts the lower end of the cage body 115 into the open slot 113, and makes the left and right ends of the water pipe 114 respectively communicate with the water ports 112 on the left and right sides, the communicating cavity 105 is in a maximum communicating state, at this time, the user can put tea leaves to be baked into the upper side of the containing partition plate 116 in the cage cavity 126, after the tea leaves are put, the upper end of the cage cavity 126 is covered tightly by white cloth, and hot water at fifty-five degrees centigrade is introduced into the water ports 112.

When baking is carried out, a user takes out the red carbon containing block 103, adds red carbon into the containing cavity 104, puts the red carbon containing block 103 into the heat source cavity 102 again after the addition of the red carbon is finished, and enables the containing cavity 104 to be right opposite to the communicating cavity 105, at the moment, heat emitted by the red carbon in the containing cavity 104 flows into the circulating hole 109 through the communicating cavity 105 and is conducted into the cage cavity 126, and then tea leaves in the cage cavity 126 are baked, in the baking process, the temperature sensor 111 monitors the temperature of heat flow flowing into the circulating hole 109 from the heat source cavity 102 in real time, when the temperature monitored by the temperature sensor 111 is higher than sixty degrees centigrade, the temperature sensor 111 controls the driving motor 118 to rotate and drives the driving rotating block 121 to rotate, so that the communicating cavity 105 is partially isolated, and when the temperature monitored by the temperature sensor 111 is lower than fifty degrees centigrade after isolation, the temperature sensor 111 controls the driving motor 118 to rotate reversely again to increase heat circulation, and a user only needs to add carbon blocks into the containing cavity 104 at regular time.

The utility model has the advantages that: when using, this device can be real-time to the temperature control, can cut off tealeaves and heat source when the high temperature and lower the temperature, and low temperature communicates heat source and tealeaves once more when crossing to this control tealeaves cures the temperature, and at the in-process of curing, this device complete automation accomplishes, need not workman real time monitoring, great reduction staff's intensity of labour is worth recommending and uses.

In the above manner, a person skilled in the art can make various changes according to the operation mode within the scope of the present invention.

Claims (6)

1. A controllable novel tealeaves charcoal of temperature bakes assembly line which characterized in that: including base (101), be provided with opening heat source chamber (102) to the right in base (101), slidable is provided with red charcoal in heat source chamber (102) and holds piece (103), red charcoal holds the ascending chamber (104) that is provided with that is used for holding the charcoal that is provided with of piece (103) internal opening, be provided with ascending intercommunication chamber (105) of opening in the upside inner wall in heat source chamber (102), be provided with the heat source in intercommunication chamber (105) and cut off the subassembly, fixedly connected with support (117) on the upside terminal surface of base (101), what run through from top to bottom in support (117) is provided with opening (109), what communicate in the week side arc inner wall of opening (109) is provided with opening slot (113) that open mouth is ascending, the fixed temperature sensor (111) that can be used for monitoring the temperature that is provided with on the inner wall of opening (109), temperature sensor (111) can be according to monitoring temperature in opening (109) is controlled the heat source Cut off the subassembly, and then regulation and control heat source chamber (102) flow direction the heat of opening (109), red charcoal holds the cage body (115) that can be used to place the tealeaves of waiting to hold in piece (103), what run through about in the cage body (115) is provided with cage chamber (126), cage chamber (126) internal fixation is provided with and holds baffle (116), it can be used to prevent tealeaves and drop and ensure steam and pass through to hold baffle (116) cage chamber (126), and then to placing tealeaves in cage chamber (126) is baked with charcoal, base (101) downside just is located be provided with water pipe (114) in cage chamber (126), wherein, be provided with respectively in the side inner wall about open slot (113) communicate in the external world and respectively with mouth of a river (112) of end intercommunication about water pipe (114).

2. The novel tea charcoal baking line of claim 1, wherein the temperature of the tea charcoal baking line is controlled by: the heat source partition component comprises rotating grooves (124) which are symmetrically arranged in inner walls of the left side and the right side of the communicating cavity (105), round rotating blocks (125) are respectively and rotatably arranged in the rotating grooves (124) of the left side and the right side, partition piece components are fixedly connected between opposite side end faces of the round rotating blocks (125) of the two sides, a driving cavity (119) is arranged in the inner wall of the left side of the rotating groove (124), a driving rotating block (121) which can rotate in the driving cavity (119) is fixedly connected to the left side end face of the round rotating block (125) of the left side, branches (123) are respectively and fixedly connected to the upper side end face, the lower side end face and the lower side end face of the driving rotating block (121), the branches (123) are distributed in a front-back arrangement mode and are connected through push rods (122), the driving rotating block (121) located at the middle position is in a power connection mode on a driving motor (118) fixedly arranged in the inner wall of, when the driving motor (118) is started and drives the driving rotating blocks (121) at the middle position to rotate, the branches (123) can push the push rods (122) to move, so that the driving rotating blocks (121) are driven to rotate, the overturning angle of the partition plate assembly can be adjusted, and the heat of the heat source cavity (102) flowing to the circulation hole (109) can be adjusted.

3. The novel tea charcoal baking line of claim 2, wherein the temperature of the tea charcoal baking line is controlled by: the spacer block assembly comprises a mandrel (107) fixedly connected to the end faces, on the opposite side, of the circular rotating blocks (125) on the left side and the right side, a flaky spacer (106) is arranged on the outer side of the mandrel (107), the spacer (106) is made of heat insulation cotton, the mandrel (107) can be used for supporting the spacer (106), the upper end and the lower end of the communicating cavity (105) can be separated through the rotating angle of the spacer (106), and therefore heat flowing into the circulation hole (109) from the heat source cavity (102) is reduced.

4. A novel tea leaf charcoal roasting line of claim 3 with controllable temperature, characterized in that: the push rod (122) is made of a hard rod, so that when the branch (123) swings, the branch (123) on the front side and the branch on the rear side can be pushed to swing through the push rod (122), and then the driving rotating blocks (121) distributed in the front and the rear direction are connected in series, so that the synchronous rotation of each spacer component can be realized.

5. The novel tea charcoal baking line of claim 4, wherein the temperature of the tea charcoal baking line is controlled by: the type of the temperature sensor (111) is PT100/1000 platinum thermal resistance.

6. The novel tea charcoal baking line of claim 5, wherein the temperature of the tea charcoal baking line is controlled by: a handle (108) is fixedly connected to the right end face of the red carbon containing block (103).

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