CN215586746U - Deblocking device for tea processing - Google Patents

Abstract

The utility model discloses a deblocking device for tea processing, which comprises a supporting mechanism for supporting equipment above, a separating mechanism for separating tea from impurities, and a deblocking mechanism for decomposing blocky tea, wherein the separating mechanism is arranged above the supporting mechanism, and the deblocking mechanism is fixed above the separating mechanism. According to the utility model, the separation mechanism is arranged, the decomposed tea leaves fall onto the filter screen, impurities in the tea leaves pass through the filter screen and then enter the waste material box along the guide plate, the tea leaves enter the guide seat along the filter screen and finally enter the collection assembly, so that the impurities in the tea leaves are separated out, and the product quality is effectively improved.

Description

Deblocking device for tea processing

Technical Field

The utility model relates to the technical field of tea processing, in particular to a deblocking device for tea processing.

Background

Tea leaves are originated from China, are used as sacrificial offerings at first, but are eaten by people as dishes in the late spring and autumn, are developed into medicines in the middle period of Western Han, are developed into palace high-grade beverages in the later period of Western Han, and are popular among people as common beverages which are things after the West promotion. The ancient site of tea leaves planted artificially in Tianlushan mountain of Yuyao, Zhejiang has been found to have a history of more than 6000 years. Tea drinking begins in china. The leatheroid is oblong or elliptical, can be directly soaked and drunk by boiled water, and is divided into six categories according to variety, manufacturing mode and product appearance. The tea can be spring tea, summer tea, autumn tea and winter tea according to the seasons. Various raw tea or refined tea is processed into tea, including scented tea, compressed tea, extracted tea, medicinal health tea, tea food, tea-containing beverage, etc.

Tea easily adheres to form blocky in the course of processing, needs to use the device of deblocking to decompose it, and current deblocking device has following problem to be solved urgently:

1. the decomposition effect is poor, and complete decomposition of the tea blocks cannot be guaranteed;

2. the impurities in the decomposed tea leaves can not be separated, so that the quality of the tea leaves is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a deblocking device for tea processing.

The utility model realizes the purpose through the following technical scheme:

a deblocking device for tea processing comprises a supporting mechanism for supporting equipment above, a separating mechanism for separating tea from impurities, and a deblocking mechanism for decomposing blocky tea, wherein the separating mechanism is arranged above the supporting mechanism, and the deblocking mechanism is fixed above the separating mechanism;

the supporting mechanism comprises a supporting plate, a supporting block and a damping pad, the supporting block is fixed below the supporting plate, and the damping pad is installed below the supporting block;

the separation mechanism comprises a separation box, a filter screen, a guide plate, a waste material box, a guide seat and a collection assembly, wherein the filter screen is arranged in the separation box, the guide plate is arranged below the filter screen, the waste material box is arranged below the guide plate, the guide seat is fixed on the side surface of the separation box, and the collection assembly is arranged on one side of the separation box;

the deblocking mechanism comprises a deblocking box, a feeding hopper, a first motor, a second motor, a shaking box, a rotating shaft, an installation rod, a scattering rod and a screen, wherein the feeding hopper is fixed above the deblocking box, the first motor is fixed on the side surface of the deblocking box, the second motor is arranged below the first motor, the shaking box is arranged inside the deblocking box, the rotating shaft is fixed on two sides of the shaking box, the installation rod is fixed on the second motor, the scattering rod is fixed on the outer side of the installation rod, and the screen is arranged below the scattering rod.

Preferably, the collecting assembly comprises a first collecting box, a first fixing plate, a moving plate, an electric push rod and a second fixing plate, the first fixing plate is mounted on one side of the first collecting box, the moving plate is mounted on the other side of the first collecting box, the electric push rod is mounted on one side, away from the first collecting box, of the moving plate, and the second fixing plate is mounted on one end, away from the moving plate, of the electric push rod; the movable plate is welded with the electric push rod, and the electric push rod is connected with the second fixed plate through a bolt.

According to the arrangement, the right side of the first collecting box is attached to the left side of the first fixing plate, the electric push rod extends to drive the movable plate to move, the movable plate moves to be attached to the left side of the first collecting box, the movable plate and the first fixing plate cooperate together to fix the first collecting box, and therefore the first collecting box can be effectively prevented from being displaced under the action of vibration.

Preferably, the collecting assembly comprises a second collecting box, a third fixing plate, a fixing shell, an electromagnet, a connecting rod and a fourth fixing plate, the third fixing plate is installed on one side of the second collecting box, the fixing shell is arranged on the other side of the second collecting box, the electromagnet is installed in the fixing shell, the connecting rod is installed on one side, away from the second collecting box, of the fixing shell, and the fourth fixing plate is installed on one end, away from the fixing shell, of the connecting rod; the fixed shell is welded with the connecting rod, and the connecting rod is welded with the fourth fixed plate.

So set up, will the second collecting box is placed the third fixed plate with between the set casing, the electromagnetism iron circular telegram is to the second collecting box adsorbs fixedly, so can effectively avoid the displacement takes place for the second collecting box under the effect of vibrations.

Preferably, the supporting block is welded with the supporting plate, and the shock absorption pad is bonded with the supporting block.

So set up, the shock pad can cushion the vibrations that the device operation in-process produced, has effectively improved the life of equipment.

Preferably, the filter screen with the separator box welding, the guide plate with the separator box welding, the water conservancy diversion seat with the separator box welding.

So set up, tealeaves after the decomposition falls on the filter screen, impurity in the tealeaves passes through behind the filter screen along the guide plate gets into waste material box, tealeaves along the filter screen gets into the water conservancy diversion seat finally gets into collect the subassembly, so with the impurity separation in the tealeaves come out, effectively improved product quality.

Preferably, the feed hopper is welded with the deblocking box, the first motor is connected with the deblocking box through a bolt, the second motor is connected with the deblocking box through a bolt, the rotating shaft is welded with the shaking box, the scattering rod is welded with the mounting rod, and the screen is welded with the deblocking box.

So set up, cubic tealeaves passes through the feeder hopper gets into rock the case, first motor passes through the pivot drives rock the case fore-and-aft and rock, rock tealeaves in the case and tentatively decompose under the effect of rocking in the front and back, a period of time back first motor drives rock case upset one hundred eighty degrees, and the tealeaves of tentatively decomposing falls under the effect of gravity, the second motor passes through the installation pole drives break up the pole and rotate, break up the pole and break up tealeaves, the tealeaves after breaking up passes through the screen cloth continues the whereabouts, and the tealeaves that does not break up stops the screen cloth top, break up the pole and continue to break up it, so guarantee that cubic tealeaves decomposes completely, has effectively improved the result of use of device.

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

1. through the arrangement of the separation mechanism, the decomposed tea leaves fall onto the filter screen, impurities in the tea leaves pass through the filter screen and then enter the waste material box along the guide plate, the tea leaves enter the guide seat along the filter screen and finally enter the collection assembly, and therefore the impurities in the tea leaves are separated out, and the product quality is effectively improved;

2. through setting up the mechanism of deblocking, cubic tealeaves gets into through the feeder hopper and rocks the case, first motor drives through the pivot and rocks the case front and back and rock, it tentatively decomposes under the effect of rocking in the case around to rock tealeaves, first motor drives after a period rocks a hundred eighty degrees of case upset, the tealeaves of tentatively decomposing falls under the effect of gravity, the second motor drives through the installation pole and breaks up the pole and rotates, break up the pole and break up tealeaves, tealeaves after breaking up passes through the screen cloth and continues the whereabouts, the tealeaves that does not break up stops in the screen cloth top, break up the pole and continue to break up it, so guarantee that cubic tealeaves decomposes completely, the result of use of device has effectively been improved.

Drawings

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

Fig. 1 is a first structural schematic diagram of a deblocking device for tea processing according to the present invention;

fig. 2 is a second structural schematic diagram of the deblocking device for tea processing according to the present invention;

fig. 3 is a schematic view of a first main view internal structure of the deblocking device for tea processing according to the present invention;

fig. 4 is a second schematic view of the inner structure of the deblocking device for tea processing according to the present invention;

fig. 5 is a schematic structural diagram of an electromagnet in a second embodiment of the deblocking device for tea processing according to the present invention.

The reference numerals are explained below:

1. a support mechanism; 101. a support plate; 102. a support block; 103. a shock pad; 2. a separating mechanism; 201. a separation tank; 202. a filter screen; 203. a baffle; 204. a waste material box; 205. a flow guide seat; 206. a collection assembly; 2061. a first collection tank; 2062. a first fixing plate; 2063. moving the plate; 2064. an electric push rod; 2065. a second fixing plate; 2066. a second collection tank; 2067. a third fixing plate; 2068. a stationary case; 2069. an electromagnet; 20610. a connecting rod; 20611. a fourth fixing plate; 3. a deblocking mechanism; 301. a deblocking box; 302. a feed hopper; 303. a first motor; 304. a second motor; 305. shaking the box; 306. a rotating shaft; 307. mounting a rod; 308. breaking up the rods; 309. and (4) screening.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The utility model will be further described with reference to the accompanying drawings in which:

example 1

As shown in fig. 1 and 3, a deblocking device for tea processing comprises a supporting mechanism 1 for supporting equipment above, a separating mechanism 2 for separating tea leaves from impurities, and a deblocking mechanism 3 for decomposing blocky tea leaves, wherein the separating mechanism 2 is installed above the supporting mechanism 1, and the deblocking mechanism 3 is fixed above the separating mechanism 2;

the supporting mechanism 1 comprises a supporting plate 101, a supporting block 102 and a shock pad 103, wherein the supporting block 102 is fixed below the supporting plate 101, and the shock pad 103 is arranged below the supporting block 102;

the separating mechanism 2 comprises a separating box 201, a filter screen 202, a guide plate 203, a waste material box 204, a guide seat 205 and a collecting component 206, wherein the filter screen 202 is arranged in the separating box 201, the guide plate 203 is arranged below the filter screen 202, the waste material box 204 is arranged below the guide plate 203, the guide seat 205 is fixed on the side surface of the separating box 201, and the collecting component 206 is arranged on one side of the separating box 201;

the deblocking mechanism 3 comprises a deblocking box 301, a feed hopper 302, a first motor 303, a second motor 304, a shaking box 305, a rotating shaft 306, a mounting rod 307, a breaking rod 308 and a screen 309, the feed hopper 302 is fixed above the deblocking box 301, the first motor 303 is fixed on the side surface of the deblocking box 301, the second motor 304 is arranged below the first motor 303, the shaking box 305 is arranged inside the deblocking box 301, the rotating shafts 306 are fixed on two sides of the shaking box 305, the mounting rod 307 is fixed on the second motor 304, the breaking rod 308 is fixed on the outer side of the mounting rod 307, and the screen 309 is arranged below the breaking rod 308.

The collecting assembly 206 comprises a first collecting box 2061, a first fixing plate 2062, a moving plate 2063, an electric push rod 2064 and a second fixing plate 2065, wherein the first fixing plate 2062 is installed at one side of the first collecting box 2061, the moving plate 2063 is installed at the other side of the first collecting box 2061, the electric push rod 2064 is installed at one side of the moving plate 2063, which is far away from the first collecting box 2061, and the second fixing plate 2065 is installed at one end of the electric push rod 2064, which is far away from the moving plate 2063; the moving plate 2063 is welded with the electric push rod 2064, and the electric push rod 2064 is connected with the second fixing plate 2065 through a bolt; the right side of the first collection box 2061 is attached to the left side of the first fixing plate 2062, the electric push rod 2064 extends to drive the moving plate 2063 to move, the moving plate 2063 moves to be attached to the left side of the first collection box 2061, the moving plate 2063 and the first fixing plate 2062 cooperate together to fix the first collection box 2061, and therefore the first collection box 2061 can be effectively prevented from being displaced under the vibration effect. The supporting block 102 is welded with the supporting plate 101, and the shock absorption pad 103 is bonded with the supporting block 102; the shock pad 103 can buffer the vibration generated in the operation process of the device, and the service life of the equipment is effectively prolonged. The filter screen 202 is welded with the separation box 201, the guide plate 203 is welded with the separation box 201, and the guide seat 205 is welded with the separation box 201; the tealeaves after the decomposition falls on filter screen 202, and impurity in the tealeaves passes through behind filter screen 202 and gets into waste material box 204 along guide plate 203, and tealeaves gets into water conservancy diversion seat 205 along filter screen 202, finally gets into collection component 206, so with the impurity separation in the tealeaves come out, effectively improved product quality. A feed hopper 302 is welded with a deblocking box 301, a first motor 303 is connected with the deblocking box 301 through bolts, a second motor 304 is connected with the deblocking box 301 through bolts, a rotating shaft 306 is welded with a shaking box 305, a breaking rod 308 is welded with an installation rod 307, and a screen 309 is welded with the deblocking box 301; cubic tealeaves gets into through feeder hopper 302 and rocks case 305, first motor 303 drives through pivot 306 and rocks case 305 fore-and-aft rocking, the tealeaves that rocks in the case 305 is preliminary decomposed under the effect of rocking in the front and back, first motor 303 drives after a period and rocks case 305 upset hundred eighty degrees, the tealeaves of preliminary decomposition falls under the effect of gravity, second motor 304 drives through installation pole 307 and breaks up pole 308 and rotates, break up pole 308 and break up tealeaves, tealeaves after breaking up passes through screen cloth 309 and continues the whereabouts, the tealeaves that does not break up stops in screen cloth 309 top, break up pole 308 and continue to break up it, so guarantee that cubic tealeaves decomposes completely, the result of use of device has effectively been improved.

In the above structure: the right side of the first collection box 2061 is attached to the left side of the first fixing plate 2062, the electric push rod 2064 extends to drive the moving plate 2063 to move, the moving plate 2063 moves to be attached to the left side of the first collection box 2061, the moving plate 2063 and the first fixing plate 2062 cooperate to fix the first collection box 2061, the blocky tea leaves enter the shaking box 305 through the feed hopper 302, the first motor 303 drives the shaking box 305 to shake forwards and backwards through the rotating shaft 306, the tea leaves in the shaking box 305 are primarily decomposed under the action of the front and back shaking, the first motor 303 drives the shaking box 305 to turn over one hundred eighty degrees after a period of time, the primarily decomposed tea leaves fall under the action of gravity, the second motor 304 drives the scattering rod 308 to rotate through the mounting rod 307, the scattering rod 308 scatters the tea leaves, the scattered tea leaves continuously fall through the screen 309, the tea leaves which are not scattered stay above the screen 309, and the scattering rod 308 continuously scatters the tea leaves, the decomposed tea leaves fall onto the filter screen 202, impurities in the tea leaves pass through the filter screen 202 and then enter the waste box 204 along the guide plate 203, and the tea leaves enter the guide seat 205 along the filter screen 202 and finally enter the first collection box 2061.

Example 2

As shown in fig. 2, 4 and 5, the difference between the embodiment 2 and the embodiment 1 is that the first collecting box 2061, the first fixing plate 2062, the moving plate 2063, the electric push rod 2064 and the second fixing plate 2065 are replaced by a second collecting box 2066, a third fixing plate 2067, a fixing shell 2068, an electromagnet 2069, a connecting rod 20610 and a fourth fixing plate 20611, the second collecting box 2066 is placed between the third fixing plate 2067 and the fixing shell 2068, the electromagnet 2069 is electrified to adsorb and fix the second collecting box 2066, the blocky tea leaves enter the shaking box 206305 through the feed hopper 302, the first motor 303 drives the shaking box 305 to shake back and forth through the rotating shaft 306, the tea leaves in the shaking box 305 are primarily decomposed under the action of back and forth shaking, the first motor 303 drives the shaking box 305 to turn over one hundred eighty degrees after a period of time, the primarily decomposed tea leaves fall under the action of gravity, the second motor 304 drives the scattering rod 308 to rotate through the mounting rod 307, break up pole 308 and break up tealeaves, the tealeaves after breaking up continues the whereabouts through screen cloth 309, and the tealeaves that does not break up stops in the screen cloth 309 top, breaks up pole 308 and continues to break up it, and the tealeaves after the decomposition falls on filter screen 202, and impurity in the tealeaves passes through behind filter screen 202 and gets into waste material box 204 along guide plate 203, and tealeaves gets into water conservancy diversion seat 205 along filter screen 202, finally gets into second collecting box 2066.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (6)

1. The utility model provides a device that deblocks for tea processing, includes supporting mechanism (1) that is used for supporting top equipment, its characterized in that: the tea leaf separating device is characterized by further comprising a separating mechanism (2) for separating tea leaves from impurities and a deblocking mechanism (3) for decomposing blocky tea leaves, wherein the separating mechanism (2) is installed above the supporting mechanism (1), and the deblocking mechanism (3) is fixed above the separating mechanism (2);

the supporting mechanism (1) comprises a supporting plate (101), a supporting block (102) and a shock absorption pad (103), the supporting block (102) is fixed below the supporting plate (101), and the shock absorption pad (103) is installed below the supporting block (102);

the separation mechanism (2) comprises a separation box (201), a filter screen (202), a guide plate (203), a waste material box (204), a guide seat (205) and a collection assembly (206), wherein the filter screen (202) is installed inside the separation box (201), the guide plate (203) is arranged below the filter screen (202), the waste material box (204) is arranged below the guide plate (203), the guide seat (205) is fixed on the side surface of the separation box (201), and the collection assembly (206) is arranged on one side of the separation box (201);

the deblocking mechanism (3) comprises a deblocking box (301), a feeding hopper (302), a first motor (303), a second motor (304), a shaking box (305), a rotating shaft (306), a mounting rod (307), a breaking rod (308) and a screen (309), wherein the feeding hopper (302) is fixed above the deblocking box (301), the first motor (303) is fixed on the side surface of the deblocking box (301), the second motor (304) is arranged below the first motor (303), the shaking box (305) is arranged inside the deblocking box (301), the rotating shaft (306) is fixed on two sides of the shaking box (305), the mounting rod (307) is fixed on the second motor (304), the breaking rod (308) is fixed on the outer side of the mounting rod (307), and the screen (309) is arranged below the breaking rod (308).

2. A deblocking device for tea processing according to claim 1, characterized in that: the collecting assembly (206) comprises a first collecting box (2061), a first fixing plate (2062), a moving plate (2063), an electric push rod (2064) and a second fixing plate (2065), wherein the first fixing plate (2062) is installed on one side of the first collecting box (2061), the moving plate (2063) is installed on the other side of the first collecting box (2061), the electric push rod (2064) is installed on one side, away from the first collecting box (2061), of the moving plate (2063), and the second fixing plate (2065) is installed on one end, away from the moving plate (2063), of the electric push rod (2064); the moving plate (2063) is welded with the electric push rod (2064), and the electric push rod (2064) is connected with the second fixing plate (2065) through a bolt.

3. A deblocking device for tea processing according to claim 1, characterized in that: the collecting assembly (206) comprises a second collecting box (2066), a third fixing plate (2067), a fixing shell (2068), an electromagnet (2069), a connecting rod (20610) and a fourth fixing plate (20611), wherein the third fixing plate (2067) is installed on one side of the second collecting box (2066), the fixing shell (2068) is arranged on the other side of the second collecting box (2066), the electromagnet (2069) is installed inside the fixing shell (2068), the connecting rod (20610) is installed on one side, far away from the second collecting box (2066), of the fixing shell (2068), and the fourth fixing plate (20611) is installed on one end, far away from the fixing shell (2068), of the connecting rod (20610); the fixed shell (2068) is welded to the connecting rod (20610), and the connecting rod (20610) is welded to the fourth fixed plate (20611).

4. A deblocking device for tea processing according to claim 1, characterized in that: the supporting block (102) is welded with the supporting plate (101), and the shock absorption pad (103) is bonded with the supporting block (102).

5. A deblocking device for tea processing according to claim 1, characterized in that: the filter screen (202) with separator box (201) welding, guide plate (203) with separator box (201) welding, water conservancy diversion seat (205) with separator box (201) welding.

6. A deblocking device for tea processing according to claim 1, characterized in that: the feed hopper (302) is welded with the deblocking box (301), the first motor (303) is connected with the deblocking box (301) through bolts, the second motor (304) is connected with the deblocking box (301) through bolts, the rotating shaft (306) is welded with the shaking box (305), the scattering rod (308) is welded with the mounting rod (307), and the screen (309) is welded with the deblocking box (301).

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