CN215964761U - Tea foam separator of tealeaves production - Google Patents

Abstract

The utility model belongs to the field of tea production, and particularly relates to a tea foam separation device for tea production, which comprises a primary screening mechanism and a secondary screening mechanism, wherein the secondary screening mechanism is arranged below the primary screening mechanism; one-level screening mechanism includes side support frame, tie-beam, one-level screen cloth, baffle, finished product frame, second grade screening mechanism both sides all are provided with the side support frame, be provided with two in the middle of the side support frame the tie-beam, side support frame top is located the inboard and is provided with the rectangular channel, adopts one-level screening mechanism and second grade screening mechanism, utilizes the one-level screen cloth to carry out the preliminary separation, drives the swash plate vibrations through shock dynamo, carries out the second grade screening to tealeaves on the second grade screen cloth, utilizes pressure spring, reduces the vibrations of whole equipment in the screening process in order not to cause the collapse, can effectually carry out the separation of tealeaves and tealeaves foam, and the high-usage and promotion machining efficiency.

Description

Tea foam separator of tealeaves production

Technical Field

The utility model belongs to the field of tea production, and particularly relates to a tea foam separation device for tea production.

Background

Tea leaves, commonly called tea, generally comprise tea leaves and bud famous tea of tea trees, cashews, teas and , tea components comprise catechin, cholestenone, caffeine, inositol, folic acid and pantothenic acid, and are beneficial to health.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a tea foam separating device for tea production.

The technical scheme adopted by the utility model is as follows:

a tea foam separation device for tea production comprises a primary screening mechanism and a secondary screening mechanism, wherein the secondary screening mechanism is arranged below the primary screening mechanism; the primary screening mechanism comprises side edge support frames, connecting beams, a primary screen, baffles and a finished product frame, wherein the side edge support frames are arranged on two sides of the secondary screening mechanism, two connecting beams are arranged in the middle of each side edge support frame, rectangular grooves are formed above and at the inner sides of the side edge support frames, the primary screen is arranged in the grooves in the side edge support frames, the baffles are arranged above and at two sides of the primary screen, and the finished product frame is arranged at the front part of each side edge support frame; the second-stage screening mechanism comprises a support column, a pressure spring, a connecting plate, an inclined plate, a support plate, a second-stage screen, a blocking plate, a motor support, a vibration motor, a first eccentric block, a second eccentric block and a tea foam collecting frame, wherein the support column is arranged above and at two sides of the connecting beam, the support column is self-telescopic, the pressure spring is arranged outside the support column, the connecting plate is arranged above the pressure spring, the inclined plate is arranged above the connecting plate, the support plate is arranged above and at two sides of the inclined plate, the second-stage screen is arranged above and at two sides of the support plate, the blocking plate is arranged above and at two sides of the second-stage screen, the motor support is arranged below the inclined plate, the vibration motor is arranged below the motor support, the first eccentric block and the second eccentric block are arranged at the front part and the rear part of the vibration motor, first eccentric block is close to shock dynamo, the swash plate rear portion is provided with the frame is collected to the tealeaves foam.

Preferably: the first-stage screen is clamped on the side support frame through the rectangular groove in the side support frame, and the finished product frame is placed on the ground at the front end of the first-stage screen.

So set up, be convenient for change the installation the one-level screen cloth.

Preferably: the connecting beam is connected with the side supporting frame in a welded mode, and the baffle is connected with the first-stage screen in a welded mode.

So set up, make this device more firm.

Preferably: the support column with pressure spring all with tie-beam welded connection, the connecting plate respectively with pressure spring with backup pad welded connection, the swash plate with connecting plate welded connection, the second grade screen cloth with backup pad bolted connection, the baffler with second grade screen cloth welded connection, the motor support with swash plate bolted connection, shock dynamo with motor support welded connection, first eccentric block all with shock dynamo's output shaft welded connection, the second eccentric block all with shock dynamo's output shaft threaded connection.

So set up, pressure spring avoids rocking too big in the screening process, leads to the equipment to collapse, shock dynamo drives second grade screen cloth vibrations screening.

Preferably: the tea foam collecting frame is placed on the ground at the rear part of the inclined plate.

So set up, make the tealeaves foam can flow down to in the frame is collected to the tealeaves foam.

The utility model has the beneficial effects that: adopt one-level screening mechanism and second grade screening mechanism, utilize the one-level screen cloth to carry out the preliminary separation, drive the swash plate vibrations through shock dynamo, carry out the second grade screening to tealeaves on the second grade screen cloth, utilize pressure spring, reduce the vibrations of whole equipment in the screening process in order not to cause and collapse, can effectually carry out the separation of tealeaves and tealeaves foam, improve the utilization ratio and promote machining efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a tea dust separating device for tea production according to the present invention;

FIG. 2 is a schematic perspective view of a tea froth separation apparatus for tea production according to the present invention;

FIG. 3 is a rear view of a tea froth separation apparatus for tea production according to the present invention;

FIG. 4 is a cross-sectional view of a tea froth separation apparatus for tea production according to the present invention;

fig. 5 is a partially enlarged view of a tea dust separating device for tea production according to the present invention.

The reference numerals are explained below:

1. a primary screening mechanism; 2. a secondary screening mechanism; 101. a side support frame; 102. a connecting beam; 103. a first-stage screen; 104. a baffle plate; 105. a finished product frame; 201. a support pillar; 202. a pressure spring; 203. a connecting plate; 204. a sloping plate; 205. a support plate; 206. a secondary screen; 207. a barrier plate; 208. a motor bracket; 209. vibrating a motor; 210. a first eccentric mass; 211. a second eccentric mass; 212. tea foam collecting frame.

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.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Examples

As shown in fig. 1-5, a tea foam separation device for tea production comprises a primary screening mechanism 1 and a secondary screening mechanism 2, wherein the secondary screening mechanism 2 is arranged below the primary screening mechanism 1; the primary screening mechanism 1 comprises side edge supporting frames 101, connecting beams 102, primary screen meshes 103, baffles 104 and finished product frames 105, the side edge supporting frames 101 are arranged on two sides of the secondary screening mechanism 2, the two connecting beams 102 are arranged in the middle of the side edge supporting frames 101, rectangular grooves are formed in the positions, above and on the inner sides of the side edge supporting frames 101, the primary screen meshes 103 are arranged in the grooves in the side edge supporting frames 101, the baffles 104 are arranged above and on two sides of the primary screen meshes 103, and the finished product frames 105 are arranged on the front portions of the side edge supporting frames 101; the secondary screening mechanism 2 comprises supporting columns 201, pressure springs 202, connecting plates 203, inclined plates 204, supporting plates 205, secondary screens 206, blocking plates 207, motor supports 208, vibration motors 209, first eccentric blocks 210, second eccentric blocks 211 and tea foam collecting frames 212, wherein the supporting columns 201 are arranged above and on two sides of a connecting beam 102, the supporting columns 201 are self-telescopic, the pressure springs 202 are arranged outside the supporting columns 201, the connecting plates 203 are arranged above the pressure springs 202, the inclined plates 204 are arranged above the connecting plates 203, the supporting plates 205 are arranged above and on two sides of the inclined plates 204, the secondary screens 206 are arranged above the supporting plates 205, the blocking plates 207 are arranged above and on two sides of the secondary screens 206, the motor supports 208 are arranged below the inclined plates 204, the vibration motors 209 are arranged below the motor supports 208, and the front parts and the rear parts of the vibration motors 209 are provided with the first eccentric blocks 210 and the second eccentric blocks 211, the first eccentric block 210 is close to the vibration motor 209, and the tea foam collecting frame 212 is arranged at the rear part of the inclined plate 204.

Preferably: the primary screen 103 is clamped on the side supporting frame 101 through a rectangular groove on the side supporting frame 101, and the finished product frame 105 is placed on the ground at the front end of the primary screen 103; the connecting beam 102 is welded with the side supporting frame 101, and the baffle plate 104 is welded with the first-stage screen mesh 103; the supporting column 201 and the pressure spring 202 are both connected with the connecting beam 102 in a welded mode, the connecting plate 203 is respectively connected with the pressure spring 202 and the supporting plate 205 in a welded mode, the inclined plate 204 is connected with the connecting plate 203 in a welded mode, the secondary screen 206 is connected with the supporting plate 205 in a bolted mode, the blocking plate 207 is connected with the secondary screen 206 in a welded mode, the motor support 208 is connected with the inclined plate 204 in a bolted mode, the vibration motor 209 is connected with the motor support 208 in a welded mode, the first eccentric blocks 210 are both connected with an output shaft of the vibration motor 209 in a welded mode, and the second eccentric blocks 211 are both connected with an output shaft of the vibration motor 209 in a threaded mode; the tea froth collection frame 212 is placed on the floor behind the sloping plate 204.

The working principle is as follows: at first fall the raw and other materials that do not separate and carry out primary filter in one-level screen cloth 103 top and grade, because tealeaves is different with tealeaves foam size, big flow is to finished product frame 105 in, what leaked to select falls to second grade screen cloth 206 with garrulous flow, start shock dynamo 209 and carry out the screening of shaking, in the screening process, can carry out angle adjustment to the second eccentric block 211 at shock dynamo 209 both ends, thereby strengthen or weaken the vibrations dynamics, tealeaves flows in falling to the anterior finished product frame 105 of second grade filter screen, tealeaves foam flows from swash plate 204 and falls in the tealeaves foam collection frame 212 at swash plate 204 rear portion, accomplish the screening.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (5)

1. The utility model provides a tea foam separator of tealeaves production which characterized in that: the device comprises a primary screening mechanism (1) and a secondary screening mechanism (2), wherein the secondary screening mechanism (2) is arranged below the primary screening mechanism (1);

the primary screening mechanism (1) comprises side supporting frames (101), connecting beams (102), primary screens (103), baffles (104) and finished product frames (105), the side supporting frames (101) are arranged on two sides of the secondary screening mechanism (2), the two connecting beams (102) are arranged in the middle of the side supporting frames (101), rectangular grooves are formed above and on the inner sides of the side supporting frames (101), the primary screens (103) are arranged in the grooves in the side supporting frames (101), the baffles (104) are arranged above and on two sides of the primary screens (103), and the finished product frames (105) are arranged on the front portions of the side supporting frames (101);

the secondary screening mechanism (2) comprises supporting columns (201), pressure springs (202), connecting plates (203), inclined plates (204), supporting plates (205), secondary screens (206), blocking plates (207), motor supports (208), vibrating motors (209), first eccentric blocks (210), second eccentric blocks (211) and tea foam collecting frames (212), wherein the supporting columns (201) are arranged above and on two sides of the connecting beam (102), the supporting columns (201) are telescopic, the pressure springs (202) are arranged outside the supporting columns (201), the connecting plates (203) are arranged above the pressure springs (202), the inclined plates (204) are arranged above the connecting plates (203), the supporting plates (205) are arranged above and on two sides of the inclined plates (204), the secondary screens (206) are arranged above the supporting plates (205), second grade screen cloth (206) top is located both sides and is provided with baffler (207), swash plate (204) below is provided with motor support (208), motor support (208) below is provided with shock dynamo (209), shock dynamo (209) front portion and rear portion all are provided with first eccentric block (210) with second eccentric block (211), first eccentric block (210) are close to shock dynamo (209), swash plate (204) rear portion is provided with frame (212) is collected to the tealeaves foam.

2. The tea froth separation apparatus for tea production according to claim 1, wherein: the first-stage screen (103) is clamped on the side supporting frame (101) through a rectangular groove in the side supporting frame (101), and the finished product frame (105) is placed on the ground at the front end of the first-stage screen (103).

3. The tea froth separation apparatus for tea production according to claim 1, wherein: the connecting beam (102) is connected with the side supporting frame (101) in a welding mode, and the baffle (104) is connected with the primary screen (103) in a welding mode.

4. The tea froth separation apparatus for tea production according to claim 1, wherein: support column (201) with pressure spring (202) all with tie-beam (102) welded connection, connecting plate (203) respectively with pressure spring (202) with backup pad (205) welded connection, swash plate (204) with connecting plate (203) welded connection, second grade screen cloth (206) with backup pad (205) bolted connection, baffler (207) with second grade screen cloth (206) welded connection, motor support (208) with swash plate (204) bolted connection, shock motor (209) with motor support (208) welded connection, first eccentric block (210) all with shock motor (209)'s output shaft welded connection, second eccentric block (211) all with shock motor (209)'s output shaft threaded connection.

5. The tea froth separation apparatus for tea production according to claim 1, wherein: the tea foam collecting frame (212) is placed on the ground at the rear of the sloping plate (204).

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