CN219249108U - Rotatory tea mechanism that evaporates - Google Patents

Abstract

The utility model provides a rotary tea steaming mechanism, and belongs to the technical field of green brick tea processing. Including frame subassembly, the rotary driving mechanism of fixing under the frame subassembly, the steam ager rotary assembly of setting on the frame subassembly, the frame subassembly includes a frame, rotates the rolling disc subassembly of connecting in the frame, fixes first backstop mechanism and second backstop mechanism in the frame respectively, the steam ager rotary assembly includes a plurality of steam ager subassemblies, a holder, steam ager subassembly and rolling disc subassembly fixed connection, rotary driving mechanism drive steam ager rotary assembly step by step rotatory, the steam ager subassembly includes the steam ager, fixes the wooden case in the steam ager, the wooden case middle part is equipped with a rectangular hole that runs through the wooden case material is pine. The utility model has the advantages of stable rotation of the steam box without tea leakage, accurate alignment of the steam box after the steam box rotates, wooden fragrance of the steamed tea, no abrasion of the steam box, noise reduction in the rotation process of the steam box, convenient maintenance and the like.

Description

Rotatory tea mechanism that evaporates

Technical Field

The utility model relates to the technical field of green brick tea processing, in particular to a rotary tea steaming mechanism.

Background

Before pressing, the green brick tea is steamed with the inner tea and the flour tea respectively, then the steamed inner tea and the flour tea are put into a tea mold for compression molding according to the sequence of flour tea before flour tea and flour tea, and an automatic rotary table tea steaming machine disclosed in the patent with the publication number of CN205018183U comprises an automatic rotary table tea steaming machine, a rotary table, a base, an outer cylinder, two steam cylinders, two air inlet valves, two air release valves, four tea steaming boxes, an outer cover, a tea inlet and a tea outlet, wherein a speed reducing motor position fixed below the support table is connected with the rotary table through a rotary shaft key; a boss is arranged at the top end of the turntable, and four hook claws are uniformly distributed on the outer side wall of the boss; the base is fixed in the circular groove of the supporting bench installation table, four clamping grooves are respectively arranged on the upper end face of the base, steam transmission holes are uniformly formed on the end faces of two adjacent clamping groove bottoms, and movable baffles are respectively arranged on the end faces of the other two adjacent clamping groove bottoms; the outer cylinder is arranged above the base; the two steam cylinders are respectively arranged right below two clamping grooves with steam transmission holes on the bottom end face, and are fixedly connected with the lower end face of the base, and are of conical structures; the two air inlet valves are respectively positioned at the lower ends of the two steam cylinders, the air inlet valves are connected with the steam cylinders by adopting threads, and the two air release valves are positioned on the front side walls of the two steam cylinders; the four tea steaming boxes are respectively positioned right above the four clamping grooves on the upper end face of the base; the outer cover is positioned right above the outer cylinder, the tea inlet is fixed on the outer cover, and the tea outlet is positioned below the base, so that the automatic rotary tea steaming function can be realized, and the automatic circular continuous tea steaming effect is achieved; after rotation, the clamping grooves of the tea steaming box and the steam drum are not aligned, so that the tea steaming is uneven; the tea steaming box is directly rubbed with the base in the rotating process, so that the abrasion of the tea steaming box is accelerated, and the noise is high; the tea steaming box made of metal is used for directly steaming tea, and the steamed tea has no wood flavor; the gear motor is fixed on the frame, and the on-site environment is moist, inconvenient maintenance.

Disclosure of Invention

The utility model aims to solve the problems of the prior art and provide a rotary tea steaming mechanism, and the technical problems to be solved by the utility model are how to solve the problems of inaccurate rotation and tea leakage of a tea steaming box, high rotation noise of the tea steaming box, no wooden fragrance after tea steaming and inconvenient maintenance.

The aim of the utility model can be achieved by the following technical scheme: including the frame subassembly, fix the rotary driving mechanism under the frame subassembly, set up the steam ager rotary assembly on the frame subassembly, its characterized in that, the frame subassembly includes a frame, rotates the rolling disc subassembly of connection in the frame, fixes first stop mechanism and the second stop mechanism in the frame respectively, steam ager rotary assembly includes a plurality of steam ager subassemblies, a holder, steam ager subassembly and rolling disc subassembly fixed connection, rotary driving mechanism drive steam ager rotary assembly step by step rotatory, the steam ager subassembly includes the steam ager, fixes the wooden case in the steam ager, the wooden case middle part is equipped with a rectangular hole that runs through the wooden case material is pine.

Further, the first stop mechanism comprises a second mounting seat fixed on the frame, a first stop block and a tension spring, wherein one end of the tension spring is arranged on the second mounting seat, the first stop block is L-shaped, the other end of the tension spring is arranged at the tail end of the short side of the first stop block, and the corner of the first stop block is rotationally connected to the second mounting seat.

Further, the second stop mechanism comprises a third mounting seat fixed on the frame, a second stop block in the third mounting seat in a sliding connection mode, and a pressure spring arranged in the third mounting seat, wherein an oblique angle is arranged on the upper portion of the second stop block, and the upper end of the pressure spring is in contact with the lower end of the second stop block.

Further, the rotary driving mechanism comprises a fourth mounting seat, an oil cylinder rotationally connected to the fourth mounting seat, a fifth mounting seat fixed below the frame, a rotating shaft rotationally connected to the fifth mounting seat, a first rotating arm, a second rotating arm and a pusher dog, wherein the first rotating arm and the second rotating arm are respectively connected with two ends of the rotating shaft in a key manner, the pusher dog is connected to the second rotating arm through a pin shaft, and a piston rod joint of the oil cylinder is rotationally connected with the first rotating arm.

Further, the steam box assembly further comprises a connecting plate fixed on one side of the steam box and fixedly connected with the rotating disc assembly, the steam box comprises a box body, a bottom plate rotationally connected with the box body, a sixth mounting seat fixed on the outer side of the box body, two first rolling bodies rotationally connected to the sixth mounting seat, and two second rolling bodies rotationally connected to the lower portion of the opening and closing side of the bottom plate, and the bottom plate is made of a mesh plate.

Further, the retainer comprises an annular frame, and a rectangular hole penetrating through the middle of the annular frame is formed.

Further, the pusher dog comprises a pusher dog body and a cushion pad fixed at the front lower part of the pusher dog body.

Compared with the prior art, the utility model has the beneficial effects that: the connecting plate on the steaming box rotating assembly is fixedly connected with the rotating disc assembly on the frame, and the bottom of the steaming box is provided with the bottom plate which is in rotary connection, so that the steaming box can rotate stably without tea leakage; the steam boxes are arranged in the retainer in a circumferential array mode, so that each steam box can be synchronously aligned with the steam box under each rack; a first rolling body which is rotatably supported is arranged on one side of the steam box, and a second rolling body is arranged below the opening and closing side of the bottom plate, so that the steam box is free from abrasion, and the noise in the rotating process of the steam box is reduced; a wooden box made of pine is fixedly arranged in the steam box, so that the steamed tea leaves have wooden fragrance; the first stopping mechanism is adopted for stopping, and the second stopping mechanism is adopted for stopping, so that the rotation of the steam box is accurately positioned; the steam box is driven to rotate by the oil cylinder through the rotating arm and the rotating shaft driving pusher dog, so that the steam box is convenient to maintain.

Drawings

Fig. 1 and fig. 2 are schematic perspective views of the mechanism at different angles.

Fig. 3 and 4 are schematic perspective views of the frame assembly of the present mechanism from different angles.

Fig. 5 is a schematic perspective view of a first stop mechanism of a frame assembly in the present mechanism.

Fig. 6 is a schematic perspective view of a second stop mechanism of the frame assembly in the present mechanism.

Fig. 7 and 8 are schematic perspective views of the rotary driving mechanism of the present mechanism from different angles.

Fig. 9 is a front view of the pawl in the rotary drive mechanism of the present mechanism.

Fig. 10, 11 and 12 are schematic perspective views of the steam box assembly of the steam box rotating assembly of the mechanism from different angles.

Fig. 13 is a schematic perspective view of a retainer in the steam box rotating assembly of the present mechanism.

In the figure, 100, a rack assembly; 110. a frame; 111. a frame body; 112. a discharge pipe; 113. a steam box; 114. a steam inlet pipe; 120. a rotating disc assembly; 121. a rotating disc; 122. a first mount; 123. a first pin; 124. a second pin; 130. a first stop mechanism; 131. a second mounting base; 132. a first stopper; 133. a tension spring; 140. a second stop mechanism; 141. a third mount; 142. a second stopper; 143. a pressure spring; 200. a rotary driving mechanism; 210. a fourth mount; 220. an oil cylinder; 230. a fifth mount; 240. a rotating shaft; 250. a first rotating arm; 260. a second rotating arm; 270. a pusher dog; 271. a finger body; 272. a cushion pad; 300. a steam box rotating assembly; 3100. a steam box assembly; 3110. a steam box; 3111. a case; 3112. a bottom plate; 3113. a sixth mounting base; 3114. a first rolling element; 3115. a second rolling element; 3120. a wooden box; 3130. a connecting plate; 3131. a connecting plate body; 3132. a first shaft hole; 3133. a first shaft hole; 320. a retainer; 321. an annular frame; 322. an annular seal; 323. and (5) pressing plates.

Description of the embodiments

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1-2, the rotary driving mechanism comprises a frame assembly 100, a rotary driving mechanism 200 fixed under the frame assembly 100, and a steam box rotary assembly 300 arranged on the frame assembly 100, wherein the rotary driving mechanism 200 is used for driving the steam box rotary assembly 300 to rotate by a certain included angle.

As shown in fig. 3 to 4, the frame assembly 100 includes a frame 110, a rotating disc assembly 120 rotatably connected to the frame 110, a first stopping mechanism 130 and a second stopping mechanism 140 respectively fixed to the frame 110, and the frame 110 includes a frame body 111, a discharging pipe 112 and six steam boxes 113 fixed under the frame body 111 in a circumferential array manner, and a steam inlet pipe 114 inserted into one side of the steam boxes 113; the rotary disc assembly 120 comprises a rotary disc 121, eight first mounting seats 122 fixed on the rotary disc 121 in a circumferential array manner, and a first pin shaft 123 and a second pin shaft 124 respectively arranged on the outer side of the first mounting seats 122, wherein the first pin shaft 123 and the second pin shaft 124 are used for connecting the steam box rotary assembly 300.

As shown in fig. 5, the first stopping mechanism 130 includes a second mounting seat 131 fixed on the frame 110, a first stopping block 132, and a tension spring 133 with one end provided on the second mounting seat 131, wherein the first stopping block 132 is L-shaped, the other end of the tension spring 133 is provided at the end of the short side of the first stopping block 132, the corner of the first stopping block 132 is rotatably connected to the second mounting seat 131, the first stopping mechanism 130 is used for centering the steam box 3110 and the steam box 113, when a certain pushing force is applied, the tension spring 133 is elongated, the first stopping block 132 is passively rotated, and the connecting plate 3130 passes through the first stopping mechanism 130.

As shown in fig. 6, the second stopping mechanism 140 includes a third mounting seat 141 fixed on the frame 110, a second stopping block 142 slidably connected in the third mounting seat 141, and a compression spring 143 disposed in the third mounting seat 141, an oblique angle is disposed at an upper portion of the second stopping block 142, an upper end of the compression spring 143 contacts a lower end of the second stopping block 142, when the link plate 3130 passes through the second stopping block 142, the second stopping block 142 is depressed and the compression spring 143 is compressed, and after the link plate 3130 passes through the second stopping block 142, the second stopping block 142 is lifted and reset along with extension of the compression spring 143, so that the first stopping block 132 of the first stopping mechanism 130 is prevented from bouncing due to inertial impact of the link plate 3130, thereby realizing rotational positioning of the link plate 3130.

As shown in fig. 7 to 8, the rotary driving mechanism 200 includes a fourth mounting seat 210, an oil cylinder 220 rotatably connected to the fourth mounting seat 210, a fifth mounting seat 230 fixed under the frame 110, a rotating shaft 240 rotatably connected to the fifth mounting seat 230, a first rotating arm 250 and a second rotating arm 260 respectively connected to two ends of the rotating shaft 240 in a key manner, and a pawl 270 connected to the second rotating arm 260 through a pin shaft, wherein a piston rod joint of the oil cylinder 220 is rotatably connected to the first rotating arm 250, as shown in fig. 9, the pawl 270 includes a pawl body 271 and a buffer pad 272 fixed under the pawl body 271, wherein an arc is arranged above and in front of the pawl body 271, so that the pawl 270 is convenient to rotate, a right angle is arranged above and behind the pawl body 271 for limiting the pawl 270, an inclination angle is arranged below and behind the pawl body 271, a transition arc is arranged between the inclination angle and a lower end face so that the pawl 270 rotates through a connecting plate 3130, the buffer pad 270 is used for reducing impact of the pawl 270 and the connecting plate 3130, the buffer pad material preferably polyurethane, and the oil cylinder 220 extends out, so that the first rotating arm 250 drives the second rotating arm 272 to rotate through the connecting plate 240 by a certain included angle 260; the piston rod of the oil cylinder 220 is retracted, and the first rotating arm 250 is driven to drive the second rotating arm 260 to rotate anticlockwise for resetting through the rotating shaft 240.

As shown in fig. 10-12, the steam box rotating assembly 300 includes eight steam box assemblies 3100, a holder 320; the steam box assembly 3100 comprises a steam box 3110, a wooden box 3120 fixed in the steam box 3110, a connecting plate 3130 fixed at one side of the steam box 3110; as shown in fig. 13, the holder 320 includes an annular frame 321, an annular seal 322 provided on the annular frame 321, and a pressing plate 323 fixed on the annular seal 322; the steam box 3110 includes a steam box body 3111, a bottom plate 3112 rotatably connected under the steam box body 3111, a sixth mount 3113 fixed to one side of the steam box body 3111, two first rolling bodies 3114 rotatably connected to the sixth mount 3113, and two second rolling bodies 3115 rotatably connected under the opening and closing sides of the bottom plate 3112; the link plate 3130 includes a link plate body 3131, and first and second shaft holes 3132 and 3133 provided at upper and lower sides of one side of the link plate body 3131, respectively; wherein the connecting plate 3130 and the first rolling bodies 3114 are respectively arranged at both sides of the steam box 3110; the bottom plate 3112 which is connected in a rotating way is used for automatically discharging tea when the steam box 3100 rotates to the position right above the discharging pipe 112, the bottom plate 3112 is made of a mesh plate and is used for steam to steam tea; the first rolling bodies 3114 are used for supporting the steam box 3110 to rotate on the frame body 111, the second rolling bodies 3115 are used for supporting the base plate 3112 to rotate on the frame body 111, and the first rolling bodies 3114 and the second rolling bodies 3115 reduce noise during rotation of the steam box 3110; the middle parts of the steam box body 3111 and the wooden box 3120 are respectively provided with a rectangular hole which penetrates through, the wooden box 3120 material is preferably pine, and the steamed tea leaves can have wood fragrance when steaming tea; the first shaft hole 3132 and the second shaft hole 3133 on the upper side and the lower side of the connecting plate body 3131 are respectively used for being connected with the first pin shaft 123 and the second pin shaft 124, and the steam box assembly 3100 can be rotationally connected with the rotating disc 120 by taking down the second pin shaft 124, so that tea leaves below the steam box assembly 3100 can be cleaned conveniently; the middle part of the annular frame 321 is provided with a rectangular hole which penetrates through the annular frame and is used for fixing the steam box 3110; the holder 320 is provided with an annular seal 322, which reduces rotational noise of the holder 320 in the housing body 111 and at the same time also serves as a steam seal for the rotation process of the steam box 3110.

When the rotary driving mechanism is used, materials are fed to each steam box 3110 except for the steam boxes 3110 right above the discharging pipes 112, after the materials are fed, steam enters each steam box 113 through the steam inlet pipe 114, steam enters the wooden box 3120 through meshes on the bottom plate 3112 for steaming tea, after a certain time of steaming tea, the oil cylinder 220 on the rotary driving mechanism 200 drives the first rotating arm 250, the first rotating arm 250 drives the second rotating arm 260 to rotate clockwise through the rotating shaft 240, the pusher dog 270 drives the connecting plate 3130 to rotate clockwise by a certain angle under the rotation of the second rotating arm 260, the steam box assembly 3100 fixedly connected with the connecting plate 3130 is rotated to the right above the adjacent steam boxes 113, meanwhile, the steam boxes 3110 right above the steam boxes 113 adjacent to the discharging pipes 112 are rotated to the right above the discharging pipes 112, the bottom plate 3112 on the steam boxes 3110 and the box 3111 rotate under the action of gravity, and the steamed tea falls out of the wooden box 3120 along with the rotation of the bottom plate 3112, the tea leaves fall out of the equipment through the discharging pipe 112 and continue to be fed into the steam box 3110 without the discharging pipe 112 and the steam box 113 right below, after the feeding, steam enters each steam box 113 through the steam inlet pipe 114, steam enters the wooden box 3120 through meshes on the bottom plate 3112 for steaming tea, after one end of tea steaming time, the piston rod of the oil cylinder 220 is retracted, the first rotating arm 250 is driven to drive the second rotating arm 260 to rotate anticlockwise through the rotating shaft 240, the rotating claw 270 rotates when passing through the next connecting plate 3130, the piston rod of the oil cylinder 220 is reset through gravity, the piston rod of the oil cylinder 220 extends out to drive the first rotating arm 250, the first rotating arm 250 drives the second rotating arm 260 to rotate clockwise through the rotating shaft 240, the rotating claw 270 pushes the next connecting plate 3130 to rotate clockwise by a certain angle under the rotation of the second rotating arm 260, the steam box assembly 3100 fixedly connected with the connecting plate 3130 is rotated to right above the next steam box 113 for steaming tea, and at the same time, the steam box 3110 above the steam box 113 adjacent to the discharging pipe 112 rotates to be right above the discharging pipe 112, the bottom plate 3112 on the steam box 3110 and the box body 3111 rotate under the action of gravity, steamed tea leaves fall out of the wooden box 3120 along with the rotation of the bottom plate 3112, and fall out of the device through the discharging pipe 112, so that continuous operation can be realized.

The advantages are that: the connecting plate 3130 on the steam box rotating assembly 300 is fixedly connected with the rotating disc assembly 120 on the frame 110, and the bottom plate 3120 which is rotatably connected is arranged at the bottom of the steam box 3110, so that the steam box 3110 can rotate stably without tea leakage; the steamers 3110 are disposed within the holder 320 and arranged in a circumferential array such that each of the steamers 3110 is synchronously aligned with a steam box 113 below each of the racks 110; a first rolling body 3114 rotatably supported is arranged on one side of the steam box 3110, and a second rolling body 3115 is arranged below the opening and closing side of the bottom plate 3112, so that the steam box 3110 is free from abrasion, and noise in the rotating process of the steam box 3110 is reduced; a wooden box 3120 made of pine is fixedly arranged in the steam box 3110, so that the steamed tea leaves have wooden fragrance; the first stopping mechanism 130 is adopted for stopping, the second stopping mechanism 140 is adopted for stopping, and the accurate positioning of the rotation of the steam box 3110 is realized; the oil cylinder 220 is adopted to drive the pusher dog 270 to drive the steam box 3110 to rotate through the rotating arm and the rotating shaft 240, so that maintenance is facilitated; the steam box 3110 is changed from a cylindrical shape into a rectangular shape, and tea leaves falling from the steam box 3110 to a tea mould are convenient to be manually raked, so that the efficiency of manually raking the tea leaves in a subsequent process is improved.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (7)

1. The utility model provides a rotatory tea steaming mechanism, includes frame subassembly (100), fixes rotary driving mechanism (200) under frame subassembly (100), steam ager rotary assembly (300) of setting on frame subassembly (100), a serial communication port, frame subassembly (100) include one frame (110), rotate rotary disk subassembly (120) of connecting on frame (110), fix first stop mechanism (130) and second stop mechanism (140) on frame (110) respectively, steam ager rotary assembly (300) include a plurality of steam ager subassembly (3100), a holder (320), steam ager subassembly (3100) and rotary disk subassembly (120) fixed connection, rotary driving mechanism (200) drive steam ager rotary assembly (300) step by step rotatory, steam ager subassembly (3100) include steam ager (3110), fix wooden case (3120) in steam ager (3110), wooden case (3120) middle part be equipped with a rectangle hole that runs through the material is pine.

2. The rotary tea steaming mechanism according to claim 1, wherein the first stopping mechanism (130) comprises a second mounting seat (131) fixed on the frame (110), a first stopping block (132) and a tension spring (133) with one end provided on the second mounting seat (131), the first stopping block (132) is L-shaped, the other end of the tension spring (133) is arranged at the end of the short side of the first stopping block (132), and the corner of the first stopping block (132) is rotationally connected to the second mounting seat (131).

3. A rotary tea steaming mechanism according to claim 1, wherein the second stopping mechanism (140) comprises a third mounting seat (141) fixed on the frame (110), a second stopping block (142) slidably connected in the third mounting seat (141), and a pressure spring (143) arranged in the third mounting seat (141), an oblique angle is arranged at the upper part of the second stopping block (142), and the upper end of the pressure spring (143) is contacted with the lower end of the second stopping block (142).

4. The rotary tea steaming mechanism according to claim 1, wherein the rotary driving mechanism (200) comprises a fourth mounting seat (210), an oil cylinder (220) rotatably connected to the fourth mounting seat (210), a fifth mounting seat (230) fixed under the frame (110), a rotating shaft (240) rotatably connected to the fifth mounting seat (230), a first rotating arm (250) and a second rotating arm (260) respectively connected with two ends of the rotating shaft (240) in a key way, and a finger (270) connected to the second rotating arm (260) through a pin, wherein a piston rod joint of the oil cylinder (220) is rotatably connected with the first rotating arm (250).

5. The rotary tea steaming mechanism according to claim 1, wherein the steaming box assembly (3100) further comprises a connecting plate (3130) fixed on one side of the steaming box (3110), the connecting plate (3130) is fixedly connected with the rotary disc assembly (120), the steaming box (3110) comprises a box body (3111), a bottom plate (3112) rotatably connected, a sixth mounting base (3113) fixed on the outer side of the box body (3111), two first rolling bodies (3114) rotatably connected to the sixth mounting base (3113), and two second rolling bodies (3115) rotatably connected below the opening side of the bottom plate (3112), and the bottom plate (3112) is made of a mesh plate.

6. A rotary tea steaming mechanism according to claim 1, wherein the holder (320) comprises an annular frame (321), and a rectangular hole is provided in the middle of the annular frame (321).

7. A rotary tea steaming mechanism according to claim 4, wherein the finger (270) comprises a finger body (271), and a cushion pad (272) fixed to the front lower side of the finger body (271).

Images