CN210538696U - Intelligent production device for fresh royal jelly freeze-dried powder - Google Patents

Abstract

The utility model discloses an intelligent production device for fresh royal jelly freeze-dried powder, which comprises a vacuum freeze-drying box for freeze-drying fresh royal jelly, a placing rack for placing materials to be freeze-dried, a cover body for accommodating a placing cavity of the placing rack and opening and closing the vacuum freeze-drying box, and a guide rail for supporting the cover body to move; the method is characterized in that: the vacuum freeze-drying box is characterized in that both sides of the vacuum freeze-drying box are provided with a control column for controlling the cover body to open and close the vacuum freeze-drying box and a fixing groove for moving the control column, and the vacuum freeze-drying box is provided with a ventilation cavity communicated with the fixing groove through a connecting pipeline and a driving mechanism for driving the placing frame to move out of the placing cavity; through the arrangement of the structure, the moving of the placing rack can realize the effect of automatic moving out through the moving control of each part, the labor and time consumption of manual moving are avoided, the moving efficiency of the placing rack is effectively improved, and the stability of the moving placing rack is enhanced.

Description

Intelligent production device for fresh royal jelly freeze-dried powder

Technical Field

The utility model belongs to the technical field of royal jelly production, especially, relate to a bright royal jelly freeze-dried powder intelligence apparatus for producing.

Background

The royal jelly is a yellowish or light orange viscous liquid, has sweet and fragrant taste and high medicinal value; the royal jelly is difficult to store at normal temperature and is very easy to damage active substances in the royal jelly under the action of air, sunlight and water, so that the efficacy of the royal jelly is influenced, and therefore, the royal jelly can be stored only after being subjected to vacuum freeze-drying treatment.

When the royal jelly is processed, a vacuum freeze drying box is needed, and the volume of the placing rack for placing the materials is also large, so that the placing rack needs to be moved by a plurality of people together, the placing rack is moved out of the vacuum freeze drying box, and great labor is consumed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art not enough, provide a light laborsaving and reliable bright royal jelly freeze-dried powder intelligence apparatus for producing.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an intelligent production device for fresh royal jelly freeze-dried powder comprises a vacuum freeze-drying box for freeze-drying fresh royal jelly, a placing rack for placing materials to be freeze-dried, a cover body for accommodating a placing cavity of the placing rack and opening and closing the vacuum freeze-drying box, and a guide rail for supporting the cover body to move; the vacuum freeze-drying box is characterized in that both sides of the vacuum freeze-drying box are provided with a control column for controlling the cover body to open and close the vacuum freeze-drying box and a fixing groove for moving the control column, and the vacuum freeze-drying box is provided with a ventilation cavity communicated with the fixing groove through a connecting pipeline and a driving mechanism for driving the placing frame to move out of the placing cavity; through the arrangement of the structure, the moving of the placing rack can realize the effect of automatic moving out through the moving control of each part, the labor and time consumption of manual moving are avoided, the moving efficiency of the placing rack is effectively improved, and the stability of the moving placing rack is enhanced.

The driving mechanism comprises a movable cavity arranged at the top of the vacuum freeze-drying box, a driving barrel arranged on the movable cavity, an annular moving block sleeved on the driving barrel, a conveying belt arranged below the annular moving block and a driving shell used for driving the placing frame to move; through the arrangement of the annular moving block, the conveyor belt can be driven to rotate through the annular moving block, and can be always kept in a meshed state with the driving shell, so that the movement of the annular moving block can be always kept for driving the driving shell, the utilization rate of a space is reduced, the connection stability between the parts is enhanced, and the parts are prevented from being easily separated from each other.

The conveying belt is provided with two driving rollers for supporting the conveying belt to move, the ventilation cavity is communicated with the driving barrel, a movable fourth driving block is arranged in the driving barrel, a first magnetic part is arranged on the fourth driving block, and the length of the driving shell is greater than that of the placing rack; the fourth driving block and the first magnetic part are arranged to fixedly connect the annular moving block, so that the fourth driving block can move to drive the annular moving block to stably move, the sealing performance in the driving cylinder can be guaranteed, and gas leakage is avoided.

The bottom of the annular moving block is fixedly provided with a control block, the bottom of the control block is provided with a first tooth meshing group, the conveyor belt is provided with a second tooth meshing group meshed with the first tooth meshing group, and the top surface of the driving shell is provided with a third tooth meshing group meshed with the second tooth meshing group; through the setting of above-mentioned each set of nibbling teeth, can guarantee the structural connection intensity between each part, guaranteed the stability when the structure moves, and the drive casing can remove through latch control rack, and the rack can separate with the drive casing at any time simultaneously to remove the rack and take out the material.

A first clamping tooth group is arranged on the bottom surface of the driving shell, a first limiting slide block matched with the driving shell is arranged at the top of the placing frame, a second clamping tooth group meshed with the clamping tooth group is arranged on the first limiting slide block, and a plurality of balls contacted with the driving barrel are arranged on the inner wall of the annular moving block; through the arrangement of the structure, the friction force between the annular moving block and the driving barrel can be reduced, so that the annular moving block can move more smoothly, the abrasion of parts is reduced, and the stability of the placing frame during moving is enhanced.

A plurality of first rollers are respectively arranged on two sides of the driving shell, a first moving groove for the first rollers to move is formed in the vacuum freeze-drying box, and a second moving groove for the driving shell and the first limiting slide block to move is formed in the bottom of the movable cavity; through the arrangement of the structure, the moving smoothness of the driving shell can be increased, the resistance of the annular moving block when the control block is driven to move is reduced, and the stable driving of the placing frame is guaranteed.

The fixing groove is provided with a first driving block and a second driving block which are used for driving the control column to move, the fixing groove is provided with an annular stop block used for stopping the second driving block, an air duct is arranged between the first driving block and the second driving block, and one end of the air duct is provided with a third driving block used for driving the first driving block to move and a first driving piece used for driving the third driving block to move; through the arrangement of the structure, the drive of the placing frame is realized through the flowing change of gas in the moving process of the cover body, so that the placing frame can drive the material to automatically move out of the placing cavity, the direct contact of a human body is avoided, the safety is ensured, meanwhile, the required strength in manual carrying can be saved, the labor-saving effect is achieved, and the material can be taken out and loaded more easily.

The utility model has the advantages of it is following: this bright royal jelly freeze-dried powder intelligence apparatus for producing passes through the setting of above-mentioned structure for above-mentioned rack can realize the effect of automatic vacuum freeze-drying case that shifts out at the in-process that the vacuum freeze-drying case was opened to the lid, difficultly and troublesome when having avoided artifical removal rack, makes the light laborsaving of removal more of rack, stability and practicality very.

Drawings

Fig. 1 is a three-dimensional structure diagram of the present invention.

Fig. 2 is a first perspective sectional view of fig. 1.

Fig. 3 is an enlarged view of a structure at a in fig. 2.

Fig. 4 is an enlarged view of a structure at B in fig. 2.

Fig. 5 is a second perspective sectional view of fig. 1.

Fig. 6 is an enlarged view of a structure at C in fig. 2.

Fig. 7 is an enlarged view of the structure at D in fig. 2.

Fig. 8 is an enlarged view of a structure at E in fig. 2.

Fig. 9 is a perspective cross-sectional view of the vacuum freeze-drying oven of fig. 1.

Fig. 10 is a perspective view of the rack and the movable plate in fig. 1.

Detailed Description

As shown in fig. 1-10, an intelligent production device for fresh royal jelly freeze-dried powder comprises a vacuum freeze-drying box 1 for freeze-drying fresh royal jelly, a placing rack 2 for placing a material to be freeze-dried, a placing cavity 11 for accommodating the placing rack 2, a cover 12 for opening and closing the vacuum freeze-drying box 1, and a guide rail 13 for supporting the movement of the cover 12, wherein two sides of the vacuum freeze-drying box 1 are respectively provided with a control column 31 for controlling the cover 12 to open and close the vacuum freeze-drying box 1 and a fixing groove 32 for allowing the control column 31 to move, the fixing groove 32 is provided with a first driving block 33 and a second driving block 34 for driving the control column 31 to move, the fixing groove 32 is provided with an annular stopper 321 for stopping the second driving block 34, a ventilation pipeline 35 is arranged between the first driving block 33 and the second driving block 34, and one end of the ventilation pipeline 35 is provided with a third driving block 351 for driving the first driving block 33 to move and a third driving block 351 for The vacuum freeze-drying box 1 is provided with a ventilation cavity 15 communicated with the fixing groove 32 through a connecting pipeline 14 and a driving mechanism for driving the placing rack 2 to move out of the placing cavity 11, the connecting pipeline 14 is internally provided with a second driving part 141 for driving the second driving block 34 to move, and the bottom of the placing rack 2 is provided with an auxiliary moving device for assisting the placing rack 2 to move; after the royal jelly is freeze-dried, the first driving part 352 is started to drive the third driving block 351 to move, the vent pipeline 35 is in sealing fit with the fixed groove 32, the movement of the third driving block 351 pushes against the first driving block 33 to move, the movement of the first driving block 33 drives the control column 31 to move outwards, the movement of the control column 31 drives the cover body 12 to open the vacuum freeze-drying box 1, the cover body 12 is supported by the guide rail 13 to move simultaneously, after the cover body 12 moves for a certain distance, the second driving part 141 is started, the moving distance of the cover body 12 is consistent with the moving distance of the first driving block 33, the second driving part 141 pushes against the second driving block 34 to move, the movement of the second driving block 34 pushes against the first driving block 33 to move, the first driving block 33 pushes against the control column 31 to move again, the control column 31 pushes against the cover body 12 to move again, after the control column 31 moves to the limit distance, the control column 31 is separated from the cover body 12, the worker pushes the cover body 12 to move along the guide rail 13 for the third time until the placing frame 2 can be moved out of the vacuum freeze-drying box 1, when the cover body 12 moves for the second time, the auxiliary moving device moves through the gas in the fixing groove 32 and the ventilation cavity 11 when the control column 31 moves, the placing frame 2 is driven to move out of the vacuum freeze-drying box 1, and therefore the placing frame 2 can be moved, and freeze-dried materials can be taken out; before placing a new material for freeze-drying treatment, placing the material on a placing rack 2, pushing the placing rack 2 to enter a placing cavity 11, and simultaneously starting a second driving part 141, wherein gas in a fixing groove 32 flows into a ventilation cavity 32, in the process that the placing rack 2 enters the placing cavity 11, the auxiliary moving device is controlled to start through the flow change of the gas, the placing rack 2 is driven to move towards the placing cavity 11, a second driving block 34 moves along with the placing rack 2 until the second driving block 34 is blocked by an annular stop block 321 and can not move, the placing rack 2 just completely enters the placing cavity 11, then a cover body 12 is moved, so that the cover body 12 moves along a guide rail 13, the vacuum freeze-drying box 1 is sealed, the cover body 12 is fixedly connected with a control column 31, then a first driving part 352 is started, a third driving part 351 reversely moves, and gas between the first driving part 33 and the second driving part 34 is extracted, so that the first driving block 33 moves towards the second driving block 34, the first driving block 33 thereby moves the cover 12 via the control column 31, so that the cover 12 closes the lyophilization chamber 1.

The vacuum freeze-drying box, the placing rack and the cover body are all products existing in the market at present, and are not described again for the prior art, the cover body can freely move on the guide rail through the rolling wheel, the top of the guide rail is fixed at the top of a room for placing the vacuum freeze-drying box and is arranged in a hanging way, and the curved part is arranged on the guide track, so that the cover body can be far away from the opening of the vacuum freeze-drying box, and the blocking to the movement of the placing frame is avoided, the first driving block, the second driving block, the third driving block and the fourth driving block in the embodiment all adopt piston arrangement, which is the prior art and is not described herein again, the first driving member and the second driving member are both arranged, which is the prior art and will not be described herein, the ventilation cavity, the fixing groove, the connecting pipeline and the gas filled in the ventilation pipeline are hydrogen and can bear the temperature change in the vacuum freeze-drying box; the air pump in the embodiment is an existing product in the market at present, is the prior art, and is not drawn in detail in the attached drawings of the specification; above-mentioned vacuum freeze-drying case changes the drive of the removal of realization to the rack and the removal of lid through gaseous flow, can reduce the setting of various metal parts through gaseous, if adopt the motor, driving piece drive arrangement such as cylinder operation, there is the linkage between a large amount of parts, and need set up a large amount of spare parts, adopt gaseous damage that can reduce the part, reduce cost of maintenance, the temperature variation range in the vacuum freeze-drying incasement is great simultaneously, and the metal has certain expansion coefficient, therefore the cold and hot change of temperature, can reduce the loss of aggravation metal part.

When drive lid and vacuum freeze-drying case remove, the gas in the cavity of ventilating need carry to the fixed slot of vacuum freeze-drying case both sides in, gas has been shunted, the driving force that leads to gas is halved, make the moving speed of lid be less than the moving speed of rack, remove after the dead time when the lid, the lid can block the removal of rack, lead to the device to crash easily, and first drive block of forerunner, alright remove the certain distance earlier before making the lid remove at the rack, guarantee that the removal after the lid can not lead to the fact the stopping to the removal of rack, guarantee the smoothness that the rack shifts out.

The tip of above-mentioned control post 31 is equipped with second magnetism piece 311, be equipped with on lid 12 with second permanent magnet 311 matched with circular telegram coil 121, when fixed control post and lid, circular telegram coil starts, attracts the second permanent magnet, fixes the lid on the control post, during separation control post and lid, disconnection circular telegram coil can, above-mentioned second magnetism piece adopts the permanent magnet setting, for prior art, and this place is no longer repeated.

The driving mechanism comprises a movable cavity 41 arranged at the top of the vacuum freeze-drying box 1, a driving barrel 42 arranged on the movable cavity 41, an annular moving block 43 sleeved on the driving barrel 42, a conveying belt 44 arranged below the annular moving block 43 and a driving shell 45 used for driving the placing rack 2 to move, two driving rollers 441 used for supporting the conveying belt 44 to move are arranged on the conveying belt 44, the ventilation cavity 15 is communicated with the driving barrel 42, a movable fourth driving block 421 is arranged in the driving barrel 42, a first magnetic piece 422 is arranged on the fourth driving block 421, and the length of the driving shell 45 is greater than that of the placing rack 2; when the gas in the vent cavity 15 is pumped into the fixed groove 32, the gas pressure in the driving cylinder 42 communicated with the vent cavity 15 decreases, the fourth driving block 421 moves towards the vent cavity 15, the annular moving block 43 is driven by the first magnetic member 422 on the fourth driving block 421 to move towards the vent cavity 15, the movement of the annular moving block 43 drives the conveyor belt 44 to rotate around the driving rod roller 441, the rotation of the conveyor belt 44 drives the driving shell 45 to move towards the outside of the vacuum freeze-drying box 1, the movement of the driving shell 45 drives the placing rack 2 to move towards the outside of the vacuum freeze-drying box 1, the placing rack 2 is separated from the driving shell 45 after moving out of the placing cavity 11, and the driving shell 45 is still partially positioned in the vacuum freeze-drying box 1; when the air pressure in the ventilation cavity 15 becomes high, the fourth driving block 421 drives the annular moving block 43 to move in the reverse direction, the annular moving block 43 moves to drive the conveyor belt 44 to rotate in the reverse direction, the reverse rotation of the conveyor belt 44 drives the driving shell 45 to move in the reverse direction, and the driving shell 45 drives the placing frame 2 to return to the placing cavity 11; above-mentioned first magnetic part adopts powerful permanent magnet setting, for prior art, and the no longer repeated description here, above-mentioned annular movable block adopts powerful magnetic material to make, can attract each other with first magnetic part.

The bottom of the annular moving block 43 is fixedly provided with a control block 431, the bottom of the control block 431 is provided with a first engaging tooth group 432, the conveyor belt 44 is provided with a second engaging tooth group 442 meshed with the first engaging tooth group 432, the top surface of the driving shell 45 is provided with a third engaging tooth group 451 meshed with the second engaging tooth group 442, the bottom surface of the driving shell 45 is provided with a first clamping tooth group 452, the top of the placing frame 2 is provided with a first limiting slide block 21 matched with the driving shell 45, the first limiting slide block 21 is provided with a second clamping tooth group 211 meshed with the clamping tooth group 452, the inner wall of the annular moving block 43 is provided with a plurality of balls 433 contacted with the driving barrel 42, two sides of the driving shell 45 are respectively provided with a plurality of first rollers 453, the vacuum freeze-drying box 1 is provided with a first moving groove 16 for the first rollers 453 to move, and the bottom of the movable cavity 41 is provided with a second moving groove 16 for the driving shell 45 and the first limiting slide block 21 to move A movable slot 411; when the annular moving block 43 moves, the annular moving block 43 drives the control block 431 to move, the balls 433 on the inner wall of the annular moving block 43 are always kept in contact with the driving barrel 42, and when the driving shell 45 moves, the first rollers 453 on two sides of the driving shell 45 move in the first moving groove 16; the balls are made of metal materials, and the first roller is an existing product in the current market and is not described in detail for the prior art.

Claims (7)

1. An intelligent production device for fresh royal jelly freeze-dried powder comprises a vacuum freeze-drying box (1) for freeze-drying fresh royal jelly, a placing rack (2) for placing materials to be freeze-dried, a placing cavity (11) for accommodating the placing rack (2) and a cover body (12) for opening and closing the vacuum freeze-drying box (1), and a guide rail (13) for supporting the cover body (12) to move; the method is characterized in that: the both sides of vacuum freeze-drying case (1) all are equipped with control post (31) that are used for controlling lid (12) to open and close vacuum freeze-drying case (1) and are used for supplying fixed slot (32) that control post (31) removed, be equipped with on vacuum freeze-drying case (1) through connecting tube (14) with the ventilation cavity (15) that fixed slot (32) are linked together with be used for driving rack (2) and shift out the actuating mechanism who places chamber (11).

2. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 1, characterized in that: the driving mechanism comprises a movable cavity (41) arranged at the top of the vacuum freeze-drying box (1), a driving barrel (42) arranged on the movable cavity (41), an annular moving block (43) sleeved on the driving barrel (42), a conveying belt (44) arranged below the annular moving block (43) and a driving shell (45) used for driving the placing frame (2) to move.

3. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 2, characterized in that: be equipped with two drive rollers (441) that are used for supporting conveyer belt (44) and remove on conveyer belt (44), ventilate chamber (15) is linked together with driving barrel (42), be equipped with mobilizable fourth drive block (421) in driving barrel (42), be equipped with first magnetic part (422) on fourth drive block (421), the length of drive casing (45) is greater than the length of rack (2).

4. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 2, characterized in that: the bottom of the annular moving block (43) is fixedly provided with a control block (431), the bottom of the control block (431) is provided with a first meshing group (432), the conveyor belt (44) is provided with a second meshing group (442) meshed with the first meshing group (432), and the top surface of the driving shell (45) is provided with a third meshing group (451) meshed with the second meshing group (442).

5. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 2, characterized in that: be equipped with first latch group (452) on the bottom surface of drive casing (45), the top of rack (2) is equipped with first limiting slide (21) with drive casing (45) matched with, be equipped with on first limiting slide (21) with second latch group (211) that latch group (452) meshing is connected, be equipped with a plurality of balls (433) that contact with drive section of thick bamboo (42) on the inner wall of annular movable block (43).

6. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 2, characterized in that: the two sides of the driving shell (45) are respectively provided with a plurality of first rollers (453), the vacuum freeze-drying box (1) is provided with a first moving groove (16) for the first rollers (453) to move, and the bottom of the movable cavity (41) is provided with a second moving groove (411) for the driving shell (45) and the first limiting slide block (21) to move.

7. The intelligent production device of fresh royal jelly freeze-dried powder according to claim 1, characterized in that: the driving device is characterized in that a first driving block (33) and a second driving block (34) which are used for driving the control column (31) to move are arranged on the fixing groove (32), an annular stop block (321) which is used for stopping the second driving block (34) is arranged on the fixing groove (32), an air duct (35) is arranged between the first driving block (33) and the second driving block (34), and a third driving block (351) which is used for driving the first driving block (33) to move and a first driving piece (352) which is used for driving the third driving block (351) to move are arranged at one end of the air duct (35).

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