CN209295543U - A kind of continuous feeding and discharging fluidized bed - Google Patents

Abstract

The utility model discloses a kind of continuous feeding and discharging fluidized bed, which includes fluidized bed ontology, horizontal is installed in the air distribution plate of lower part in the ontology, the air inlet for being set to fluidized bed body bottom portion side, the air outlet for being set to fluidized bed bodies top side and the blower being installed on air outlet pipeline, driving mechanism, rotation separate space, fluidized bed filter device, feed inlet, discharge port, air inlet valve and outlet valve.Fluidized bed continuous feeding and discharging may be implemented in the utility model, improves production efficiency of equipment, reduces client's production cost.

Description

A kind of continuous feeding and discharging fluidized bed

Technical field

The utility model belongs to solid pharmaceutical preparation production technical field, is related to a kind of fluidized bed of continuous feeding and discharging.

Background technique

Solid pharmaceutical preparation fluidized bed at present, it is main using batch charging-discharging structure.Batch charging-discharging structure require material together into In fluidized bed equipment, discharge fluid unit is further played after completing functions/drying.The structural requirement gets out property in advance Material, while material, when fluidized bed is internally dry, lower flow device can not operate, it is desirable that rear end is set after fluidized bed drying completes discharging It is standby to start, cause equipment service efficiency low.

Summary of the invention

The purpose of the utility model is to overcome the deficiencies in the prior art or defects, provide a kind of continuous feeding and discharging fluidized bed, Uninterrupted continuous feeding and discharging may be implemented, rear end equipment can operate synchronously, effective lifting means service efficiency.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of continuous feeding and discharging fluidized bed, fluidized bed include fluidized bed ontology, the horizontal gas for being installed in lower part in the ontology Flow point matching board, the air inlet for being set to fluidized bed body bottom portion side, the air outlet for being set to fluidized bed bodies top side and The blower being installed on air outlet pipeline, fluidized bed further include driving mechanism, rotation separate space, fluidized bed filter device, feed inlet, go out Material mouth, air inlet valve and outlet valve；

Driving mechanism is installed on fluidized bed body bottom portion and the shaft of the driving mechanism passes through the gentle flow point of fluidized bed ontology Matching board；

Rotation separate space includes support column and N number of partition, and the shaft of support column and driving mechanism is coaxially installed on distribution of air flow On plate；Partition is installed on support column and, outer inner sidewall close to fluidized bed ontology perpendicular with air distribution plate；Support Column bottom is fixedly connected with the shaft of driving mechanism, and rotation separate space will be divided into independent N number of chamber, chamber in fluidized bed ontology Between material it is mutually indepedent；

Discharge port is installed on fluidized bed ontology side and is located above air distribution plate, and discharge port is equipped with testing agency；

Fluidized bed filter device is installed in fluidized bed ontology and is located above rotation separate space；

Feed inlet is installed on fluidized bed bodies top and the lower end of the feed inlet passes through fluidized bed filter device and rotation separate space Feed inlet lower end is located at the top of an adjacent chamber of the chamber when chamber is located at discharge port in the N number of chamber formed；

Air inlet valve and outlet valve are respectively arranged on air inlet and air outlet.

Support column is coniform in above-mentioned continuous feeding and discharging fluidized bed.

The lower end of above-mentioned continuous feeding and discharging fluidized bed middle charging aperture is equipped with the bending part towards discharge port position.

Testing agency will test data transmission extremely by wired or wireless mode in above-mentioned continuous feeding and discharging fluidized bed Control centre.

Uninterrupted continuous feeding and discharging may be implemented in the present invention, and rear end equipment can operate synchronously, and effective lifting means uses Efficiency.

Detailed description of the invention

Fig. 1 be the utility model relates to a kind of continuous feeding and discharging fluidized-bed structure schematic diagram；

Fig. 2 be in Fig. 1 A-A to structural schematic diagram (without air inlet and air inlet valve).

Specific embodiment

Below in conjunction with attached drawing, the invention will be further described.

Please refer to Fig. 1~2, shown in figure the utility model relates to a kind of continuous feeding and discharging fluidized bed, including fluidisation Bed ontology 1, the horizontal air inlet for being installed in the air distribution plate 2 of lower part in the ontology 1, being set to 1 bottom side of fluidized bed ontology Mouth 1a, the air outlet 1b for being set to 1 top side of fluidized bed ontology, the blower 3 being installed on air outlet 1b pipeline, driving mechanism 4, separate space 5, fluidized bed filter device 6, discharge port 7, feed inlet 8, air inlet valve 1c and outlet valve 1d are rotated；

Driving mechanism 4 is installed on 1 bottom of fluidized bed ontology and the shaft of the driving mechanism 4 is gentle across fluidized bed ontology 1 Flow point matching board 2；Rotating separate space 5 includes coniform support column 5a and five partition 5b, the shaft of support column 5a and driving mechanism 4 It is coaxially installed on air distribution plate 2；Partition 5b is installed on support column 5a and perpendicular with air distribution plate 2, outer patch The inner sidewall of nearly fluidized bed ontology 1；The bottom support column 5a is fixedly connected with the shaft of driving mechanism 4, rotates separate space 5 for fluidized bed Independent five chambers are divided into ontology 1, the material between chamber is mutually indepedent；

Fluidized bed filter device 6 is installed in fluidized bed ontology 1 and is located at 5 top of rotation separate space；

Discharge port 7 is installed on 1 side of fluidized bed ontology and is located at 2 top of air distribution plate, and discharge port 7 is equipped with detection machine Structure 7a, testing agency 7a will test data transmission to control centre by wired or wireless mode；

Feed inlet 8 is installed on 1 top of fluidized bed ontology and the lower end of the feed inlet 8 and passes through fluidized bed filter device 6, charging The lower end of mouth 8 is equipped with the bending part 8a towards 7 position of discharge port, and a chamber is located in five chambers that rotation separate space 5 is formed 8 lower end of feed inlet is located at the top of next chamber on the chamber direction of rotation when discharge port 7；

Air inlet valve 1c and outlet valve 1d are respectively arranged on air inlet 1a and air outlet 1b.

Below in conjunction with the substantially course of work of the Detailed description of the invention continuous feeding and discharging fluidized bed:

Blower 3 starts, and air inlet valve 1c and outlet valve 1d are opened, and material enters in fluidized bed ontology 1 from feed inlet 8, goes forward side by side Enter to rotate in the chamber that the segmentation of separate space 5 is formed；The starting driving rotation separate space 5 of driving mechanism 4 rotates, and rotation separate space 5 rotates The material rotation in chamber 5 is driven, effect is dried while rotation in material；The rotation of 5 constant speed of separate space is rotated, when material institute When chamber rotates to 7 position of discharge port, fluidized bed ontology 1 can be discharged in material, and the testing agency 7a of discharge port 7 is used for detectable substance Expect the physical property under discharge state.

Fluidization wind rate is adjusted by air inlet valve 1c and outlet valve 1d, material in rotation chamber 5 is can control and reaches fluidisation shape Prevent the indoor material of different cavity from mutually altering material while state.

Rotate separate space 5 and fluidized bed ontology 1 be divided into five different chambers, be respectively between different chamber charging, Dry, discharge state, when a chamber discharging is completed to enter feed state, another chamber is dry to be completed to enter discharge state, It successively carries out, it is ensured that fluidized bed can be realized continuous feeding and discharging.

Above embodiments are only for illustration of the utility model, rather than limitations of the present invention, related technical field Technical staff can also make various transformation or modification in the case where not departing from the spirit and scope of the utility model, because This all equivalent technical solution also should belong to the scope of the utility model, should be limited by each claim.

Claims (4)

1. a kind of continuous feeding and discharging fluidized bed, the fluidized bed includes fluidized bed ontology, horizontal is installed in lower part in the ontology Air distribution plate, the air inlet for being set to fluidized bed body bottom portion side are set to fluidized bed bodies top side Air outlet and the blower that is installed on air outlet pipeline, which is characterized in that the fluidized bed further include driving mechanism, rotation every Chamber, fluidized bed filter device, feed inlet, discharge port, air inlet valve and outlet valve；

The driving mechanism is installed on the fluidized bed body bottom portion and the shaft of the driving mechanism passes through the fluidized bed ontology With the air distribution plate；

The rotation separate space includes support column and N number of partition, and the support column and the shaft of the driving mechanism are coaxially installed on On the air distribution plate；The partition is installed on the support column and perpendicular with the air distribution plate, outer patch The inner sidewall of the nearly fluidized bed ontology；The support column bottom is fixedly connected with the shaft of the driving mechanism, the rotation Separate space will be divided into independent N number of chamber in fluidized bed ontology, the material between the chamber is mutually indepedent；

The discharge port is installed on fluidized bed ontology side and is located above the air distribution plate, the discharge port installation There is testing agency；

The fluidized bed filter device is installed in the fluidized bed ontology and is located above the rotation separate space；

The lower end that the feed inlet is installed on the fluidized bed bodies top and the feed inlet pass through the fluidized bed filter device and It is adjacent to be located at the chamber for the feed inlet lower end when chamber is located at discharge port in N number of chamber that the rotation separate space is formed The top of one chamber；

The air inlet valve and outlet valve are respectively arranged on air inlet and air outlet.

2. continuous feeding and discharging fluidized bed as described in claim 1, which is characterized in that the support column is coniform.

3. continuous feeding and discharging fluidized bed as described in claim 1, which is characterized in that the lower end of the feed inlet is equipped with described in The bending part of discharge port position.

4. continuous feeding and discharging fluidized bed as described in claim 1, which is characterized in that the testing agency passes through wired or wireless Mode will test data transmission to control centre.