CN210786534U - Empty capsule cutting waste recovery system - Google Patents

Abstract

The utility model discloses a hollow capsule cutting waste recovery system, including the draught fan, first spiral dust remover, store the transfer ware, second spiral dust remover, air current amplifier and material centralized box, the draught fan passes through the feed inlet intercommunication of inlet pipe with first spiral dust remover, the air exit of first spiral dust remover passes through the feed inlet intercommunication of connecting pipe with second spiral dust remover, first spiral dust remover and second spiral dust remover lower extreme all are connected with and store the transfer ware, air current amplifier one end is passed through the conveying pipe and is installed the storage transfer ware intercommunication at first spiral dust remover lower extreme, the air current amplifier other end passes through conveying pipe and material centralized box intercommunication, install the storage transfer ware of second spiral dust remover lower extreme and pass through the branch pipe and be connected the conveying pipe connection in air current amplifier one end, be equipped with electric butterfly valve on the branch pipe. The utility model relates to a rationally normatively, can effectually carry out recovery processing, recovery efficiency is high with capsule cutting waste material.

Description

Empty capsule cutting waste recovery system

Technical Field

The utility model relates to a capsule production auxiliary assembly technical field especially relates to an empty capsule cutting waste recovery system.

Background

After hollow capsule shaping, have the stub bar usually, need cut through cutting device to cut into the capsule of unified specification with the former grain of capsule, consequently, can produce a lot of cutting waste materials (leftover bits and dust) in hollow capsule's cutting process, however the recovery efficiency of present hollow capsule cutting waste material is generally lower, and some manufacturing enterprises are direct to clean and do not carry out recycle even, have caused very big material waste, and manufacturing cost can't reduce. For the above reasons, there is a need to develop a practical and effective recovery system for empty capsule cutting waste.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a hollow capsule cutting waste recovery system, reasonable in design is standard, installation convenient to use, recovery efficiency is high.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a hollow capsule cutting waste recovery system comprises an induced draft fan, a first spiral dust remover, a storage transfer device, a second spiral dust remover, an airflow amplifier and a material concentration box, wherein the first spiral dust remover and the second spiral dust remover respectively comprise a feed inlet and an air outlet, the induced draft fan is communicated with the feed inlet of the first spiral dust remover through an inlet pipe, the air outlet of the first spiral dust remover is communicated with the feed inlet of the second spiral dust remover through a connecting pipe, the lower ends of the first spiral dust remover and the second spiral dust remover are respectively connected with the storage transfer device, one end of the airflow amplifier is communicated with the storage transfer device arranged at the lower end of the first spiral dust remover through a feed pipe, the other end of the airflow amplifier is communicated with the material concentration box through a feed pipe, the storage transfer device arranged at the lower end of the second spiral dust remover is connected with the feed pipe connected with one end of the airflow amplifier through a branch pipe, and an electric butterfly valve is arranged on the branch pipe.

The storage transfer device is transparent and the lower part of the storage transfer device is in a cone shape.

And an air filter is arranged at an air outlet of the second spiral dust remover.

The utility model has the advantages that: the method comprises the following steps of performing effective sedimentation treatment on capsule cutting waste materials through two spiral dust collectors which are connected with each other, temporarily storing settled leftover materials and dust through a storage transfer device, and sucking the temporarily stored leftover materials and dust into a material concentration box by using an airflow amplifier after the leftover materials and dust are accumulated to a certain amount for subsequent utilization; the whole system has reasonable and standard design, convenient installation and use and high leftover material and dust recovery efficiency, and is beneficial to reducing the production cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: the device comprises an induced draft fan 1, a first spiral dust collector 2, a feeding hole 21, an air outlet 22, a storage transfer device 3, a second spiral dust collector 4, an air filter 41, an air flow amplifier 5, a material concentration box 6, a feeding pipe 7, a connecting pipe 8, a feeding pipe 9, a branch pipe 91 and an electric butterfly valve 92.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, a hollow capsule cutting waste recovery system, including draught fan 1, first spiral dust remover 2, store transfer 3, second spiral dust remover 4, air amplifier 5 and the concentrated case 6 of material, first spiral dust remover 2 and second spiral dust remover 4 all include feed inlet 21 and air exit 22, and feed inlet 21 of first spiral dust remover 2 is located 2 one side upper portions of first spiral dust remover, and air exit 22 of first spiral dust remover 2 is located 2 tops of first spiral dust remover, and the feed inlet 21 of second spiral dust remover 4 and air exit 22 set up the mode with the feed inlet 21 of first spiral dust remover 2 and the mode of setting of air exit 22.

The draught fan 1 is communicated with a feed inlet 21 of the first spiral dust remover 2 through a feed pipe 7, an air outlet 22 of the first spiral dust remover 2 is communicated with the feed inlet 21 of the second spiral dust remover 4 through a connecting pipe 8, the lower ends of the first spiral dust remover 2 and the second spiral dust remover 4 are both connected with a storage transfer device 3, one end of the air flow amplifier 5 is communicated with the storage transfer device 3 arranged at the lower end of the first spiral dust remover 2 through a feeding pipe 9, the other end of the air flow amplifier 5 is communicated with the material concentration box 6 through the feeding pipe 9, the storage transfer device 3 arranged at the lower end of the second spiral dust remover 4 is connected with the feeding pipe 9 connected with one end of the air flow amplifier 5 through a branch pipe 91, namely, the branch pipe 91 is communicated with the feeding pipe 9 for connecting the storage relay 3 and the air amplifier 5, and the electric butterfly valve 92 is arranged on the branch pipe 91.

Store transfer ware 3 and be the cone for transparent setting and the lower part of storing transfer ware 3, store transfer ware 3 and be used for temporarily storing leftover bits and dust, can also conveniently observe the storage capacity of leftover bits and dust simultaneously.

The air outlet 22 of the second spiral dust collector 4 is provided with an air filter 41, so that the air exhausted from the second spiral dust collector 4 is clean, and air pollution is avoided.

The utility model discloses a working method is: when the capsule is cut, the induced draft fan 1 is started simultaneously to convey leftover materials and dust generated after cutting to the first spiral dust remover 2, most of the leftover materials and dust are settled and fall into the storage transfer device 3 for temporary storage after primary dust removal treatment of the first spiral dust remover 2, meanwhile, a small part of dust enters the second spiral dust remover 4 for secondary dust removal treatment, the small part of dust is settled and falls into the storage transfer device 3 for temporary storage, when the storage transfer device 3 connected with the first spiral dust remover 2 is basically full of storage, the airflow amplifier 5 is started to pump the leftover materials and dust to the material concentration box 6, after pumping, the airflow amplifier 5 is closed, when the storage transfer device 3 connected with the second spiral dust remover 4 is basically full of storage, the electric butterfly valve 92 is opened, the leftover materials and dust are pumped to the material concentration box 6 through the airflow amplifier 5, and after pumping, closing the air flow amplifier 5, and thus completing the recovery of the hollow capsule cutting waste.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (3)

1. The utility model provides an empty capsule cutting waste recovery system, includes draught fan (1), first spiral dust remover (2), stores transfer ware (3), second spiral dust remover (4), air current amplifier (5) and material centralized box (6), its characterized in that: first spiral dust remover (2) and second spiral dust remover (4) all include feed inlet (21) and air exit (22), inlet pipe (7) and feed inlet (21) intercommunication of first spiral dust remover (2) are passed through in draught fan (1), feed inlet (21) intercommunication through connecting pipe (8) and second spiral dust remover (4) is passed through in air exit (22) of first spiral dust remover (2), first spiral dust remover (2) and second spiral dust remover (4) lower extreme all are connected with stores transfer ware (3), air current amplifier (5) one end is passed through conveying pipe (9) and is connected in storage transfer ware (3) intercommunication at first spiral dust remover (2) lower extreme, and air current amplifier (5) other end passes through conveying pipe (9) and material collection case (6) intercommunication, installs at second spiral dust remover (4) lower extreme store transfer ware (3) and connect in air current amplifier (5) one end through branch pipe (91) and air current amplifier (5) one end The feeding pipes (9) are connected, and an electric butterfly valve (92) is arranged on the branch pipe (91).

2. The empty capsule cutting waste recycling system of claim 1, wherein: the storage transfer device (3) is transparent and the lower part of the storage transfer device (3) is in a cone shape.

3. The empty capsule cutting waste recycling system of claim 1, wherein: an air filter (41) is arranged at an air outlet (22) of the second spiral dust collector (4).

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