CN209926828U - Hot air drying and waste heat utilization pipeline structure for monkshood - Google Patents

Abstract

The utility model provides a monkshood hot-blast drying waste heat utilization pipeline structure, a serial communication port, including the body of difference welded connection in middle supporting body both sides, middle supporting body middle part is run through and is equipped with the through-hole with both sides body intercommunication, be equipped with on the middle supporting body with through-hole center pin vertically draw-in groove, detachable has clamped air filter module in the draw-in groove, air filter module includes the limiting plate, connect two pairs of card strips in the limiting plate bottom, will be every to the bottom plate that the card strip bottom links together, and the card locates the filtration membrane between the card strip, the body other end all is equipped with coupling assembling, the body of one side passes through coupling assembling and connects in hot air drying device's the end of airing. Connect between air-collecting cover air exit and stoving intake stack, realize the reuse to the wind-heat to can be effectual carry out air purification to the hot-blast of retrieving, influence the quality of accessory piece when avoiding waste heat to recycle, thereby influence its pharmacology effect after the shaping into the sliced medicinal herbs.

Description

Hot air drying and waste heat utilization pipeline structure for monkshood

Technical Field

The utility model relates to a monkshood processing, concretely relates to monkshood hot air drying waste heat utilization pipeline structure.

Background

In the processing procedure of aconite, it is necessary to dry sliced aconite. At present, hot air drying is a common and effective mode and is widely applied to various manufacturers. In the hot air drying process, hot air enters from the lower part of the drying box, the accessory pieces on the upper part are subjected to hot air drying, and then the hot air is collected from the upper part by the air collecting cover and is discharged after treatment. The part of the exhaust air has higher heat and can completely utilize the waste heat. Therefore, the air inlet duct is used for preheating the discharged hot air, and the hot air is sent to the air inlet duct to be combined with the direct air supply of the hot air blower so as to circularly dry the auxiliary pieces. However, in the current mode, the problem that the recovered hot air is impure is ignored, and the recycling is not beneficial to the sanitation of the accessory piece drying and the health management of the tablets, so that some manufacturers do not adopt the recycling mode, and the final pharmacological value of the tablets is also influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a monkshood hot air drying waste heat utilization pipeline structure to solve above-mentioned current problem, connect between air-collecting cover air exit and stoving intake stack, realize the recycling to the wind-heat, and can effectually carry out air purification to the hot-blast of recovery, influence the quality of accessory piece when avoiding waste heat recycling, thereby influence its shaping pharmacological action after for the sliced medicinal herbs.

In order to achieve the purpose, the following technical means are adopted:

the utility model provides a monkshood hot-blast drying waste heat utilization pipeline structure, a serial communication port, including the body of difference welded connection in middle supporting body both sides, middle supporting body middle part is run through and is equipped with the through-hole with both sides body intercommunication, be equipped with on the middle supporting body with through-hole center pin vertically draw-in groove, detachable has clamped air filter module in the draw-in groove, air filter module includes the limiting plate, connect two pairs of card strips in the limiting plate bottom, will be every to the bottom plate that the card strip bottom links together, and the card locates the filtration membrane between the card strip, the body other end all is equipped with coupling assembling, the body of one side passes through coupling assembling and connects in hot air drying device's the end of airing.

The inner wall of the clamping groove is provided with a vertical groove matched with the clamping strip. The bottom surface of the clamping groove is provided with a groove matched with the bottom plate, and the groove is communicated with the bottom end of the vertical groove.

The coupling assembling includes:

the mounting plate is formed at the end opening of the pipe body and is provided with a plurality of screw holes, and when the connecting assembly is connected with the air exhaust end or the air inlet end, the connecting assembly is fixed by installing bolts into the screw holes;

the pipe inserting section is formed at the front end of the mounting plate and communicated with the pipe body, an annular groove is formed in the outer wall of the pipe inserting section, and an annular sealing gasket is arranged in the annular groove.

The utility model discloses following beneficial effect has:

the air inlet pipe is connected between an air outlet of the air collecting cover and the drying air inlet pipeline, so that the air heating is recycled, the air purification can be effectively carried out on the recycled hot air, and the influence on the quality of an auxiliary sheet when the waste heat is recycled is avoided, so that the pharmacological effect of the auxiliary sheet after the auxiliary sheet is formed into decoction pieces is influenced; the pipe body is connected with the air inlet end and the air exhaust end through the connecting assembly, the structure is stable, and the port sealing effect is good; the air filtering membrane can be detached from the air filtering module, so that the air filtering membrane is convenient to replace at regular intervals; the assembly of the air filtering module and the clamping groove is stable and convenient, and is beneficial to taking.

Drawings

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

Fig. 2 is a schematic view of the structure of the intermediate carrier of the present invention.

Fig. 3 is a schematic structural diagram of the air filtering module of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in fig. 1, it is a specific embodiment of the aconite hot air drying and waste heat utilizing pipe structure of the present invention.

The structure that this scheme provided, including middle supporting body 31 to and locate the body 11 of middle supporting body 31 both sides respectively, and locate the coupling assembling of the 11 other ends of body. Through coupling assembling, with this structure connection between hot air drying device's the end of airing exhaust and air inlet end.

Specifically, the coupling assembling includes:

and the mounting plate 21 is formed at the port of the pipe body 11 and is provided with a plurality of screw holes 22, and when the connecting component is connected with the air exhaust end or the air inlet end, the connecting component is fixed by installing bolts 23 into the screw holes 22.

The pipe inserting section 24 is formed at the front end of the mounting plate 21, is communicated with the pipe body 11, and is provided with an annular groove 25 on the outer wall thereof, and an annular sealing gasket 26 is arranged in the annular groove 25. The addition of the annular sealing gasket 26 is used for improving the sealing effect of the joint after the connecting component is connected.

The pipe body 11 provided by the scheme is not limited to a straight pipe, and can be in other shapes which are convenient to effectively induce wind, such as a folded shape, a bent shape and the like. For example, one of the pipe bodies 11 may be designed as a straight pipe, and the other one may be folded, or both may be designed as curved, so as to adapt to the positions of the air outlet and the air inlet of the actual drying device.

If the structure is curved, the end surface connected to the intermediate carrier 31 is preferably parallel to the front and rear sides of the intermediate carrier 31.

Specifically, the connection between the tube 11 and the intermediate carrier 31 can be a welded connection.

As shown in fig. 2, the middle supporting body 31 is a thick square plate, a through hole 33 is formed in the middle of the middle supporting body for communicating the tube 11, a clamping groove 32 is formed by penetrating a certain depth from one side surface of the middle supporting body, and the clamping groove 32 is perpendicular to the central axis of the through hole 33.

The inner wall of the clamping groove 32 is provided with a vertical groove 34, the bottom surface of the clamping groove 32 is provided with a groove 35, and the groove 35 is communicated with the bottom end of the vertical groove 34.

And the clamping groove 32 is used for clamping the air filtering module.

As shown in fig. 3, the air filtering module includes a limiting plate 41, two pairs of clamping strips 43 connected to the bottom of the limiting plate 41, a bottom plate 44 connecting the bottom ends of each pair of clamping strips 43 together, and an air filtering membrane 4 clamped between the clamping strips 43. The limiting plate 41, the clamping strip 43 and the bottom plate 44 form an assembling space of the air filter membrane 4, and the air filter membrane 4 can be detachably arranged in the assembling space.

The clip strip 43 mates with the vertical slot 34 and the base plate 44 mates with the groove 35.

After the air filter module is installed, the air filter membrane 4 completely blocks the through hole 33. Due to the limit of the clamping strip 43 and the bottom plate 44, the clamping stability is ensured. The air filtering membrane 4 is an HEPA filtering membrane, has good adsorption and filtration effects and high efficiency for purifying air.

The top of the limiting plate 41 is provided with a lifting handle 42, so that the air filtering module can be conveniently disassembled and assembled.

When implementing, through coupling assembling with this structure installation back, the hot-blast air that the air heater sent into drying device carries out hot-blast drying to the accessory piece after, continues upwards discharging, collects from drying device's wind-collecting cover, owing to connected this structure, it is concrete, needn't let all airs exhaust enter into this structure, can insert the end of airing exhaust or exhaust pipe as a branch pipe with this structure. The wind of being collected by this structure through body 11, carries out high-efficient purification via HEPA filtration membrane of middle filtration module, gets rid of most harmful component, and except that totally certainly unrealistic also can not be unnecessary, the air after the purification is discharged from opposite side body 11, enters into air-supply line or air inlet end, continues to carry out hot-blast drying to the accessory piece together with the new hot-blast air that advances of air heater. Under the circulation state, the working capacity intensity of the hot air blower can be reduced, and the energy supplement by waste heat is facilitated.

Will the utility model discloses connect between air-collecting cover air exit and stoving intake stack, can realize the recycling to the wind-heat to can effectually carry out air purification to the hot-blast of retrieving, influence the quality of accessory piece when avoiding the waste heat to recycle, thereby influence its shaping pharmacological action after for the sliced medicinal herbs.

Claims (8)

1. A monkshood hot air drying waste heat utilization pipeline structure is characterized by comprising pipe bodies (11) which are respectively welded and connected with two sides of a middle bearing body (31), a through hole (33) which is used for communicating the pipe bodies (11) at the two sides is arranged in the middle of the middle bearing body (31) in a penetrating way, a clamping groove (32) which is vertical to the central shaft of the through hole (33) is arranged on the middle bearing body (31), an air filtering module is detachably clamped in the clamping groove (32) and comprises a limiting plate (41), two pairs of clamping strips (43) which are connected with the bottom of the limiting plate (41) and a bottom plate (44) which connects the bottom ends of each pair of, and the air filtering membrane (4) is clamped between the clamping strips (43), the other end of the pipe body (11) is provided with a connecting assembly, the pipe body (11) on one side is connected to the air exhaust end of the hot air drying device through the connecting assembly, and the pipe body (11) on the other side is connected to the air inlet end of the hot air drying device through the connecting assembly.

2. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: the inner wall of the clamping groove (32) is provided with a vertical groove (34) matched with the clamping strip (43).

3. The monkshood hot air drying waste heat utilization pipeline structure of claim 2, wherein: the bottom surface of the clamping groove (32) is provided with a groove (35) matched with the bottom plate (44), and the groove (35) is communicated with the bottom end of the vertical groove (34).

4. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: the coupling assembling includes:

the mounting plate (21) is formed at the port of the pipe body (11), a plurality of screw holes (22) are formed in the mounting plate, and when the connecting assembly is connected with the air exhaust end or the air inlet end, the connecting assembly is fixed by installing bolts (23) into the screw holes (22);

the plug tube section (24) is formed at the front end of the mounting plate (21) and communicated with the tube body (11), an annular groove (25) is formed in the outer wall of the plug tube section, and an annular sealing gasket (26) is arranged in the annular groove (25).

5. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: after the air filtering module is installed, the air filtering membrane (4) completely shields the through hole (33).

6. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: the air filtering membrane (4) is a HEPA filtering membrane.

7. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: the limiting plate (41), the clamping strip (43) and the bottom plate (44) form an assembling space of the air filtering membrane (4).

8. The monkshood hot air drying waste heat utilization pipeline structure of claim 1, wherein: the top of the limiting plate (41) is provided with a handle (42).

Images