CN211756068U - A fungus liquid sprinkler for microbial manure conveyer belt is carried - Google Patents

Abstract

The utility model discloses a fungus liquid spraying device for conveying a microorganism bacterial manure conveying belt, which relates to the field of spraying devices and mainly comprises a conveying pipe and a spray head, wherein the contact part of the conveying pipe and the spray head is provided with an upper water diversion surface, the bottom surface of the spray head is a lower water diversion surface, a plurality of water diversion holes with the same number are uniformly distributed on the upper water diversion surface and the lower water diversion surface, and the water diversion holes on the upper water diversion surface and the lower water diversion surface are communicated by water diversion channels in a one-to-one correspondence manner; the centers of the upper water diversion surface and the lower water diversion surface are water diversion channels corresponding to water diversion holes on the same circle, and one of two adjacent water diversion channels is a concave arc and the other is an convex arc; the corresponding rotary tables are arranged on the upper water distribution surface corresponding to the water distribution holes on the same circle with the center being circular, small holes are formed in the positions of the corresponding alternate water distribution holes on each rotary table, and the spraying range of the water distribution device can be adjusted only by adjusting whether the water distribution device sprays outwards through the upward-convex or downward-concave water distribution channel.

Description

A fungus liquid sprinkler for microbial manure conveyer belt is carried

Technical Field

The utility model relates to a sprinkler field, in particular to fungus liquid sprinkler for microbial fertilizer conveyer belt is carried.

Background

The produced microbial fertilizer is generally conveyed and transported by a conveyor belt and then stored, a spraying device is generally used for spraying bacterial liquid on the microbial fertilizer on the conveyor belt, the size of the microbial fertilizer is different, and the spraying range of the existing spraying device cannot be adjusted when the flow rate of the spraying liquid is fixed, so that the sprayed bacterial liquid cannot completely cover the microbial fertilizer when the existing half spraying device sprays, the spraying range is too large sometimes, the bacterial liquid is wasted, and therefore, a simple bacterial liquid spraying device capable of controlling the spraying range is urgently needed.

Disclosure of Invention

The utility model aims to provide a: the utility model provides a fungus liquid sprinkler for microbial manure conveyer belt is carried, has solved current fungus liquid sprinkler and can't adjust the problem of spraying the scope when the velocity of flow of fixed liquid that sprays.

The utility model adopts the technical scheme as follows:

a bacterial liquid spraying device for conveying a microbial fertilizer conveying belt comprises a spraying device, wherein the spraying device mainly comprises a conveying pipe and a spray head, an upper water distribution surface is arranged at the part, in contact with the spray head, of the conveying pipe, the bottom surface of the spray head is a lower water distribution surface, a plurality of water distribution holes with the same number are uniformly distributed in the upper water distribution surface and the lower water distribution surface, and the water distribution holes in the upper water distribution surface and the lower water distribution surface are communicated through water distribution channels in a one-to-one correspondence manner; the centers of the upper water diversion surface and the lower water diversion surface are water diversion channels corresponding to water diversion holes on the same circle, and one of two adjacent water diversion channels is a concave arc and the other is an convex arc; corresponding turntables are arranged on the upper water dividing surface corresponding to the water dividing holes on the same circle with the center being circular, and small holes are formed in the positions of the corresponding alternate water dividing holes on each turntable.

The bacteria liquid flows to the spray head from the conveying pipe and is sprayed out from the bottom surface of the spray head, an upper water distribution surface is arranged at the contact part of the top surface of the spray head and the conveying pipe, the upper water distribution surface and a lower water distribution surface of the bottom surface of the spray head are connected with corresponding water distribution holes through water distribution channels, and the water distribution channels are alternately arranged into convex arcs and concave arcs, so that when the flow speed of the sprayed bacteria liquid is fixed, the spraying range can be adjusted only by adjusting whether the bacteria liquid is sprayed outwards through the convex or concave water distribution channels, and the transverse speed is smaller because the included angle between the tail end of the convex water distribution channel and the vertical direction is smaller, so that the spraying range is smaller; and the included angle between the tail end of the concave water diversion channel and the vertical direction is larger, so that the transverse speed of the sprayed bacteria liquid is larger, and the spraying range is larger.

The rotary disc is arranged on the water distribution hole on each corresponding circle on the upper water distribution surface, the rotary disc is provided with small holes corresponding to alternate water distribution holes, and the alternate water distribution holes correspond to the same one of the upward-convex water distribution channel and the downward-convex water distribution channel, so that the water distribution channels corresponding to the small holes on the rotary disc can be adjusted by rotating the rotary disc, and the bacterial liquid can be adjusted to be sprayed out from the upward-convex water distribution channel or the downward-convex water distribution channel. And different turntables on different circles can be operated to correspond to different water distribution channels, so that the overall spraying range can be finely adjusted.

Furthermore, each rotary disc extends outwards to form an operating rod which is not affected mutually.

An extended operating rod is arranged on the rotary disc, and the type of the water distribution channel corresponding to the small hole of the rotary disc can be operated by rotating the operating rod.

Furthermore, the part of the operating rod in contact with the inner wall of the conveying pipe is provided with an inner connecting plate, and a corresponding movable channel of the operating rod on the inner connecting plate is connected with the operating rod and the inner connecting plate by water blocking cloth.

Because the inner wall of the conveying pipe through which the operating rod passes can be provided with a hole for the rotating part of the operating rod, in order to avoid bacterial liquid from leaking out of the hole in the inner wall of the conveying pipe, an inner connecting plate is arranged on the inner wall of the conveying pipe, and a water blocking cloth is used for connecting the operating rod and the inner connecting plate around the operating rod.

Further, the water-blocking cloth is made of flexible materials.

The water blocking cloth is made of existing flexible and waterproof materials, such as existing flexible rubber and the like, so that when the operating rod rotates, the water blocking cloth can be pulled leftwards and rightwards better, and the operating rod cannot be prevented from rotating.

Further, each adjacent turntable is connected with a bearing structure.

The turntables are connected by using a bearing structure, so that the kinetic friction force during the rotation of the turntables is reduced.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model relates to a fungus liquid sprinkler for microbial fertilizer conveyer belt is carried, through offering epirelief and recessed water diversion channel, only allow the fungus liquid to pass through a water diversion channel on same circle through the aperture on the carousel, solved the unable adjustment of current fungus liquid sprinkler and sprayed the problem of scope when the velocity of flow of liquid is sprayed fixedly like this.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of a lower water diversion channel of the present invention;

fig. 2 is a schematic structural view of the upper water diversion channel of the present invention;

fig. 3 is a schematic top view of the turntable of the present invention;

fig. 4 is a schematic view of the rotary top structure of the operation rod of the present invention;

fig. 5 is a schematic view of the top view structure of the inner connecting plate and the water-blocking cloth of the present invention;

in the figure, 1-delivery pipe, 2-spray head, 3-upper water dividing surface, 4-lower water dividing surface, 5-water dividing hole, 6-water dividing channel, 7-rotary table, 8-operating rod, 801-internal connecting plate and 802-water blocking cloth.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The present invention will be described in detail with reference to fig. 1 to 5.

Example 1

A bacterial liquid spraying device for conveying a microbial fertilizer conveying belt comprises a spraying device and mainly comprises a conveying pipe 1 and a spray head 2, wherein an upper water distribution surface 3 is arranged at a part where the conveying pipe 1 is in contact with the spray head 2, the bottom surface of the spray head 2 is a lower water distribution surface 4, a plurality of water distribution holes 5 with the same number are uniformly distributed on the upper water distribution surface 3 and the lower water distribution surface 4, and the water distribution holes 5 on the upper water distribution surface 3 and the lower water distribution surface 4 are communicated through water distribution channels 6 in a one-to-one correspondence manner; the centers of the upper water diversion surface 3 and the lower water diversion surface 4 are water diversion channels 6 corresponding to water diversion holes 5 on the same circle, and one of the two adjacent water diversion channels 6 is a concave arc and the other is an convex arc; corresponding turntables 7 are arranged on the upper water dividing surface 3 corresponding to the water dividing holes 5 on the same circle with the center being circular, and small holes are formed in the positions of the corresponding alternate water dividing holes 5 on each turntable 7.

The utility model discloses a theory of operation does: the bacteria liquid flows to the spray head 2 from the conveying pipe 1 and is sprayed out from the bottom surface of the spray head 2, an upper water distribution surface 3 is arranged at the contact part of the top surface of the spray head 2 and the conveying pipe, and a lower water distribution surface 4 of the bottom surface of the spray head 2 is connected with a corresponding water distribution hole 5 through a water distribution channel 6, and the water distribution channels 6 are alternately arranged into an upward-convex arc shape and a downward-convex arc shape, so that when the flow speed of the sprayed bacteria liquid is fixed, the spraying range can be adjusted only by adjusting whether the bacteria liquid is sprayed outwards through the upward-convex water distribution channel 6 or the downward-convex water distribution channel 6, and the included angle between the tail end of the upward-convex water distribution channel 6 and the vertical direction is smaller, so that the; and the included angle between the tail end of the concave water diversion channel and the vertical direction is larger, so that the transverse speed of the sprayed bacteria liquid is larger, and the spraying range is larger.

The rotary disc 7 is arranged on the water distribution hole 5 on each corresponding circle on the upper water distribution surface 6, the rotary disc 7 is provided with small holes of the corresponding alternate water distribution holes 5, and the alternate water distribution holes 5 correspond to the same one of the convex water distribution channel 6 and the concave water distribution channel 6, so that bacteria liquid can be adjusted to be sprayed out of the convex water distribution channel 6 or the concave water distribution channel 6 by rotating the rotary disc 7 and adjusting the water distribution channel 6 corresponding to the small holes on the rotary disc 7. And different turntables 7 on different circles can be operated to correspond to different water distribution channels, so that the overall spraying range can be finely adjusted.

Example 2

A bacterial liquid spraying device for conveying a microbial fertilizer conveying belt comprises a spraying device and mainly comprises a conveying pipe 1 and a spray head 2, wherein an upper water distribution surface 3 is arranged at a part where the conveying pipe 1 is in contact with the spray head 2, the bottom surface of the spray head 2 is a lower water distribution surface 4, a plurality of water distribution holes 5 with the same number are uniformly distributed on the upper water distribution surface 3 and the lower water distribution surface 4, and the water distribution holes 5 on the upper water distribution surface 3 and the lower water distribution surface 4 are communicated through water distribution channels 6 in a one-to-one correspondence manner; the centers of the upper water diversion surface 3 and the lower water diversion surface 4 are water diversion channels 6 corresponding to water diversion holes 5 on the same circle, and one of the two adjacent water diversion channels 6 is a concave arc and the other is an convex arc; corresponding turntables 7 are arranged on the upper water dividing surface 3 corresponding to the water dividing holes 5 on the same circle with the center being circular, and small holes are formed in the positions of the corresponding alternate water dividing holes 5 on each turntable 7. Each rotary disc 7 extends outwards to form an operating rod 8 which is not affected mutually.

An extended operating rod 8 is arranged on the rotary disc 7, and the type of the water distribution channel 6 corresponding to the small hole of the rotary disc 7 can be operated by rotating the operating rod 8.

Example 3

This embodiment is further described in embodiment 2, and as shown in fig. 1, fig. 2, fig. 4, and fig. 5, the contact part between the operating rod 8 and the inner wall of the conveying pipe 1 is provided with an inner connecting plate 801, and the movable passage of the corresponding operating rod 8 on the inner connecting plate 801 connects the operating rod 8 and the inner connecting plate 801 by using a water blocking cloth 802.

Since the inner wall of the conveying pipe 1 through which the operating rod 8 passes is provided with a hole for the rotating part of the operating rod 8, in order to prevent bacteria liquid from leaking out of the hole of the inner wall of the conveying pipe 1, an inner connecting plate 801 is arranged on the inner wall of the conveying pipe 1, and the operating rod 8 and the inner connecting plate 801 around the operating rod are connected through a water blocking cloth 802 on the inner connecting plate 801.

Example 4

This embodiment is further illustrated in embodiment 3, wherein the water blocking cloth 802 is made of flexible material.

The water blocking cloth 802 is made of an existing flexible and waterproof material, such as an existing flexible rubber, so that when the operation rod 8 rotates, the water blocking cloth 802 can be better pulled left and right, and the rotation of the operation rod 8 cannot be prevented.

Example 1

A bacterial liquid spraying device for conveying a microbial fertilizer conveying belt comprises a spraying device and mainly comprises a conveying pipe 1 and a spray head 2, wherein an upper water distribution surface 3 is arranged at a part where the conveying pipe 1 is in contact with the spray head 2, the bottom surface of the spray head 2 is a lower water distribution surface 4, a plurality of water distribution holes 5 with the same number are uniformly distributed on the upper water distribution surface 3 and the lower water distribution surface 4, and the water distribution holes 5 on the upper water distribution surface 3 and the lower water distribution surface 4 are communicated through water distribution channels 6 in a one-to-one correspondence manner; the centers of the upper water diversion surface 3 and the lower water diversion surface 4 are water diversion channels 6 corresponding to water diversion holes 5 on the same circle, and one of the two adjacent water diversion channels 6 is a concave arc and the other is an convex arc; corresponding turntables 7 are arranged on the upper water dividing surface 3 corresponding to the water dividing holes 5 on the same circle with the center being circular, and small holes are formed in the positions of the corresponding alternate water dividing holes 5 on each turntable 7. And each adjacent rotating disc 7 is connected by using a bearing structure.

The use of a bearing structure for the connection between the discs 7 allows the dynamic friction forces in their rotation with respect to each other to be reduced.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can be covered within the protection scope of the present invention without the changes or substitutions conceived by the inventive work within the technical scope disclosed by the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (5)

1. The utility model provides a fungus liquid sprinkler for fertile conveyer belt of microorganism carries, includes sprinkler, its characterized in that: the spraying device mainly comprises a conveying pipe (1) and a spray head (2), wherein an upper water distributing surface (3) is arranged at the contact part of the conveying pipe (1) and the spray head (2), a lower water distributing surface (4) is arranged at the bottom surface of the spray head (2), a plurality of water distributing holes (5) with the same number are uniformly distributed on the upper water distributing surface (3) and the lower water distributing surface (4), and the water distributing holes (5) on the upper water distributing surface (3) and the lower water distributing surface (4) are communicated with each other through water distributing channels (6) in a one-to-one correspondence manner; the centers of the upper water distributing surface (3) and the lower water distributing surface (4) are water distributing channels (6) corresponding to water distributing holes (5) on the same circle, and one of the two adjacent water distributing channels (6) is a concave arc and the other is an convex arc; corresponding turntables (7) are arranged on the upper water dividing surface (3) corresponding to the water dividing holes (5) on the same circle with the center being circular, and small holes are formed in the positions of the corresponding alternate water dividing holes (5) on each turntable (7).

2. The bacterial liquid spraying device for conveying the microbial bacterial manure conveying belt according to claim 1, wherein the bacterial liquid spraying device comprises: each rotary disc (7) extends outwards to form an operating rod (8) which is not affected mutually.

3. The bacterial liquid spraying device for conveying the microbial bacterial manure conveying belt according to claim 2, wherein the bacterial liquid spraying device comprises: the part of action bars (8) and conveyer pipe (1) inner wall contact is provided with an interior fishplate bar (801), the passageway that the action bars (8) that correspond on interior fishplate bar (801) move about uses and hinders water cloth (802) and connect action bars (8) and interior fishplate bar (801).

4. The bacterial liquid spraying device for conveying the microbial bacterial manure conveying belt according to claim 3, wherein the bacterial liquid spraying device comprises: the water-blocking cloth (802) is made of flexible materials.

5. The bacterial liquid spraying device for conveying the microbial bacterial manure conveying belt according to claim 1, wherein the bacterial liquid spraying device comprises: and each adjacent rotary disc (7) is connected by a bearing structure.

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