CN109945682B - Headwind cooling tower for feed manufacturing industry - Google Patents

Abstract

The invention discloses a headwind cooling tower for feed manufacturing industry, which structurally comprises a material-flushing type feed inlet device for preventing bacterial breeding, a headwind cooling tower body, a feed outlet, a fixed connection plate, a fixed base, a connection clamping groove and a cooling tower noise reduction plate, wherein the material-flushing type feed inlet device for preventing bacterial breeding is arranged at the upper end of the headwind cooling tower body and is connected with the upper end of the headwind cooling tower body in a welding mode, the feed outlet is arranged on the outer wall of the headwind cooling tower body and is connected with the outer wall of the headwind cooling tower body in a fixed installation mode, the structure is arranged in a feed pipeline for automatically flushing feed attached to the inner wall after feed of feed supply equipment is finished, the structure is helpful for preventing a small amount of feed attached to the wall of the feed pipeline before the feed which is dried and cooled is mixed, so as to influence feed processing work, and meanwhile, the structure for, effectively preventing the breeding of bacteria.

Description

Headwind cooling tower for feed manufacturing industry

Technical Field

The invention relates to the field of feed manufacturing, in particular to an upwind cooling tower for feed manufacturing industry.

Background

The headwind cooling tower is widely applied to feed manufacturers, is used for cooling and drying feeds and has the advantages of simplicity in operation and high working efficiency. However, the existing upwind cooling tower has the following disadvantages:

1. in the process that the fodder gets into the headwind cooling tower, because the fodder that does not dry the cooling contains a certain amount of humidity for in the fodder supply equipment with the leading-in headwind cooling tower of fodder back, have a small amount of fodder attached to the feeding pipeline wall, and flow slowly, cause the fodder that the below drying and cooling finishes to mix in a small amount of fodder that previously attached to the feeding pipeline wall, cause the influence to the feed processing work easily.

2. Simultaneously, after the headwind cooling tower work, the staff need open the headwind cooling tower air intake, ventilate because the charge-in pipeline is longer for ventilation speed is slower, makes the local bacterial growing that the charge-in pipeline depths did not in time ventilate easily.

Disclosure of Invention

The invention aims to provide an upwind cooling tower for feed manufacturing industry, aiming at solving the problems that in the process of feeding feed into the upwind cooling tower in the prior art, due to the fact that the feed which is not dried and cooled contains a certain amount of humidity, a small amount of feed is attached to the wall of a feeding pipeline and slowly flows after the feed is introduced into the upwind cooling tower by feed supply equipment, the feed which is dried and cooled at the lower part is easily mixed into the small amount of feed which is attached to the wall of the feeding pipeline before, and influences feed processing work are caused, meanwhile, after the working of the upwind cooling tower is finished, a worker needs to open an air inlet of the upwind cooling tower to ventilate, and due to the fact that the feeding pipeline is long, the ventilation speed is slow, and bacteria at the deep part of the feeding pipeline which is not ventilated timely are easily bred are easy to grow.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a fodder manufacturing industry is with contrary wind cooling tower, its structure is including dashing material formula and preventing bacterial growing fodder admission device, contrary wind cooling tower body, fodder export, fixed connection board, unable adjustment base, linking draw-in groove, cooling tower noise reduction board, towards material formula and preventing bacterial growing fodder admission device and locating contrary wind cooling tower body upper end and be connected through the welded mode, the fodder export is located contrary wind cooling tower body outer wall and is connected through fixed mounting's mode, fixed connection board is located contrary wind cooling tower body outer wall and is connected through the mode of laminating, contrary wind cooling tower body is located unable adjustment base upper end and is connected through the mode of fixed mounting, linking draw-in groove is located unable adjustment base positive terminal surface and is the integral structure, cooling tower noise reduction board is located contrary wind cooling tower body outer wall and is connected through the mode of laminating, towards material formula and prevent bacterial growing fodder admission device and include that the fodder flows mechanism, The feed flow mechanism comprises a pneumatic output mechanism, a one-way flow mechanism, a closed material flushing mechanism, a restriction removing mechanism, a ventilation and air exchange mechanism and a mechanical driving mechanism, wherein the pneumatic output mechanism is arranged in the feed flow mechanism and connected in a fixed mounting mode, the one-way flow mechanism is arranged at the upper end of the closed material flushing mechanism and connected in a linkage mode, the restriction removing mechanism is arranged at the right lower end of the ventilation and air exchange mechanism and connected in a sealing mounting mode, and the mechanical driving mechanism is arranged in the ventilation and air exchange mechanism and connected in a welding mode.

As a further scheme of the invention, the feed flowing mechanism comprises a connecting positioning plate, a feed inlet, a feed discharging port and a device shell, wherein the connecting positioning plate is arranged at the right end of the device shell and is connected in a welding manner, the feed inlet is arranged at the right end of the feed discharging port and is of an integrated structure, the feed discharging port is arranged inside the device shell and is of an integrated structure, and the feed inlet is arranged at the lower end of the pneumatic output mechanism and is connected in a fixed installation manner.

As a further scheme of the invention, the pneumatic output mechanism comprises a pneumatic output mechanism shell, a moving action plate, a connecting clamping rod, a return spring, a pressure trigger switch, a terminal controller, a driving air cylinder, a shunt pipeline, a connecting pipeline, a pipeline sealing ring and a pneumatic channel, wherein the moving action plate is arranged at the upper end of the connecting clamping rod and is connected by welding, the connecting clamping rod penetrates through the center of the return spring, the return spring is arranged at the lower end of the moving action plate and is connected by a transmission matching mode, the pressure trigger switch is electrically connected with the terminal controller, the terminal controller is electrically connected with the driving air cylinder, the driving air cylinder is arranged in the pneumatic output mechanism shell and is connected by a fixed mounting mode, the driving air cylinder is arranged at the right end of the connecting pipeline and is connected by a sealing mounting mode, the linking pipeline is arranged at the upper end of the diversion pipeline and is of an integrated structure, the linking pipeline and the pipeline sealing ring are located in the same axis and are connected in a bonding mode, the linking pipeline is arranged at the right end of the pneumatic channel and is connected in a laminating mode, and the pneumatic channel is arranged inside the shell of the pneumatic output mechanism and is of an integrated structure.

As a further scheme of the invention, the unidirectional flow mechanism comprises a reset torsion spring, a rotating fixed block, a rotating clamping groove, a fixed central shaft, a connecting turntable and a rotating limiting block, the reset torsion spring is arranged on the positive end face of the connecting turntable and is connected in a transmission fit manner, the connecting turntable is arranged on the positive end face of the rotating fixed block and is connected in a welding manner, the rotating clamping groove is arranged inside the connecting turntable and is of an integrated structure, the connecting turntable and the fixed central shaft are positioned on the same axis and are connected in a rotating manner, the rotating limiting block is arranged on the positive end face of the rotating fixed block and is connected in a fixed installation manner, and the connecting turntable is arranged at the upper end of the closed material punching mechanism and is connected in a.

As a further scheme of the invention, the closed material punching mechanism comprises a closed material punching mechanism shell, an air flow channel, a dispersion spray head, an air flow inlet and a telescopic output pipeline, wherein the air flow channel is arranged inside the closed material punching mechanism shell and is of an integrated structure, the dispersion spray head is arranged at the left end of the closed material punching mechanism shell and is connected in an embedded installation mode, the air flow inlet is arranged at the upper end of the air flow channel and is connected in a fixed installation mode, and the telescopic output pipeline and the air flow inlet are positioned on the same axis and are connected in a sealing installation mode.

As a further proposal of the invention, the restriction removing mechanism comprises a restriction removing mechanism shell, a ventilation channel, a channel restricting block, a metal moving plate, a joining spring, a conductive controller, a powerful electromagnet and a displacement track, the ventilation channel is arranged in the shell of the restriction releasing mechanism and is of an integrated structure, the channel restriction block is arranged at the lower end of the metal moving plate and is connected with the metal moving plate in a welding way, the metal moving plate is arranged on the positive end surface of the displacement track and is connected in a sliding mode, the metal moving plate is arranged at the lower end of the linking spring and is connected in a transmission matching mode, the conductive controller is electrically connected with a powerful electromagnet which is arranged right above the metal moving plate, the conductive controller is arranged in the shell of the restriction releasing mechanism and is connected in a fixed installation mode, the ventilation channel is arranged at the right lower end of the ventilation mechanism and is connected in a sealing installation mode.

As a further aspect of the present invention, the ventilation and air exchange mechanism includes a ventilation opening, a sealing protection cover, and a connection port, the ventilation opening is disposed at an upper end of the sealing protection cover and connected by a fixed installation, and the connection port is disposed inside the sealing protection cover and is an integrated structure.

As a further aspect of the present invention, the mechanical driving mechanism includes a motor fixing plate, a driving motor, a rotating impeller, and an output rotating shaft, the motor fixing plate is disposed at the left end of the driving motor and connected by welding, and the rotating impeller and the output rotating shaft are located on the same axis and connected by linkage.

Advantageous effects of the invention

The invention relates to a headwind cooling tower for feed manufacturing industry, feed supply equipment is butted with a material-flushing type feed inlet device for preventing bacterial breeding, the feed is guided into a headwind cooling tower body through the material-flushing type feed inlet device for preventing bacterial breeding, the feed enters from a feed inlet during the movement of the material-flushing type feed inlet device for preventing bacterial breeding, acting force is generated on a pressure trigger switch, the shell of a closed material-flushing mechanism is relieved from the acting force of the feed, the shell of the closed material-flushing mechanism drives a connecting turntable to rotate, when the feed supply equipment finishes the supply, the pressure trigger switch detects that the pressure is zero, data is transmitted to a terminal controller to control a driving air cylinder to start to operate, the driving air cylinder guides air pressure into a connecting pipeline, the air cylinder enters a pneumatic channel through the connecting pipeline and generates acting force on a moving action plate, so that the connecting clamping rod connected with the moving action plate is driven to be embedded into a rotating clamping groove on a reset connecting turntable, the shell of the closed material flushing mechanism is fixed, meanwhile, a part of air pressure can enter a telescopic output pipeline through a diversion pipeline, then enters an air flow channel through the telescopic output pipeline, and finally is sprayed out by a dispersion spray head, feed attached to the inner wall of the material flushing type feed anti-bacterial growth inlet device is flushed down through the air pressure, after the working of the headwind cooling tower body is finished, a worker opens an air inlet of the headwind cooling tower body and operates a conductive controller to operate, the conductive controller guides current into a powerful electromagnet, the powerful electromagnet generates adsorption force on a metal moving plate, the metal moving plate drives a channel limiting block to remove the limitation on a ventilation channel, a driving motor operates to enable a rotating impeller to generate suction, gas in the deep part of the material flushing type feed anti-bacterial growth inlet device is extracted, and finally the gas is discharged through a ventilation opening to perform ventilation.

The headwind cooling tower for the feed manufacturing industry is provided with a structure that the interior of a feed pipeline automatically washes the feed attached to the inner wall after the feed supply of feed supply equipment is finished, is beneficial to preventing a small amount of feed attached to the wall of the feed pipeline before the feed dried and cooled is mixed below, and accordingly influences the feed processing work.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic structural diagram of an upwind cooling tower for feed manufacturing industry according to the present invention.

Fig. 2 is a structural plan view of the material-flushing type device for preventing the feed from breeding bacteria.

Fig. 3 is a detailed structural schematic diagram of the material-flushing type feed inlet device for preventing bacteria from breeding.

Fig. 4 is a detailed structural schematic diagram of a pneumatic output mechanism of the present invention.

Fig. 5 is a detailed structural schematic diagram of a closed punching mechanism of the present invention.

FIG. 6 is a detailed structural diagram of a restriction releasing mechanism according to the present invention.

In the figure: the device comprises a material flushing type feed inlet device-1, a top-wind cooling tower body-2, a feed outlet-3, a fixed connection plate-4, a fixed base-5, a connection clamping groove-6, a cooling tower noise reduction plate-7, a feed flowing mechanism-11, a pneumatic output mechanism-12, a one-way flowing mechanism-13, a closed material flushing mechanism-14, a restriction removing mechanism-15, a ventilation mechanism-16, a mechanical driving mechanism-17, a connection positioning plate-1101, a feed inlet-1102, a feed discharging port-1103, a device shell-1104, a pneumatic output mechanism shell-1201, a movable action plate-1202, a connection clamping rod-1203, a reset spring-1204, a pressure trigger switch-1205, a terminal controller-1206, a driving air cylinder-1207, a pressure control switch-1207, A diversion pipeline-1208, a connecting pipeline-1209, a pipeline sealing ring-1210, a pneumatic channel-1211, a reset torsion spring-1301, a rotary fixed block-1302, a rotary clamping groove-1303, a fixed central shaft-1304, a connecting turntable-1305, a rotary limiting block-1306, a closed material punching mechanism shell-1401, an air flow channel-1402, a dispersion spray head-1403, an air flow inlet-1404, a telescopic output pipeline-1405, a limitation removing mechanism shell-1501, a ventilation channel-1502, a channel limiting block-1503, a metal moving plate-1504, a connecting spring-1505, a conductive controller-1506, a powerful electromagnet-1507, a displacement track-1508, a ventilation opening-1601, a sealing protective cover-1602, a connecting opening-1603, a motor fixed plate-1701, a motor fixed plate-1601, A drive motor-1702, a rotating impeller-1703, and an output shaft-1704.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-6, the invention provides a technical scheme of an upwind cooling tower for feed manufacturing industry, which comprises the following steps:

a headwind cooling tower for feed manufacturing industry structurally comprises a material flushing type feed inlet device 1 capable of preventing bacterial growth, a headwind cooling tower body 2, a feed outlet 3, a fixed connecting plate 4, a fixed base 5, a connecting clamping groove 6 and a cooling tower noise reduction plate 7, wherein the material flushing type feed inlet device 1 capable of preventing bacterial growth is arranged at the upper end of the headwind cooling tower body 2 and is connected with the upper end of the headwind cooling tower body in a welding mode, the feed outlet 3 is arranged on the outer wall of the headwind cooling tower body 2 and is connected with the outer wall of the headwind cooling tower body 2 in a fixed mounting mode, the fixed connecting plate 4 is arranged on the outer wall of the headwind cooling tower body 2 and is connected with the upper end of the headwind cooling tower body 2 in a laminating mode, the connecting clamping groove 6 is arranged on the face of the fixed base 5 and is of an integrated structure, and the cooling tower positive noise reduction plate 7 is arranged on the outer wall of the headw, the material flushing type feed inlet device 1 for preventing bacterial breeding comprises a feed flowing mechanism 11, a pneumatic output mechanism 12, a one-way flowing mechanism 13, a closed material flushing mechanism 14, a limitation relieving mechanism 15, a ventilation mechanism 16 and a mechanical driving mechanism 17, wherein the pneumatic output mechanism 12 is arranged inside the feed flowing mechanism 11 and connected in a fixed installation mode, the one-way flowing mechanism 13 is arranged at the upper end of the closed material flushing mechanism 14 and connected in a linkage mode, the limitation relieving mechanism 15 is arranged at the right lower end of the ventilation mechanism 16 and connected in a sealing installation mode, the mechanical driving mechanism 17 is arranged inside the ventilation mechanism 16 and connected in a welding mode, the feed flowing mechanism 11 comprises a positioning plate connection 1101, a feed inlet 1102, a feed discharge port 1103 and a device shell 1104, and the positioning plate 1101 is arranged at the right end of the device shell and connected in a welding mode, the feed inlet 1102 is arranged at the right end of the feed discharging port 1103 and is of an integrated structure, the feed discharging port 1103 is arranged inside the device housing 1104 and is of an integrated structure, the feed inlet 1102 is arranged at the lower end of the pneumatic output mechanism 12 and is connected with the pneumatic output mechanism 12 in a fixed installation manner, the pneumatic output mechanism 12 comprises a pneumatic output mechanism housing 1201, a movable action plate 1202, an engagement clamping rod 1203, a return spring 1204, a pressure trigger switch 1205, a terminal controller 1206, a driving air cylinder 1207, a diversion pipeline 1208, an engagement pipeline 1209, a pipeline sealing ring 1210 and a pneumatic channel 1211, the movable action plate 1202 is arranged at the upper end of the engagement clamping rod 1203 and is connected with the engagement clamping rod 1203 in a welding manner, the engagement clamping rod 1203 penetrates through the center of the return spring 1204, the return spring 1204 is arranged at the lower end of the movable action plate 1202 and is connected with the pipeline sealing ring 1210 in a transmission fit manner, the terminal controller 1206 is electrically connected with a driving air cylinder 1207, the driving air cylinder 1207 is arranged inside the pneumatic output mechanism shell 1201 and is connected in a fixed installation mode, the driving air cylinder 1207 is arranged at the right end of a connecting pipeline 1209 and is connected in a sealing installation mode, the connecting pipeline 1209 is arranged at the upper end of a shunt pipeline 1208 and is of an integrated structure, the connecting pipeline 1209 and a pipeline sealing ring 1210 are positioned on the same axis and are connected in an adhesion mode, the connecting pipeline 1209 is arranged at the right end of a pneumatic channel 1211 and is connected in a fitting mode, the pneumatic channel 1211 is arranged inside the pneumatic output mechanism shell 1201 and is of an integrated structure, the one-way flow mechanism 13 comprises a reset torsion spring 1301, a rotating fixed block 1302, a rotating clamping groove 1303, a fixed central shaft 1304, a connecting turntable and a rotating limiting block 1306, the reset torsion spring 1301 is arranged on the front end face of the connecting turntable 1305 and is connected, the connecting rotary disc 1305 is arranged on the front end face of the rotary fixed block 1302 and connected with the fixed rotary block 1302 in a welding manner, the rotary clamping groove 1303 is arranged inside the connecting rotary disc 1305 and is of an integrated structure, the connecting rotary disc 1305 and the fixed central shaft 1304 are positioned on the same axis and connected with each other in a rotating manner, the rotary limiting block 1306 is arranged on the front end face of the rotary fixed block 1302 and connected with each other in a fixed mounting manner, the connecting rotary disc 1305 is arranged at the upper end of the closed material flushing mechanism 14 and connected with each other in a linkage manner, the closed material flushing mechanism 14 comprises a closed material flushing mechanism shell 1401, an air flow channel 1402, a dispersion spray head 1403, an air flow inlet 1404 and a telescopic output pipeline 1405, the air flow channel 1402 is arranged inside the closed material flushing mechanism shell 1401 and is of an integrated structure, and the dispersion spray head 1403 is arranged at the left end, the air inlet 1404 is arranged at the upper end of the air channel 1402 and connected with the air inlet 1404 in a fixed installation manner, the retractable output pipeline 1405 and the air inlet 1404 are positioned on the same axis and connected with each other in a sealing installation manner, the restriction removing mechanism 15 comprises a restriction removing mechanism shell 1501, a ventilation channel 1502, a channel restriction block 1503, a metal moving plate 1504, a linking spring 1505, a conductive controller 1506, a strong electromagnet 1507 and a displacement track 1508, the ventilation channel 1502 is arranged in the restriction removing mechanism shell 1501 and is of an integrated structure, the channel restriction block 1503 is arranged at the lower end of the metal moving plate 1504 and connected with each other in a welding manner, the metal moving plate 1504 is arranged at the front end face of the displacement track 1508 and connected with each other in a sliding manner, and the metal moving plate 1504 is arranged at the lower end of the linking spring 1505 and, the conductive controller 1506 is electrically connected with the powerful electromagnet 1507, the powerful electromagnet 1507 is arranged right above the metal moving plate 1504, the conductive controller 1506 is arranged inside the restriction releasing mechanism housing 1501 and is connected in a fixed mounting manner, the ventilation channel 1502 is arranged at the right lower end of the ventilation mechanism 16 and is connected in a sealed mounting manner, the ventilation mechanism 16 comprises a ventilation opening 1601, a sealing protection cover 1602 and a linking through opening 1603, the ventilation opening 1601 is arranged at the upper end of the sealing protection cover 1602 and is connected in a fixed mounting manner, the linking through opening 1603 is arranged inside the sealing protection cover 1602 and is an integrated structure, the mechanical driving mechanism 17 comprises a motor fixing plate 1701, a driving motor 1702, a rotating impeller 1703 and an output rotating shaft 1704, the motor fixing plate 1701 is arranged at the left end of the driving motor 1702 and is connected in a welded manner, the rotating impeller 1703 and the output rotating shaft 1704 are located on the same axis and are connected in a linkage manner.

The invention relates to a headwind cooling tower for feed manufacturing industry, which has the working principle that: the feed supply device is butted with the material-flushing type feed inlet device 1 for preventing the bacterial growth, the feed is led into the headwind cooling tower body 2 through the material-flushing type feed inlet device 1, the feed enters from a feed inlet 1102 during the movement of the material-flushing type feed inlet device 1 and generates acting force on a pressure trigger switch 1205, a closed material-flushing mechanism shell 1401 is relieved from the acting force of the feed and drives a connecting turntable 1305 to rotate, after the feed supply device finishes the feed supply, the pressure trigger switch 1205 detects that the pressure is zero, data is transmitted to a terminal controller 1206 to control a driving air cylinder 1207 to start to operate, the driving air cylinder 1207 guides the air pressure into a connecting pipeline 1209, the air pressure enters a pneumatic channel 1211 through the connecting pipeline 1209 and generates acting force on a moving action plate 1202, so that the moving action plate 1202 drives a connected clamping rod 1203 to be embedded into a rotating clamping groove 1303 on the reset connecting turntable 1305, fixing a shell 1401 of a closed material flushing mechanism, meanwhile, enabling a part of air pressure to enter a telescopic output pipeline 1405 through a diversion pipeline 1208, then enabling the air pressure to enter an air flow channel 1402 through the telescopic output pipeline 1405, finally enabling the air flow to be sprayed out through a dispersion spray head 1403, washing down feed attached to the inner wall of a material flushing type feed anti-bacterial growth entering device 1 through the air pressure, after the work of a headwind cooling tower body 2 is finished, enabling a worker to open an air inlet of the headwind cooling tower body 2 and operate a conductive controller 1506, enabling the conductive controller 1506 to lead current into a powerful electromagnet 1507, enabling the powerful electromagnet 1507 to generate adsorption force on a metal moving plate 1504, enabling the metal moving plate 1504 to drive a channel limiting block 1503 to remove the limitation on a gas exchange channel 1502, driving a motor 1702 to operate, enabling a rotating impeller 1703 to generate suction force, and extracting the gas deep inside the material flushing type feed anti-bacterial growth entering, and finally discharged through a vent 1601 for ventilation.

The invention solves the problem that in the process of the prior art that feed enters a headwind cooling tower, due to the fact that the feed which is not dried and cooled contains a certain amount of humidity, after the feed is guided into the headwind cooling tower by feed supply equipment, a small amount of feed is attached to the wall of a feeding pipeline and slowly flows, the feed which is dried and cooled at the lower part is easily mixed into the small amount of feed which is attached to the wall of the feeding pipeline before, and influences feed processing work, meanwhile, after the headwind cooling tower works, workers need to open an air inlet of the headwind cooling tower for ventilation, and due to the fact that the feeding pipeline is long, the ventilation speed is slow, bacteria at the deep part of the feeding pipeline which is not ventilated timely are easy to breed, the invention is provided with a structure for automatically washing the feed attached to the inner wall in the feeding pipeline after the feed supply equipment finishes feeding through the mutual combination of the components, the fodder that helps preventing that the below drying and cooling finishes sneaks into the preceding a small amount of fodder of attaching to on the feeding tube wall to cause the influence to feed processing work, simultaneously, be equipped with and carry out ventilation's structure to the inside depths of feeding tube, effectually prevent bacterial growing.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (3)

1. The utility model provides a fodder manufacturing industry uses headwind cooling tower, its structure includes dashes material formula and prevents bacterial growing fodder admission gear (1), headwind cooling tower body (2), fodder export (3), fixed link up fishplate bar (4), unable adjustment base (5), links up draw-in groove (6), cooling tower noise reduction plate (7), dashes material formula and prevents bacterial growing fodder admission gear (1) and locate headwind cooling tower body (2) upper end and be connected through the welded mode, fodder export (3) are located headwind cooling tower body (2) outer wall and are connected through fixed mounting's mode, fixed link up fishplate bar (4) are located headwind cooling tower body (2) outer wall and are connected through the mode of laminating, headwind cooling tower body (2) are located unable adjustment base (5) upper end and are connected through fixed mounting's mode, link up draw-in groove (6) and locate unable adjustment base (5) positive terminal surface and be the integral structure, the cooling tower noise reduction plate (7) is arranged on the outer wall of the headwind cooling tower body (2) and is connected with the headwind cooling tower body in a laminating mode, and the cooling tower noise reduction plate is characterized in that:

the material flushing type feed entering device (1) capable of preventing bacterial breeding comprises a feed flowing mechanism (11), a pneumatic output mechanism (12), a one-way flowing mechanism (13), a closed material flushing mechanism (14), a restriction removing mechanism (15), a ventilation and air exchange mechanism (16) and a mechanical driving mechanism (17), wherein the pneumatic output mechanism (12) is arranged inside the feed flowing mechanism (11) and connected in a fixed installation mode, the one-way flowing mechanism (13) is arranged at the upper end of the closed material flushing mechanism (14) and connected in a linkage mode, the restriction removing mechanism (15) is arranged at the right lower end of the ventilation and air exchange mechanism (16) and connected in a sealing installation mode, and the mechanical driving mechanism (17) is arranged inside the ventilation and air exchange mechanism (16) and connected in a welding mode;

the feed flowing mechanism (11) comprises a connecting positioning plate (1101), a feed inlet (1102), a feed discharging port (1103) and a device shell (1104), wherein the connecting positioning plate (1101) is arranged at the right end of the device shell (1104) and connected in a welding mode, the feed inlet (1102) is arranged at the right end of the feed discharging port (1103) and is of an integrated structure, the feed discharging port (1103) is arranged inside the device shell (1104) and is of an integrated structure, and the feed inlet (1102) is arranged at the lower end of the pneumatic output mechanism (12) and is connected in a fixed installation mode;

the pneumatic output mechanism (12) comprises a pneumatic output mechanism shell (1201), a movable action plate (1202), an engagement clamping rod (1203), a reset spring (1204), a pressure trigger switch (1205), a terminal controller (1206), a driving air cylinder (1207), a shunt pipeline (1208), an engagement pipeline (1209), a pipeline sealing ring (1210) and a pneumatic channel (1211), wherein the movable action plate (1202) is arranged at the upper end of the engagement clamping rod (1203) and connected in a welding mode, the engagement clamping rod (1203) penetrates through the center of the reset spring (1204), the reset spring (1204) is arranged at the lower end of the movable action plate (1202) and connected in a transmission matching mode, the pressure trigger switch (1205) is electrically connected with the terminal controller (1206), the terminal controller (1206) is electrically connected with the driving air cylinder (1207), and the driving air cylinder (1207) is arranged inside the pneumatic output mechanism shell (1201) and connected in a fixed installation mode The driving air cylinder (1207) is arranged at the right end of a connecting pipeline (1209) and connected in a sealing installation mode, the connecting pipeline (1209) is arranged at the upper end of a shunting pipeline (1208) and is of an integrated structure, the connecting pipeline (1209) and a pipeline sealing ring (1210) are positioned at the same axis and connected in a bonding mode, the connecting pipeline (1209) is arranged at the right end of a pneumatic channel (1211) and is connected in a bonding mode, and the pneumatic channel (1211) is arranged inside a pneumatic output mechanism shell (1201) and is of an integrated structure;

the one-way flow mechanism (13) comprises a reset torsion spring (1301), a rotary fixed block (1302), a rotary clamping groove (1303), a fixed central shaft (1304), a connecting turntable (1305) and a rotary limiting block (1306), the reset torsion spring (1301) is arranged on the positive end surface of the connecting turntable (1305) and is connected in a transmission fit manner, the connecting rotary disc (1305) is arranged on the positive end surface of the rotary fixed block (1302) and is connected by welding, the rotating clamping groove (1303) is arranged inside the connecting turntable (1305) and is of an integrated structure, the connecting turntable (1305) and the fixed central shaft (1304) are positioned on the same axle center and are connected in a rotating mode, the rotating limiting block (1306) is arranged on the positive end face of the rotating fixing block (1302) and is connected with the rotating fixing block in a fixed installation mode, the connecting turntable (1305) is arranged at the upper end of the closed material punching mechanism (14) and is connected in a linkage manner;

the closed material punching mechanism (14) comprises a closed material punching mechanism shell (1401), an air flow channel (1402), a dispersion spray head (1403), an air flow inlet (1404) and a telescopic output pipeline (1405), wherein the air flow channel (1402) is arranged inside the closed material punching mechanism shell (1401) and is of an integrated structure, the dispersion spray head (1403) is arranged at the left end of the closed material punching mechanism shell (1401) and is connected with the closed material punching mechanism shell in an embedding installation mode, the air flow inlet (1404) is arranged at the upper end of the air flow channel (1402) and is connected with the air flow inlet (1404) in a fixed installation mode, and the telescopic output pipeline (1405) and the air flow inlet (1404) are positioned at the same axis and are connected in a sealing installation mode;

the restriction removing mechanism (15) comprises a restriction removing mechanism shell (1501), a ventilation channel (1502), a channel limiting block (1503), a metal moving plate (1504), a linking spring (1505), a conductive controller (1506), a powerful electromagnet (1507) and a displacement track (1508), wherein the ventilation channel (1502) is arranged inside the restriction removing mechanism shell (1501) and is of an integrated structure, the channel limiting block (1503) is arranged at the lower end of the metal moving plate (1504) and is connected with the metal moving plate in a welding mode, the metal moving plate (1504) is arranged on the positive end surface of the displacement track (1508) and is connected with the displacement track (1508) in a sliding mode, the metal moving plate (1504) is arranged at the lower end of the linking spring (1505) and is connected with the powerful electromagnet (1507) in a transmission fit mode, the conductive controller (1506) is electrically connected with the powerful electromagnet (1507), and the powerful electromagnet (1507) is arranged, the conductive controller (1506) is arranged inside the restriction release mechanism shell (1501) and is connected in a fixed installation mode, and the ventilation channel (1502) is arranged at the right lower end of the ventilation and ventilation mechanism (16) and is connected in a sealing installation mode.

2. The upwind cooling tower for feed manufacturing industry according to claim 1, characterized in that: ventilation mechanism (16) include vent (1601), sealed safety cover (1602), link up opening (1603), vent (1601) are located sealed safety cover (1602) upper end and are connected through fixed mounting's mode, link up inside and the structure as an organic whole of sealed safety cover (1602) is located to opening (1603).

3. The upwind cooling tower for feed manufacturing industry according to claim 1, characterized in that: the mechanical driving mechanism (17) comprises a motor fixing plate (1701), a driving motor (1702), a rotating impeller (1703) and an output rotating shaft (1704), wherein the motor fixing plate (1701) is arranged at the left end of the driving motor (1702) and connected in a welding mode, and the rotating impeller (1703) and the output rotating shaft (1704) are positioned on the same axis and connected in a linkage mode.

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