CN115384828A - Automatic feeding device for waste gas purification catalyst module - Google Patents

Abstract

The invention belongs to the technical field of filling, and particularly relates to an automatic feeding device for an exhaust gas purification catalyst module, which is characterized in that a feeding device is adopted, and the feeding device is suitable for conveying bottle bodies to a filling device one by one; the filling device, the filling device sets up one side of loading attachment, the filling device is suitable for at bottle internal filling catalyst, and the filling device drives the bottle rotation when filling catalyst in to the bottle, has realized shaking the bottle when filling catalyst in to the bottle for space between the catalyst reduces in the bottle, ensures the dose of the catalyst of bottle internal filling, in order to ensure the performance and the life of the exhaust purification catalyst module of finally making, and guarantee exhaust purification catalyst module to the good purifying effect of waste gas.

Description

Automatic feeding device for waste gas purification catalyst module

Technical Field

The invention belongs to the technical field of filling, and particularly relates to an automatic feeding device for an exhaust gas purification catalyst module.

Background

The active alumina balls can be used as a catalyst used in the process of waste gas purification treatment, the waste gas purification catalyst module filled with the active alumina balls can be adopted to improve the efficiency and the effect of waste gas purification, when the active alumina balls are filled in the waste gas purification catalyst module, because the sizes of the active alumina balls are different, a large number of gaps exist among the active alumina balls in the catalyst module, the content of the active alumina balls in each catalyst module is not constant, the performance and the service life of the catalyst module are reduced, the gaps among the active alumina balls in the catalyst module can be reduced by vibrating the catalyst module in the filling process, more active alumina balls can be filled in the catalyst module, and the performance and the service life of the catalyst module are ensured.

Therefore, it is necessary to design a new automatic feeding device for an exhaust gas purifying catalyst module based on the above technical problems.

Disclosure of Invention

The invention aims to provide an automatic feeding device for an exhaust gas purification catalyst module.

In order to solve the above technical problems, the present invention provides an automatic feeding device for an exhaust gas purification catalyst module, comprising:

the feeding device is suitable for conveying the bottles to the filling device one by one;

the filling device is arranged on one side of the feeding device, is suitable for filling the catalyst in the bottle body, and drives the bottle body to rotate when filling the catalyst in the bottle body.

Further, the filling device includes: the device comprises a lifting mechanism, a rotating mechanism and a filling mechanism;

the lifting mechanism is arranged on the base;

the rotating mechanism is arranged on the lifting mechanism;

the filling mechanism is arranged on the lifting mechanism;

the lifting mechanism is suitable for driving the rotating mechanism and the filling mechanism to lift, the filling mechanism is suitable for filling the catalyst into the bottle body when the filling mechanism descends to the upper end face of the bottle body, and the rotating mechanism is suitable for driving the bottle body to rotate when the filling mechanism fills the catalyst into the bottle body.

Further, the lifting mechanism includes: the lifting device comprises a cylinder, a lifting shaft and a bracket;

the cylinder is arranged on the base;

the lifting shaft is arranged on the cylinder;

the bracket is arranged on the lifting shaft;

the rotating mechanism and the filling mechanism are arranged on the bracket;

the cylinder is suitable for the drive the lift axle goes up and down to drive rotary mechanism and filling mechanism go up and down.

Further, the rotation mechanism includes: the device comprises a driving motor, a rotating shaft, a guide sleeve and a rotating head;

the driving motor is arranged on the bracket;

the rotating shaft is arranged on the bracket and is rotationally connected with the bracket;

the driving motor is connected with the rotating shaft;

the guide sleeve is arranged on the bracket and sleeved outside the rotating shaft;

the rotating head is arranged on the lower end surface of the guide sleeve, so that the rotating head faces the bottle body;

the driving motor is suitable for driving the rotating shaft to rotate.

Further, the rotary head includes: the jacking assembly comprises an outer sleeve and a plurality of jacking assemblies arranged on the lower end face of the outer sleeve;

the outer sleeve is arranged on the lower end face of the guide sleeve, and the jacking assembly extends out of the lower end face of the outer sleeve.

Further, the jack-up assembly includes: the device comprises an inclined block and a jacking block;

the inner wall of the outer sleeve is provided with a sliding groove corresponding to the jacking assembly, the upper end surface of the sliding groove is an inclined surface, and the sliding groove is communicated with the inner wall of the outer sleeve;

the inner wall of the outer sleeve is provided with a limiting groove corresponding to the sliding groove, the limiting groove is arranged below the corresponding sliding groove, and the limiting groove is communicated with the sliding groove;

the limiting groove is communicated with the inner wall of the outer sleeve and the bottom surface of the outer sleeve;

the inclined block is arranged in the chute, and an inclined plane matched with the inclined plane of the chute is arranged on the upper end surface of the inclined block;

the lower end face of the inclined block is connected with the jacking block through a limiting block, and the limiting block is arranged in the limiting groove;

and a chamfer is formed on the end face of the jacking block facing the central shaft of the outer sleeve.

Furthermore, an air pipe is arranged on the side wall of the outer sleeve.

Further, the filling mechanism includes: a filling head, a communicating pipe and a filling spring;

the filling spring is arranged in the rotating shaft and is in rotating connection with the rotating shaft;

the filling head is arranged on the filling spring and extends into the guide sleeve;

the communicating pipe is connected with the filling head so as to transport the catalyst through the communicating pipe.

Further, the loading attachment includes: the device comprises a hopper, a vibrating disk and a pair of limiting plates;

the limiting plates are arranged on the base and are arranged oppositely;

the limiting plate is arranged below the filling device;

the vibrating disc is arranged on one side of the end part of the limiting plate;

the hopper is arranged above the vibrating disk;

make the bottle get into the vibration dish through the funnel after, make the bottle get into between two limiting plates one by one through the vibration dish to make the bottle pass through filling device below one by one.

The bottle body filling device has the beneficial effects that through the feeding device, the feeding device is suitable for conveying bottle bodies to the filling device one by one; the filling device, the filling device sets up one side of loading attachment, the filling device is suitable for at bottle internal filling catalyst, and the filling device drives the bottle rotation when filling catalyst in to the bottle, has realized shaking the bottle when filling catalyst in to the bottle for space between the catalyst reduces in the bottle, ensures the dose of the catalyst of bottle internal filling, in order to ensure the performance and the life of the exhaust purification catalyst module of finally making, and guarantee exhaust purification catalyst module to the good purifying effect of waste gas.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural view of an automatic feeding device for an exhaust gas purifying catalyst module of the present invention;

FIG. 2 is a schematic structural view of an outer sleeve of the present invention;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic structural view of the swash block of the present invention;

figure 5 is a cross-sectional view of a filling head of the present invention;

fig. 6 is a cross-sectional view of the bottle of the present invention.

In the figure:

1, a feeding device, a hopper 11, a vibrating disc 12 and a limiting plate 13;

2, filling devices, 21 air cylinders, 211 lifting shafts, 212 supports, 22 driving motors, 221 rotating shafts, 222 guide sleeves, 23 outer sleeves, 231 sliding grooves, 232 limiting grooves, 24 inclined blocks, 241 jacking blocks, 242 limiting blocks, 243 air pipes, 25 filling heads, 251 communicating pipes and 252 filling springs;

3, a base;

4 bottle bodies, 41 air inlet holes, 42 air outlet holes and 43 limiting rings.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1 to 6, the present embodiment 1 provides an automatic feeding device for an exhaust gas purification catalyst module, including: the feeding device 1 is suitable for conveying the bottle bodies 4 to the filling device 2 one by one; filling device 2, filling device 2 sets up one side of loading attachment 1, filling device 2 is suitable for filling catalyst in bottle 4, and filling device 2 drives bottle 4 when filling catalyst in to bottle 4 and rotates, has realized shaking bottle 4 when filling catalyst in to bottle 4 for the space between the catalyst reduces in the bottle, ensures the dose of the catalyst of filling in the bottle, in order to ensure the performance and the life of the exhaust purification catalyst module of finally making, and guarantee the good purifying effect of exhaust purification catalyst module to waste gas.

In this embodiment, an air inlet 41 is disposed at one end of the bottle body 4, an air outlet 42 is disposed at the other end of the bottle body or the bottle body 4, a waste gas purification catalyst module can be formed after filling the catalyst in the bottle body 4, when purifying waste gas, the waste gas can enter the bottle body 4 from the air inlet 41, then flow out from the air outlet 42, and be catalyzed by the catalyst, when filling the catalyst, the catalyst can be filled in the bottle body 4 through the air inlet 41, and at this time, the air inlet 41 can be regarded as a filling hole; a limiting ring 43 is arranged on the outer wall of the bottle body 4, the upper end face of the limiting ring 43 is flush with the end face of the bottle body 4, which is provided with the air inlet 41, when the bottle body 4 enters between the two limiting plates 13, the lower end face of the limiting ring 43 is in contact with the upper end faces of the limiting plates 13, so that the bottle body 4 is stably supported through the pair of limiting plates 13, and the filling is facilitated; the air outlet 42 can be provided with a filter screen to prevent the catalyst from falling out of the bottle body 4 from the air outlet 42.

In this embodiment, the catalyst may be activated alumina balls, and since the activated alumina balls are different in size, a large amount of gaps exist between the activated alumina balls in the bottle body 4 easily during filling, which reduces the filling amount of the activated alumina balls in the bottle body 4 and affects the performance and the service life of the exhaust gas purification catalyst module.

In this embodiment, the filling device 2 includes: the device comprises a lifting mechanism, a rotating mechanism and a filling mechanism; the lifting mechanism is arranged on the base 3; the rotating mechanism is arranged on the lifting mechanism; the filling mechanism is arranged on the lifting mechanism; the lifting mechanism is suitable for driving the rotating mechanism and the filling mechanism to lift, the filling mechanism is suitable for filling the catalyst into the bottle body 4 when the filling mechanism descends to the upper end face of the bottle body 4, and the rotating mechanism is suitable for driving the bottle body 4 to rotate when the filling mechanism fills the catalyst into the bottle body 4; drive rotary mechanism when elevating system drives the decline of filling mechanism and descend, rotary mechanism can drive bottle 4 and rotate when filling mechanism passes through the filling hole to filling catalyst in bottle 4, through the vibrations that produce when bottle 4 rotates, rock and rotate and make the space between the catalyst in the bottle 4 reduce to ensure to the catalyst of the sufficient dosage of filling in bottle 4, ensure catalyst module's performance and life.

In this embodiment, the lifting mechanism includes: a cylinder 21, a lifting shaft 211 and a bracket 212; the cylinder 21 is arranged on the base 3; the lifting shaft 211 is arranged on the cylinder 21; the bracket 212 is arranged on the lifting shaft 211; the rotating mechanism and the filling mechanism are arranged on the bracket 212; the cylinder 21 is suitable for driving the lifting shaft 211 to lift so as to drive the rotating mechanism and the filling mechanism to lift; the cylinder 21 drives the lifting shaft 211 to lift, so that the height of the filling mechanism and the rotating mechanism can be adjusted, and the catalyst can be conveniently filled into the bottle body 4.

In this embodiment, the rotating mechanism includes: a driving motor 22, a rotation shaft 221, a guide sleeve 222, and a rotation head; the driving motor 22 is arranged on the bracket 212; the rotating shaft 221 is arranged on the bracket 212, and the rotating shaft 221 is rotatably connected with the bracket 212; the driving motor 22 is connected to the rotating shaft 221; the guide sleeve 222 is disposed on the bracket 212, and the guide sleeve 222 is sleeved on the rotating shaft 221; the rotating head is arranged on the lower end surface of the guide sleeve 222, so that the rotating head faces the bottle 4; the driving motor 22 is adapted to drive the rotating shaft 221 to rotate; the driving motor 22 is suitable for being connected with the rotating shaft 221 through a transmission structure such as a belt and the like so as to drive the rotating shaft 221 to rotate, and the rotating shaft 221 is of a hollow structure, so that a filling mechanism is conveniently arranged in the rotating shaft 221 in a penetrating manner so as to synchronously fill the catalyst into the bottle body 4 when driving the bottle body 4 to rotate, and the filling is carried out while shaking and vibrating the catalyst so as to reduce the gap between the catalysts (active alumina balls), thereby ensuring the performance and the service life of the finally manufactured catalyst module; the rotating shaft 221 penetrates through the guide sleeve 222, and when the rotating shaft 221 rotates, the rotating shaft 221 can be prevented from shaking through the guide sleeve 222, so that the rotating stability of the rotating shaft 221 is ensured, and the filling head 25 can not shake during filling.

In this embodiment, the spin head includes: the jacking device comprises an outer sleeve 23 and a plurality of jacking assemblies arranged on the lower end face of the outer sleeve 23; the outer sleeve 23 is arranged on the lower end surface of the guide sleeve 222, and the jacking assembly extends out of the lower end surface of the outer sleeve 23; the outer sleeve 23 is sleeved on the filling head 25, the filling head 25 contacts the upper end face of the bottle body 4 when the lifting shaft 211 descends, so that the filling head 25 is aligned with the filling hole in the bottle body 4, and at the moment, the outer sleeve 23 covers the bottle body 4 and contacts the lower bottom face of the limit ring 43 through the jacking assembly to jack up the bottle body 4, so that the jacked bottle body 4 contacts the rotating shaft 221, and the bottle body 4 is driven to rotate through the rotating shaft 221.

In this embodiment, the jack-up assembly includes: a swash block 24 and a jack block 241; a sliding groove 231 corresponding to the jacking assembly is arranged on the inner wall of the outer sleeve 23, the upper end surface of the sliding groove 231 is an inclined surface, and the sliding groove 231 is communicated with the inner wall of the outer sleeve 23; a limiting groove 232 corresponding to the sliding groove 231 is formed in the inner wall of the outer sleeve 23, the limiting groove 232 is arranged below the corresponding sliding groove 231, and the limiting groove 232 is communicated with the sliding groove 231; the limiting groove 232 is communicated with the inner wall of the outer sleeve 23 and the bottom surface of the outer sleeve 23; the inclined block 24 is arranged in the sliding groove 231, and an inclined surface matched with the inclined surface of the sliding groove 231 is arranged on the upper end surface of the inclined block 24; the lower end face of the inclined block 24 is connected with the jacking block 241 through a limiting block 242, and the limiting block 242 is arranged in the limiting groove 232; the end surface of the jacking block 241 facing the central axis of the outer sleeve 23 is provided with a chamfer; one end of the inclined plane of the sliding groove 231 at the upper position is close to the central shaft of the outer sleeve 23; in the initial position, the inclined block 24 is located in the sliding groove 231, the inclined block 24 is located at the farthest position away from the inner wall of the outer sleeve 23 in the sliding groove 231, at this time, the jacking block 241 extends out of the outer sleeve 23, the limiting block 242 contacts with the inner bottom surface of the limiting groove 232, the lower end surface of the filling head 25 is flush with the lower end surface of the outer sleeve 23, at this time, the air cylinder 21 drives the lifting shaft 211 to descend, so that the outer sleeve 23 and the filling head 25 move downwards, the filling head 25 moves upwards by the compression of the filling spring 252 after contacting with the upper end surface of the bottle body 4, at this time, the outer sleeve 23 continues to completely cover the limiting ring 43 downwards (the jacking block 241 does not contact with the upper end surface of the limiting ring 43 in the process that the outer sleeve 23 continues to move downwards), at this time, the jacking block 241 extending out of the outer sleeve 23 contacts with the upper end surface of the limiting plate 13, so that the jacking block 241 moves upwards, and the inclined block 24 moves along the inclined surface of the sliding groove 231, the jacking block 241 is enabled to move towards the central axis direction of the outer sleeve 23, the jacking block 241 moves to the lower bottom surface of the limiting ring 43 to jack up the bottle body 4 and drive the bottle body 4 to move upwards to contact with the lower end surface of the rotating shaft 221 (at the moment, the filling head 25 also upwards continuously extrudes the filling spring 252, the filling head 25 is always aligned with the filling hole through the filling spring 252 to ensure the filling effect), the limiting block 242 contacts with the upper bottom surface of the limiting groove 232 when the bottle body 4 contacts with the lower end surface of the rotating shaft 221, the bottle body 4 can be supported by the jacking block 241 when the bottle body 4 contacts with the lower end surface of the rotating shaft 221, so that the bottle body 4 can better rotate along with the rotating shaft 221, the chamfer on the jacking block 241 can be conveniently inserted between the limiting ring 43 and the limiting plate 13 when jacking the bottle body 4, the bottle body 4 is convenient to jack up, and the contact area between the limiting ring 43 and the limiting plate 13 of the bottle body 4 is larger originally, when the bottle body 4 is driven to rotate, a larger friction force needs to be overcome, at the moment, the bottle body 4 is jacked up through the plurality of jacking blocks 241, the contact area of the limiting ring 43 is reduced, the friction force is reduced, the bottle body 4 can be better driven to rotate, a layer of material with smaller friction force can be arranged on the jacking blocks 241, the bottle body 4 can conveniently rotate, and the jacking blocks 241 can be conveniently inserted between the limiting ring 43 and the limiting plate 13; after the filling, the cylinder 21 drives the lifting shaft 211 to ascend, at the moment, the bottle body 4 and the catalyst move upwards through the gravity of the bottle body 4 and the catalyst, the inclined block 24 and the jacking block 241 move outwards from the lower end face of the limiting ring 43 through the chamfer, so that the jacking block 241 resets, and the bottle body 4 does not ascend when the lifting shaft 211 ascends, so that the next bottle body 4 can be filled conveniently.

In this embodiment, the side wall of the outer sleeve 23 is provided with an air duct 243, the outer sleeve 23 completely covers the bottle 4, the bottle 4 is jacked up by the jacking block 241, when the bottle 4 is filled by the filling head 25, air between the outer sleeve 23 and the bottle 4 can be pumped out by the air duct 243, so as to pump out dust generated during filling, prevent the dust from polluting the outer wall of the bottle 4, and prevent the dust from polluting the environment.

In this embodiment, the filling mechanism includes: filling head 25, communication tube 251 and filling spring 252; the filling spring 252 is arranged in the rotating shaft 221, and the filling spring 252 is rotatably connected with the rotating shaft 221; the filling head 25 is arranged on the filling spring 252, and the filling head 25 projects into the guide sleeve 222; the communication pipe 251 is connected to the filling head 25 to transport the catalyst through the communication pipe 251; the filling head 25 can be ensured to be always aligned with the filling hole by the filling spring 252; by rotating the filling spring 252, the filling head 25 can be kept from rotating when the rotating shaft 221 rotates, and the alignment of the filling head 25 and the filling hole is prevented from being affected.

In this embodiment, the feeding device 1 includes: a hopper 11, a vibrating disk 12 and a pair of limiting plates 13; the limiting plates 13 are arranged on the base 3, and the limiting plates 13 are oppositely arranged; the limiting plate 13 is arranged below the filling device 2; the vibrating disk 12 is arranged on one side of the end part of the limiting plate 13; the hopper 11 is arranged above the vibrating disk 12; after the bottle bodies 4 enter the vibration disc 12 through the funnel 11, the bottle bodies 4 enter between the two limiting plates 13 one by one through the vibration disc 12, so that the bottle bodies 4 pass below the filling device 2 one by one; the bottles 4 can be made to drop gradually in the vibrating disk 12 by the leak, and the vibrating disk 12 can ensure that the bottles 4 are filled in the filling head 25 via the filling openings of the filling head 25 when passing under the filling head 25, ensuring the filling effect. The conveying means such as the opposite chains can be provided on the opposite limiting plates 13, the bottles 4 are clamped from the opposite two directions by the opposite chains to transport the bottles 4, or the transport direction of the bottles 4 is changed by the pushing cylinders, so that the bottles 4 are transported to below the filling heads 25 of the filling device 2 for filling.

In summary, according to the invention, the feeding device 1 is adapted to convey the bottles 4 to the filling device 2 one by one; filling device 2, filling device 2 sets up one side of loading attachment 1, filling device 2 is suitable for filling catalyst in bottle 4, and filling device 2 drives bottle 4 when filling catalyst in to bottle 4 and rotates, has realized shaking bottle 4 when filling catalyst in to bottle 4 for the space between the catalyst reduces in the bottle, ensures the dose of the catalyst of filling in the bottle, in order to ensure the performance and the life of the exhaust purification catalyst module of finally making, and guarantee the good purifying effect of exhaust purification catalyst module to waste gas.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some communication interfaces, indirect coupling or communication connection between devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. An automatic feeding device for an exhaust gas purifying catalyst module, comprising:

the feeding device is suitable for conveying the bottles to the filling device one by one;

the filling device is arranged on one side of the feeding device, is suitable for filling the catalyst in the bottle body, and drives the bottle body to rotate when filling the catalyst in the bottle body.

2. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 1,

the filling device comprises: the device comprises a lifting mechanism, a rotating mechanism and a filling mechanism;

the lifting mechanism is arranged on the base;

the rotating mechanism is arranged on the lifting mechanism;

the filling mechanism is arranged on the lifting mechanism;

the lifting mechanism is suitable for driving the rotating mechanism and the filling mechanism to lift, the filling mechanism is suitable for filling the catalyst into the bottle body when the filling mechanism descends to the upper end face of the bottle body, and the rotating mechanism is suitable for driving the bottle body to rotate when the filling mechanism fills the catalyst into the bottle body.

3. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 2,

the lifting mechanism comprises: the lifting device comprises a cylinder, a lifting shaft and a bracket;

the cylinder is arranged on the base;

the lifting shaft is arranged on the cylinder;

the bracket is arranged on the lifting shaft;

the rotating mechanism and the filling mechanism are arranged on the bracket;

the cylinder is suitable for driving the lifting shaft to lift so as to drive the rotating mechanism and the filling mechanism to lift.

4. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 3,

the rotating mechanism includes: the device comprises a driving motor, a rotating shaft, a guide sleeve and a rotating head;

the driving motor is arranged on the bracket;

the rotating shaft is arranged on the bracket and is rotationally connected with the bracket;

the driving motor is connected with the rotating shaft;

the guide sleeve is arranged on the bracket and sleeved outside the rotating shaft;

the rotating head is arranged on the lower end surface of the guide sleeve, so that the rotating head faces the bottle body;

the driving motor is suitable for driving the rotating shaft to rotate.

5. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 4,

the rotary head includes: the jacking assembly comprises an outer sleeve and a plurality of jacking assemblies arranged on the lower end face of the outer sleeve;

the outer sleeve is arranged on the lower end face of the guide sleeve, and the jacking assembly extends out of the lower end face of the outer sleeve.

6. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 5,

the jack-up assembly comprises: an inclined block and a jacking block;

the inner wall of the outer sleeve is provided with a sliding groove corresponding to the jacking assembly, the upper end surface of the sliding groove is an inclined surface, and the sliding groove is communicated with the inner wall of the outer sleeve;

the inner wall of the outer sleeve is provided with a limiting groove corresponding to the sliding groove, the limiting groove is arranged below the corresponding sliding groove, and the limiting groove is communicated with the sliding groove;

the limiting groove is communicated with the inner wall of the outer sleeve and the bottom surface of the outer sleeve;

the inclined block is arranged in the chute, and an inclined plane matched with the inclined plane of the chute is arranged on the upper end surface of the inclined block;

the lower end face of the inclined block is connected with the jacking block through a limiting block, and the limiting block is arranged in the limiting groove;

and a chamfer is formed on the end face of the jacking block facing the central shaft of the outer sleeve.

7. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 6,

and an air pipe is arranged on the side wall of the outer sleeve.

8. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 7,

the filling mechanism includes: the filling head, the communicating pipe and the filling spring;

the filling spring is arranged in the rotating shaft and is in rotating connection with the rotating shaft;

the filling head is arranged on the filling spring and extends into the guide sleeve;

the communicating pipe is connected with the filling head so as to transport the catalyst through the communicating pipe.

9. The automatic feeding device for an exhaust gas purifying catalyst module according to claim 8,

the loading attachment includes: the device comprises a hopper, a vibrating disk and a pair of limiting plates;

the limiting plates are arranged on the base and are arranged oppositely;

the limiting plate is arranged below the filling device;

the vibrating disc is arranged on one side of the end part of the limiting plate;

the hopper is arranged above the vibrating disk;

make the bottle get into the vibration dish through the funnel after, make the bottle get into one by one between two limiting plates through the vibration dish to make the bottle pass through filling device below one by one.

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