CN211412191U - Organic raw material loading and unloading mechanism - Google Patents

Abstract

The utility model discloses an organic raw materials loading and unloading mechanism, including the organism, seted up feed inlet and discharge gate in the organism respectively, there are apron and branch on the feed inlet lateral wall pin hub connection respectively, have seted up the spout in the apron lower extreme. The cover plate movably supported by the telescopic rod and the support rod is arranged at the feed inlet of the machine body, so that the cover plate can be adjusted in real time according to actual requirements, and organic raw materials entering the machine body can be preliminarily limited; through set up by motor drive's pivot in the organism, set up corresponding mainboard and branch in the pivot, set up the auxiliary plate and the breaking hammer by spring coupling in hollow structure's mainboard for the auxiliary plate carries out concertina movement with the centrifugal force effect that the breaking hammer produced at high-speed rotatory in-process down, handle with the stirring to carrying out the breakage to the organic raw materials that gets into in the organism, reuse sieve cover screens the organic raw materials that the volume differs, in order to ensure to carry suitable organic raw materials.

Description

Organic raw material loading and unloading mechanism

Technical Field

The utility model relates to an organic raw materials application technical field especially relates to an organic raw materials loading and unloading mechanism.

Background

Because of the continuous development of science and technology and the gradual enhancement of environmental awareness, the application range of the organic raw materials is wider and wider. The organic raw materials are petrochemical industries which use petroleum and natural gas as raw materials, industries which use grain fermentation to prepare alcohol or solvent, industries which prepare or fractionate various organic chemical products from raw gas after coal gasification and coal tar recovered by dry distillation. The application degree of organic raw materials in our country is also continuously improved in recent years.

Under the existing development environment, the demand for organic raw materials is extremely large, so mechanized operation is adopted when the organic raw materials are used, but the function singleness is simply caused due to the structure in the traditional mechanical equipment, and certain inconvenience still exists when the application: organic raw materials self very easily concreties into pieces, and very its big in the demand at every turn, and traditional loading and unloading material equipment only possesses single transport function, is difficult to properly select organic raw materials, and the material of throwing of extensive formula very easily leads to the jam damage of loading and unloading material equipment, not only can lead to a large amount of bulky organic raw materials to pile up in mechanical equipment, influences the normal current of loading and unloading material, causes organic raw materials's waste and pollution, and seriously threatens mechanical equipment's safety in utilization.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the organic raw materials are difficult to be loaded and unloaded properly in the prior art, and providing an organic raw materials loading and unloading mechanism.

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

an organic raw material loading and unloading mechanism comprises a machine body, wherein a feeding hole and a discharging hole are respectively arranged in the machine body, the side wall of the feed inlet is respectively connected with a cover plate and a supporting rod through a pin shaft, the lower end of the cover plate is provided with a chute, and the free end of the supporting rod is connected with a sliding block which is sleeved in the sliding groove in a sliding way through a pin shaft, a telescopic rod which is connected with the pin shaft of the supporting rod is rotatably arranged in the side wall of the feeding hole, a bracket and a screen cover are respectively and fixedly arranged in the machine body, a motor is connected in the bracket by bolts, a rotating shaft connected with the output shaft of the motor is rotatably arranged between the bracket and the screen cover, the rotating shaft is respectively connected with a main board and a sliding sleeve, and the hollow free end of the main board is internally sleeved with a spring and an auxiliary board which are welded with each other, a support rod is connected between the sliding sleeve and the auxiliary board through a pin shaft, and the end of the auxiliary plate extending out of the main plate is welded with a breaking hammer, and the machine body is provided with a recovery opening corresponding to the screen cover.

Preferably, the feed inlet and the discharge outlet are correspondingly and vertically arranged at the upper end and the lower end of the machine body, and the recovery port is arranged in the side wall of the machine body.

Preferably, the cover plate is located above the support rod, and the telescopic rod is located between the cover plate and the support rod.

Preferably, the support and the screen cover are arranged under the feeding port from top to bottom, and the rotating shaft is vertically arranged.

Preferably, mainboard circumference equidistance welds in the pivot upper end, the sliding sleeve slides and rotates the cover and locate the pivot lower extreme, and the branch and the mainboard one-to-one that circumference equidistance distributes.

Preferably, one end of the spring is welded in the hollow free end of the main board, and the auxiliary board is slidably sleeved in the free end of the main board.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model discloses a set up the feed inlet in the organism upper end, correspond in the feed inlet and set up apron and the branch that is connected to utilize the telescopic link to pull support to branch, make the apron can be based on the demand of organic raw materials and the degree of opening of volume control apron, with get into the raw materials in the raw materials fermenting installation through the organism and tentatively prescribe a limit to.

2. The utility model discloses set up the pivot of being driven rotatoryly by the motor at the organism, set up mainboard and sliding sleeve in the pivot respectively, utilize spring coupling to stretch out and draw back the supplementary board and the breaking hammer of adjustment in mainboard hollow one end, and support limiting displacement for it through the branch of being connected between sliding sleeve and supplementary board, in order to ensure supplementary board and breaking hammer and do steady concertina movement at high-speed rotatory in-process and carry out shredding to organic raw materials, it carries out selective transport and recovery processing to organic raw materials that the volume differs to recycle the sieve cover.

In summary, the cover plate movably supported by the telescopic rod and the support rod is arranged at the feed inlet of the machine body, so that the cover plate can be adjusted in real time according to actual requirements, and organic raw materials entering the machine body can be preliminarily limited; through set up by motor drive's pivot in the organism, set up corresponding mainboard and branch in the pivot, set up the auxiliary plate and the breaking hammer by spring coupling in hollow structure's mainboard for the auxiliary plate carries out concertina movement with the centrifugal force effect that the breaking hammer produced at high-speed rotatory in-process down, handle with the stirring to carrying out the breakage to the organic raw materials that gets into in the organism, reuse sieve cover screens the organic raw materials that the volume differs, in order to ensure to carry suitable organic raw materials.

Drawings

Fig. 1 is a schematic structural view of an organic raw material loading and unloading mechanism provided by the present invention;

FIG. 2 is an enlarged view of the structure of part A of the loading and unloading mechanism for organic materials according to the present invention;

FIG. 3 is an enlarged view of a portion B of the organic material loading and unloading mechanism of the present invention;

fig. 4 is the utility model provides a supporting structure sketch map of organic raw materials loading and unloading mechanism.

In the figure: 1 machine body, 2 feed inlets, 3 discharge outlets, 4 cover plates, 5 support rods, 6 sliding grooves, 7 sliding blocks, 8 telescopic rods, 9 supports, 10 sieve covers, 11 motors, 12 rotating shafts, 13 main plates, 14 sliding sleeves, 15 springs, 16 auxiliary plates, 17 support rods, 18 breaking hammers and 19 recovery ports.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, an organic material loading and unloading mechanism comprises a machine body 1, the machine body 1 is used as a loading and unloading part device of an organic material fermentation device, a feed port 2 and a discharge port 3 are respectively arranged in the machine body 1, the discharge port 3 is connected with the fermentation device, a cover plate 4 and a support rod 5 are respectively connected with the side wall of the feed port 2 through pin shafts, it should be noted that the cover plate 4 can be set into 2-3 blocks, the feed port 2 is sealed when horizontally abutted against each other, the feed port 2 is opened under an inclined state, a chute 6 is arranged in the lower end of the cover plate 4, a slide block 7 which is sleeved in the chute 6 is connected with the free end of the support rod 5 through a pin shaft, a telescopic rod 8 which is connected with the support rod 5 through a pin shaft is rotatably arranged in the side wall of the feed port 2, the telescopic rod 8 can be an, for the prior mature technology, and therefore not described in detail, a support 9 and a screen cover 10 are respectively fixedly installed in a machine body 1, a motor 11 is connected in the support 9 by bolts, the motor 11 can be a servo motor with the product model of HC-SFS201, a rotating shaft 12 connected with an output shaft of the motor 11 is rotatably arranged between the support 9 and the screen cover 10, a main plate 13 and a sliding sleeve 14 are respectively connected on the rotating shaft 12, a spring 15 and an auxiliary plate 16 which are welded are sleeved in a hollow free end of the main plate 13, a supporting rod 17 is connected between the sliding sleeve 14 and the auxiliary plate 16 by a pin shaft, a breaking hammer 18 is welded at one end of the auxiliary plate 16 extending out of the main plate 13, the breaking hammer 18 can be a solid metal block, centrifugal force can be increased in the rotating process to pull the auxiliary plate 16 and violently hammer the organic raw material, a recovery port 19 corresponding to the screen cover 10 is formed in the machine body 1, a door body capable of opening and closing is hinged on the, so as to conveniently collect and recover the large-volume organic raw materials in the machine body 1.

Referring specifically to FIG. 1 and FIG. 4:

firstly, the outer edge of the bracket 9 is of a hollow structure so as to facilitate the organic raw materials to pass through, and the middle part is used for installing and protecting the motor 11;

secondly, the screen cover 10 is an inverted funnel structure for supporting the rotating shaft 12, and the inclined end surface can filter and screen the moving organic raw materials.

The feed inlet 2 and the discharge outlet 3 are vertically arranged at the upper end and the lower end of the machine body 1 correspondingly, and the recovery port 19 is arranged in the side wall of the machine body 1.

The cover plate 4 is positioned above the supporting rod 5, the telescopic rod 8 is positioned between the cover plate 4 and the supporting rod 5 to pull and support the cover plate 4, so that the cover plate tends to deflect in the horizontal or vertical direction, the support 9 and the screen cover 10 are arranged under the feeding port 2 from top to bottom, and the rotating shaft 12 is arranged vertically.

Mainboard 13 circumference equidistance welds in pivot 12 upper end, sliding sleeve 14 slides and rotates the cover and locates the pivot 12 lower extreme, and the branch 17 and the mainboard 13 one-to-one that circumference equidistance distributes, spring 15 one end welds in the hollow free end of mainboard 13, and assist 16 slip covers of board and locate in the mainboard 13 free end, spring 15 is tension spring, in order to pull assisting 16 board and breaking hammer 18, at high-speed rotatory in-process, centrifugal action force makes breaking hammer 18 and assisting 16 board outwards extend, in order to smash and the stirring operation organic raw materials.

The utility model discloses its functional principle is explained to following mode of operation of accessible:

firstly, the telescopic rod 8 is controlled to extend to extrude the supporting rod 5, the stressed supporting rod 5 deflects at the pivot point thereof to drive the sliding block 7 to slide in the sliding groove 6, and the cover plate 4 deflects to enable the cover plate 4 to be respectively opened obliquely so as to open the feeding hole 2, and organic raw materials are fed into the machine body 1 through the feeding hole 2;

secondly, the motor 11 is started, an output shaft of the motor 11 drives the rotating shaft 12 to rotate, the rotating shaft 12 drives the spring 15, the auxiliary plate 16 and the breaking hammer 18 to rotate in the same direction through the main plate 13, in the process, the breaking hammer 18 pulls the auxiliary plate 16 to extend out of the main plate 13 under the action of centrifugal force generated, so that the spring 15 is stretched, and the breaking hammer 18 hammers the falling organic raw material in the high-speed rotating process so as to split the organic raw material;

thirdly, at the same time, the rotating auxiliary plate 16 drives the sliding sleeve 14 to rotate on the rotating shaft 12 in the same direction through the supporting rod 17, and because the auxiliary plate 16 extends outwards, the supporting rod 17 pulls the sliding sleeve 14, so that the sliding sleeve 14 moves upwards by taking the rotating shaft 12 as a guide, and a supporting and pulling effect is provided for the auxiliary plate 16 and the breaking hammer 18;

fourthly, the main plate 13, the auxiliary plate 16 and the support rod 17 stir the crushed organic raw materials in the rotating process so as to filter the crushed organic raw materials on the sieve cover 10, the fragments of the organic raw materials with smaller volume move into the fermentation device through the sieve cover 10 through the discharge port 3, and the organic raw materials with larger volume are intercepted in the machine body 1;

fifthly, after the charging is finished, the recovery port 19 is opened to intensively recover the large-volume organic raw materials in the machine body 1 so as to crush and screen the organic raw materials again.

The above, only be the concrete implementation of 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 is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An organic raw material loading and unloading mechanism comprises a machine body (1) and is characterized in that a feeding hole (2) and a discharging hole (3) are respectively formed in the machine body (1), a cover plate (4) and a support rod (5) are respectively connected to the side wall of the feeding hole (2) through a pin shaft, a sliding chute (6) is formed in the lower end of the cover plate (4), a sliding block (7) which is connected with the free end of the support rod (5) through a pin shaft and is sleeved in the sliding chute (6) is connected with the free end of the support rod (5), a telescopic rod (8) which is connected with the support rod (5) through a pin shaft is rotatably installed in the side wall of the feeding hole (2), a support (9) and a screen cover (10) are respectively and fixedly installed in the machine body (1), a motor (11) is connected to a bolt in the support (9), a rotating shaft (12) which is connected with an output shaft of the motor (11), and mainboard (13) hollow free end endotheca is equipped with welded spring (15) mutually and assists board (16), round pin hub connection has branch (17) between sliding sleeve (14) and assistance board (16), and assists board (16) and extend to the outer one end welding of mainboard (13) and have broken hammer (18), set up on organism (1) and sieve cover (10) corresponding recovery mouth (19).

2. The organic raw material loading and unloading mechanism according to claim 1, wherein the feeding port (2) and the discharging port (3) are vertically arranged at the upper end and the lower end of the machine body (1) correspondingly, and the recycling port (19) is arranged in the side wall of the machine body (1).

3. The organic material loading and unloading mechanism according to claim 1, wherein the cover plate (4) is located above the supporting rod (5), and the telescopic rod (8) is located between the cover plate (4) and the supporting rod (5).

4. The organic raw material loading and unloading mechanism according to claim 2, wherein the support (9) and the screen cover (10) are arranged right below the feeding port (2) from top to bottom, and the rotating shaft (12) is vertically arranged.

5. The organic material loading and unloading mechanism according to claim 4, wherein the main plate (13) is welded to the upper end of the rotating shaft (12) at equal intervals in the circumferential direction, the sliding sleeve (14) is slidably and rotatably sleeved on the lower end of the rotating shaft (12), and the supporting rods (17) distributed at equal intervals in the circumferential direction correspond to the main plate (13) one by one.

6. The organic material loading and unloading mechanism according to claim 5, wherein one end of the spring (15) is welded into the hollow free end of the main plate (13), and the auxiliary plate (16) is slidably sleeved in the free end of the main plate (13).

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