CN114917648A

CN114917648A - Hogwash separator

Info

Publication number: CN114917648A
Application number: CN202210658753.6A
Authority: CN
Inventors: 施立伟; 王国勇; 黄日灵
Original assignee: Shenzhen Kanglingdun Intelligent Kitchen Equipment Co ltd
Current assignee: Shenzhen Kanglingdun Intelligent Kitchen Equipment Co ltd
Priority date: 2022-06-12
Filing date: 2022-06-12
Publication date: 2022-08-19
Anticipated expiration: 2042-06-12
Also published as: CN114917648B

Abstract

The application provides a hogwash separator. The hogwash separator comprises a feeding operation platform, a hopper, an extrusion device and a turnover device, wherein the operation platform is provided with a containing groove, and the hopper is placed in the containing groove; the extrusion device comprises an extrusion cylinder, and a first feed inlet is formed in the extrusion cylinder; the first feeding hole is positioned on one side of the outlet of the hopper, the hopper is rotatably connected with the feeding operation platform so as to enable the hopper to incline towards the first feeding hole, and the hopper is connected with the feeding operation platform through a first rotating shaft; the turning device comprises a rotating arm and a power part, the first end of the rotating arm is connected with the power part so as to drive the rotating arm to rotate around the first end, the second end of the rotating arm is used for driving the hopper to rotate upwards, and the first rotating shaft is positioned between the second end and the outlet of the hopper; when the hopper rotates upwards, the hopper can be separated from the rotating arm. Through the separable design between turning device and the hopper for can be at any time manual feeding, also not have automatic feeding, the use of device is more convenient.

Description

Hogwash separator

Technical Field

The application relates to the field of catering equipment, in particular to a hogwash separator.

Background

In the catering industry, a large amount of hogwash generated when restaurants are open needs to be treated. In order to reduce the amount of hogwash submitted to hogwash treatment companies and reduce the cost for processing the hogwash during the hogwash treatment, some restaurants can further process the generated hogwash before submitting the hogwash, for example, the hogwash is extruded and dehydrated and subjected to oil-water separation, so that the amount of the submitted hogwash is reduced and the processing cost is reduced.

The prior hogwash separator has simple structure, small treatment capacity and inconvenient use.

Content of application

In view of the above problems, the present application provides a hogwash separator.

In order to achieve the purpose, the following technical scheme is adopted in the application:

a hogwash separator comprises a feeding operation platform, a hopper, an extrusion device and a turnover device, wherein an accommodating groove is formed in the operation platform, and the hopper is placed in the accommodating groove; the extrusion device comprises an extrusion barrel, and a first feed inlet is formed in the extrusion barrel; the first feeding hole is positioned on one side of the outlet of the hopper, the hopper is rotatably connected with the feeding operation platform so that the hopper can incline towards the first feeding hole, and the hopper is connected with the feeding operation platform through a first rotating shaft; the turning device comprises a rotating arm and a power part, wherein a first end of the rotating arm is connected with the power part so as to drive the rotating arm to rotate around the first end, a second end of the rotating arm is used for driving the hopper to rotate upwards, and the first rotating shaft is positioned between the second end and an outlet of the hopper; when the hopper rotates upwards, the hopper can be separated from the rotating arm.

Optionally, the first rotating shaft is adjacent to the first feed port.

Optionally, when the turnover device is operated, the rotary arm is used for lifting the bottom of the hopper.

Optionally, when the hopper is located in the accommodating groove, the second end of the rotating arm is located at the other side of the bottom of the hopper away from the outlet of the hopper.

Optionally, two rotating arms are arranged, the two rotating arms are respectively positioned at two sides of the bottom of the hopper, a rotating rod is connected between the two rotating arms, and the rotating rod is connected with first ends of the two rotating arms; when the power part drives the rotating rod to rotate.

Optionally, a roller is arranged between the rotating arm and the bottom of the hopper, and the rotating arm drives the roller to roll along the bottom of the hopper.

Optionally, the system further comprises a first sensor, a second sensor and a third sensor; the hopper comprises an initial position and a material pouring position, and when the hopper is positioned at the initial position, the hopper is positioned in the accommodating groove; when the hopper is at the dumping level, the hopper is erected to facilitate dumping; the first sensor is used for detecting the initial position of hopper, the second sensor is used for detecting the material pouring position of hopper, the third sensor is used for detecting when the hopper is in initial position, the state of power spare.

Optionally, the power part includes a motor, the rotating arm is connected with the motor through a rotating rod, the rotating rod is located at the bottom of the accommodating groove, two ends of the rotating rod extend out of the accommodating groove, and the motor and the third sensor are located at two ends of the rotating rod respectively; the storage tank with be equipped with the hole of stepping down on the lateral wall of the correspondence of hopper exit, the hopper orientation the hole of stepping down stretches out an response pole, the shape in hole of stepping down with the removal route looks adaptation of response pole, first sensor with the second sensor is all installed the removal route department of response pole, and is located the storage tank outside, first, second and third sensor all are located chat with one side.

Optionally, the hopper is provided with a filter hole, and the bottom of the accommodating groove is provided with an opening.

The application discloses hogwash separator through the separable design between turning device and the hopper for can be at any time manual feeding, also not have automatic feeding, the use of device is more convenient.

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

Drawings

In order to more clearly explain the technical solutions of the present application, the drawings needed to be used in the embodiments are briefly introduced below, and it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope of protection of the present application. Like components are numbered similarly in the various figures.

FIG. 1 is a schematic diagram of a hogwash separator according to the present application;

FIG. 2 is a schematic view of the hogwash separator of the present application with a portion of the housing removed;

FIG. 3 is a schematic view of another hogwash separator of the present application with a portion of the housing removed.

The loading station 100 comprises a container 110, a first rotary shaft 120, a hopper 200, a discharge port 210, a first end 311, a second end 312, a power member 320, a rotary rod 330, a roller 340, a pressing cylinder 410, a first feed port 411, a first side wall 510 of a main box 500, a first sensor 610, a second sensor 620, a third sensor 630

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the description of the methods may be transposed or transposed in order, as will be apparent to a person skilled in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, for example "first", "second", etc., in this application is used solely to distinguish between the objects depicted and not to imply any order or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-3, the present application discloses a hogwash separator. The hogwash separator comprises a feeding operation platform 100, a hopper 200, an extrusion device and a turnover device, wherein a containing groove 110 is arranged on the feeding operation platform 100, and the hopper 200 is placed in the containing groove 110. The extrusion device comprises an extrusion cylinder 410, and a first feed opening 411 is arranged on the extrusion cylinder 410. The first feed opening 411 is located at one side of the outlet of the hopper 200, the hopper 200 is rotatably connected to the feeding operation table 100 so that the hopper 200 can be tilted toward the first feed opening 411, and the hopper 200 and the feeding operation table 100 are connected by a first rotating shaft 120.

A turnover device comprising a rotating arm 310 and a power member 320, wherein a first end 311 of the rotating arm 310 is connected with the power member 320 to drive the rotating arm 310 to rotate around the first end 311, a second end 312 of the rotating arm 310 is used for driving the hopper 200 to rotate upwards, and the first rotating shaft 120 is positioned between the second end 312 and an outflow port 310 of the hopper 200; when the hopper 200 is rotated upward, the hopper 200 is disengaged from the rotatable arm 310.

When automatic feeding is needed, the turnover device is started, the turnover device drives the hopper 200 to rotate upwards, materials in the hopper 200 flow into the extrusion device through the first feeding hole 410, and automatic feeding of the hopper 200 is achieved. However, in the process of using by the user, the user sometimes lifts the hopper 200 by himself or herself for manual feeding, or the user returns to the process of the storage tank 110 after the turnover device drives the hopper 200 for automatic feeding, and the residual material in the hopper 200 does not fall off, so that the user may hold the hopper 200 and shake the hopper 200 to shake the hopper, so that the residual material falls off. Secondly, when the turnover device is in fault, the extrusion device is still normal, the hogwash separator still needs to continue working, and staff need to manually lift the hopper 200 for feeding. Through the scheme of application itself, damage or need tremble one when trembling when the hopper 200, the user directly grasps one side of hopper 200 and upwards lifts for hopper 200 upwards rotates, and hopper 200 directly breaks away from with turning device this moment, avoids turning device to bring the hindrance to the manual upwards rotation of hopper 200.

When the turnover device is operated, the turnover device lifts the hopper 200 upwards to drive the hopper 200 to rotate upwards. Through the jacking mode, when realizing breaking away from, hopper 200 upwards rotates, just can directly break away from turning device naturally for implementation mode's means is simpler.

When the turnover device is operated, the turnover device lifts the bottom of the hopper 200 upwards. This may be a simpler way of achieving jacking up and disengagement.

The first rotary shaft 120 is adjacent to the first feed opening 411. By the arrangement, the material receiving structure between the hopper 200 and the extrusion device can be simpler.

The rotatable arm 310 is used to lift the bottom of the hopper 200 when the reversing device is in operation. The hopper 200 is rotated by the rotation of the rotation arm 310, and when the hopper 200 is manually lifted, the hopper 200 is automatically separated from the rotation arm 310. Making detachment simpler.

The second end 312 of the rotatable arm 310 is positioned at the other side of the bottom of the hopper 200 away from the outflow port 210 of the hopper 200 when the hopper 200 is positioned in the container 110.

The turning device is provided with two rotating arms 310, the two rotating arms 310 are respectively positioned at two sides of the bottom of the hopper 200, a rotating rod 330 is connected between the two rotating arms 310, and the rotating rod 330 is connected with first ends 311 of the two rotating arms 310; when the power member 320 rotates the rotating rod 330. The provision of the swivel arms 310 on both sides makes the hopper 200 turn more stably.

A roller 340 is arranged between the rotating arm 310 and the bottom of the hopper 200, and the rotating arm 310 drives the roller 340 to roll along the bottom of the hopper 200. The roller 340 is provided so that the jacking process is smoother.

The hogwash separator further includes a first sensor 610, a second sensor 620, and a third sensor 630; the hopper 200 comprises an initial position and a material pouring position, and when the hopper 200 is positioned at the initial position, the hopper 200 is positioned in the accommodating groove 110; when the hopper 200 is at the discharge position, the hopper 200 is erected to facilitate discharge; the first sensor 610 is used to detect the initial position of the hopper 200, the second sensor 620 is used to detect the discharge position of the hopper 200, and the third sensor 630 is used to detect the state of the power member 320 when the hopper 200 is in the initial position.

In use, when the hopper 200 is in the initial position, the first sensor 610 can detect the position of the hopper 200 at that time, and the third sensor 630 detects that the power member 320 is in the initial state. When the apparatus is started, the power member 320 is operated, the rotating arm 310 is rotated, and the hopper 200 is rotated upward by lifting the hopper 200. When the hopper 200 rotates to the emptying position, the second sensor 620 senses the position of the hopper 200 at this time, the power member 320 can rotate reversely to return to the initial state, and when the third sensor 630 senses the position, the power member 320 is returned to the original position and stops operating. However, the hopper 200 may be shaken by the user for a few times, and the turning device cannot start the material pouring process again. The flipping mechanism device may initiate the feeding process only after the first sensor 610 senses that the hopper 200 is in the initial position. Meanwhile, in the process that the hopper 200 rotates upwards under the action of the power member 320, namely, the hopper 200 is located between the initial position and the material pouring position, at this time, a user can directly start to lift the hopper 200 upwards to the material pouring position, when the second sensor 620 senses that the hopper 200 is located at the material pouring position, the power member 320 backs to the initial state, and the third sensor 630 senses that the power member 320 stops operating.

The power member 320 includes a motor, the rotating arm 310 is connected to the motor through a rotating rod 330, the rotating rod 330 is located at the bottom of the accommodating groove 110, two ends of the rotating rod 330 both extend out of the accommodating groove 110, and the motor and the third sensor 630 are located at two ends of the rotating rod 330 respectively. The accommodating groove 110 is provided with a yielding hole on a corresponding side wall at the position of the outflow port 210 of the hopper 200, the hopper 200 extends out of an induction rod towards the yielding hole, the shape of the yielding hole is matched with the moving path of the induction rod, the first sensor 610 and the second sensor 620 are both arranged at the moving path of the induction rod and are positioned outside the accommodating groove 110, and the first sensor 610, the second sensor 620 and the third sensor 630 are all positioned at the same side of chatting.

The hopper 200 is provided with a filtering hole. Thus, the material is primarily filtered after being poured into the hopper 200 and flows out from the bottom opening of the accommodating tank 110. And then further filtered in an extrusion apparatus. Therefore, the treatment efficiency of the hogwash separator can be further improved.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A hogwash separator is characterized by comprising a feeding operation platform, a hopper, an extrusion device and a turnover device, wherein an accommodating groove is formed in the operation platform, and the hopper is placed in the accommodating groove;

the extrusion device comprises an extrusion barrel, and a first feed inlet is formed in the extrusion barrel;

the first feeding hole is positioned on one side of the outlet of the hopper, the hopper is rotatably connected with the feeding operation platform so that the hopper can incline towards the first feeding hole, and the hopper is connected with the feeding operation platform through a first rotating shaft;

the turning device comprises a rotating arm and a power part, a first end of the rotating arm is connected with the power part so as to drive the rotating arm to rotate around the first end, a second end of the rotating arm is used for driving the hopper to rotate upwards, and the first rotating shaft is positioned between the second end and an outlet of the hopper;

when the hopper rotates upwards, the hopper can be separated from the rotating arm.

2. The hogwash separator of claim 1, wherein the first rotating shaft is adjacent to the first feed inlet.

3. The hogwash separator according to claim 1, wherein the rotating arm is used to lift the bottom of the hopper when the tilting device is operated.

4. The hogwash separator according to claim 3, wherein the second end of the swivel arm is located at the other side of the bottom of the hopper from the outflow opening of the hopper when the hopper is located in the receiving tank.

5. The hogwash separator according to claim 3, wherein there are two said rotating arms, said two said rotating arms are located at two sides of the bottom of said hopper, respectively, a rotating rod is connected between said two said rotating arms, said rotating rod connects the first ends of said two said rotating arms; when the power part drives the rotating rod to rotate.

6. The hogwash separator according to claim 5, wherein a roller is disposed between the rotating arm and the bottom of the hopper, and the rotating arm drives the roller to roll along the bottom of the hopper.

7. The hogwash separator of claim 1, further comprising a first sensor, a second sensor, and a third sensor; the hopper comprises an initial position and a material pouring position, and is positioned in the accommodating groove when the hopper is positioned at the initial position; when the hopper is at the material pouring position, the hopper is erected to facilitate material pouring; the first sensor is used for detecting the initial position of hopper, the second sensor is used for detecting the material pouring position of hopper, the third sensor is used for detecting when the hopper is in initial position, the state of power spare.

8. The pigwash separator according to claim 7, wherein the power member includes a motor, the rotating arm is connected to the motor through a rotating rod, the rotating rod is located at the bottom of the accommodating groove, both ends of the rotating rod extend out of the accommodating groove, and the motor and the third sensor are respectively located at both ends of the rotating rod;

the accommodating groove is provided with a abdicating hole on the corresponding side wall at the outlet of the hopper, the hopper extends out of an induction rod towards the abdicating hole, the shape of the abdicating hole is matched with the moving path of the induction rod, the first sensor and the second sensor are both arranged at the moving path of the induction rod and are positioned outside the accommodating groove,

the first, second and third sensors are all located on the same side of the chat.

9. The hogwash separator according to claim 1, wherein the hopper has a filtering hole and the bottom of the receiving trough has an opening.