阅读说明：本技术 一种预包装食品原料除杂装置的过滤结构 (Filtering structure of pre-packaged food raw material impurity removal device ) 是由 傅丽婷 于 2019-12-23 设计创作，主要内容包括：本发明公开了一种预包装食品原料除杂装置的过滤结构,包括抓把、上盖、角形钢架、加强钢件、过滤箱、传输机构、手动调节钮、进口管、开口和安装块,该预包装食品原料除杂装置的过滤结构通过优化设置了传输机构,开启微型泵体,从排放口处抽入滤液,将滤液从进口端通入,经单向控体单向向右流动,随后进入流动内道中,进而流至增腔中,增腔内涌入的滤液再从出口端排出,高效便捷的将滤箱底端的堆积的滤液排出,便于持续化的过滤处理,增强处理效率；增腔内设置有第一阻隔板、第二阻隔板简易调节控制流量,起缓流的作用,简易控制流量,合理控制流量通过排出。(The invention discloses a filtering structure of a pre-packaged food raw material impurity removal device, which comprises a grab handle, an upper cover, an angular steel frame, a reinforcing steel piece, a filtering box, a transmission mechanism, a manual adjusting button, an inlet pipe, an opening and an installation block, wherein the transmission mechanism is optimally arranged in the filtering structure of the pre-packaged food raw material impurity removal device, a miniature pump body is opened, filtrate is sucked from a discharge port, the filtrate is introduced from an inlet end, flows to the right in a single direction through a single-direction control body and then enters a flow inner channel to further flow into an increasing cavity, and the filtrate flowing into the increasing cavity is discharged from an outlet end, so that the accumulated filtrate at the bottom end of the filtering box is efficiently and conveniently discharged, the continuous filtering treatment is facilitated, and the treatment efficiency is enhanced; increase the intracavity and be provided with first baffler, the simple and easy regulation control flow of second baffler, play the effect of slow flow, simple and easy control flow, reasonable control flow is through discharging.)

1. A filtering structure of a pre-packaged food raw material impurity removing device comprises a grab handle (1), an upper cover (2), an angular steel frame (3), a reinforcing steel piece (4), a filtering box (5), a manual adjusting button (7), an inlet pipe (8), an opening (9) and a mounting block (10), wherein the bottom end of the grab handle (1) is fixedly welded on the upper cover (2), the bottom end of the upper cover (2) is embedded in the filtering box (5), the reinforcing steel piece (4) is fixedly welded at the bottom end of the angular steel frame (3), the manual adjusting button (7) is positioned on the right side of the filtering box (5), the inlet pipe (8) is hermetically mounted at the top end of the filtering box (5), the opening (9) is pre-formed at the top end of the filtering box (5), and the mounting block (10) is fixedly mounted on the inner side face of the filtering box (5);

the method is characterized in that: the device is characterized by further comprising a transmission mechanism (6), wherein a manual adjusting button (7) is rotatably mounted on the surface of the transmission mechanism (6), the transmission mechanism (6) comprises a pipe shell (601), an inlet end (602), a micro pump body (603), a one-way control body (604), a connecting rod (605), a first blocking plate (606), an outlet end (607), a cavity increasing (608), a second blocking plate (609) and a flowing inner channel (610), the inlet end (602) is nested on the left side of the pipe shell (601), the left side of the pipe shell (601) is connected with a filter box (5) in a matching manner, the right side of the inlet end (602) is communicated with the micro pump body (603), the one-way control body (604) is assembled and mounted on the left side of the flowing inner channel (610), the first blocking plate (606) is fastened at the bottom end of the connecting rod (605), the first blocking plate (606) and the second blocking plate (609) are oppositely arranged, and the outlet end, the outlet end (607) is internally communicated with the increasing cavity (608).

2. The filtering structure of an impurity removing device for pre-packaged food raw materials according to claim 1, characterized in that: one-way accuse body (604) includes two orifice plates (6041), inner spring (6042), T closure (6043) and closure board (6044), two orifice plates (6041) right flank and inner spring (6042) elastic connection, inner spring (6042) nestification is in T closure (6043) surface, T closure (6043) is laminated with closure board (6044) right flank mutually, closure board (6044) are located rose box (5) right side.

3. The filtering structure of an impurity removing device for pre-packaged food raw materials according to claim 1, characterized in that: the inlet pipe (8) comprises a horizontal pipe (801), a vertical pipe (802), a penetrating pipe (803) and a sealing ring (804), the horizontal pipe (801) is in sealing connection with the vertical pipe (802), the vertical pipe (802) is internally connected with the penetrating pipe (803) in a penetrating manner, the sealing ring (804) is embedded in the outer surface of the penetrating pipe (803), and the sealing ring (804) is in interference fit with the filter box (5).

4. The filtering structure of an impurity removing device for pre-packaged food raw materials according to claim 1, characterized in that: the filter box (5) includes case shell (51), first filter plate (52), second filter plate (53), micro-filter screen (54), arc mount pad (55), discharge port (56), closing plate (57) and protection inner shell (58), the tight mounting block (10) of fastening on case shell (51) inner wall, first filter plate (52) below is equipped with second filter plate (53), micro-filter screen (54) in proper order, micro-filter screen (54) both sides fastening installation is in arc mount pad (55), discharge port (56) link up case shell (51) bottom, closing plate (57) bottom surface bonds with protection inner shell (58) internal surface mutually.

5. The filtering structure of the impurity removing device for the pre-packaged food raw materials as claimed in claim 4, wherein: the thickness of the first filter plate (52) is smaller than that of the second filter plate (53), and the thickness of the micro filter screen (54) is smaller than that of the first filter plate (52).

6. The filtering structure of the impurity removing device for the pre-packaged food raw materials as claimed in claim 4, wherein: the sealing plate (57) is of a cuboid structure, and the plane of the top surface of the sealing plate (57) is flush with the discharge port (56).

7. The filtering structure of the impurity removing device for the pre-packaged food raw materials as claimed in claim 4, wherein: the arc surface of the arc-shaped mounting seat (55) is in a quarter-circle arc shape.

8. The filtering structure of the impurity removing device for the pre-packaged food raw materials as claimed in claim 2, wherein: the T-shaped plug (6043) is of a T-shaped structure and is horizontally arranged.

9. The filtering structure of an impurity removing device for pre-packaged food raw materials according to claim 1, characterized in that: the manual adjusting buttons (7) are two in number and are symmetrically arranged on two sides of the transmission mechanism (6).

10. The filtering structure of an impurity removing device for pre-packaged food raw materials according to claim 1, characterized in that: the cavity height of the cavity increasing (608) is sequentially greater than the cavity heights of the outlet end (607) and the flow inner channel (610).

Technical Field

The invention relates to the field related to a filtering structure of an impurity removing device, in particular to a filtering structure of an impurity removing device for pre-packaged food raw materials.

Background

Food raw materials usually refer to the raw and other materials that preparation food needs, and the edulcoration device of prepackaging food raw materials is that the raw and other materials that preparation corresponding food used carry out the packaging, and the edulcoration operation to food raw materials is different before the packaging, and during most edulcorations, need effectively clear up the impurity on raw materials surface, carries out corresponding filtration treatment back and carries out the packaging again.

When the impurities are filtered and discharged, due to the structural arrangement, the discharge effect of the filtered impurities is poor, the accumulated filtrate at the bottom end of the filter box is difficult to discharge efficiently and conveniently, the continuous filtering treatment is facilitated, and the treatment efficiency is enhanced; the flow is difficult to control simply and reasonably and the flow is discharged.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a filtering structure of an impurity removing device for pre-packaged food materials.

The invention is realized in such a way that a filtering structure of a pre-packaged food raw material impurity removing device is constructed, the device comprises a grab handle, an upper cover, an angular steel frame, a reinforced steel piece, a filtering box, a transmission mechanism, a manual adjusting button, an inlet pipe, an opening and an installation block, the bottom end of the grab handle is welded and fixed on the upper cover, the bottom end of the upper cover is embedded and installed on the filtering box, the reinforced steel piece is welded and fixed at the bottom end of the angular steel frame, the manual adjusting button is positioned at the right side of the filtering box, the inlet pipe is hermetically installed at the top end of the filtering box, the opening is pre-formed at the top end of the filtering box, the installation block is tightly installed on the inner side surface of the filtering box, the manual adjusting button is rotatably installed on the surface of the transmission mechanism, the transmission mechanism comprises a pipe shell, an inlet end, a miniature pump body, a one-, the utility model discloses a miniature pump body, including shell, inlet end right side and miniature pump body through-connection, one-way accuse body composite mount is in the interior way left side of flowing, connecting rod bottom fastening has first baffler, first baffler sets up with second baffler in opposite directions, the outlet end runs through and locates the shell right side, the inside and chamber through-connection that increases of outlet end.

Preferably, the one-way accuse body includes diplopore board, inner spring, T stifled piece and shutoff board, diplopore board right flank and inner spring elastic connection, the inner spring nests in T stifled piece surface, T stifled piece is laminated mutually with shutoff board right flank, the shutoff board is located the rose box right side.

Preferably, the inlet pipe includes horizontal pipe, vertical pipe, wears intubate and sealing washer, horizontal pipe and vertical pipe sealing connection, vertical intraduct with alternate a tub through connection, alternate outside of tubes surface embedding and install the sealing washer, sealing washer and rose box interference fit.

Preferably, the rose box includes case shell, first filter plate, second filter plate, micro-filter screen, arc mount pad, discharge port, closing plate and protection inner shell, the firm installation piece of case shell inner wall fastening, first filter plate below is equipped with second filter plate, micro-filter screen in proper order, the fastening of micro-filter screen both sides is installed in the arc mount pad, the discharge port link up case shell bottom, the closing plate bottom surface bonds with protection inner shell internal surface mutually.

Preferably, the thickness of the first filter plate is smaller than that of the second filter plate, and the thickness of the micro filter screen is smaller than that of the first filter plate.

Preferably, the sealing plate is of a rectangular parallelepiped structure, and the plane of the top surface of the sealing plate is flush with the discharge port.

Preferably, the arc-shaped mounting seat arc surface is a quarter of circumference arc.

Preferably, the T-shaped plug is of a T-shaped structure and is horizontally arranged.

Preferably, the manual adjusting buttons are arranged in two numbers and symmetrically arranged on two sides of the transmission mechanism.

Preferably, the height of the cavity increasing cavity is sequentially greater than the height of the cavity arranged at the outlet end and the flow inner channel.

Preferably, the inner spring is made of spring steel, and the elastic potential energy is large.

Preferably, the reinforcing steel member is made of high carbon steel, and has high strength and hardness, high elastic limit and fatigue limit.

The invention has the following advantages: the invention provides a filtering structure of a pre-packaged food raw material impurity removal device through improvement, and compared with the same type of equipment, the filtering structure has the following improvement:

the advantages are that: according to the filtering structure of the pre-packaged food raw material impurity removal device, the transmission mechanism is optimally arranged, the miniature pump body is opened, filtrate is sucked from the discharge port, the filtrate is introduced from the inlet end, flows to the right in a one-way mode through the one-way control body and then enters the flow inner channel to flow into the increasing cavity, the filtrate flowing into the increasing cavity is discharged from the outlet end, the accumulated filtrate at the bottom end of the filtering box is discharged efficiently and conveniently, continuous filtering treatment is facilitated, and the treatment efficiency is improved; increase the intracavity and be provided with first baffler, the simple and easy regulation control flow of second baffler, play the effect of slow flow, simple and easy control flow, reasonable control flow is through discharging.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the construction of the filtration tank of the present invention;

FIG. 3 is a schematic view of the transfer mechanism of the present invention;

FIG. 4 is a schematic view of the inlet tube configuration of the present invention;

fig. 5 is an enlarged view of a portion of the invention at a in fig. 3.

Wherein: a grab handle-1, an upper cover-2, an angle steel frame-3, a reinforced steel part-4, a filter box-5, a transmission mechanism-6, a manual adjusting button-7, an inlet pipe-8, an opening-9, a mounting block-10, a pipe shell-601, an inlet end-602, a micro pump body-603, a one-way control body-604, a connecting rod-605, a first baffle plate-606, an outlet end-607, a cavity-608, a second baffle plate-609, a flow inner channel-610, a double orifice plate-6041, an inner spring-6042, a T-shaped blocking part-6043, a blocking plate-6044, a horizontal pipe-801, a vertical pipe-802, a penetrating pipe-803, a sealing ring-804, a box shell-51, a first filter plate-52, a second filter plate-53, a micro filter screen-54, a box shell-51, a first filter, An arc-shaped mounting seat-55, a discharge port-56, a sealing plate-57 and a protective inner shell-58.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. 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.

The invention provides a filter structure of a pre-packaged food raw material impurity removal device through improvement, which comprises a grab handle 1, an upper cover 2, an angle steel frame 3, a reinforcing steel part 4, a filter box 5, a transmission mechanism 6, a manual adjusting button 7, an inlet pipe 8, an opening 9 and a mounting block 10, wherein the bottom end of the grab handle 1 is welded and fixed on the upper cover 2, the bottom end of the upper cover 2 is embedded and installed on the filter box 5, the reinforcing steel part 4 is welded and fixed at the bottom end of the angle steel frame 3, the integral strength of the structure is enhanced, and the stability of support is ensured, the manual adjusting button 7 is positioned at the right side of the filter box 5, the inlet pipe 8 is hermetically installed at the top end of the filter box 5, the opening 9 is pre-molded at the top end of the filter box 5, the mounting block 10 is fixedly installed on the inner side surface of the filter box 5, the manual adjusting button 7 is, The one-way control body 604, the connecting rod 605, the first blocking plate 606, the outlet end 607, the increasing cavity 608, the second blocking plate 609 and the flowing inner channel 610, the inlet end 602 is nested on the left side of the pipe shell 601, the left side of the pipe shell 601 is connected with the filter box 5 in a matching mode, the right side of the inlet end 602 is in through connection with the micro pump body 603, the one-way control body 604 is installed on the left side of the flowing inner channel 610 in a combined mode, one-way control is facilitated to conduct flow guiding, the first blocking plate 606 is fastened at the bottom end of the connecting rod 605, the first blocking plate 606 and the second blocking plate 609 are arranged in opposite directions, manual adjustment and control of flow are facilitated to achieve, the outlet end 607 penetrates through the right side.

Further, the unidirectional control body 604 includes two orifice plates 6041, inner spring 6042, T stifled piece 6043 and closure plate 6044, two orifice plates 6041 right flank and inner spring 6042 elastic connection, inner spring 6042 nestification is in T closure 6043 surface, T closure 6043 and closure plate 6044 right flank laminate mutually, closure plate 6044 is located the 5 right sides of rose box.

Further, the inlet pipe 8 comprises a horizontal pipe 801, a vertical pipe 802, a penetration pipe 803 and a sealing ring 804, the horizontal pipe 801 is connected with the vertical pipe 802 in a sealing manner, the inside of the vertical pipe 802 is connected with the penetration pipe 803 in a penetrating manner, the sealing ring 804 is embedded in the outer surface of the penetration pipe 803, and the sealing ring 804 is in interference fit with the filter box 5.

Further, the filter box 5 comprises a box shell 51, a first filter plate 52, a second filter plate 53, a micro filter screen 54, an arc-shaped mounting seat 55, a discharge port 56, a sealing plate 57 and a protective inner shell 58, wherein a mounting block 10 is fixedly fastened on the inner wall of the box shell 51, the second filter plate 53 and the micro filter screen 54 are sequentially arranged below the first filter plate 52, two sides of the micro filter screen 54 are fixedly mounted on the arc-shaped mounting seat 55, the discharge port 56 penetrates through the bottom end of the box shell 51, and the bottom surface of the sealing plate 57 is bonded with the inner surface of the protective inner shell 58.

Further, the thickness of the first filter plate 52 is smaller than that of the second filter plate 53, and the thickness of the micro filter screen 54 is smaller than that of the first filter plate 52, so that the filter effects of different degrees can be conveniently realized in a matching manner.

Further, the sealing plate 57 is a rectangular parallelepiped structure, and the top plane of the sealing plate 57 is flush with the discharge port 56, so as to facilitate the discharge of the liquid in the filter box 5.

Further, the arc-shaped mounting seat 55 arc surface is a quarter circumference arc, so that liquid is not easy to remain after a long time, and the cleaning is convenient.

Further, the T-shaped plugging part 6043 is of a T-shaped structure and is installed horizontally, so that the plugging plate 6044 can complete a closed state in an initial state.

Furthermore, the manual adjusting buttons 7 are arranged in two numbers and symmetrically arranged on two sides of the transmission mechanism 6, and are matched together to realize the corresponding flow adjusting function.

Further, the cavity height of the cavity 608 is sequentially greater than the cavity heights of the outlet end 607 and the flow channel 610. The liquid has good flowing effect and flows efficiently.

Further, the inner spring 6042 is made of spring steel and has high elastic potential energy.

Further, the reinforcing steel member 4 is made of high carbon steel, and has high strength and hardness, high elastic limit and fatigue limit.

The invention provides a filtering structure of a pre-packaged food raw material impurity removing device through improvement, and the working principle is as follows;

firstly, communicating an inlet pipe 8 with a pre-packaged food raw material impurity removal device, covering an upper cover 2, filtering macromolecular impurity particles in filtrate by a first filter plate 52, a second filter plate 53 and a micro filter screen 54, and finally, allowing the treated filtrate to enter the bottom end of a filter box 5 and accumulate at the side end of a discharge port 56;

secondly, the miniature pump body 603 is opened, filtrate is pumped in from the discharge port 56, the filtrate is introduced from the inlet end 602, enters from the double-hole plate 6041, impacts the T-shaped block 6043, the T-shaped block 6043 and the block 6044 keep an opening with a certain size under the elastic limiting action of the inner spring 6042, and the filtrate flows into the flowing inner channel 610 from gaps of the T-shaped block 6043 and the block 6044;

thirdly, the flow flows into the increased cavity 608, a first blocking plate 606 and a second blocking plate 609 are arranged in the increased cavity 608, and the manual adjusting button 7 is manually rotated, so that the first blocking plate 606 connected with the connecting rod 605 or the second blocking plate 609 in the same installation mode as the first blocking plate 606 are matched with the simple adjustment and control flow, and the slow flow effect and the slow flow control effect are good;

fourthly, filtrate poured into the increasing cavity 608 is discharged from the outlet end 607, and the accumulated filtrate at the bottom end of the filter box is discharged efficiently and conveniently;

fifthly, after the use is stopped, the micro pump body 603 is closed.

The invention provides a filtering structure of a pre-packaged food raw material impurity removal device by improvement, a transmission mechanism 6 is optimally arranged, a micro pump body 603 is opened, filtrate is pumped from a discharge port 56, the filtrate is introduced from an inlet end 602, flows to the right in a single direction through a single-direction control body 604, then enters a flow inner channel 610 and further flows into an increasing cavity 608, and the filtrate flowing into the increasing cavity 608 is discharged from an outlet end 607, so that the accumulated filtrate at the bottom end of a filter box is efficiently and conveniently discharged, the continuous filtering treatment is facilitated, and the treatment efficiency is enhanced; a first blocking plate 606 and a second blocking plate 609 are arranged in the increased cavity 608 to simply adjust and control flow, so that the effect of flow slowing is achieved, the flow is simply controlled, and the flow is reasonably controlled to be discharged.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.