CN112141665A - Quantitative discharging mechanism for face agent - Google Patents

Abstract

The invention discloses a quantitative discharging mechanism for a facial cleanser, which comprises a fixed guide seat, wherein a guide channel is arranged in the middle of the fixed guide seat, a discharging station and a discharging station are arranged on the fixed guide seat at intervals, the discharging station and the discharging station are one group or a plurality of groups and are arranged at intervals along the length direction of the fixed guide seat, a discharging port is respectively arranged on the upper end surface of the fixed guide seat where the discharging station is located, a discharging port is respectively arranged on the lower end surface of the fixed guide seat where the discharging station is located, a material pushing port is respectively arranged on the upper end surface of the fixed guide seat where the discharging station is located, a material pushing mechanism is respectively arranged on the material pushing ports, movable sliding blocks are respectively arranged in the fixed guide seat, facial cleanser accommodating holes for quantitative facial cleanser are respectively arranged on the sliding blocks, and the sliding blocks are respectively driven to. The invention can ensure the uniform discharging of the flour and the accurate flour dosage, and can output the flour which is displayed according to the requirement, thereby meeting the requirement of the batch production of baked buns on the precision of the processing agent blank.

Description

Quantitative discharging mechanism for face agent

The technical field is as follows:

the invention relates to the field of baking steamed bun production and processing equipment, and mainly relates to a quantitative discharging mechanism for a dough kneading agent.

Background art:

the utility model discloses a dough baking machine, including the hopper, the hopper is provided with the discharge end, the hopper is provided with the face of output, the face of output is regularly cut off, thereby form corresponding base agent, its base agent can receive the influence of how much pressure of hopper inside face in ejection of compact process, thereby influence the conveying speed of its discharge end inner face, influence the amount of the face base agent that the discharge end cutter was amputated as far as possible, thereby influence fashioned dough baking machine size inequality, and when the face volume in the hopper is less, the noodless of output can be unstable, need shut down sometimes, thereby influenced the unloading of its normal face agent base, can not satisfy the requirement of the normal production of dough baking machine.

The invention content is as follows:

the invention aims to make up for the defects of the prior art, and provides a quantitative discharging mechanism for a flour agent, which can ensure uniform discharging of the flour agent and accurate flour dosage and completely meet the requirement of the precision of processing agent blanks in batch production of baked buns.

The invention is realized by the following technical scheme:

a quantitative discharging mechanism for a face agent comprises a fixed guide seat, wherein a guide channel is arranged in the middle of the fixed guide seat, a discharging station and a discharging station which are arranged at intervals are arranged on the fixed guide seat, the discharging station and the discharging station are a group or a plurality of groups and are arranged at intervals along the length direction of the fixed guide seat, a discharging opening is respectively arranged on the upper end surface of the fixed guide seat where the discharging station is located, a discharging opening is respectively arranged on the lower end surface of the fixed guide seat where the discharging station is located, a material pushing opening is respectively arranged on the upper end surface of the fixed guide seat where the discharging station is located, a material pushing mechanism is respectively arranged on the material pushing opening, a movable sliding block is respectively arranged in the fixed guide seat, the sliding block is guided to move in the guide channel between the corresponding discharging station and the discharging station, and the bottom end surface of the sliding block is respectively clung to the lower end surface of the fixed, the slider is provided with a surface agent containing hole for quantifying surface agent, the surface agent containing hole is a through hole, a surface agent quantifying cavity is formed between the surface agent containing hole and the lower end surface of the fixed guide seat below the surface agent containing hole, and the slider moves respectively driven by a pushing mechanism.

The fixed guide seats are one or more, the fixed guide seats are arranged in parallel at equal intervals, and each group of blanking stations and each group of discharging stations are distributed on the corresponding fixed guide seats at equal intervals.

The feed opening on be provided with the inlet pipe rather than corresponding respectively, the inlet pipe is the return bend, the feed port of inlet pipe is towards the horizontal direction, feed port department is equipped with flange, and is connected with the feed pipeline through the flange, and installs the transport flood dragon in the feed pipeline, and carry in the flood dragon extends to the feed hopper, the discharge gate of inlet pipe is through welding feed opening position department on the fixed guide holder of unloading station department.

The shape of feed opening and the surface agent accommodation hole cooperation on the slider, and the size is not more than surface agent accommodation hole size.

The discharge gate for with the slider move to the unloading station when with the corresponding complex trompil of face agent accommodation hole, shape and size and face agent accommodation hole cooperation.

The pushing mechanism comprises a guide pipe arranged at a pushing port, a pushing block is arranged in the guide pipe in a guiding mode, the pushing block is driven by a cylinder above the pushing block, and the cylinder is arranged on a fixed guide seat through a cylinder support.

The shape of the push block is matched with that of the surface agent accommodating hole on the sliding block.

The surface agent accommodating hole on the sliding block is a circular hole.

The pushing mechanism comprises a pushing cylinder for pushing a sliding block to move, guide grooves are formed in one side face of each fixed guide seat respectively, the piston rod of the pushing cylinder stretches out, the ends of the piston rod of the pushing cylinder are connected with the sliding blocks through push rods, when the fixed guide seats are arranged in parallel, the sliding blocks between two adjacent fixed guide seats are connected through the push rods, when the blanking station and the discharging station are multiple groups, the push rods are driven by the corresponding pushing cylinders behind the push rods respectively or are connected into a whole through connecting rods between the adjacent push rods, and the pushing cylinder is driven by the pushing cylinders behind the push rods.

The principle is as follows: the fixing of the feeding pipe is realized through the fixed guide seat, the guiding movement of the sliding block for receiving and conveying the face agent and the installation of the pushing mechanism are realized, the feeding pipe falls to the face agent containing hole of the sliding block along the feed opening after being fed, the face agent is quantified through the face agent quantifying cavity formed between the face agent containing hole and the lower end face of the fixed guide seat, the size of the face agent quantifying cavity is fixed, so the uniformity of the quantity is ensured, the face agent in the face agent quantifying cavity is stably and stably realized by moving the pushing mechanism to the discharge station, when the face agent moves to the discharge station, the face agent can be directly discharged from the discharge opening, through the design of the pushing mechanism above the discharge opening, in order to ensure the complete discharge of the face agent in the cavity of the face agent quantifying cavity, the uniform discharge and the accurate dose of the face agent can be ensured in the whole process, and the face agent can be displayed according to needs to be, and the accuracy is high, the dosage is basically consistent, the error is within 1g, and the requirement of the batch production of processing agent blanks of baked buns is completely met.

The invention has the advantages that:

the invention has reasonable structural design, can ensure even discharging of the flour and accurate flour dosage, can output the displayed flour according to the requirement, has high accuracy and basically consistent dosage, has the error within 1g, and completely meets the requirement of the precision of processing agent blanks in the batch production of baked buns.

Description of the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a structural schematic diagram of distribution of a plurality of groups of blanking stations and discharging stations on a fixed guide seat.

Fig. 3 is a schematic structural view of the fixed guide seat.

Fig. 4 is a schematic structural diagram of a slider.

Reference numerals:

1. fixing a guide seat; 2. a guide channel; 3. a discharge port; 4. pushing a material port; 5. a material pushing mechanism; 7. a slider; 8. a surfactant-containing aperture; 9. a pushing mechanism; 10. a feed pipe; 51. a guide tube; 52. a push block; 53. a cylinder; 91. a push cylinder; 92. a guide groove; 93. a push rod; 94. a connecting rod.

The specific implementation mode is as follows:

see the drawings.

A quantitative discharging mechanism for a face agent comprises a fixed guide seat 1, a guide channel 2 is arranged in the middle of the fixed guide seat 1, a discharging station and a discharging station which are arranged at intervals are arranged on the fixed guide seat 1, the discharging station and the discharging station are one group or a plurality of groups and are arranged at intervals along the length direction of the fixed guide seat 1, a discharging port is respectively arranged on the upper end surface of the fixed guide seat 1 where the discharging station is located, a discharging port 3 is respectively arranged on the lower end surface of the fixed guide seat 1 where the discharging station is located, a pushing port 4 is respectively arranged on the upper end surface of the fixed guide seat 1 where the discharging station is located, a pushing mechanism 5 is respectively arranged on the pushing port 4, a movable slide block 7 is respectively arranged in the fixed guide seat 1, the slide block 7 is guided to move in the guide channel 2 between the corresponding discharging station and the discharging station, and the bottom end surface of the slide block 7 is respectively clung to the lower end, the sliders 7 are respectively provided with a surface agent accommodating hole 8 for quantifying the surface agent, the surface agent accommodating holes 8 are through holes, a surface agent quantifying cavity is formed between the surface agent accommodating hole 8 and the lower end surface of the fixed guide seat 1 below the surface agent accommodating hole, and the sliders 7 are respectively driven by a pushing mechanism 9 to move.

Furthermore, one or more fixed guide seats 1 are arranged, a plurality of fixed guide seats 1 are arranged in parallel at equal intervals, and each group of blanking stations and discharging stations are distributed on the corresponding fixed guide seats 1 at equal intervals; through a plurality of fixed guide seats side by side setting, the face agent output that a plurality of intervals set up is formed to same line, satisfies the horizontal ejection of compact simultaneously of a plurality of face agents, through the setting of multiunit unloading station and ejection of compact station, but the face agent of a plurality of vertical ejection of compact settings of one time, a plurality of horizontal ejection of compact and vertically be the blanking of arrangement, satisfy the face agent and prepare the unloading fast and the fashioned requirement in batches.

Furthermore, the feeding ports are respectively provided with a feeding pipe 10 corresponding to the feeding ports, the feeding pipes 10 are bent pipes, the feeding ports of the feeding pipes 10 face the horizontal direction, connecting flanges are arranged at the feeding ports and are connected with a feeding pipeline through the flanges, a conveying dragon is arranged in the feeding pipeline and extends into a feeding hopper, and a discharging port of each feeding pipe 10 is welded at the position of the feeding port on the fixed guide seat 1 at the discharging station; the structure through the return bend is used for connecting the feed opening on the one hand, and on the other hand is used for being connected with the feed hopper, and through the structure of carrying the flood dragon, the face to in the feed hopper that can not stop carries out continuous transport to do not receive the control of pressure, and influence its unloading. The shape of the feed opening is matched with the size of the surface agent containing hole on the sliding block 7, and the size of the feed opening is not larger than the size of the surface agent containing hole; the feed opening is smaller than or equal to the surface agent containing hole, so that the requirement of stable feeding is met.

Further, the discharge port 3 is a hole which is correspondingly matched with the surface agent accommodating hole when the slide block moves to a blanking station, and the shape and the size of the hole are matched with the surface agent accommodating hole; through discharge gate and the setting of face agent accommodation hole complex, guarantee the discharging efficiency of the discharge gate ejection of compact.

Further, the pushing mechanism 5 comprises a guide pipe 51 arranged at the pushing port, a pushing block 52 is arranged in the guide pipe 51 in a guiding manner, the pushing block 52 is driven by an air cylinder 53 above the pushing block, and the air cylinder 53 is arranged on the fixed guide seat 1 through an air cylinder support; through pushing equipment, can satisfy the complete ejection of compact of face agent in the cavity in face agent ration chamber for the speed of unloading, guaranteed the unloading volume, avoid face agent attached to face agent ration chamber not whereabouts, influence the discharge volume. The shape of the push block 52 matches the shape of the face agent containing hole 8 on the slider 7; the push block is matched with the shape of the face agent containing hole, so that the face agent in the face agent quantitative cavity can be directly pushed out at one time. The surface agent accommodating hole 8 on the sliding block is a circular hole; the structure of circular port, convenient processing.

Further, the pushing mechanism 9 comprises pushing cylinders 91 for pushing the sliding blocks 7 to operate, guide grooves 92 are respectively formed in one side face of each fixed guide seat 1, the extending ends of piston rods of the pushing cylinders 91 are connected with the sliding blocks 7 through push rods, when the fixed guide seats 1 are arranged in parallel, the sliding blocks 7 between two adjacent fixed guide seats 1 are connected through the push rods 93, when the feeding station and the discharging station are in multiple groups, the push rods 93 are respectively driven by the corresponding pushing cylinders behind the push rods 93 or the adjacent push rods 93 are connected into a whole through the connecting rods 94, and the whole is driven by the pushing cylinders 91 behind the push rods; through the structure of push rod, realize the slider synchronous operation in two or more adjacent fixed guide seats, realize the synchronous material and the ejection of compact of connecing of slider through the connecting rod, guaranteed that it connects material and ejection of compact simultaneously, easy control.

Example (b):

as shown in fig. 2: the two fixed guide seats are arranged in parallel, and the three groups of blanking stations and discharging stations are distributed on the corresponding fixed guide seats 1 at equal intervals; two rows of the surface agents are output in the same row, and three longitudinal surface agents can be longitudinally discharged at the same time, so that two rows and three rows of surface agents which are blanked in a display manner are formed, the discharging efficiency is high, and the requirements of rapid preparation blanking and batch forming of the surface agents are met.

When the automatic noodle feeding device works, firstly, the sliding block is respectively moved to the feed opening corresponding to a feed station through the pushing cylinder, the noodle in the feed pipeline is conveyed through the conveying auger in the feed pipeline, after the set time is reached (the time is calculated and tested in advance according to the conveying auger and the size of the noodle agent accommodating hole of the sliding block, and the set time is reached), the sliding block is driven by the pushing mechanism to move to the discharge station, at the moment, the noodle agent falls along with the noodle agent accommodating hole, but the noodle agent in the cavity of the noodle agent quantitative cavity is completely discharged through the auxiliary pushing of the pushing mechanism above the noodle agent accommodating hole, after the discharging is finished, the pushing cylinder is reset, the noodle agent accommodating hole of the sliding block reaches the feed opening again to receive the noodle, and the reciprocating operation is carried out, so that the discharging of the display type noodle agent can be realized, the discharging amount is accurate, the error is small, and the consistency, the quality of the product is improved, and in addition, the automatic telephone operation is adopted, the manual assistance is not needed, the automation degree is high, and the labor cost is reduced.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like 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 referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be further noted that, unless otherwise specifically stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, connected through an intermediate medium, or connected through the insides of two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to specific circumstances.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a face agent ration unloading mechanism which characterized in that: the automatic feeding device comprises a fixed guide seat (1), wherein a guide channel (2) is arranged in the middle of the fixed guide seat (1), blanking stations and discharging stations which are arranged at intervals are arranged on the fixed guide seat (1), the blanking stations and the discharging stations are one or more groups and are arranged at intervals in the length direction of the fixed guide seat (1), a discharging opening is respectively arranged on the upper end surface of the fixed guide seat (1) where the blanking stations are located, a discharging opening (3) is respectively arranged on the lower end surface of the fixed guide seat (1) where the discharging stations are located, a material pushing opening (4) is respectively arranged on the upper end surface of the fixed guide seat (1) where the discharging stations are located, a material pushing mechanism (5) is respectively arranged on the material pushing opening (4), a movable sliding block (7) is respectively arranged in the fixed guide seat (1), and the sliding block (7) is guided to move in the guide channel (2) between the corresponding blanking stations and the discharging stations, the bottom end face of slider (7) is hugged closely with the lower terminal surface of fixed guide holder (1) respectively, seted up face agent accommodation hole (8) that are used for the face agent ration on slider (7) respectively, face agent accommodation hole (8) are the through-hole, constitute face agent ration chamber between face agent accommodation hole (8) and the fixed guide holder (1) lower terminal surface of its below, the removal of slider (7) is driven by pushing mechanism (9) respectively.

2. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: the blanking machine is characterized in that one or more fixed guide seats (1) are arranged, the fixed guide seats (1) are arranged in parallel at equal intervals, and each group of blanking stations and each group of discharging stations are distributed on the corresponding fixed guide seats (1) at equal intervals.

3. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: feed opening on be provided with inlet pipe (10) rather than corresponding respectively, inlet pipe (10) are the return bend, the inlet port of inlet pipe (10) is towards the horizontal direction, inlet port department is equipped with flange, and is connected through flange and supply conduit, and installs in the supply conduit and carry the flood dragon, and carry the flood dragon and extend to in the feed hopper, the discharge gate of inlet pipe (10) is through welding feed opening position department on unloading station department fixed guide holder (1).

4. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: the shape of the feed opening is matched with the size of the surface agent containing hole in the sliding block (7), and the size of the feed opening is not larger than the size of the surface agent containing hole.

5. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: the discharge hole (3) is a hole which is correspondingly matched with the surface agent accommodating hole when the sliding block moves to a blanking station, and the shape and the size of the hole are matched with the surface agent accommodating hole.

6. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: the pushing mechanism (5) comprises a guide pipe (51) arranged at a pushing port, a pushing block (52) is arranged in the guide pipe (51) in a guiding mode, the pushing block (52) is driven by a cylinder (53) above the pushing block, and the cylinder (53) is arranged on the fixed guide seat (1) through a cylinder support.

7. The quantitative discharging mechanism for the face agent as claimed in claim 6, wherein: the shape of the push block (52) is matched with the shape of the surface agent accommodating hole (8) on the sliding block (7).

8. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: the surface agent accommodating hole (8) on the sliding block is a circular hole.

9. The quantitative discharging mechanism for the face agent as claimed in claim 1, wherein: pushing mechanism (9) including promoting push cylinder (91) that promote slider (7) operation, guide slot (92) have been seted up respectively to one side of fixed guide holder (1), push cylinder (91) piston rod stretches out the end and is connected with slider (7) through the push rod, when fixed guide holder (1) is a plurality of setting side by side, connect through push rod (93) between slider (7) between its two adjacent fixed guide holders (1), work as when unloading station and ejection of compact station are the multiunit, push rod (93) are connected as an organic wholely through connecting rod (94) between the push cylinder drive that corresponds at its rear or adjacent push rod (93) respectively, whole through push cylinder (91) drive at its rear.

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