CN109259569B - Double-station hand-press type material stuffing dewatering and squeezing device - Google Patents

Abstract

The invention provides a double-station hand-press type stuffing dewatering and squeezing device which comprises a guide pillar, a material receiving cabin, a discharge chute and a spacing plate, wherein the guide pillar is arranged on the material receiving cabin; the base is of a circular cabin structure, and two groups of discharge chutes are formed in the front and back corresponding modes of the bottom surface of an inner cavity of the base; the base is divided into two chambers by a partition plate which is vertical upwards through the middle position, and a sleeve seat is bonded on the top surface of the partition plate; two material receiving cabins are further mounted on the bottom surface of the base, and a row of partition plates are mounted on the discharge chute of the bottom pressing seat, so that a certain gap can be formed at the bottom of a vegetable bundle to be pressed in the cabin, the mode of completely contacting with the cabin bottom is replaced, the dehydration speed is improved, and the structure is reasonable. And the two ballast pressing modes of the pressing surface are mechanical transmission motion modes, and the pressing surfaces are outer edges of semicircular structures, and the outer edges are provided with reset guide structures, so that the pressing work is more stable, the operation mode further improves the structural rationality, and the structure is simple.

Description

Double-station hand-press type material stuffing dewatering and squeezing device

Technical Field

The invention belongs to the technical field of squeezing structures and food processing equipment, and particularly relates to a double-station hand-press type material stuffing dewatering and squeezing device.

Background

The squeezer is suitable for squeezing juice of fruits and vegetables containing more fibers, such as grapes, sea buckthorn fruits, loquats, aloes, cassava residues, waxberries, pomegranates, gingers, spinaches, medicinal materials, sawdust, tea leaves and the like, so as to realize solid-liquid separation. The vegetable squeezing machine is one of necessary equipment for small and medium-sized fruit and vegetable, fruit wine or chemical engineering and other production enterprises, a kitchen can simply squeeze food by using the squeezing machine, and the squeezing machine is commonly used for squeezing vegetables before making stuffing so as to remove residual water in the cut vegetables.

Based on the introduction, the designer discovers that the squeezing structure adopted in the existing squeezing process of the vegetable stuffing is mostly a single-cabin single-station squeezing working principle, the squeezing mode influences the working efficiency, and because the staff working in the kitchen can discover that the stuffing products sold in restaurants are different, the finally squeezed stuffing is different, so that when the moisture of the mixed vegetable stuffing cut by more than two types needs to be squeezed, another type of vegetables for the stuffing needs to wait for a period of time, and the squeezing device is not suitable for squeezing the vegetable stuffing at the same time, and influences the working efficiency.

Disclosure of Invention

In order to solve the technical problems, the invention provides a double-station hand-press type filling dehydrating and squeezing device, which aims to solve the problems that in the existing vegetable filling squeezing process, the squeezing structure is mostly a single-cabin single-station squeezing working principle, the squeezing mode influences the working efficiency, and people working in a kitchen find that filling products sold in restaurants are different, so that finally-squeezed fillings are different, and therefore when water is squeezed on one cut mixed vegetable filling of more than two kinds, vegetables of the other filling need to wait for a period of time, and therefore, the device is not suitable for simultaneous squeezing of more than two kinds of fillings, and the working efficiency is influenced.

The invention relates to a double-station hand-press type material stuffing dewatering and squeezing device, which is achieved by the following specific technical means:

a double-station hand-press type material stuffing dewatering and squeezing device comprises a base, a left top seat, a right top seat, a pressure cabin, a pressure sleeve, a spring seat, a rotating shaft, a rotating seat, a discharge port, a partition plate, a sleeve seat, a guide pillar, a material receiving cabin, a discharge groove and a spacing plate; the base is of a circular cabin structure, two groups of discharge chutes are formed in the front and back corresponding mode of the bottom surface of an inner cavity of the base, and a row of spacing plates are adhered to the tops of the discharge chutes; the bottom surface of the base is also provided with two receiving cabins, the outer ends of the receiving cabins are respectively penetrated with a discharge port with a rectangular tubular structure, the two receiving cabins are respectively positioned at the bottom side positions of the two groups of discharge chutes, and the corresponding discharge chutes are buckled and sealed one by one; the left top seat and the right top seat are connected together in a matching way of a rotating shaft and a rotating seat; the ballast is two, for semi-circular structure, and all be equipped with the pressure cover of four sleeve seats structures on their semi-circular outer edge to press the cover and all run through and seted up the perforation.

Furthermore, the base is divided into two chambers by a partition plate which is vertical upwards through the middle position, and a sleeve seat is bonded on the top surface of the partition plate.

Further, left footstock and right footstock are semi-circular structure, and their inboard all seted up and be used for the semicircular guide way of packing into with ballast sliding fit.

Furthermore, four spring seats are uniformly arranged on the top surfaces of the outer edges of the left top seat and the right top seat, and are in one-to-one corresponding sliding fit with the pressing sleeves on the cabin through guide pillars.

Furthermore, the rotating shaft is of a U-shaped bending shaft structure, and the U-shaped width dimension of the rotating shaft is slightly larger than that of the sleeve seat.

Furthermore, the ballast is not only in a semicircular structure, but also in a semicircular structure of the inner cavity, and the ballast is supported upwards through the spring seat and the guide post in a non-working state.

Furthermore, the size of the semicircular outer edges of the left top seat and the right top seat is slightly larger than the size of the inner ring of the circular inner cavity of the base.

Furthermore, the ballast is divided into two parts, and the opposite corresponding surface positions of the two parts are processed by chamfering, so that the ballast is of an inclined structure.

Compared with the prior art, the invention has the following beneficial effects:

the squeezing device provided by the design is mainly aimed at the material fillings prepared by different vegetables in the kitchen material filling preparation process, and the device has two stations, so that two kinds of prepared vegetable material fillings can be squeezed and dehydrated simultaneously, and the working efficiency is improved.

Is reflected in the structure: the structure is more reasonable, mainly embodied on its bottom pressure seat and the two ballast rooms of cooperation on pressing the seat, all installs one row of space stop on the blown down tank of bottom pressure seat, and consequently this structure can make and put the vegetable bundle bottom of treating the squeezing in the cabin and can form certain space, replaces the mode that improves dehydration speed with the whole contacts of bilge, rational in infrastructure. And the two ballast pressing modes of the pressing surface are mechanical transmission motion modes, and the pressing surfaces are outer edges of semicircular structures, and the outer edges are provided with reset guide structures, so that the pressing work is more stable, the operation mode further improves the structural rationality, and the structure is simple.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top part schematic of the present invention.

Fig. 3 is a bottom part structure schematic diagram of the present invention.

Fig. 4 is a bottom view structure diagram of the present invention from fig. 2.

Fig. 5 is a bottom view structure diagram of the present invention from fig. 3.

Fig. 6 is a schematic top view of the present invention.

Fig. 7 and 8 are schematic views of the section a of the upper part and the lower part of the invention, which are drawn from fig. 6.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

a base-1, a left top seat-2, a right top seat-3, a ballast-4, a press sleeve-5, a spring seat-6, a rotating shaft-7, a rotating seat-8, a discharge port-9, a partition-10, a sleeve seat-11, a guide post-12, a material receiving cabin-13, a discharge groove-14 and a spacing plate-15.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a double-station hand-press type stuffing dewatering and squeezing device, which comprises: the device comprises a base 1, a left top seat 2, a right top seat 3, a ballast 4, a pressing sleeve 5, a spring seat 6, a rotating shaft 7, a rotating seat 8, a discharge hole 9, a partition plate 10, a sleeve seat 11, a guide pillar 12, a material receiving cabin 13, a discharge chute 14 and a spacing plate 15; the base 1 is of a round cabin structure, two groups of discharge chutes 14 are formed in the front and back corresponding mode of the bottom surface of an inner cavity of the base, and a row of spacing plates 15 are adhered to the tops of the discharge chutes 14; two material receiving cabins 13 are further installed on the bottom surface of the base 1, a rectangular tubular discharge hole 9 penetrates through the outer ends of the material receiving cabins 13, the two material receiving cabins 13 are respectively located at the bottom sides of the two groups of discharge grooves 14, and the corresponding discharge grooves 14 are buckled and sealed one by one; the left top seat 2 and the right top seat 3 are connected together in a matching way of a rotating shaft 7 and a rotating seat 8; the ballast 4 is two, and is the semicircular structure, and all is equipped with the pressure cover 5 of four cover seat structures on their semicircular outer edge to pressure cover 5 has all run through and has seted up the perforation.

Wherein, left footstock 2 and right footstock 3 are semi-circular structure, and the semicircular guide way that is used for putting into ballast 4 sliding fit is all seted up to their inboard, and from this can be seen that these two footstock are the core structure of device, and ballast 4 moves from top to bottom in their guide way, can implement the dehydration article of placing in two cavities in the base 1 and squeeze, forms two station operations, can improve work efficiency.

Wherein, the base 1 is divided into two chambers by a partition plate 10 which is vertical upwards through the middle position, so that the inner cavity of the base 1 forms two semicircular charging cabins for charging two different products to be squeezed, the efficiency is embodied, and a sleeve seat 11 for realizing the sleeve connection with the rotating shaft 7 in the top part component is bonded on the top surface of the partition plate 10.

Wherein, left footstock 2 and right footstock 3 all equipartition are installed on the top surface along the top surface and are used for squeezing the work back, realize the spring holder 6 of everywhere of rebound, and carry out one-to-one sliding fit through guide pillar 12 through the pressure cover 5 on these spring holder 6 and the cabin 4, owing to all be the sliding support that four groups sliding fit structure go on, in addition to be the excircle distribution again, consequently more steady, rational in infrastructure.

The rotating shaft 7 is a U-shaped axle-bending structure, the width of the U-shape is slightly larger than that of the sleeve seat 11, that is, the left footstock 2 and the right footstock 3 connected together by the rotating shaft 7 can be pressed on the base 1 through the middle U-shaped section of the rotating shaft 7, and is an outer bearing frame for the ballast 4 to move up and down.

The ballast 4 is not only in a semicircular shape, but also in a semicircular inner cavity, and when the ballast is in a non-working state, the structure of the spring seat 6 and the guide post 12 returns upwards to support the ballast, when the ballast works, a palm or a heavy object is placed in the ballast 4 to apply pressure to the ballast 4 downwards, and under the action of the spring, the palm or the heavy object returns upwards in an auxiliary way, so that articles in two cavities or a single cavity of the base 1 are squeezed and dehydrated.

The semicircular outer edge of the left top seat 2 and the semicircular outer edge of the right top seat 3 are slightly larger than the inner ring overtime size of the circular inner cavity of the base 1, namely, as shown in fig. 2 and fig. 3, the whole combined component in fig. 2 can be placed on the combined component shown in fig. 3 and is of a two-part structure, and after the whole combined component in fig. 2 is placed on the combined component shown in fig. 3, the U-shaped structure of the rotating shaft 7 is clamped on the sleeve seat 11 for limiting, and the left top seat 2 and the right top seat 3 are pressed on the base 1.

Wherein, the ballast 4 is two, and their corresponding face position in opposite directions passes through the chamfer and handles, is the tilting structure, and the ballast 4 of these two places of being convenient for can the internal rotation, and just can more convenient putting into by extruded dehydration article parcel after rotatory, rational in infrastructure.

When in use: the device can be used for squeezing and dehydrating more than two kinds of vegetable beverages simultaneously, wrapping two kinds of prepared vegetable fillings by using a dehydrating bundle, upwards rotating a left top seat 2 and a right top seat 3, putting the objects into a ballast 4, pressing the ballast 4 downwards by a squeezing mode, squeezing and dehydrating the objects to be dehydrated placed in a base 1, enabling the water to flow downwards from a discharge chute 14 and enter two receiving chambers 13 arranged at the bottom side for temporary collection, as shown in figure 2 and figure 3, wherein the whole combined part in figure 2 can be placed on the combined part shown in figure 3 and is of a two-part structure, after the whole combined part in figure 2 is placed on the combined part shown in figure 3, the U-shaped structure of a rotating shaft 7 is clamped on a sleeve seat 11 for limiting, and the left top seat 2 and the right top seat 3 are pressed on the base 1, and the style of the split structure is adopted, after the device of being convenient for uses a period, separately clear up, regularly get rid of the material sediment that forms after dehydration work and pile up between blown down tank 14, further improve the rationality, the structure through spring holder 6 and guide pillar 12 return upward supports, at the during operation, puts palm or heavy pressure thing in ballast 4 and implements pressure to ballast 4 downwards to under the effect of spring, upwards supplementary return again, the messenger lies in the article of base 1 two chambeies or single intracavity and is squeezed the dehydration.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (1)

1. The utility model provides a double-station hand-press type material filling dewatering and squeezing device which characterized in that: the double-station hand-press type filling dehydrating and squeezing device comprises a base (1), a left top seat (2), a right top seat (3), a ballast chamber (4), a pressing sleeve (5), a spring seat (6), a rotating shaft (7), a rotating seat (8), a discharge hole (9), a partition plate (10), a sleeve seat (11), a guide pillar (12), a material receiving chamber (13), a discharge chute (14) and a spacing plate (15); the base (1) is of a round cabin structure, two groups of discharge chutes (14) are arranged in a front-back corresponding mode on the bottom surface of an inner cavity of the base, and a row of spacing plates (15) are adhered to the tops of the discharge chutes (14); two material receiving cabins (13) are further mounted on the bottom surface of the base (1), a rectangular tubular discharge hole (9) penetrates through the outer ends of the material receiving cabins (13), the two material receiving cabins (13) are respectively located at the bottom sides of the two groups of discharge chutes (14), and the corresponding discharge chutes (14) are buckled and sealed one by one; the left top seat (2) and the right top seat (3) are connected together in a matching way of a rotating shaft (7) and a rotating seat (8); the ballast (4) is in a semicircular structure with two positions, the semicircular outer edges of the ballast (4) are respectively provided with a pressing sleeve (5) with a four-position sleeve seat structure, and the pressing sleeves (5) are provided with through holes in a penetrating way;

the base (1) is divided into two chambers by a partition plate (10) which is vertical upwards through the middle position, and a sleeve seat (11) is bonded on the top surface of the partition plate (10);

the left top seat (2) and the right top seat (3) are both of semicircular structures, and the inner sides of the left top seat and the right top seat are both provided with semicircular guide grooves for installing the ballast (4) in a sliding fit manner;

four spring seats (6) are uniformly arranged on the top surfaces of the outer edges of the left top seat (2) and the right top seat (3), and are in one-to-one corresponding sliding fit with the pressing sleeves (5) on the ballast (4) through guide pillars (12) through the spring seats (6);

the rotating shaft (7) is of a U-shaped bending shaft structure, and the width of the U shape of the rotating shaft is slightly larger than that of the sleeve seat (11);

the ballast (4) is not only in a semicircular shape, but also in a semicircular inner cavity, and is supported upwards through the spring seat (6) and the guide post (12) when in a non-working state;

the size of the semicircular outer edges of the left top seat (2) and the right top seat (3) is slightly larger than that of the inner ring of the circular inner cavity of the base (1);

the ballast (4) is provided with two parts, and the opposite corresponding surface positions of the two parts are processed by chamfering, so that the ballast is of an inclined structure;

when the vegetable stuffing bundle is used, prepared two kinds of vegetable stuffing are wrapped by a dewatering wrapping bundle, the left top seat (2) and the right top seat (3) are rotated upwards, an object is placed in the vegetable stuffing bundle, pressure is applied to the ballast (4) in an extruding mode, the ballast (4) is pressed downwards to move, the object to be dewatered placed in the base (1) is extruded and dewatered, and water flows downwards from the discharge chute (14) and enters two material receiving cabins (13) arranged at the bottom side for temporary collection; after the whole combined component in the left top seat (2) and the right top seat (3) is placed on the base (1), the U-shaped structure of the rotating shaft (7) is clamped on the sleeve seat (11) for limiting, and the left top seat (2) and the right top seat (3) are pressed on the base (1); the support is supported by the spring seat (6) and the guide post (12) to return upwards, when in work, a palm or a heavy object is placed in the ballast (4) to apply pressure downwards on the ballast (4), and under the action of the spring, the support returns upwards in an auxiliary way, so that articles in two cavities or a single cavity of the base (1) are squeezed and dehydrated.

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