CN216293735U - Food detects uses juice extractor - Google Patents

Abstract

The utility model discloses a juicer for food detection, which comprises a base, a rack, a pressing handle, a fixed rod and a sleeve, the pressing column, the reset spring, the squeezing hammer, the squeezing platform, the squeezing groove and the plurality of flow guide holes are sleeved in the squeezing groove, a squeezing net sleeve arranged close to the squeezing groove is sleeved in the squeezing groove, the outer diameter of the squeezing hammer is matched with the inner diameter of the squeezing net sleeve, the bottom of the squeezing net sleeve is provided with a mesh structure, the upper end of the squeezing net sleeve is higher than that of the squeezing groove, a lifting edge extending outwards is arranged at the upper end edge of the squeezing net sleeve, a common flow guide port is formed in the lower surface of the squeezing platform and is located at the lower ends of the plurality of flow guide holes, the flow guide port is of an inverted circular platform structure, a conical flask is arranged right below the inverted platform structure, the caliber of the lower end of the inverted platform structure is not larger than the caliber of the upper end of the conical flask, an elastic silica gel pad A is arranged between the upper end of the conical flask and the lower end of the squeezing platform, and an elastic silica gel pad B is arranged between the lower end of the conical flask and the upper end of the base; the utility model has the advantages of convenient later cleaning and high detection accuracy.

Description

Food detects uses juice extractor

Technical Field

The utility model belongs to the technical field of food detection equipment, and particularly relates to a juicer for food detection.

Background

Compared with the prior art, the manual juicer has the advantages that the manual juicer is simple in structure and operation, low in cost and popular in the market, and if the manual juicer for food detection is published as the Chinese utility model patent with the authorization publication number of CN206621180U, the manual juicer for food detection comprises a base, a rack, a pressing handle, a fixed rod, a sleeve, a pressing column, a reset spring, a pressing hammer, a pressing platform, a pressing groove, a flow guide hole and a beaker, can quickly and efficiently perform juicing operation on detected melons and fruits, improves the juicing efficiency and effect, is simple in structure and convenient to operate, and brings great convenience to food detection; but food residues such as vegetables, melons and fruits and the like after juicing are inconvenient to take out and inconvenient to clean at a later stage, and meanwhile, the juice squeezed in the juicing process is easy to oxidize due to the open beaker, so that the components are changed, and the detection result is influenced; in order to solve the above problems, it is necessary to develop a juicer for food detection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides the juicer for food detection, which is convenient to clean in the later period and high in detection accuracy.

The purpose of the utility model is realized as follows: the utility model provides a food detects uses juice extractor, includes base, frame, pushes down handle, dead lever, sleeve, compression leg, reset spring, squeezes the hammer, squeezes the platform, squeezes groove and a plurality of water conservancy diversion hole, squeeze the groove in the cover be equipped with near squeeze the cylinder mould that squeezes tank bottom and lateral wall setting, the external diameter that squeezes the hammer matches the internal diameter setting that squeezes the cylinder mould, the bottom that squeezes the cylinder mould has mesh structure, the upper end that squeezes the cylinder mould exceeds squeeze the groove setting, the upper end border that squeezes the cylinder mould has the edge of drawing of outside extension, the lower surface that squeezes the platform just is located the lower extreme in a plurality of water conservancy diversion holes is equipped with common water conservancy diversion mouth, the water conservancy diversion mouth is radius platform structure, be equipped with the erlenmeyer flask under the radius platform structure, the lower extreme bore of the radius platform structure is not more than the setting of the upper end bore of erlenmeyer flask, be equipped with silica gel elastic pad A between the upper end of erlenmeyer flask and the lower extreme of squeezing the platform, an elastic silica gel pad B is arranged between the lower end of the conical flask and the upper end of the base.

Preferably, the mesh aperture of the mesh structure is equal to the aperture setting of the plurality of diversion holes.

Preferably, the sleeve is fixedly connected with the rack through two fixed rods distributed up and down.

Preferably, a triangular reinforcing rib A is arranged between the lower end of the fixing rod and the rack.

Preferably, a triangular reinforcing rib B is arranged between the lower end of the pressing table and the frame.

Preferably, the abutting part of the upper end surface of the pressing column and the pressing handle is provided with an arc-shaped groove which is downwards concave and matched with the lower side part of the pressing handle.

Preferably, the operating part of the pressing handle and the lower end face of the base are provided with anti-skidding structures.

Due to the adoption of the technical scheme, the utility model has the beneficial effects that: the squeezing net sleeve is adopted and is sleeved in the squeezing groove, so that food residues such as vegetables, melons and fruits after squeezing are very easy to take out along with the squeezing net sleeve, and great convenience is brought to later cleaning; the utility model adopts the flow guide ports of the conical flask and the inverted circular truncated cone structure which are arranged in a relatively closed manner, so that the contact of juice with the outside air in the whole squeezing process can be reduced while the original squeezing effect is effectively ensured, the possibility of oxidation is reduced, the change of juice components is prevented, and the accuracy of a detection result is effectively improved; in summary, the utility model has the advantages of convenient cleaning in the later period and high detection accuracy.

Drawings

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

FIG. 2 is a schematic front view showing the relative positions of the press table, press groove, press screen, guide opening and conical flask according to the present invention.

Fig. 3 is a schematic top view of the press wire of the present invention.

Fig. 4 is a schematic top view of the compression leg of the present invention.

In the figure: 1. the device comprises a base 2, a triangular reinforcing rib B3, a squeezing table 4, a frame 5, a triangular reinforcing rib A6, a fixing rod 7, a pressing handle 8, a pressing column 9, an arc-shaped groove 10, a return spring 11, a sleeve 12, a squeezing hammer 13, a lifting edge 14, a squeezing net sleeve 15, a squeezing groove 16, a flow guide hole 17, a flow guide opening 18, an elastic silica gel pad A19, a conical flask 20, an elastic silica gel pad B21, an anti-skidding structure 22 and a mesh structure.

Detailed Description

The technical scheme of the utility model is further specifically described below with reference to the accompanying drawings.

As shown in fig. 1, 2, 3 and 4, the present invention provides a juicer for food detection, which comprises a base 1, a frame 4, a pressing handle 7, a fixing rod 6, a sleeve 11, a pressing column 8, a return spring 10, a pressing hammer 12, a pressing platform 3, a pressing groove 15 and a plurality of guiding holes 16, wherein the structure of the part can be substantially kept unchanged. The method specifically comprises the following steps: fixed frame 4 that is equipped with in upper portion left side of base 1, the upper end of frame 4 articulates there is handle 7 that pushes down, 6 fixed mounting of dead lever has the sleeve 11 of vertical setting on the right side of frame 4, wear to be equipped with compression leg 8 in the sleeve 11, the outside cover that compression leg 8 is located more than sleeve 11 is equipped with reset spring 10, the upper end of compression leg 8 and the lower lateral part butt of handle 7 that pushes down, the lower extreme fixed mounting of compression leg 8 squeezes hammer 12, the right side of frame 4 is located the fixed platform 3 that squeezes that is equipped with in below that squeezes hammer 12, the upper surface of squeezing platform 3 just is located and is equipped with the squeezing groove 15 that the external diameter is a bit bigger than squeezing hammer 12 and sets up under squeezing the hammer 12, in order to squeeze the interpolation of wire sleeve 12 and establish, squeeze groove 15's bottom and be located the middle part that squeezes platform 3 and offer a plurality of vertical setting water conservancy diversion hole 16.

The squeezing groove 15 is sleeved with a squeezing screen 14 which is arranged close to the bottom and the side wall of the squeezing groove 15, and the outer diameter of the squeezing hammer 12 is matched with the inner diameter of the squeezing screen 14 so as to ensure the original squeezing effect. The bottom of the press wire 14 has a mesh structure 22 to facilitate the flow of juice into the guide holes 16. The upper end of the squeezing net sleeve 14 is higher than the squeezing groove 15, the upper end edge of the squeezing net sleeve 14 is provided with a lifting edge 13 which extends outwards, the squeezing net sleeve 14 is convenient to squeeze and complete residues together, the subsequent cleaning is also convenient, and only water is needed to be slightly used for washing.

The lower surface that squeezes platform 3 and the lower extreme that is located a plurality of water conservancy diversion holes 16 is equipped with common water conservancy diversion mouth 17, and water conservancy diversion mouth 17 is the radius platform structure, is equipped with erlenmeyer flask 19 under the radius platform structure, and the lower extreme bore of radius platform structure is not more than the upper end bore setting of erlenmeyer flask 19, and the design of radius platform structure is used for conveniently collecting the juice that a plurality of water conservancy diversion holes 16 flow and fall to make the whole smooth flow of juice flow in erlenmeyer flask 19.

An elastic silica gel pad A18 is arranged between the upper end of the conical flask 19 and the lower end of the squeezing table 3, an elastic silica gel pad B20 is arranged between the lower end of the conical flask 19 and the upper end of the base 1, and the arrangement of the elastic silica gel pad A18 and the elastic silica gel pad B20 enables the conical flask 19 to form a relatively closed squeezing and collecting space in the squeezing process, so that the contact between juice and external air is avoided, the possibility of oxidizing the juice by oxygen is reduced, the change of the components of the juice is avoided as much as possible, and the accuracy of the detection result is improved.

Preferably, the mesh aperture of the mesh structure 22 is equal to the aperture of the plurality of diversion holes 16, so as to avoid the influence of the additional arrangement of the squeezing screen 14 on the original squeezing effect.

Preferably, the sleeve 11 is fixedly connected with the frame 4 through two fixing rods 6 distributed up and down, so that the connection is firm and the service life is long.

Further preferably, a triangular reinforcing rib A5 is arranged between the lower end of the fixing rod 6 and the rack 4, so that the connection is firm, and the service life is long.

Preferably, a triangular reinforcing rib B2 is arranged between the lower end of the press table 3 and the frame 4, so that the connection is firm and the service life is long.

Preferably, the upper end face of the compression leg 8 and the abutting part of the downward pressing handle 7 are provided with arc grooves 9 which are downwards concave and matched with the lower side part of the downward pressing handle 7, and the arc grooves 9 are used for limiting the movement track of the lower side part of the downward pressing handle 7 to ensure the downward pressing effect.

Preferably, the operating part of the press handle 7 and the lower end surface of the base 1 are provided with anti-skid structures 21 for increasing the friction force of the part, and the operation is stable and reliable.

When the utility model is actually used, firstly, the plug of the conical flask 19 is pulled out, and is slowly plugged between the base 1 and the squeezing table 3 from between the elastic silica gel pad A18 and the elastic silica gel pad B20, the food to be detected is placed into the squeezing net sleeve 14 after being plugged in place, then the pressing handle 7 is pressed, the pressing column 8 is pressed by pressing the handle 7 downwards, the pressing column 8 is pressed into the squeezing net sleeve 14 by pressing the pressing hammer 12, the squeezing hammer 12 is matched with the squeezing net sleeve 14 and the squeezing table 3 to flatten the food to be detected, and the juice in the food to be detected sequentially flows into the conical flask 19 from the flow guide hole 16 and the flow guide opening 17; after squeezing, the pressing handle 7 is firstly loosened, the pressing column 8 is automatically reset by the reset spring 10, then the conical flask 19 is slowly moved out from between the elastic silica gel pad A18 and the elastic silica gel pad B20, the plug is quickly plugged, then the squeezing net sleeve 14 and residues with detected food are taken out from the squeezing groove 15 together through the lifting edge 13, the squeezing hammer 12 and the squeezing groove 15 are slightly washed by water, and the drying is convenient for next use.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a food detects uses juice extractor, includes base, frame, pushes down handle, dead lever, sleeve, compression leg, reset spring, squeezes the hammer, squeezes the platform, squeezes groove and a plurality of water conservancy diversion hole, its characterized in that: the utility model discloses a press groove, including squeezing groove, squeezing hammer, squeezing groove middle cover, squeezing groove, squeezing hammer, squeezing table, cone, base, the outer diameter of cone.

2. The juicer for food detection according to claim 1, wherein: the mesh aperture of the mesh structure is equal to the aperture setting of the plurality of diversion holes.

3. The juicer for food detection according to claim 1, wherein: the sleeve is fixedly connected with the rack through the two fixing rods which are vertically distributed.

4. The juicer for food detection according to claim 3, wherein: a triangular reinforcing rib A is arranged between the lower end of the fixing rod and the rack.

5. The juicer for food detection according to claim 1, wherein: and a triangular reinforcing rib B is arranged between the lower end of the squeezing table and the rack.

6. The juicer for food detection according to claim 1, wherein: the upper end surface of the pressing column is provided with an arc-shaped groove which is downwards sunken and matched with the lower side part of the pressing handle in a butting position with the pressing handle.

7. The juicer for food detection according to claim 1, wherein: the operating part of the pressing handle and the lower end face of the base are provided with anti-skidding structures.

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