CN108645985A

CN108645985A - A kind of digital detector of powdered food small molecule noxious material

Info

Publication number: CN108645985A
Application number: CN201810728125.4A
Authority: CN
Inventors: 李慧英
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-05
Filing date: 2018-07-05
Publication date: 2018-10-12

Abstract

The invention discloses a kind of digital detectors of powdered food small molecule noxious material, including detector ontology, the right side of the detector ontology offers guide groove and groove respectively, the groove is located at the top of guide groove, it is respectively fixedly connected with spring and tension spring on the left of the groove and guide groove inner wall, the right end of the spring and tension spring has been respectively fixedly connected with sampling set and sampler, the sampling set is actively socketed on the surface of sampler, the sampling set is positioned at the right side of detector ontology, the surface of sampler is flexibly connected with the inner wall of guide groove, the upper surface of sampler offers sampling groove, sampling groove is located at the inside of sampling set, it is fixedly connected with guide rod on the right side of detector ontology.The present invention solves sampler and detector separate operation by the way that sampling set and sampler is arranged, and the sampler after sampling is inserted into inside detector manually and detects operating process and is exposed to external environment elongated the problem of causing food to infect.

Description

A kind of digital detector of powdered food small molecule noxious material

Technical field

The present invention relates to digital detector technical field, specially a kind of powdered food small molecule noxious material is digital Detector.

Background technology

The digital detector of powdered food small molecule noxious material is that each substance contains in the automatic detection powdered food of one kind The detecting instrument of amount extracts a small amount of powdered food, the digital detection of powdered food small molecule noxious material when detection with sampler Instrument can quickly and easily detect whether contain noxious material in powdered food.

The sampler and detector of the seen digital detector of powdered food small molecule noxious material currently on the market It is separate operation, needs that the sampler after sampling is inserted into inside detector manually and detect so that operating process is exposed to outside Environment is elongated to cause food to infect.

Invention content

It is an object of the invention to overcome the deficiencies of the prior art and provide a kind of powdered food small molecule noxious material numbers Formula detector solves sampler and detector separate operation, and the sampler after sampling is inserted into detection inside detector manually Operating process is exposed to external environment elongated the problem of causing food to infect.

The present invention solves its technical problem and is achieved through the following technical solutions：

A kind of digital detector of powdered food small molecule noxious material, including detector ontology, the detector ontology Right side offer guide groove and groove respectively, the groove is located at the top of guide groove, the groove and guide groove inner wall Left side has been respectively fixedly connected with spring and tension spring, and the right end of the spring and tension spring has been respectively fixedly connected with sampling set and sampling Device, the sampling set are actively socketed on the surface of sampler, and the sampling set is positioned at the right side of detector ontology, the sampler Surface be flexibly connected with the inner wall of guide groove, the upper surface of the sampler offers sampling groove, and the sampling groove, which is located at, to be taken The inside of sample set, is fixedly connected with guide rod on the right side of the detector ontology, the right end of the guide rod through sampling set simultaneously The right side of sampling set is extended to, the guide rod is located at the lower section of sampler, and the front movable inlaying of the sampler has axis pin, The front of the detector ontology offers sliding slot, and the one end of the axis pin far from sampler extends through guide groove and sliding slot simultaneously The front of detector ontology is extended to, the surface fixing sleeve of the axis pin is connected to bull stick, and the bull stick is located at detector ontology The back side in front, the bull stick is fixedly connected with convex block, and the convex block is located at the top of sliding slot, and the detector ontology just faces It answers and offers limiting slot at the position of convex block, arc groove, the arc groove and limit are offered on the left of the limiting slot inner wall Slot is respectively positioned on the top of sliding slot, and the convex block is movably connected in the inside of limiting slot.

Moreover, the sliding slot is connected with guide groove, the sliding slot is located at the front of guide groove.

Moreover, the surface activity for the inner wall and guide rod for opening up straight slot at the sampling set corresponding guide rod position connects.

Moreover, the right end of the sampler extends through guide groove and sampling covers and extends to the right side of sampling set.

Moreover, the convex block is movably connected in the inside of limiting slot, the arc groove is circular in a quarter.

The advantages of the present invention are：

1, the digital detection device of powdered food small molecule noxious material of the present invention, by the way that sampling set and sampler is arranged, When detecting, horizontal to the right first that sampling set, spring is pulled to extend, sampling set moves on to the right side of sampling groove, and powdered food is put Enter sampling groove, unclamp sampling set, at this time spring contraction, sampling is sleeved on the surface of sampling groove, then pulls bull stick to the left, bull stick band Dynamic sampler is detached from the inside that sampling set is moved into guide groove to the left, and tension spring is shunk at this time, and axis pin is slided along the inner wall of sliding slot, When convex block is slid into along the inner wall of limiting slot at arc groove location, bull stick is rotated, convex block is slid into the inside of arc groove, sampling Device is fixed on the inside of guide groove, you can is detected, has achieved the effect that sample detection one, solved sampler and inspection Instrument separate operation is surveyed, it is elongated that detection operating process inside the sampler insertion detector after sampling is exposed to external environment manually The problem of causing food to infect.

Description of the drawings

Fig. 1 is overall structure of the present invention；

Fig. 2 is front view of the present invention；

Fig. 3 is front elevational view at bump position of the present invention；

Fig. 4 is bull stick rearview of the present invention；

Fig. 5 is schematic enlarged-scale view at A in Fig. 1 of the present invention；

Fig. 6 is schematic enlarged-scale view at B in Fig. 3 of the present invention；

Fig. 7 is that figure is cutd open on the right side at runner position of the present invention.

In figure：1- detectors ontology, 2- guide grooves, 3- grooves, 4- springs, 5- tension springs, 6- samplings set, 7- samplers, 8- Sampling groove, 9- guide rods, 10- axis pins, 11- sliding slots, 12- bull sticks, 13- convex blocks, 14- limiting slots, 15- arc grooves.

Specific implementation mode

Below by specific embodiment, the invention will be further described, and following embodiment is descriptive, is not limit Qualitatively, protection scope of the present invention cannot be limited with this.

A kind of digital detector of powdered food small molecule noxious material, including detector ontology 1, detector ontology 1 Right side offers guide groove 2 and groove 3 respectively, and groove 3 is located at the top of guide groove 2, the left side of 2 inner wall of groove 3 and guide groove It has been respectively fixedly connected with spring 4 and tension spring 5, the right end of spring 4 and tension spring 5 has been respectively fixedly connected with sampling set 6 and sampler 7, Sampler 7 is for extracting powdery food samples use to be detected, and sampling, which covers 6 pairs of samplers 7, has protective effect, protection sampling Substance inside slot 8 is not infected, and the right end of sampler 7 extends through guide groove 2 and sampling set 6 and extends to sampling set 6 Right side, sampling set 6 are actively socketed on the surface of sampler 7, and sampling set 6 is located at the right side of detector ontology 1, the table of sampler 7 Face is flexibly connected with the inner wall of guide groove 2, and the upper surface of sampler 7 offers sampling groove 8, and sampling groove 8 is located at the interior of sampling set 6 The right side in portion, detector ontology 1 is fixedly connected with guide rod 9, and guide rod 9 has guiding role, sampling to the movement of sampling set 6 The inner wall that straight slot is opened up at 69 position of correspondence guide rod of set is connect with the surface activity of guide rod 9, and the right end of guide rod 9, which runs through, to be taken Sample set 6 and the right side for extending to sampling set 6, guide rod 9 are located at the lower section of sampler 7, and the front movable inlaying of sampler 7 has pin The front of axis 10, detector ontology 1 offers sliding slot 11, and sliding slot 11 is connected with guide groove 2, and sliding slot 11 is located at guide groove 2 Front, the one end of axis pin 10 far from sampler 7 extend through guide groove 2 and sliding slot 11 and the front for extending to detector ontology 1, The surface fixing sleeve of axis pin 10 is connected to bull stick 12, and bull stick 12 is located at the front of detector ontology 1, and the back side of bull stick 12 is fixedly connected There are convex block 13, convex block 13 to be located at the top of sliding slot 11, detector ontology 1 offers limiting slot at the positive position for corresponding to convex block 13 14, arc groove 15 is offered on the left of 14 inner wall of limiting slot, and arc groove 15 and limiting slot 14 are respectively positioned on the top of sliding slot 11, convex block 13 are movably connected in the inside of limiting slot 14, and convex block 13 is movably connected in the inside of limiting slot 14, and arc groove 15 is in a quarter Annular shape, bull stick 12, which has, drives the movement of sampler 7 and by 7 fixed effect of sampler.

When in use, horizontal to the right first to pull sampling set 6, spring 4 extends, and sampling set 6 moves on to the right side of sampling groove 8, Powdered food is put into sampling groove 8, release sampling set 6, the contraction of spring 4 at this time samples and covers 6 surfaces for being sleeved on sampling groove 8, then to Zola's turn bar 12, bull stick 12 drive sampler 7 to be detached from the inside that sampling set 6 is moved into guide groove 2 to the left, and tension spring 5 is received at this time Contracting, axis pin 10 is slided along the inner wall of sliding slot 11, when convex block 13 is slid into along the inner wall of limiting slot 14 at 15 position of arc groove, Bull stick 12 is rotated, convex block 13 is slid into the inside of arc groove 15, sampler 7 is fixed on the inside of guide groove 2, you can detection.

Can to sum up obtain, the present invention by the way that the present invention is arranged by the way that sampling set 6 and sampler 7 is arranged, solve sampler 7 with Sampler 7 after sampling is inserted into detection operating process inside detector manually and is exposed to external environment by detector separate operation Elongated the problem of causing food to infect.

Though the present invention discloses embodiment and attached drawing, it will be appreciated by those skilled in the art that：This hair is not being departed from In bright and spirit and scope of the appended claims, various substitutions, changes and modifications be all it is possible, therefore, model of the invention It encloses and is not limited to embodiment and attached drawing disclosure of that.

Claims

1. a kind of digital detector of powdered food small molecule noxious material, including detector ontology (1), it is characterised in that：Institute The right side for stating detector ontology (1) offers guide groove (2) and groove (3) respectively, and the groove (3) is located at guide groove (2) It is respectively fixedly connected with spring (4) and tension spring (5), the spring on the left of top, the groove (3) and guide groove (2) inner wall (4) and the right end of tension spring (5) has been respectively fixedly connected with sampling set (6) and sampler (7), and the sampling set (6) is actively socketed on The surface of sampler (7), the sampling set (6) are located at the right side of detector ontology (1), the surface of the sampler (7) with lead It is flexibly connected to the inner wall of slot (2), the upper surface of the sampler (7) offers sampling groove (8), and the sampling groove (8) is located at Sampling covers the inside of (6), and guide rod (9), the right side of the guide rod (9) are fixedly connected on the right side of the detector ontology (1) End covers (6) through sampling and extends to the right side of sampling set (6), and the guide rod (9) is located at the lower section of sampler (7), described The front movable inlaying of sampler (7) has axis pin (10), and the front of the detector ontology (1) offers sliding slot (11), described The one end of axis pin (10) far from sampler (7) extends through guide groove (2) and sliding slot (11) and extends to detector ontology (1) The surface fixing sleeve in front, the axis pin (10) is connected to bull stick (12), and the bull stick (12) is being located at detector ontology (1) just The back side in face, the bull stick (12) is fixedly connected with convex block (13), and the convex block (13) is located at the top of sliding slot (11), the inspection It surveys at the position of the corresponding convex block (13) in instrument ontology (1) front and offers limiting slot (14), the left side of limiting slot (14) inner wall Arc groove (15) is offered, the arc groove (15) and limiting slot (14) are respectively positioned on the top of sliding slot (11), the convex block (13) It is movably connected in the inside of limiting slot (14).

2. a kind of digital detector of powdered food small molecule noxious material according to claim 1, it is characterised in that：Institute It states sliding slot (11) with guide groove (2) to be connected, the sliding slot (11) is located at the front of guide groove (2).

3. a kind of digital detector of powdered food small molecule noxious material according to claim 1, it is characterised in that：Institute It states and opens up the inner wall of straight slot at corresponding guide rod (9) position of sampling set (6) and connect with the surface activity of guide rod (9).

4. a kind of digital detector of powdered food small molecule noxious material according to claim 1, it is characterised in that：Institute The right end for stating sampler (7) extends through guide groove (2) and sampling set (6) and the right side for extending to sampling set (6).

5. a kind of digital detector of powdered food small molecule noxious material according to claim 1, it is characterised in that：Institute The inside that convex block (13) is movably connected in limiting slot (14) is stated, the arc groove (15) is circular in a quarter.

6. a kind of digital detector of powdered food small molecule noxious material according to claim 1, it is characterised in that：It Use step be：Horizontal to the right first that sampling set (6), spring (4) is pulled to extend, sampling set (6) moves on to the right side of sampling groove (8) Powdered food is put into sampling groove (8), unclamps sampling set (6) by side, and spring (4) is shunk at this time, and sampling set (6) is sleeved on sampling groove (8) surface, then bull stick (12) is pulled to the left, bull stick (12) drives sampler (7) to be detached from sampling set (6) and is moved into guiding to the left The inside of slot (2), at this time tension spring (5) contraction, axis pin (10) are slided along the inner wall of sliding slot (11), and convex block (13) is along limiting slot (14) when inner wall is slid at arc groove (15) position, bull stick (12) is rotated, convex block (13) is slid into the interior of arc groove (15) Portion, sampler (7) are fixed on the inside of guide groove (2), you can detection.