CN221056074U - Food material batching spot check device - Google Patents

Abstract

The utility model discloses a food material batching spot check device, which comprises a spot check temporary storage box; the outer wall of the sampling inspection temporary storage box is provided with a mobile control assembly, and the mobile control assembly is provided with a suction sampling assembly; and a separation structure is arranged in the sampling inspection temporary storage box and is used for separating samples extracted in different time periods at intervals. According to the utility model, through the arrangement of the suction sampling assembly, manual sampling of food ingredients is not required by a worker, the hands of the worker are prevented from being contacted with the sampled food ingredients, grease on the hands of the worker is prevented from adhering to the food ingredients, and the detection result of the food ingredients is not influenced, so that the accuracy of the detection result is improved, the worker does not need to manually sample, the labor intensity of the worker is further reduced, and the labor cost is reduced.

Description

Food material batching spot check device

Technical Field

The utility model relates to the technical field of food sampling inspection, in particular to a food ingredient sampling inspection device.

Background

Food safety detection is to detect harmful substances in food according to national indexes, mainly including detection of some indexes of harmful and toxic substances, such as heavy metals, aflatoxins and the like.

Food safety problems are becoming more and more a concern today with a wide variety of additives, and various food safety detection devices have been developed. In the process of safety inspection of food or food ingredients on a production line, a sampling inspection method is generally adopted. The food is generally sampled and detected by a worker holding a sampling tool, but in the sampling process, the hands of the worker possibly contact sampled food ingredients, so that grease on the hands of the worker or the detection result of the food ingredients is influenced, and the detection result is inaccurate; in addition, the manual sampling of staff is very troublesome, and is time-consuming and labor-consuming.

Therefore, how to avoid the influence of the grease on the sampling detection result caused by the hand of the staff is a technical problem to be solved.

Disclosure of utility model

The utility model aims to provide a food ingredient sampling inspection device, which solves the problem that manual sampling inspection is carried out by workers when sampling inspection is carried out on food ingredients in the prior art, and the sampling inspection sample is polluted by grease on hands of the workers.

In order to achieve the above purpose, the utility model provides a food ingredient sampling inspection device, which comprises a sampling inspection temporary storage box; the outer wall of the sampling inspection temporary storage box is provided with a mobile control assembly, and the mobile control assembly is provided with a suction sampling assembly; and a separation structure is arranged in the sampling inspection temporary storage box and is used for separating samples extracted in different time periods at intervals.

Optionally, the temporary sampling inspection box is cylindrical, and an installation plane is arranged on the outer wall of the temporary sampling inspection box; the motion control assembly is mounted at a mounting plane.

Optionally, the separation structure includes the electric rotary table of installing in the spot check temporary storage case, installs the mounting panel at electric rotary table top, installs a plurality of erection columns at the mounting panel top, stacks a plurality of rotary disks of installing on the erection column.

Optionally, a plurality of partition plates are arranged on the rotary disk at equal angles, and the rotary disk is also provided with mounting holes corresponding to the mounting columns; the top end of one of the mounting columns is provided with a laser emitter; a laser receiver corresponding to the laser transmitter is arranged in the spot check temporary storage box; a PLC controller connected with the laser receiver is arranged on the outer wall of the sampling inspection temporary storage box; and a buzzer connected with the PLC is further arranged on the outer wall of the sampling inspection temporary storage box.

Optionally, the movement control assembly comprises a lifting movement structure which is arranged on the installation plane and used for driving the suction sampling assembly to lift, and a horizontal movement structure which is arranged on the lifting movement structure and used for driving the suction sampling assembly to horizontally move.

Optionally, the lifting moving structure comprises a lifting cylinder installed at the installation plane, and an installation cross plate installed on the lifting cylinder; the horizontal moving structure is mounted on the mounting transverse plate.

Optionally, the horizontal moving structure comprises a mounting vertical plate arranged on a mounting transverse plate, and a rodless cylinder arranged on the mounting vertical plate and used for driving the suction sampling assembly to horizontally move; and a PLC (programmable logic controller) is further installed on the outer wall of the sampling inspection temporary storage box and connected with the rodless cylinder and the lifting cylinder.

Optionally, be equipped with on the installation diaphragm and be used for dodging the groove of dodging of sucking the sampling subassembly.

Optionally, limit switches connected with the PLC are installed on two ends of the rodless cylinder.

Optionally, the suction sampling assembly comprises a suction mounting plate mounted on the rodless cylinder, a guide top plate and a guide bottom plate mounted on the suction mounting plate, a stepping motor mounted on the guide top plate, a lifting block mounted on the stepping motor, a suction pipe mounted on the lifting block, and a vacuum pump mounted on the side surface of the lifting block and connected with the PLC controller.

Optionally, the distance between the guide top plate and the rodless cylinder is large and the distance between the guide bottom plate and the rodless cylinder is large, and a guide column is arranged between the guide top plate and the guide bottom plate; and the lifting block is provided with a guide hole corresponding to the guide post.

Optionally, the guide bottom plate is provided with a through hole corresponding to the suction pipe; the lifting block is provided with an L-shaped channel, and two ends of the L-shaped channel are respectively communicated with the vacuum pump and the suction pipe.

Optionally, a suction hopper is arranged at one end of the suction pipe far away from the lifting block, and a pressure sensor connected with the PLC is arranged on the suction hopper; the suction pipe is arranged at one end of the lifting block and is provided with a filter screen.

Compared with the prior art, the utility model provides a food material batching spot check device, which has the following beneficial effects:

This food batching spot check device through the setting of suction sampling assembly, does not need the staff to carry out manual sample to the food batching, avoids the hand of staff and the food batching contact of sample, avoids the grease adhesion of staff hand on the food batching, can not produce the influence to the testing result of food batching to improve the accuracy of testing result, and the staff need not carry out manual sample, and then reduced staff's intensity of labour, reduce the cost of labor.

It should be noted that the application can store the food ingredients sampled in different time intervals through the separation structure, thereby avoiding mixing the sampled food ingredients and avoiding influencing the detection result.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic structural view of the rodless cylinder of the present utility model.

Fig. 3 is a schematic view of the aspiration sampling assembly of the present utility model.

Fig. 4 is a schematic structural view of the lifting block of the present utility model.

Fig. 5 is a cross-sectional view of the lifting block of the present utility model.

Fig. 6 is a schematic view of the structure of the suction tube of the present utility model.

Figure 7 is a bottom view of the suction tube of the present utility model.

Fig. 8 is a schematic view of a separator structure of the present utility model.

Fig. 9 is an enlarged view of a portion of fig. 8a in accordance with the present utility model.

Fig. 10 is a schematic view of the structure of the rotary disk of the present utility model.

The marks in the figure are as follows: 1. a temporary storage box for spot inspection; 11. a mounting plane; 2. a movement control assembly; 3. a suction sampling assembly; 31. a suction mounting plate; 32. a guide top plate; 33. a guide bottom plate; 331. a through hole; 34. a stepping motor; 35. a lifting block; 351. a guide hole; 352. an L-shaped channel; 36. a suction tube; 361. a suction hopper; 362. a filter screen; 363. a pressure sensor; 37. a vacuum pump; 38. a guide post; 39. a screw rod; 391. a screw nut seat; 4. a partition structure; 41. an electric rotating table; 42. a mounting plate; 43. a mounting column; 431. a laser emitter; 432. a laser receiver; 44. a rotating disc; 441. a partition plate; 442. a mounting hole; 5. a lifting moving structure; 51. a lifting cylinder; 52. mounting a transverse plate; 521. an avoidance groove; 6. a horizontal movement structure; 61. installing a vertical plate; 62. a rodless cylinder; 621. a limit switch; 7. a PLC controller; 8. a buzzer.

Detailed Description

The following detailed description is made with reference to the accompanying drawings and detailed description. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be embodied in many other forms than described herein and similarly generalized by those skilled in the art without departing from the spirit of the invention and, therefore, the present invention is not limited to the specific embodiments disclosed below.

The food ingredient sampling inspection device can be suitable for occasions such as automatic sampling inspection of food ingredients, and can be used for other similar application scenes, and the food ingredient sampling inspection device is described in detail below.

Referring to fig. 1-10, there is shown a schematic structural diagram of a preferred embodiment of the present utility model. The food material batching sampling device comprises a sampling temporary storage box 1, wherein a mobile control assembly 2 is arranged on the outer wall of the sampling temporary storage box 1, a suction sampling assembly 3 is arranged on the mobile control assembly 2, and a separation structure 4 is arranged in the sampling temporary storage box 1; according to the utility model, through the arrangement of the temporary storage box 1 for the spot check, food ingredients for the spot check are temporarily stored; through the arrangement of the mobile control assembly 2, the suction sampling assembly 3 is driven to move, so that the suction sampling assembly 3 can sample food ingredients and temporarily store the sampled food ingredients into the sampling temporary storage box 1; through the setting of the sucking sampling component 3, the food ingredients can be sucked and sampled, the hands of the staff do not need to be manually sampled, the hands of the staff are prevented from being contacted with the sampled food ingredients, the grease on the hands of the staff cannot be adhered to the food ingredients, the detection result of the food ingredients cannot be influenced, the accuracy of the detection result is improved, the staff does not need to manually sample, the labor intensity of the staff is further reduced, and the labor cost is reduced; through the setting of partition structure 4, can separate the edible material batching of suction at every turn to avoid the edible material batching of sampling to mix, avoid the result of detection to produce the interference, can not receive the influence of the edible material batching of other samplings when guaranteeing the edible material batching of sampling at every turn to carry out the spot check, improve the accuracy of detection.

Referring to fig. 1, in the utility model, a temporary sampling inspection box 1 is cylindrical, and an installation plane 11 is arranged on the outer wall of the temporary sampling inspection box 1; the movement control assembly 2 is mounted at a mounting plane 11; the movement control assembly 2 comprises a lifting movement structure 5 which is arranged at the installation plane 11 and used for driving the suction sampling assembly 3 to lift, and a horizontal movement structure 6 which is arranged on the lifting movement structure 5 and used for driving the suction sampling assembly 3 to horizontally move; a PLC controller 7 is arranged on the sampling inspection temporary storage box 1; according to the utility model, through the arrangement of the lifting moving structure 5, the horizontal moving structure 6 and the suction sampling assembly 3 can be driven to lift; through the setting of horizontal migration structure 6, can carry out horizontal migration to suction sampling subassembly 3 for suction sampling subassembly 3 can transport the food batching that the sample obtained, put into the spot check temporary storage box 1.

Referring to fig. 1, in the present utility model, the elevating moving structure 5 includes an elevating cylinder 51 installed at the installation plane 11 and connected to the PLC controller 7, and an installation cross plate 52 installed on the elevating cylinder 51; the horizontal moving structure 6 is mounted on the mounting cross plate 52; the suction sampling assembly 3 is mounted on a horizontal moving structure 6; the lifting cylinder 51 is arranged to provide a power source for lifting and lowering the horizontal moving structure 6 and the suction sampling assembly 3; by the provision of the mounting cross plate 52, a mounting position is provided for the horizontally moving structure 6.

Referring to fig. 1 and 2, in the present utility model, the horizontal moving structure 6 includes a mounting vertical plate 61 mounted on the mounting horizontal plate 52, a rodless cylinder 62 mounted on the mounting vertical plate 61 and connected to the PLC controller 7, and the rodless cylinder 62 drives the suction sampling assembly 3 to perform a level gauge movement; the mounting transverse plate 52 is provided with an avoidance groove 521 for avoiding the suction sampling assembly 3; limit switches 621 connected with the PLC 7 are arranged at two ends of the rodless cylinder 62; the utility model provides an installation position for the rodless cylinder 62 through the arrangement of the installation vertical plate 61; providing a power source for horizontal movement of the suction sampling assembly 3 through the arrangement of the rodless cylinder 62; through the arrangement of the avoiding groove 521, the suction sampling assembly 3 is avoided, so that the suction sampling assembly 3 can smoothly pass through the mounting transverse plate 52 to suck and sample food ingredients, and the sucked samples can be transported; by the setting of the limit switch 621, the position of the suction sampling assembly 3 is restricted.

Referring to fig. 3, in the present utility model, the suction sampling assembly 3 includes a suction mounting plate 31 mounted on a rodless cylinder 62, a guide top plate 32 and a guide bottom plate 33 mounted on the suction mounting plate 31, a stepping motor 34 mounted on the guide top plate 32, a screw 39 movably mounted on the guide top plate 32 and the guide bottom plate 33 and connected to the stepping motor 34, a lifting block 35 mounted on the screw 39, a suction pipe 36 mounted on the lifting block 35, and a vacuum pump 37 mounted on a side of the lifting block 35 and connected to the PLC controller 7; the utility model can provide a mounting position for mounting the suction sampling assembly 3 by arranging the suction mounting plate 31; the stepping motor 34 is arranged to provide rotary power for the rotation of the screw rod 39, so that the lifting block 35 can lift; by means of the vacuum pump 37, a suction sampling of the food ingredients is made possible.

Referring to fig. 3-7, in the present utility model, the distance between the guide top plate 32 and the rodless cylinder 62 is greater than the distance between the guide bottom plate 33 and the rodless cylinder 62, and the guide post 38 is installed between the guide top plate 32 and the guide bottom plate 33; the lifting block 35 is provided with a guide hole 351 corresponding to the guide column 38, the lifting block 35 is provided with an L-shaped channel 352, and two ends of the L-shaped channel 352 are respectively communicated with the vacuum pump 37 and the suction pipe 36; the guide bottom plate 33 is provided with a through hole 331 corresponding to the suction pipe 36; a suction hopper 361 is arranged at one end of the suction pipe 36 far away from the lifting block 35, a pressure sensor 363 connected with the PLC 7 is arranged on the suction hopper 361, and a filter screen 362 is arranged at one end of the suction pipe 36 which is arranged on the lifting block 35; a screw nut seat 391 is mounted on the screw 39, and the lifting block 35 is mounted on the screw nut seat 391; the utility model guides and limits the movement of the lifting block 35 through the arrangement of the guide post 38; through the arrangement of the L-shaped channel 352, the vacuum pump 37 is communicated with the suction pipe 36, and food can be sampled by sucking the food ingredients into the suction pipe 36 in a vacuum way through the vacuum pump 37; by providing the suction hopper 361, the suction range of the suction pipe 36 is enlarged; through the arrangement of the through holes 331, the suction pipe 36 is avoided, so that the suction pipe 36 can pass through the guide bottom plate 33 to suck and sample the food ingredients; by the arrangement of the filter screen 362, the sucked food ingredients can be blocked, and the food ingredients are prevented from entering the vacuum pump 37; wherein the suction tube 36 and the filter screen 362 are coated with a release coating to prevent the sucked sample from adhering thereto.

Referring to fig. 8 to 10, in the present utility model, the partition structure 4 includes an electric rotary table 41 installed in the spot check temporary storage box 1, a mounting plate 42 installed at the top of the electric rotary table 41, a plurality of mounting posts 43 installed at the top of the mounting plate 42, and a plurality of rotating disks 44 stacked on the mounting posts 43; the utility model provides a rotary power source through the arrangement of the electric rotary table 41, so that the rotary table 44 can rotate; through the setting of erection column 43, install spacingly to carousel 44 for electric turntable 41 can drive carousel 44 and rotate.

Referring to fig. 8-10, in the present utility model, a plurality of partition plates 441 are mounted on the rotating disk 44 at equal angles, and the rotating disk 44 is further provided with mounting holes 442 corresponding to the mounting posts 43; a laser emitter 431 is arranged at the top end of one mounting column 43; a laser receiver 432 corresponding to the laser transmitter 431 is arranged in the spot check temporary storage box 1, and a buzzer 8 is also arranged on the outer wall of the spot check temporary storage box 1; according to the utility model, through the arrangement of the partition boards 441, the rotating disk 44 is subjected to equiangular intervals, and a plurality of uniform areas are formed on the rotating disk 44, so that the food ingredients for sucking and sampling are separated, and the ingredients and the samples are prevented from being mixed with each other; by the arrangement of the laser transmitter 431, in cooperation with the arrangement of the laser receiver 432, after one rotation of the rotating disc 44, the laser receiver 432 will again receive the laser transmitter 431 signal, which indicates that samples are present in all the separated areas of the rotating disc 44, and that the taking out and replacing of the rotating disc 44 will be required.

Referring to fig. 1-10, the use of the present utility model is as follows:

Firstly, the device is arranged beside a food material batching and transporting device, then a lifting air cylinder 51 is controlled by a PLC (programmable logic controller) 7 to drive a mounting transverse plate 52 to lift, the mounting transverse plate 52 drives a horizontal moving structure 6 to lift, the horizontal moving structure 6 drives a suction sampling assembly 3 to move until the lifting air cylinder 51 lifts to a designated position, and meanwhile, an electric rotary table 41 is controlled by the PLC 7 to rotate, so that a laser receiver 432 receives signals of a laser transmitter 431;

Secondly, the rodless cylinder 62 drives the suction sampling assembly 3 to move towards the food ingredients conveying device until a limit switch 621 on the rodless cylinder 62, which is close to one end of the food ingredients conveying device, senses that the rodless cylinder 62 moves to a designated position, then transmits a signal to the PLC 7, after receiving the signal, the PLC 7 controls the stepping motor 34 to start working, drives the screw 39 to rotate, and enables the screw nut seat 391 to drive the lifting block 35 to descend, meanwhile, the vacuum pump 37 starts working to suck, when the pressure sensor 363 senses the pressure, the stepping motor 34 stops working, and starts timing through the PLC 7, and after the timing is finished, the PLC 7 controls the stepping motor 34 to start rotating reversely, and drives the lifting block 35 to move upwards and reset;

Thirdly, after resetting, the PLC 7 controls the rodless cylinder 62 to reset until the other end limit switch 621 senses the position of the suction sampling assembly 3, and sends a signal to the PLC 7, at the moment, the PLC 7 turns off the vacuum pump 37, and the sucked food ingredients fall onto the rotating disc 44;

Fourthly, timing is carried out through a timer of the PLC controller 7, when timing is finished and the next food ingredients are sucked and sampled, the PLC controller 7 controls the electric rotary table 41 to rotate by a designated angle, and then the moving process of the moving control assembly 2 and the sucking and sampling assembly 3 is repeated for sucking and sampling;

Fifthly, when the laser receiver 432 senses the laser transmitter 431 again, the PLC 7 closes the loop of the buzzer 8 at this time, so that the buzzer 8 buzzes, and a worker is provided to take out the rotating disc 44;

it should be noted that, when the electric rotary table 41 in the fourth step rotates, the angle of each rotation is the same as the angle formed by the adjacent partition plates, and only when the food ingredient sampling inspection device is restarted, the pairing of the laser emitter 431 and the laser receiver 432 in the first step will be performed, and it is required to ensure that no sample is temporarily extracted in the rotary table 44 at the topmost layer before pairing.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (10)

1. The food material batching spot check device comprises a spot check temporary storage box (1); the sampling device is characterized in that a mobile control assembly (2) is arranged on the outer wall of the sampling temporary storage box (1), and a suction sampling assembly (3) is arranged on the mobile control assembly (2); the sampling inspection temporary storage box (1) is internally provided with a separation structure (4), and the separation structure (4) is used for separating samples extracted in different time periods at intervals.

2. The food ingredients sampling test device according to claim 1, wherein the sampling test temporary storage box (1) is cylindrical, and an installation plane (11) is arranged on the outer wall of the sampling test temporary storage box (1); the movement control assembly (2) is mounted at a mounting plane (11).

3. Food ingredients sampling test device according to claim 1 or 2, characterized in that the movement control assembly (2) comprises a lifting movement structure (5) mounted at the mounting plane (11) for driving the suction sampling assembly (3) to move up and down, a horizontal movement structure (6) mounted on the lifting movement structure (5) for driving the suction sampling assembly (3) to move horizontally; the sampling inspection temporary storage box (1) is provided with a PLC (programmable logic controller) 7.

4. A food ingredient spot-check apparatus according to claim 3, wherein the lifting moving structure (5) comprises a lifting cylinder (51) mounted at the mounting plane (11) and connected to the PLC controller (7), a mounting cross plate (52) mounted on the lifting cylinder (51); the horizontal moving structure (6) is arranged on the mounting transverse plate (52); the suction sampling assembly (3) is mounted on a horizontal moving structure (6).

5. The food ingredients sampling device according to claim 4, characterized in that the horizontal moving structure (6) comprises a mounting vertical plate (61) mounted on a mounting transverse plate (52), a rodless cylinder (62) mounted on the mounting vertical plate (61) and connected with the PLC controller (7), and the rodless cylinder (62) drives the suction sampling assembly (3) to horizontally move; an avoidance groove (521) for avoiding the suction sampling assembly (3) is formed in the mounting transverse plate (52).

6. The food ingredients sampling test device according to claim 5, characterized in that limit switches (621) connected with the PLC controller (7) are installed on both ends of the rodless cylinder (62).

7. The food ingredients sampling device according to claim 5, characterized in that the suction sampling assembly (3) comprises a suction mounting plate (31) mounted on a rodless cylinder (62), a guide top plate (32) and a guide bottom plate (33) mounted on the suction mounting plate (31), a stepping motor (34) mounted on the guide top plate (32), a screw (39) movably mounted on the guide top plate (32) and the guide bottom plate (33) and connected with the stepping motor (34), a lifting block (35) mounted on the screw (39), a suction pipe (36) mounted on the lifting block (35) and a vacuum pump (37) mounted on the side of the lifting block (35) and connected with the PLC controller (7).

8. The food ingredient sampling inspection device according to claim 7, wherein the guide top plate (32) and the rodless gas are provided with an L-shaped channel (352) on the lifting block (35), and two ends of the L-shaped channel (352) are respectively communicated with the vacuum pump (37) and the suction pipe (36); the guide bottom plate (33) is provided with a through hole (331) corresponding to the suction pipe (36); one end of the suction pipe (36) far away from the lifting block (35) is provided with a suction hopper (361), the suction hopper (361) is provided with a pressure sensor (363) connected with the PLC (7), and the suction pipe (36) is provided with a filter screen (362) at one end of the lifting block (35); a screw nut seat (391) is mounted on the screw (39), and the lifting block (35) is mounted on the screw nut seat (391).

9. The food ingredients sampling test device according to claim 1, characterized in that the separation structure (4) comprises an electric rotary table (41) mounted in the sampling test temporary storage box (1), a mounting plate (42) mounted on the top of the electric rotary table (41), a plurality of mounting posts (43) mounted on the top of the mounting plate (42), and a plurality of rotary discs (44) stacked on the mounting posts (43).

10. The food ingredients sampling test device according to claim 9, characterized in that a plurality of partition plates (441) are equiangularly mounted on the rotary disk (44), and the rotary disk (44) is further provided with mounting holes (442) corresponding to the mounting posts (43); the top end of one mounting column (43) is provided with a laser emitter (431); the laser receiver (432) corresponding to the laser transmitter (431) is arranged in the sampling inspection temporary storage box (1), and the buzzer (8) is further arranged on the outer wall of the sampling inspection temporary storage box (1).