CN210347586U - Nine-body porridge component ratio analysis device - Google Patents

Abstract

The utility model discloses a nine body congee composition ratio analytical equipment, including bearing bottom plate, slipmat, holding tank, support montant and center commentaries on classics groove, the slipmat is all installed at the both ends of bearing bottom plate bottom, and the center commentaries on classics groove is installed to the intermediate position at bearing bottom plate top, and the inside intermediate position installation of bearing bottom plate and interior track, the support montant is all installed at the both ends at bearing bottom plate top, and the bottom of supporting the montant is installed and is rotated the wheel. The utility model discloses a slipmat is all installed at the both ends of bearing bottom plate bottom, and the central commentaries on classics groove is installed to the intermediate position at bearing bottom plate top, and the inside intermediate position of bearing bottom plate is installed and is had the support montant with interior track, the both ends at bearing bottom plate top all install, and the bottom of supporting the montant is installed and is rotated the wheel, has realized that the device has the device of rotatory ratio, can be convenient for to different types of batching ratio, the practicality of reinforcing device also can embody the flexibility of device.

Description

Nine-body porridge component ratio analysis device

Technical Field

The utility model relates to an analytical equipment field specifically is a nine body congee composition ratio analytical equipment.

Background

The component analysis technology is mainly used for analyzing unknown substances, unknown components and the like, and the component analysis technology can quickly determine what various components are in a target sample, help people perform qualitative and quantitative analysis on the sample, and identify the materials, raw materials, auxiliary agents, specific components and contents, foreign matters and the like of high polymer materials such as rubber and the like, but the existing component ratio analysis device still has the problems and defects that:

1. in the using process, the device is inconvenient to clean, disassemble and maintain, so that the device has poor flexibility and short service life;

2. when nine-body porridge ingredients of different raw material types are analyzed, the selectivity of the container is single, and the practicability is poor;

3. the data display screen is not convenient for accomodate and place, occupies the space of placing easily, can not embody the be convenient for of device and accomodate the nature.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a nine-body porridge component proportion analysis device, which solves the problem that the prior art provides inconvenience in cleaning, disassembling and maintaining the utensil, so that the device has poor flexibility and short service life; when nine-body porridge ingredients of different raw material types are analyzed, the selectivity of the container is single, and the practicability is poor; the data display screen is not convenient for accomodate and place, occupies the space of placing easily, can not embody the be convenient for of device and accomodate the nature scheduling problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a nine body congee composition ratio analytical equipment, includes bearing bottom plate, slipmat, storage tank, support montant and center turn trough, the slipmat is all installed at the both ends of bearing bottom plate bottom, and the center turn trough is installed to the intermediate position at bearing bottom plate top, and the intermediate position installation and the interior track of bearing bottom plate inside, the support montant is all installed at the both ends at bearing bottom plate top, and the bottom of supporting the montant installs the turning wheel, the horizontal pole is installed through the construction bolt in the top of the inside one side of support montant, and the storage tank is installed to the intermediate position at top, and the bottom of horizontal pole evenly installs the injection cylinder, the intermediate position of injection cylinder bottom is installed and is connected the trachea, and the input valve is installed on the top of injection cylinder, and flow monitor is installed on the top of input valve inside, and the connection trachea is all installed at the, a placing groove is arranged at one circle of the top of the bearing bottom plate, a first analysis vessel and a second analysis vessel are respectively arranged at the top end of the placing groove, an analyzer is arranged at the bottom end of the placing groove, a data display screen is arranged at the top end of one side outside the supporting vertical rod, an installation piece is arranged on the side wall of the supporting vertical rod at one side of the data display screen, a rotating inner rod is arranged at one side of the installation piece, and the outer side of the rotating inner rod is provided with a rotating outer rod, the bottom ends of the inner parts of the first analysis vessel and the second analysis vessel are both provided with a permeable net, the inner parts of the side walls of the inner sides of the first analysis vessel and the second analysis vessel are both provided with hard glass inner walls, and liquid level sensors are installed on one side of the inner parts of the first analysis vessel and the second analysis vessel, a controller is installed in the middle of one side of the outer part of the supporting vertical rod, and the output end of the controller is electrically connected with the input end of the analyzer through a wire.

Preferably, the inner track is installed in the bearing bottom plate in an arc shape in a groove state in the bearing bottom plate, and the rotating wheel is installed in the bearing bottom plate in a sliding manner.

Preferably, the inside of placing the recess is hollow structure, and the bottom of placing the inside recess is connected with the input of analysis appearance.

Preferably, the first analysis vessel and the second analysis vessel have different capacities, the bottom ends of the first analysis vessel and the second analysis vessel are placed and installed in the matched placing grooves, and the placing grooves are matched with the first analysis vessel and the second analysis vessel to form a limiting clamping groove structure.

Preferably, the central rotating groove penetrates through the middle position inside the bearing bottom plate, the inner side of the top of the cross rod is connected with one side of the storage groove, one side of the bottom of the supporting vertical rod is connected with the top end of the bearing bottom plate, and the bottom end of the supporting vertical rod is rotatably connected to the inner rail inside the bearing bottom plate.

Preferably, one side of the liquid level sensor is connected with the side walls of the first analysis vessel and the second analysis vessel, the bottom ends of the first analysis vessel and the second analysis vessel are connected with the infiltration net in an embedded manner, and the bottom ends of the first analysis vessel and the second analysis vessel are detachably arranged at the top end of the placement groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the nine-body porridge component proportion analysis device, the first analysis vessel and the second analysis vessel are respectively arranged at the top end of the placing groove, and the analyzer is arranged at the bottom end of the placing groove, so that the device is provided with a device convenient to analyze and check, the practicability of the device is enhanced, and the device is convenient to disassemble and maintain and clean in the using process;

2. according to the nine-body porridge component proportion analysis device, the data display screen is arranged at the top end of one side outside the supporting vertical rod, the mounting piece is arranged on the side wall of the supporting vertical rod on one side of the data display screen, the rotating inner rod is arranged on one side of the mounting piece, and the rotating outer rod is arranged outside the rotating inner rod, so that the device has the function of a folding display screen, the display screen can be folded and unfolded in the process of not using the display screen, the placing space is saved for the device, and the practicability of the device is enhanced;

3. this kind of nine body congee composition ratio analytical equipment, through the slipmat is all installed at the both ends of bearing bottom plate bottom, and the central commentaries on classics groove is installed to the intermediate position at bearing bottom plate top, and the inside intermediate position installation of bearing bottom plate and interior track, the support montant is all installed at the both ends at bearing bottom plate top, and the bottom of supporting the montant is installed and is rotated the wheel, has realized that the device has the device of rotatory ratio, can be convenient for to different kinds of batching ratio, the practicality of reinforcing device also can embody the flexibility of device.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic top view of a first analysis vessel and a second analysis vessel according to the present invention;

fig. 4 is a schematic diagram of a structure on one side of the data display screen of the present invention.

In the figure: 1. a load-bearing floor; 101. an inner rail; 2. a non-slip mat; 3. installing a bolt; 4. placing a groove; 401. a first analysis vessel; 402. a second analysis vessel; 5. an analyzer; 6. a data display screen; 7. an injection cylinder; 701. connecting an air pipe; 702. an injection head; 8. a flow monitor; 9. a storage tank; 10. an input valve; 11. a cross bar; 12. supporting the vertical rod; 1201. a rotating wheel; 1202. a controller; 13. a central rotary groove; 14. a permeable web; 1401. a hard glass inner wall; 1402. a liquid level sensor; 15. mounting a sheet; 1501. rotating the inner rod; 1502. the outer rod is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a nine-body porridge component proportion analysis device comprises a bearing bottom plate 1, anti-slip pads 2, a storage tank 9, a supporting vertical rod 12 and a central rotary tank 13, wherein the anti-slip pads 2 are mounted at two ends of the bottom of the bearing bottom plate 1, the central rotary tank 13 is mounted at the middle position of the top of the bearing bottom plate 1, the central rotary tank 13 penetrates through the middle position inside the bearing bottom plate 1, the inner side of the top of a transverse rod 11 is connected with one side of the storage tank 9, one side of the bottom of the supporting vertical rod 12 is connected with the top end of the bearing bottom plate 1, and the bottom end of the supporting vertical rod 12 is rotatably connected on an inner track 101 inside the bearing bottom plate 1, so that the device has a rotary distribution structure, and the practicability of the device;

the middle position in the interior of the bearing bottom plate 1 is provided with an inner rail 101, two ends of the top of the bearing bottom plate 1 are provided with vertical supporting rods 12, the bottom ends of the vertical supporting rods 12 are provided with rotating wheels 1201, the interior of the bearing bottom plate 1 is in a groove state, the inner rail 101 is arranged in the interior of the bearing bottom plate 1 in an arc shape, and the rotating wheels 1201 and the interior of the bearing bottom plate 1 are installed in a sliding manner, so that the flexibility of the device can be enhanced, and different types of devices can rotate;

the top end of one side inside the supporting vertical rod 12 is provided with a cross rod 11 through a mounting bolt 3, the middle position of the top is provided with a storage tank 9, the bottom end of the cross rod 11 is uniformly provided with an injection cylinder 7, the middle position of the bottom end of the injection cylinder 7 is provided with a connecting air pipe 701, the top end of the injection cylinder 7 is provided with an input valve 10, the top end inside the input valve 10 is provided with a flow monitor 8, the two ends of the top of the injection cylinder 7 are both provided with connecting air pipes 701, the bottom end of the injection cylinder 7 is provided with an injection head 702, a circle of positions on the top of the bearing bottom plate 1 are both provided with a placing groove 4, the placing groove 4 is of a hollow structure, the bottom end inside the placing groove 4 is connected with the input end of an analyzer 5, different types of porridge bodies can be analyzed simultaneously, different;

a first analyzer dish 401 and a second analyzer dish 402 are respectively arranged at the top end of the placing groove 4, an analyzer 5 is arranged at the bottom end of the placing groove 4, the type of the analyzer 5 can be TAS-986, a data display screen 6 is arranged at the top end of one side outside the supporting vertical rod 12, an installation sheet 15 is arranged on the side wall of the supporting vertical rod 12 at one side of the data display screen 6, an inner rotating rod 1501 is arranged at one side of the installation sheet 15, an outer rotating rod 1502 is arranged at the outer side of the inner rotating rod 1501, the bottom ends inside the first analyzer dish 401 and the second analyzer dish 402 are both provided with a permeable net 14, the first analyzer dish 401 and the second analyzer dish 402 have different capacities, the bottom ends of the first analyzer dish 401 and the second analyzer dish 402 are arranged with the matching placing groove 4, and the placing groove 4 is matched with the first analyzer dish 401 and the second analyzer dish 402 to form a limit clamping groove structure, the permeation analysis is automatically carried out in the device, so that the safety and the convenience of the device are enhanced;

inside hard glass inner wall 1401 all is provided with of the inside lateral wall of first analyzer ware 401 and second analyzer ware 402, and level sensor 1402 is installed to the inside one side of first analyzer ware 401 and second analyzer ware 402, one side of level sensor 1402 is connected with the lateral wall of first analyzer ware 401 and second analyzer ware 402, and the inside bottom of first analyzer ware 401 and second analyzer ware 402 is embedded with infiltration net 14 and is connected, and the bottom of first analyzer ware 401 and second analyzer ware 402 can be dismantled and place the top of placing recess 4, the intermediate position of supporting the outside one side of montant 12 is installed controller 1202, the model of controller 1202 can be FHR-211, the output of controller 1202 passes through the wire and is connected with the input of analysis appearance 5.

The working principle is as follows: when in use, the raw materials are put into the second analyzer vessel 402 or the first analyzer vessel 401 according to different raw materials, and then put into the second analyzer vessel 402 or the first analyzer vessel 40, and then a proper nutrient solution or a proper proportioning solution is added through the connecting gas pipe 701, meanwhile, other required stock solution can be prevented from being placed in the storage tank 9, after the stock solution is placed, the stock solution injected into the injection cylinder 7 is controlled by the flow monitor 8, the accuracy of the analysis result of the device can be enhanced, the stock solution is dripped into the first analyzer dish 401 and the second analyzer dish 402, the proportion of the interior of the first analyzer dish 401 and the interior of the second analyzer dish 402 is analyzed by the analyzer 5 after dripping, the obtained result is realized on the data display screen 6, when the data display screen 6 is not used, the data display screen 6 can be recycled and placed in the groove in the vertical supporting rod 12.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a nine body congee composition ratio analytical equipment, includes bearing bottom plate (1), slipmat (2), holding tank (9), supports montant (12) and central revolving groove (13), its characterized in that: non-slip mats (2) are installed at two ends of the bottom of the bearing bottom plate (1), a center rotary groove (13) is installed at the middle position of the top of the bearing bottom plate (1), a middle position of the inside of the bearing bottom plate (1) is installed on an inner rail (101), supporting vertical rods (12) are installed at two ends of the top of the bearing bottom plate (1), rotating wheels (1201) are installed at the bottom ends of the supporting vertical rods (12), a cross rod (11) is installed at the top end of one side of the inside of the supporting vertical rods (12) through an installation bolt (3), a storage groove (9) is installed at the middle position of the top, injection cylinders (7) are evenly installed at the bottom ends of the cross rod (11), a connecting air pipe (701) is installed at the middle position of the bottom ends of the injection cylinders (7), an input valve (10) is installed at the top end of the injection, connecting air pipes (701) are installed at two ends of the top of an injection air cylinder (7), an injection head (702) is installed at the bottom end of the injection air cylinder (7), a placing groove (4) is installed at the circle position of the top of the bearing bottom plate (1), a first analysis vessel (401) and a second analysis vessel (402) are installed at the top end of the placing groove (4), an analyzer (5) is installed at the bottom end of the placing groove (4), a data display screen (6) is installed at the top end of one side of the outer portion of a supporting vertical rod (12), an installation sheet (15) is installed on the side wall of the supporting vertical rod (12) on one side of the data display screen (6), a rotating inner rod (1501) is installed on one side of the installation sheet (15), a rotating outer rod (1502) is installed on the outer side of the rotating inner rod (1501), a permeation net (14) is installed at the bottom ends of the inner portions of, inside hard glass inner wall (1401) all being provided with of the lateral wall of first analysis household utensils (401) and second analysis household utensils (402) inboard, and liquid level sensor (1402) are installed to inside one side of first analysis household utensils (401) and second analysis household utensils (402), support the intermediate position of montant (12) outside one side and install controller (1202), the output of controller (1202) passes through the wire and is connected with the input electricity of analysis appearance (5).

2. The nine-body porridge ingredient ratio analysis device according to claim 1, characterized in that: the bearing bottom plate (1) is in a groove state, the inner rail (101) is installed in the bearing bottom plate (1) in an arc shape, and the rotating wheel (1201) and the bearing bottom plate (1) are installed in a sliding mode.

3. The nine-body porridge ingredient ratio analysis device according to claim 1, characterized in that: the inside of the placing groove (4) is of a hollow structure, and the bottom end inside the placing groove (4) is connected with the input end of the analyzer (5).

4. The nine-body porridge ingredient ratio analysis device according to claim 1, characterized in that: the volume of the first analysis vessel (401) is different from that of the second analysis vessel (402), the bottom ends of the first analysis vessel (401) and the second analysis vessel (402) are placed and installed in the matched placing groove (4), and the placing groove (4) is matched with the first analysis vessel (401) and the second analysis vessel (402) to form a limiting clamping groove structure.

5. The nine-body porridge ingredient ratio analysis device according to claim 1, characterized in that: the center rotating groove (13) penetrates through the middle position inside the bearing bottom plate (1), the inner side of the top of the transverse rod (11) is connected with one side of the storage groove (9), one side of the bottom of the supporting vertical rod (12) is connected with the top end of the bearing bottom plate (1), and the bottom end of the supporting vertical rod (12) is connected with the inner rail (101) inside the bearing bottom plate (1) in a rotating mode.

6. The nine-body porridge ingredient ratio analysis device according to claim 1, characterized in that: one side of the liquid level sensor (1402) is connected with the side walls of the first analysis vessel (401) and the second analysis vessel (402), the bottom ends of the interior of the first analysis vessel (401) and the interior of the second analysis vessel (402) are connected with the permeation net (14) in an embedded mode, and the bottom ends of the first analysis vessel (401) and the second analysis vessel (402) can be detachably placed at the top end of the placement groove (4).

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