CN218066762U - Multi-node temperature sampling monitor - Google Patents

Abstract

The utility model discloses a multi-node temperature sampling monitor, which relates to the technical field of temperature sampling and comprises a mounting ring and an extrusion assembly; installing a ring: a connecting pipe is fixed inside the mounting ring, an electric brush slip ring is mounted on the circumferential surface of the connecting pipe, a reset assembly and a sampling assembly are mounted on the circumferential surface of the mounting ring, and a rotating assembly is mounted on the lower end surface of the mounting ring; extruding the components: the connecting pipe comprises an electric telescopic rod, extrusion columns and oblique extrusion plates, wherein the electric telescopic rod is arranged in the connecting pipe, the extrusion columns are fixed on telescopic arms of the electric telescopic rod, the oblique extrusion plates which are uniformly distributed are fixed on the circumferential surfaces of the extrusion columns, and the oblique connecting blocks are extruded by arranging extrusion components; wherein: the input end of the electric brush slip ring is electrically connected with the output end of an external PLC, and the electric brush slip ring is provided with a plurality of collecting nodes and can collect the temperatures of different positions.

Description

Multi-node temperature sampling monitor

Technical Field

The utility model relates to a temperature sampling technical field specifically is a multinode temperature sampling monitor.

Background

The temperature sampling monitor is a device capable of monitoring temperature change, is widely applied to industry, agriculture and daily life, and is very convenient to use, however, with the gradual use of the temperature monitor, some insufficient use of the temperature monitor is gradually shown, the existing temperature monitor is only provided with one acquisition node when in use, and under the condition, the temperature monitor can be used in the temperature acquisition process, but a single acquisition node can cause inaccurate acquired data, so a multi-node temperature sampling monitor is provided.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a multinode temperature sampling monitor, have a plurality of collection nodes to can gather the temperature of different positions, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a multi-node temperature sampling monitor includes a mounting ring and an extrusion assembly;

installing a ring: a connecting pipe is fixed inside the mounting ring, an electric brush slip ring is mounted on the circumferential surface of the connecting pipe, a reset assembly and a sampling assembly are mounted on the circumferential surface of the mounting ring, and a rotating assembly is mounted on the lower end surface of the mounting ring;

extruding the components: the connecting pipe comprises an electric telescopic rod, extrusion columns and oblique extrusion plates, wherein the electric telescopic rod is arranged in the connecting pipe, the extrusion columns are fixed on telescopic arms of the electric telescopic rod, the oblique extrusion plates which are uniformly distributed are fixed on the circumferential surfaces of the extrusion columns, and the oblique connecting blocks are extruded by arranging extrusion components;

wherein: the output of outside PLC controller is connected to the input electricity of brush sliding ring, electric telescopic handle's input is connected to the output electricity of brush sliding ring.

Further, the reset assembly contains pivot, connecting block, torsion spring and slant connecting block, set up evenly distributed's recess on the periphery of collar, the inside of recess is provided with the connecting block, the commentaries on classics hole has been seted up on the side of connecting block, the internal rotation in commentaries on classics hole is connected with the pivot, the inside at the recess is fixed in the pivot, two corresponding torsion springs have been cup jointed on the periphery of pivot, and two torsion spring's one end is fixed respectively in the both sides of connecting block, and the inside at the recess is fixed to two torsion spring's the other end, be fixed with the slant connecting block on the last side of connecting block, the slant connecting block is laminated mutually with the slant extrusion board, resets through setting up the position of reset assembly to fixed frame.

Further, the sampling subassembly contains fixed frame, motor, removal frame, temperature sensor and threaded rod, be fixed with fixed frame on the last side of connecting block, install the motor on the downside of fixed frame, the inside sliding connection of fixed frame has the removal frame, set up threaded hole on the downside of movable block, the inside threaded connection of screw hole has the threaded rod, the threaded rod rotates the inside of connecting at the fixed frame, the output shaft of motor is fixed on the lower terminal surface of threaded rod, install temperature sensor on the side of removing the frame, the output of brush sliding ring is connected to the input electricity of motor, temperature sensor passes through the two-way electricity of brush sliding ring and outside PLC controller and is connected, samples through setting up the temperature of sampling subassembly to the different positions of external environment.

Further, the runner assembly contains mounting bracket, servo motor, gear and ring gear, be fixed with the mounting bracket on the lower terminal surface of collar, install servo motor on the downside of mounting bracket, be fixed with the gear on servo motor's the output shaft, be fixed with the ring gear on the periphery of connecting pipe, the gear meshes with the ring gear mutually, brush sliding ring's output is connected to servo motor's input electricity, drives the collar through setting up the runner assembly and rotates.

Furthermore, the lower end face of the mounting ring is fixedly provided with supporting legs which are uniformly distributed, the lower end faces of all the supporting legs are fixedly provided with a base plate, and the mounting ring is supported by arranging the supporting legs and the base plate.

Furthermore, the lower end face of the chassis is provided with a non-slip mat, the lower end face of the non-slip mat is provided with non-slip grooves which are uniformly distributed, and the stability of the chassis is improved by arranging the non-slip mat.

Compared with the prior art, the beneficial effects of the utility model are that: the multi-node temperature sampling monitor has the following advantages:

make the in-process that uses can extrude all slant connecting blocks through setting up the extrusion subassembly, make all connecting blocks appear removing after the extrusion, the connecting block appears removing and drives all sampling subassemblies and appears removing, start all motors after all sampling subassemblies remove suitable position, make the threaded rod rotate after the motor starts, the threaded rod rotates and drives the removal frame and remove, it removes to remove the frame and drives temperature sensor and remove, can sample the different positions in the external environment after all temperature sensor remove suitable position, the sampling through a plurality of nodes can effectively improve the accuracy of sampling data.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the sampling assembly of the present invention;

fig. 3 is a schematic view of the structure of the rotating assembly of the present invention.

In the figure: the device comprises a mounting ring 1, a connecting pipe 2, a brush slip ring 3, an extrusion assembly 4, an electric telescopic rod 41, an extrusion column 42, a slant extrusion plate 43, a reset assembly 5, a rotating shaft 51, a connecting block 52, a torsion spring 53, a slant connecting block 54, a sampling assembly 6, a fixed frame 61, a motor 62, a movable frame 63, a temperature sensor 64, a threaded rod 65, a rotating assembly 7, a mounting frame 71, a servo motor 72, a gear 73, a gear ring 74, support legs 8 and a chassis 9.

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. 1-3, the present embodiment provides a technical solution: a multi-node temperature sampling monitor comprises a mounting ring 1 and an extrusion assembly 4;

mounting ring 1: the temperature sensor comprises a connecting pipe 2 fixed inside, a brush sliding ring 3 installed on the circumferential surface of the connecting pipe 2, a reset component 5 and a sampling component 6 installed on the circumferential surface of the mounting ring 1, a rotating component 7 installed on the lower end surface of the mounting ring 1, the reset component 5 comprising a rotating shaft 51, a connecting block 52, a torsion spring 53 and an oblique connecting block 54, a groove uniformly distributed on the circumferential surface of the mounting ring 1, the connecting block 52 arranged inside the groove, a rotating hole arranged on the side surface of the connecting block 52, the rotating shaft 51 connected with the rotating shaft, two corresponding torsion springs 53 sleeved on the circumferential surface of the rotating shaft 51, one end of each torsion spring 53 fixed on the two sides of the connecting block 52, the other end of each torsion spring 53 fixed inside the groove, the oblique connecting block 54 fixed on the upper side surface of the connecting block 52, the oblique connecting block 54 attached to an oblique pressing plate 43, the sampling component 6 comprising a fixing frame 61, a motor 62, a moving frame 63, a temperature sensor 64 and a threaded rod 65, wherein the rotating shaft of the sliding ring is connected to the lower end surface of the fixing frame 61, and the rotating ring 3 is electrically connected to the rotating shaft of the PLC, and the rotating ring 3, and the rotating shaft is connected to the rotating shaft of the sliding ring 3, a mounting frame 71 is fixed on the lower end face of the mounting ring 1, a servo motor 72 is installed on the lower side face of the mounting frame 71, a gear 73 is fixed on an output shaft of the servo motor 72, a gear ring 74 is fixed on the circumferential face of the connecting pipe 2, the gear 73 is meshed with the gear ring 74, the input end of the servo motor 72 is electrically connected with the output end of the brush slip ring 3, the mounting ring 1 is driven to rotate by arranging a rotating assembly 7, the temperatures of different positions of the external environment are sampled by arranging a sampling assembly 6, and the position of the fixing frame 61 is reset by arranging a resetting assembly 5;

and (3) extruding the assembly 4: the connecting pipe comprises an electric telescopic rod 41, an extrusion column 42 and an oblique extrusion plate 43, wherein the electric telescopic rod 41 is installed inside a connecting pipe 2, the extrusion column 42 is fixed on a telescopic arm of the electric telescopic rod 41, the oblique extrusion plate 43 which is uniformly distributed is fixed on the circumferential surface of the extrusion column 42, and an oblique connecting block 54 is extruded by arranging an extrusion assembly 4;

wherein: the input of brush sliding ring 3 is connected the output of outside PLC controller electrically, and the input of electric telescopic handle 41 is connected to the output electricity of brush sliding ring 3.

Wherein: the lower end face of the mounting ring 1 is fixedly provided with uniformly distributed support legs 8, the lower end faces of all the support legs 8 are fixedly provided with a base plate 9, and the mounting ring 1 is supported by the support legs 8 and the base plate 9.

Wherein: the lower end face of the chassis 9 is provided with the non-slip mat 10, the lower end face of the non-slip mat 10 is provided with the non-slip grooves which are uniformly distributed, and the stability of the chassis 9 is improved by arranging the non-slip mat 10.

The utility model provides a pair of multinode temperature sampling monitor's theory of operation as follows: the method comprises the steps of firstly starting the electric telescopic rod 41 to enable the extrusion columns 42 to move upwards, enabling the extrusion columns 42 to move upwards to drive all the inclined extrusion plates 43 to move upwards, enabling all the inclined connection blocks 54 to be extruded in the process of moving upwards of all the inclined extrusion plates 43, enabling all the connection blocks 52 to move after extrusion, enabling all the sampling assemblies 6 to move when moving towards proper positions, starting all the motors 62 when all the sampling assemblies 6 move towards proper positions, enabling the threaded rods 65 to rotate after the motors 62 are started, enabling the threaded rods 65 to rotate to drive the movable frame 63 to move, enabling the movable frame 63 to move to drive the temperature sensors 64 to move, enabling different positions in the external environment to be sampled after all the temperature sensors 64 move towards proper positions, and effectively improving accuracy of sampled data through sampling of a plurality of nodes.

It should be noted that the external PLC controller disclosed in the above embodiments is of se:Sub>A specific model of siemens S7-200, the brush slip ring 3 may be an MT conductive slip ring, the electric telescopic rod 41 may be an TGC-se:Sub>A high thrust electric telescopic rod, the motor 62 may be se:Sub>A 1LE0003 three-phase asynchronous motor, the temperature sensor 64 may be an LSCI-TZ03 laser focusing infrared temperature sensor, the brush slip ring 3 and the servo motor 72 may be freely configured according to an actual application scenario, and the external PLC controller controls the electric telescopic rod 41, the motor 62 and the servo motor 72 to operate by se:Sub>A method commonly used in the prior art.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. A multi-node temperature sampling monitor, comprising: comprises a mounting ring (1) and a squeezing component (4);

mounting ring (1): a connecting pipe (2) is fixed inside the mounting ring, an electric brush slip ring (3) is installed on the circumferential surface of the connecting pipe (2), a reset component (5) and a sampling component (6) are installed on the circumferential surface of the mounting ring (1), and a rotating component (7) is installed on the lower end surface of the mounting ring (1);

pressing assembly (4): the device comprises an electric telescopic rod (41), an extrusion column (42) and an oblique extrusion plate (43), wherein the electric telescopic rod (41) is installed inside a connecting pipe (2), the extrusion column (42) is fixed on a telescopic arm of the electric telescopic rod (41), and the oblique extrusion plate (43) which is uniformly distributed is fixed on the circumferential surface of the extrusion column (42);

wherein: the input electricity of brush sliding ring (3) is connected the output of outside PLC controller, the input of electric telescopic handle (41) is connected to the output electricity of brush sliding ring (3).

2. A multi-node temperature sampling monitor according to claim 1, wherein: reset assembly (5) contain pivot (51), connecting block (52), torsion spring (53) and slant connecting block (54), set up evenly distributed's recess on the periphery of collar (1), the inside of recess is provided with connecting block (52), the trompil has been seted up on the side of connecting block (52), the internal rotation in trompil is connected with pivot (51), pivot (51) are fixed in the inside of recess, cup jointed two corresponding torsion spring (53) on the periphery of pivot (51), and the both sides at connecting block (52) are fixed respectively to the one end of two torsion spring (53), and the inside at the recess is fixed to the other end of two torsion spring (53), be fixed with slant connecting block (54) on the last side of connecting block (52), slant connecting block (54) and slant stripper plate (43) are laminated mutually.

3. A multi-node temperature sampling monitor according to claim 2, wherein: sampling subassembly (6) contain fixed frame (61), motor (62), removal frame (63), temperature sensor (64) and threaded rod (65), be fixed with fixed frame (61) on the last side of connecting block (52), install motor (62) on the downside of fixed frame (61), the inside sliding connection of fixed frame (61) has removal frame (63), set up threaded hole on the downside of removal frame (63), the internal thread of screw hole is connected with threaded rod (65), threaded rod (65) rotate the inside of connecting at fixed frame (61), the output shaft of motor (62) is fixed on the lower terminal surface of threaded rod (65), install temperature sensor (64) on the side of removal frame (63), the output of brush sliding ring (3) is connected to the input electricity of motor (62), temperature sensor (64) are connected through the two-way electricity of brush sliding ring (3) and outside PLC controller.

4. A multi-node temperature sampling monitor according to claim 1, wherein: rotating assembly (7) contain mounting bracket (71), servo motor (72), gear (73) and ring gear (74), be fixed with mounting bracket (71) on the lower terminal surface of mounting bracket (1), install servo motor (72) on the downside of mounting bracket (71), be fixed with gear (73) on the output shaft of servo motor (72), be fixed with ring gear (74) on the periphery of connecting pipe (2), gear (73) mesh with ring gear (74) mutually, the output of brush sliding ring (3) is connected to the input electricity of servo motor (72).

5. A multi-node temperature sampling monitor according to claim 1, wherein: the lower end face of the mounting ring (1) is fixedly provided with uniformly distributed supporting legs (8), and the lower end faces of all the supporting legs (8) are fixedly provided with a chassis (9).

6. The multi-node temperature sampling monitor of claim 5, wherein: the anti-skid device is characterized in that the lower end face of the chassis (9) is provided with an anti-skid pad (10), and the lower end face of the anti-skid pad (10) is provided with anti-skid grooves which are uniformly distributed.

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