CN116718227A

CN116718227A - Industrial automation instrument and meter

Info

Publication number: CN116718227A
Application number: CN202310609125.3A
Authority: CN
Inventors: 杨景然
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-05-26
Filing date: 2023-05-26
Publication date: 2023-09-08

Abstract

The invention discloses an industrial automation instrument and meter, which structurally comprises a shell, an electrifying port, a monitoring circuit board, a chip, a display module and a monitoring mechanism, wherein the monitoring circuit board is arranged in the shell, the left end of the monitoring circuit board is electrically connected with the electrifying port, a temperature and humidity sensor is pulled to move, a telescopic hose is extruded and contracted to discharge air pressure in a sucker, so that the sucker is subjected to vacuum adsorption with the outside, the temperature and humidity sensor can be firmly arranged at any position, close to the periphery of a product, of the outside, the temperature and humidity sensor is improved to accurately monitor the temperature and humidity around the product, the upper end of the temperature and humidity sensor extends into a positioning pipe sleeve, a clamping ball and a swinging support rod swing outwards, then the clamping ball is clamped into a groove arranged in the upper end of the temperature and humidity sensor, the temperature and humidity sensor is clamped in the positioning pipe sleeve to be fixedly stored, and the temperature and humidity sensor is prevented from being randomly lost in the unused process.

Description

Industrial automation instrument and meter

Technical Field

The invention relates to the field of industrial automation, in particular to an industrial automation instrument.

Background

The temperature and humidity monitoring instrument is often used in the industrial automation field, industrial automation equipment is carrying out the in-process that product was produced and product was stored, all need carry out real-time monitoring through temperature and humidity around the product by temperature and humidity monitoring instrument, temperature and humidity monitoring instrument has built-in temperature and humidity sensor or can connect outside temperature and humidity sensor's function of measuring temperature and humidity, ensure the quality of product production and good of storage, but because built-in temperature and humidity sensor's temperature and humidity monitoring instrument is carrying out real-time monitoring to the temperature and humidity around the industrial automation product, temperature and humidity monitoring instrument generally adopts fixed mode to install in industrial automation equipment's outside, and temperature and humidity sensor also adopts fixed mode to connect on temperature and humidity monitoring instrument, when the product of monitoring is far away from temperature and humidity sensor's distance, temperature and humidity sensor then unable movable adjustment under the condition that temperature and humidity monitoring instrument did not demolish the removal, lead to the monitoring head to be difficult to carry out accurate monitoring to the temperature and humidity around the product.

Disclosure of Invention

The technical scheme adopted for realizing the technical purpose of the invention is as follows: this industrial automation instrument and meter, its structure includes humiture monitoring instrument, display screen, button, wireless transmitter, mounting panel, humiture monitoring instrument front end face has inlayed display screen and button and electricity is connected, wireless transmitter installs at humiture monitoring instrument top and electricity is connected, the mounting panel welding is at humiture monitoring instrument rear side both ends, humiture monitoring instrument includes casing, circular telegram port, monitoring circuit board, chip, display module, monitoring mechanism, the inside monitoring circuit board that is equipped with of casing to monitoring circuit board left end is connected with circular telegram port electricity, monitoring circuit board surface welding has chip and display module, the chip is connected with the display module electricity, display module is connected with the display screen, monitoring mechanism upper end is connected with the monitoring circuit board electricity to monitoring mechanism installs the lower extreme in the casing left side.

As a further improvement of the invention, the monitoring mechanism comprises a connecting end, a conductive mechanism and a mobile monitoring mechanism, wherein the connecting end is welded at the left lower end of the surface of the monitoring circuit board, the connecting end is electrically connected with the mobile monitoring mechanism through the conductive mechanism, the conductive mechanism is fixedly arranged at the left lower end in the shell, the upper end of the mobile monitoring mechanism is arranged at the inner edge of the left lower end of the shell, and the connecting end is electrically connected with the chip on the monitoring circuit board.

As a further improvement of the invention, the conductive mechanism comprises a sealing shell, wires, a winding roll, a spring piece and a collision mechanism, wherein the winding roll is arranged in the center of the inside of the sealing shell, the wires are wound on the outer side of the winding roll, the connecting end is electrically connected with the mobile monitoring mechanism through the wires, the spring piece is arranged in the winding roll, the right side of the collision mechanism is in collision with the left end face of the wires wound on the outer side of the winding roll, the right end of the collision mechanism penetrates through the inside of the left end of the sealing shell in a clearance fit manner, the left end of the collision mechanism is positioned on the left end face of the shell, and the spring piece is of a spiral structure and is made of spring steel material and has good rebound resilience.

As a further improvement of the invention, the abutting mechanism comprises a pull block, a pull rod, a spring, an abutting plate and a friction groove, wherein the pull block is positioned on the left end face of the shell, the pull block is welded at the left end of the pull rod, the right end of the pull rod penetrates through the spring, the right end of the pull rod penetrates through the left end of the sealing shell in a clearance fit manner, the abutting plate is welded at the right end of the pull rod, the abutting plate is positioned at the left end of the sealing shell, the spring is positioned between the sealing shell and the abutting plate, the right side of the abutting plate is embedded with the friction groove, the right side of the abutting plate abuts against the left end face of a wire wound on the outer side of the winding drum through the friction groove, and the friction groove is in an arc groove structure and is provided with eleven equal intervals distributed on the right end face of the abutting plate.

As a further improvement of the invention, the mobile monitoring mechanism comprises a positioning pipe sleeve, a torsion shaft, a swinging support rod, a clamping ball and a monitoring head, wherein the positioning pipe sleeve is arranged at the inner edge of the left lower end of the shell, the lower end of the inner part of the positioning pipe sleeve is hinged with one end of the swinging support rod through the torsion shaft, the clamping ball is welded at the other end of the swinging support rod, the clamping ball is in contact with the inner part of the upper end of the monitoring head, the monitoring head is electrically connected with the connecting end through a wire, and the torsion shaft, the swinging support rod and the clamping ball are arranged in two and are symmetrically arranged left and right.

As a further improvement of the invention, the monitoring head comprises a temperature and humidity sensor, an outer sleeve plate, a telescopic hose and a sucker, wherein the temperature and humidity sensor is electrically connected with a connecting end through a wire, the clamping ball is in contact with the inside of the upper end of the temperature and humidity sensor, the outer sleeve plate is arranged on the outer side of the lower end of the temperature and humidity sensor, the telescopic hose is arranged on the rear side of the outer sleeve plate, the sucker is arranged at the rear end of the telescopic hose and is communicated with the telescopic hose, and the telescopic hose is of a fold-shaped structure and is made of rubber materials and has good rebound resilience.

The invention has the beneficial effects that:

1. the pull rod drives the abutting plate to be separated from the surface of the wire by pulling the pull block, and the rotating elastic force is applied to the spring piece in the winding roll at the moment, so that the winding roll automatically winds the wire, the wire can be stored regularly, and the wire is prevented from being knotted;

2. the temperature and humidity sensor is pulled to move to the periphery of a product and is extruded and contracted through the telescopic hose, air pressure in the sucker is discharged, so that the sucker and the outside are subjected to vacuum adsorption, the temperature and humidity sensor can be firmly installed at any position, close to the periphery of the product, of the outside, and the temperature and humidity sensor is improved to accurately monitor the temperature and humidity around the product;

3. the temperature and humidity sensor upper end stretches into the inside of the locating pipe sleeve, the clamping ball and the swinging support rod swing outwards, then the clamping ball is clamped into the inside of the groove formed in the upper end of the temperature and humidity sensor, the temperature and humidity sensor is clamped inside the locating pipe sleeve to be fixedly stored, and random losing of the temperature and humidity sensor in the process of not using is avoided.

Drawings

Fig. 1 is a schematic structural view of an industrial automation instrument of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the temperature and humidity monitoring instrument according to the present invention.

Fig. 3 is a schematic perspective view of the monitoring mechanism of the present invention.

Fig. 4 is a schematic diagram of the internal structure of the conductive mechanism of the present invention.

Fig. 5 is a schematic perspective view of a collision mechanism according to the present invention.

Fig. 6 is a schematic diagram of a local internal working state structure of the mobile monitoring mechanism of the present invention.

Fig. 7 is a schematic top view of the temperature and humidity sensor of the present invention.

In the figure: the temperature and humidity monitoring instrument comprises a temperature and humidity monitoring instrument R, a display screen X, a button N, a wireless transmitter C, a mounting plate B, a machine shell R3, a power-on port R1, a monitoring circuit board R4, a chip R8, a display module R2, a monitoring mechanism R5, a connecting end R52, a conducting mechanism R55, a mobile monitoring mechanism R58, a sealing shell 5k, a wire 5X, a winding roll 5j, a spring piece 5t, a collision mechanism 5f, a pull block f6, a pull rod f2, a spring f8, a collision plate f4, a friction groove f1, a positioning pipe sleeve 8g, a torsion shaft 8N, a swinging support rod 8B, a clamping ball 8q, a monitoring head 8j, a temperature and humidity sensor j5, an outer sleeve plate j6, a telescopic hose j3 and a sucker j9.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 5:

the invention discloses an industrial automation instrument and meter, which structurally comprises a temperature and humidity monitoring instrument R, a display screen X, a button N, a wireless transmitter C and a mounting plate B, wherein the front end face of the temperature and humidity monitoring instrument R is embedded with the display screen X and the button N and is electrically connected with the display screen X, the wireless transmitter C is arranged at the top of the temperature and humidity monitoring instrument R and is electrically connected with the temperature and humidity monitoring instrument R, the mounting plate B is welded at two ends of the rear side of the temperature and humidity monitoring instrument R, the temperature and humidity monitoring instrument R comprises a shell R3, an energizing port R1, a monitoring circuit board R4, a chip R8, a display module R2 and a monitoring mechanism R5, the monitoring circuit board R4 is arranged in the shell R3, the left end of the monitoring circuit board R4 is electrically connected with the energizing port R1, the chip R8 and the display module R2 are welded on the surface of the monitoring circuit board R4, the upper end of the monitoring mechanism R5 is electrically connected with the monitoring circuit board R4, and the monitoring mechanism R5 is arranged at the left lower end of the shell R3.

The monitoring mechanism r5 comprises a connecting end r52, a conductive mechanism r55 and a mobile monitoring mechanism r58, wherein the connecting end r52 is welded at the left lower end of the surface of the monitoring circuit board r4, the connecting end r52 is electrically connected with the mobile monitoring mechanism r58 through the conductive mechanism r55, the conductive mechanism r55 is fixedly arranged at the left lower end inside the casing r3, and the upper end of the mobile monitoring mechanism r58 is arranged at the inner edge of the left lower end of the casing r 3;

the connection terminal r52 is electrically connected with the chip r8 on the monitoring circuit board r4, so that the data monitored by the mobile monitoring mechanism r58 can be transmitted to the chip r8 for data processing.

The conductive mechanism r55 comprises a sealing shell 5k, a wire 5x, a winding roll 5j, a spring piece 5t and a collision mechanism 5f, the winding roll 5j is arranged in the center of the inside of the sealing shell 5k, the wire 5x is wound on the outer side of the winding roll 5j, the connecting end r52 is electrically connected with the mobile monitoring mechanism r58 through the wire 5x, the spring piece 5t is arranged in the winding roll 5j, the right side of the collision mechanism 5f is in collision with the left end face of the wire 5x wound on the outer side of the winding roll 5j, the right end of the collision mechanism 5f penetrates through the inside of the left end of the sealing shell 5k in a clearance fit manner, and the left end of the collision mechanism 5f is positioned on the left end face of the casing r 3;

the spring piece 5t is of a spiral structure, is made of spring steel, has good rebound resilience, can drive the winding roll 5j to reset and rotate inside the winding roll 5j, automatically winds and winds the wire 5x, and automatically unwinds the wire 5x through the winding roll 5j, so that the wire 5x is automatically prolonged, and the conductive tightness of the wire 5x is always ensured in the process of pulling the mobile monitoring mechanism r58 to move.

The abutting mechanism 5f comprises a pull block f6, a pull rod f2, a spring f8, an abutting plate f4 and a friction groove f1, wherein the pull block f6 is positioned on the left end face of the casing r3, the pull block f6 is welded at the left end of the pull rod f2, the right end of the pull rod f2 penetrates through the spring f8, the right end of the pull rod f2 penetrates through the left end of the sealing shell 5k in a clearance fit manner, the right end of the pull rod f2 is welded with the abutting plate f4, the abutting plate f4 is positioned at the left end of the sealing shell 5k, the spring f8 is positioned between the sealing shell 5k and the abutting plate f4, the right side of the abutting plate f4 is embedded with the friction groove f1, and the right side of the abutting plate f4 abuts against the left end face of a wire 5x wound on the outer side of the winding disc 5j through the friction groove f 1;

foretell friction recess f1 is arc groove structure to be equipped with eleven equidistance and distribute on the right side terminal surface of conflict board f4, carry out firm conflict through eleven friction recess f1 and the wire 5x left side terminal surface of winding in the take-up reel 5j outside, increase frictional force and ensure that wire 5x can be fixed voluntarily after the inside unreeling of take-up reel 5j, avoid the automatic rollback of wire 5 x.

Specific use and action of the embodiment:

in the invention, when a temperature and humidity monitoring instrument R is used for monitoring the temperature and humidity of the surrounding environment of an automatically produced product, firstly, the temperature and humidity monitoring instrument R is fixedly arranged outside the automatically produced device through a mounting plate B, then, the outside power supply is connected into an electrified port R1 to provide power for the temperature and humidity monitoring instrument R, then, the monitoring mechanism R5 is used for monitoring, the monitored data are transmitted to a chip R8 for data processing, and the data are transmitted to a display screen X through a display module R2 for displaying, and when the temperature and humidity monitoring instrument R after being fixedly arranged is used for monitoring the temperature and humidity of the surrounding environment of the product at a far position, the temperature and humidity monitoring instrument R is pulled out from the left lower end of a shell R3 through pulling a movable monitoring mechanism R58, the wire 5X is unreeled on a winding drum 5j in the pulling process, the wire 5X is automatically prolonged, after the wire 5X is prolonged, the extended length of the wire 5X is fixed through a contact plate f4, the movable monitoring mechanism R58 can be freely moved to the periphery of the product for monitoring, and conversely, the wire f4 is driven by pulling a pulling block f6 to be separated from the wire 5X through the contact plate f4, and the wire 5X is automatically wound on the winding drum 5X through the rotating surface 5j, and the wire 5X is automatically wound, and the wire is prevented from being wound, and the wire 5X is wound, and the situation is automatically wound, and the wire is wound by the wire winding drum 5X is wound.

Example 2:

as shown in fig. 6 to 7:

the mobile monitoring mechanism r58 comprises a positioning pipe sleeve 8g, a torsion shaft 8n, a swinging support rod 8b, a clamping ball 8q and a monitoring head 8j, wherein the positioning pipe sleeve 8g is arranged at the inner edge of the left lower end of the casing r3, the lower end of the inner part of the positioning pipe sleeve 8g is hinged with one end of the swinging support rod 8b through the torsion shaft 8n, the clamping ball 8q is welded at the other end of the swinging support rod 8b, the clamping ball 8q is in contact with the inner part of the upper end of the monitoring head 8j, and the monitoring head 8j is electrically connected with the connecting end r52 through a lead 5 x;

the torsion shaft 8n, the swinging support rod 8b and the clamping ball 8q are all provided with two, are installed in bilateral symmetry, and apply elastic torsion to the swinging support rod 8b through the torsion shaft 8n on two sides, so that the swinging support rod 8b drives the clamping ball 8q to clamp a groove arranged in the upper end of the monitoring head 8j, and the monitoring head 8j is clamped in the positioning pipe sleeve 8g for fixing and storing.

The monitoring head 8j comprises a temperature and humidity sensor j5, an outer sleeve plate j6, a telescopic hose j3 and a sucker j9, wherein the temperature and humidity sensor j5 is electrically connected with a connecting end r52 through a lead 5x, the clamping ball 8q is in contact with the inside of the upper end of the temperature and humidity sensor j5, the outer side of the lower end of the temperature and humidity sensor j5 is provided with the outer sleeve plate j6, the rear side of the outer sleeve plate j6 is provided with the telescopic hose j3, and the sucker j9 is arranged at the rear end of the telescopic hose j3 and communicated with the rear end of the telescopic hose j 3;

foretell flexible hose j3 is fold structure to adopt the rubber material, have better resilience, sucking disc j9 is carrying out the fixed in-process of absorption with the outside, receive extrusion shrink through flexible hose j3, and discharge sucking disc j9 inside atmospheric pressure, make sucking disc j9 carry out vacuum adsorption with the outside, can be with temperature and humidity sensor j5 firm installation on the outside is close to the optional position around the product, improve temperature and humidity sensor j5 and carry out accurate monitoring to the humiture around the product.

Specific use and action of the embodiment:

according to the invention, the temperature and humidity sensor j5 is pulled to move around a product, the outer end face is fixed through the sucker j9 at the rear side of the outer sleeve plate j6, and is extruded, at the moment, the telescopic hose j3 is extruded and contracted, the air pressure in the sucker j9 is discharged, so that the sucker j9 and the outside are adsorbed in vacuum, the temperature and humidity sensor j5 can be firmly arranged at any position, which is close to the periphery of the product, the temperature and humidity around the product is accurately monitored by the temperature and humidity sensor j5, when the temperature and humidity sensor j5 is required to be retracted, the upper end of the temperature and humidity sensor j5 extends into the positioning sleeve 8g, the clamping ball 8q is extruded through the outer side of the upper end of the temperature and humidity sensor j5, the clamping ball 8q and the swinging support rod 8b swing outwards, then the clamping ball 8q is clamped into a groove arranged in the upper end of the temperature and humidity sensor j5, the temperature and humidity sensor j5 is clamped in the positioning sleeve 8g to be fixed, and the temperature and humidity sensor j5 is prevented from being lost when the temperature and humidity sensor j5 is not used at will.

By utilizing the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the invention.

Claims

1. The utility model provides an industrial automation instrument and meter, its structure includes humiture monitoring instrument (R), display screen (X), button (N), wireless transmitter (C), mounting panel (B), terminal surface has inlayed display screen (X) and button (N) and electric connection before humiture monitoring instrument (R), wireless transmitter (C) are installed at humiture monitoring instrument (R) top and electric connection, mounting panel (B) welding is at humiture monitoring instrument (R) rear side both ends, its characterized in that:

the temperature and humidity monitoring instrument (R) comprises a casing (R3), an energizing port (R1), a monitoring circuit board (R4), a chip (R8), a display module (R2) and a monitoring mechanism (R5), wherein the monitoring circuit board (R4) is arranged inside the casing (R3), the left end of the monitoring circuit board (R4) is electrically connected with the energizing port (R1), the chip (R8) and the display module (R2) are welded on the surface of the monitoring circuit board (R4), the chip (R8) is electrically connected with the display module (R2), the display module (R2) is connected with a display screen (X), the upper end of the monitoring mechanism (R5) is electrically connected with the monitoring circuit board (R4), and the monitoring mechanism (R5) is arranged at the left lower end of the casing (R3).

2. An industrial automation instrument according to claim 1, characterized in that: the monitoring mechanism (r 5) comprises a connecting end (r 52), a conductive mechanism (r 55) and a mobile monitoring mechanism (r 58), wherein the connecting end (r 52) is welded at the left lower end of the surface of the monitoring circuit board (r 4), the connecting end (r 52) is electrically connected with the mobile monitoring mechanism (r 58) through the conductive mechanism (r 55), the conductive mechanism (r 55) is fixedly installed at the left lower end inside the casing (r 3), and the upper end of the mobile monitoring mechanism (r 58) is arranged at the inner edge of the left lower end of the casing (r 3).

3. An industrial automation instrument according to claim 2, characterized in that: the utility model provides a conductive mechanism (r 55) is including seal shell (5 k), wire (5 x), take-up reel (5 j), spring leaf (5 t), conflict mechanism (5 f), take-up reel (5 j) are installed at seal shell (5 k) inside center, take-up reel (5 j) outside winding has wire (5 x), link (r 52) are connected with mobile monitoring mechanism (r 58) electricity through wire (5 x), inside spring leaf (5 t) that is equipped with of take-up reel (5 j), conflict mechanism (5 f) right side is inconsistent with wire (5 x) left side terminal surface of winding in the take-up reel (5 j) outside, conflict mechanism (5 f) right-hand member adopts clearance fit to run through inside seal shell (5 k) left end, conflict mechanism (5 f) left end is located casing (r 3) left side terminal surface.

4. An industrial automation instrument according to claim 3, characterized in that: the utility model provides a friction mechanism (5 f) is including pull block (f 6), pull rod (f 2), spring (f 8), conflict board (f 4), friction recess (f 1), pull block (f 6) are located casing (r 3) left side terminal surface to pull block (f 6) welding is in pull rod (f 2) left end, pull rod (f 2) right-hand member runs through inside spring (f 8) to pull rod (f 2) right-hand member adopts clearance fit to run through inside seal shell (5 k) left end, pull rod (f 2) right-hand member welding has conflict board (f 4), conflict board (f 4) are located seal shell (5 k) inside left end to spring (f 8) are located between seal shell (5 k) and conflict board (f 4), friction recess (f 1) have been inlayed on conflict board (f 4) right side, and the wire (5 x) left side terminal surface in the outside of coil (5 j) is inconsistent with winding through friction recess (f 1).

5. An industrial automation instrument according to claim 3, characterized in that: the mobile monitoring mechanism (r 58) comprises a positioning sleeve (8 g), a torsion shaft (8 n), a swinging support rod (8 b), a clamping ball (8 q) and a monitoring head (8 j), wherein the positioning sleeve (8 g) is arranged at the inner edge of the left lower end of the casing (r 3), the lower end of the inner part of the positioning sleeve (8 g) is hinged with one end of the swinging support rod (8 b) through the torsion shaft (8 n), the other end of the swinging support rod (8 b) is welded with the clamping ball (8 q), the clamping ball (8 q) is in contact with the inner part of the upper end of the monitoring head (8 j), and the monitoring head (8 j) is electrically connected with the connecting end (r 52) through a wire (5 x).

6. An industrial automation instrument according to claim 5, wherein: the monitoring head (8 j) comprises a temperature and humidity sensor (j 5), an outer sleeve plate (j 6), a telescopic hose (j 3) and a sucker (j 9), wherein the temperature and humidity sensor (j 5) is electrically connected with a connecting end (r 52) through a wire (5 x), a clamping ball (8 q) is in contact with the inside of the upper end of the temperature and humidity sensor (j 5), the outer side of the lower end of the temperature and humidity sensor (j 5) is provided with the outer sleeve plate (j 6), the rear side of the outer sleeve plate (j 6) is provided with the telescopic hose (j 3), and the sucker (j 9) is arranged at the rear end of the telescopic hose (j 3) and is communicated with the rear end of the telescopic hose.