CN216055490U - Weighing sensor wiring structure - Google Patents

Abstract

The utility model relates to the technical field of weighing sensor connection, in particular to a weighing sensor wiring structure, which comprises a first wiring part and a second wiring part, wherein the first wiring part is movably connected with the second wiring part, and the weighing sensor wiring structure also comprises: the clamping assembly is respectively arranged in the first wiring part and the second wiring part and is used for clamping a circuit; the wiring subassembly, the wiring subassembly is installed respectively in first wiring portion and second wiring portion, the wiring subassembly is used for connecting the circuit in first wiring portion and the second wiring portion. The wiring structure of the weighing sensor can effectively clamp a circuit through the clamping assembly, and the circuit is prevented from falling off in the use process, so that the influence on the weighing measurement is avoided; can effectually connect the circuit through the wiring subassembly, guarantee the patency of connecting, improve wiring structure's practicality.

Description

Weighing sensor wiring structure

Technical Field

The utility model relates to the technical field of weighing sensor connection, in particular to a weighing sensor wiring structure.

Background

A load cell is essentially a device that converts a mass signal into a measurable electrical signal output. The weighing sensor is classified into 8 types, such as photoelectric type, hydraulic type, electromagnetic type, capacitive type, magnetic pole deformation type, vibration type, gyroscope type, and resistance strain type, according to a conversion method, and is most widely used in the resistance strain type.

Before weighing sensor's in-service use, need carry out the wiring with weighing sensor and measurement unit and handle, current wiring still relies on the manual work to carry out the wiring, has reduced work efficiency, and the wiring fastness is relatively poor, does not utilize weighing sensor to carry out normal work and measures.

Therefore, in view of the above situation, there is an urgent need to develop a wiring structure of a weighing sensor to overcome the shortcomings in the current practical application.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a load cell wiring structure, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a weighing sensor wiring structure, includes first wiring portion and second wiring portion, first wiring portion and second wiring portion swing joint still include: the clamping assembly is respectively arranged in the first wiring part and the second wiring part and is used for clamping a circuit; the wiring subassembly, the wiring subassembly is installed respectively in first wiring portion and second wiring portion, the wiring subassembly is used for connecting the circuit in first wiring portion and the second wiring portion.

As a further scheme of the utility model: the centre gripping subassembly includes electronic screw thread axle, first connecting seat, bull stick, holder and second connecting seat, electronic screw thread axle passes through support movable mounting on the fixing base, the one end and the first connecting seat threaded connection of electronic screw thread axle, first connecting seat and removal seat fixed connection, remove seat movable mounting on the fixing base, the one end and the fixing base of bull stick rotate to be connected, the bull stick passes through the second connecting seat and rotates with the removal seat to be connected, fixed mounting has the holder on the other end of bull stick.

As a further scheme of the utility model: the wiring assembly comprises a fixing piece, a second spring, a first connecting piece, a second connecting piece and a third spring, wherein the fixing piece is fixed in the first wiring portion and the second wiring portion respectively, two ends of the second spring are connected with the fixing piece and the first connecting piece in the first wiring portion respectively, and the third spring is connected with the fixing piece and the second connecting piece in the second wiring portion respectively.

As a further scheme of the utility model: the mounting groove has been seted up in the first wiring portion, the spout has been seted up in the second wiring portion, first wiring portion passes through coupling assembling and second wiring portion swing joint.

As a further scheme of the utility model: coupling assembling includes moving member, bayonet lock and first spring, moving member movable mounting is in the spout, bayonet lock and first spring movable mounting are in the mounting groove, just bayonet lock and first spring swing joint.

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

the first connecting seat is driven to move by the rotation of the electric threaded shaft, the moving seat is driven to rotate on the fixed seat by the movement of the first connecting seat, the three groups of rotating rods arranged on the fixed seat are driven to rotate in a centripetal manner by the rotation of the moving seat, the clamping piece clamps the circuit in a centripetal movement manner of the rotating rods, and the circuit is tightly connected with the fixed piece;

when the first wiring portion and the second wiring portion are tightly attached, the first connecting piece moves transversely under the elastic force of the second spring, the second connecting piece moves under the abutting pressure of the first connecting piece, the first connecting piece and the second connecting piece are tightly attached through the elastic force of the third spring, and the fixing frame, the second spring, the third spring, the first connecting piece and the second connecting piece are made of materials with better conductivity, so that the circuits in the first wiring portion and the second wiring portion can be conveniently communicated;

the circuit can be effectively clamped by the clamping assembly, so that the circuit is prevented from falling off in the use process, and further the influence on the weighing measurement is avoided; can effectually connect the circuit through the wiring subassembly, guarantee the patency of connecting, improve wiring structure's practicality.

Drawings

Fig. 1 is a schematic structural view of a wiring structure of a load cell according to the present invention.

Fig. 2 is a schematic structural view of the clamping assembly in fig. 1.

Fig. 3 is a schematic structural view of the connecting assembly in fig. 1.

In the figure: 1-a first wiring part, 11-a mounting groove, 2-a second wiring part, 21-a chute, 3-a connecting assembly, 31-a moving member, 32-a bayonet pin, 33-a first spring, 4-a clamping assembly, 41-an electric threaded shaft, 42-a support, 43-a first connecting seat, 44-a rotating rod, 45-a clamping member, 46-a second connecting seat, 5-a line, 6-a wiring assembly, 61-a fixing member, 62-a second spring, 63-a first connecting member, 64-a second connecting member, 65-a third spring, 7-a moving seat and 8-a fixing seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

As shown in fig. 1 to 3, a load cell wiring structure provided as an embodiment of the present invention includes a first wiring portion 1 and a second wiring portion 2, the first wiring portion 1 is movably connected to the second wiring portion 2, and the load cell wiring structure further includes: the clamping assembly 4 is respectively installed in the first wiring portion 1 and the second wiring portion 2, and the clamping assembly 4 is used for clamping the circuit 5; and a wiring member 6, the wiring member 6 being installed in the first wiring portion 1 and the second wiring portion 2, respectively, the wiring member 6 being used for connecting the lines 5 in the first wiring portion 1 and the second wiring portion 2.

The circuit 5 can be effectively clamped by the clamping component 4, so that the circuit is prevented from falling off in the use process, and further the influence on the weighing measurement is avoided; can effectually connect circuit 5 through wiring subassembly 6, guarantee the patency of connecting, improve wiring structure's practicality.

In the present embodiment, the first and second wire connecting portions 1 and 2 are each made of a material having poor electrical conductivity.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the clamping assembly 4 includes an electric screw shaft 41, a first connecting seat 43, a rotating rod 44, a clamping member 45 and a second connecting seat 46, the electric screw shaft 41 is movably mounted on the fixed seat 8 through a support 42, one end of the electric screw shaft 41 is in threaded connection with the first connecting seat 43, the first connecting seat 43 is fixedly connected with the movable seat 7, the movable seat 7 is movably mounted on the fixed seat 8, one end of the rotating rod 44 is rotatably connected with the fixed seat 8, the rotating rod 44 is rotatably connected with the movable seat 7 through the second connecting seat 46, and the clamping member 45 is fixedly mounted on the other end of the rotating rod 44.

The first connecting seat 43 is driven to move by the rotation of the electric threaded shaft 41, the moving seat 7 is driven by the moving of the first connecting seat 43 to rotate on the fixed seat 8, the three groups of rotating rods 44 mounted on the fixed seat 7 are driven by the rotating of the moving seat 7 to rotate in a centripetal manner, and the clamping piece 45 clamps the circuit 5 in a centripetal movement manner through the rotating rods 44, so that the circuit 5 is tightly connected with the fixed piece 61.

In this embodiment, the first connecting seat 43 and the second connecting seat 46 are preferably sliding seats, and the clamping member 45 is preferably a rolling wheel, so as to facilitate effective clamping of the line 5.

As shown in fig. 1, as a preferred embodiment of the present invention, the wiring member 6 includes a fixing member 61, a second spring 62, a first connecting member 63, a second connecting member 64 and a third spring 67, the fixing member 61 is fixed in the first wiring portion 1 and the second wiring portion 2, respectively, both ends of the second spring 62 are connected to the fixing member 61 and the first connecting member 63 in the first wiring portion 1, respectively, and the third spring 67 is connected to the fixing member 61 and the second connecting member 64 in the second wiring portion 2, respectively.

After first wiring portion 1 and the inseparable laminating of second wiring portion 2, first connecting piece 63 carries out lateral shifting under the elastic force of second spring 62, second connecting piece 64 moves under the support of first connecting piece 63 pushes down, through the elastic force of third spring 65, make first connecting piece 63 and the inseparable laminating of second connecting piece 64, and mount 61, second spring 62, third spring 65, first connecting piece 63 and second connecting piece 64 all adopt the better material of electric conductivity to make, make things convenient for circuit 5 to carry out the UNICOM in first wiring portion 1 and the second wiring portion 3.

In this embodiment, the fixing frame 61, the second spring 62, the third spring 65, the first connecting member 63, and the second connecting member 64 are made of a material with good conductivity, and the elastic force of the second spring 62 itself is greater than that of the third spring 65, the first connecting member 63 is a connecting member with a cylindrical structure, and the second connecting member 64 is preferably a connecting member with a spherical structure.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, an installation groove 11 is formed on the first wire connecting portion 1, a sliding groove 21 is formed on the second wire connecting portion 2, and the first wire connecting portion 1 is movably connected to the second wire connecting portion 2 through a connecting assembly 3.

As shown in fig. 1 and 3, as a preferred embodiment of the present invention, the connecting assembly 3 includes a moving member 31, a detent 32 and a first spring 33, the moving member 31 is movably installed in the slide groove 21, the detent 32 and the first spring 33 are movably installed in the mounting groove 11, and the detent 32 and the first spring 33 are movably connected.

When first wiring portion 1 is connected with second wiring portion 2, bayonet lock 32 moves under the elastic force of first spring 33 to support the pressure to the moving member 31 of installing in spout 21, make moving member 31 slide in spout 21, and in bayonet lock 32's one end entered into spout 21, realized the zonulae occludens of first wiring portion 1 and second wiring portion 2.

In this embodiment, the first spring 33 may be replaced by an elastic piece satisfying the elastic force, the moving member 31 is preferably a ball, and the detent 32 is a T-shaped detent 32.

The working principle of the utility model is as follows:

the first connecting seat 43 is driven to move by the rotation of the electric threaded shaft 41, the moving of the first connecting seat 43 drives the moving seat 7 to rotate on the fixed seat 8, the three groups of rotating rods 44 arranged on the fixed seat 7 are driven to rotate in a centripetal manner by the rotation of the moving seat 7, the clamping piece 45 clamps the circuit 5 in a centripetal movement manner of the rotating rods 44, and the circuit 5 is tightly connected with the fixed piece 61;

when the first wiring portion 1 is connected with the second wiring portion 2, the bayonet 32 moves under the elastic force of the first spring 33, so that the moving member 31 installed in the sliding groove 21 is pressed against, the moving member 31 slides in the sliding groove 21, and one end of the bayonet 32 enters the sliding groove 21, so that the first wiring portion 1 is tightly connected with the second wiring portion 2;

after the first wiring portion 1 and the second wiring portion 2 are tightly attached, the first connecting piece 63 moves transversely under the elastic force of the second spring 62, the second connecting piece 64 moves under the abutting pressure of the first connecting piece 63, and the first connecting piece 63 and the second connecting piece 64 are tightly attached through the elastic force of the third spring 65, and the fixing frame 61, the second spring 62, the third spring 65, the first connecting piece 63 and the second connecting piece 64 are made of materials with good conductivity, so that the circuit 5 in the first wiring portion 1 and the second wiring portion 3 can be conveniently communicated

The above is the working principle of the wiring structure of the weighing sensor.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a weighing sensor wiring structure, includes first wiring portion and second wiring portion, first wiring portion and second wiring portion swing joint, its characterized in that still includes:

the clamping assembly is respectively arranged in the first wiring part and the second wiring part and is used for clamping a circuit;

the wiring subassembly, the wiring subassembly is installed respectively in first wiring portion and second wiring portion, the wiring subassembly is used for connecting the circuit in first wiring portion and the second wiring portion.

2. The wiring structure of the weighing sensor according to claim 1, wherein the clamping assembly comprises an electric threaded shaft, a first connecting seat, a rotating rod, a clamping piece and a second connecting seat, the electric threaded shaft is movably mounted on the fixed seat through a support, one end of the electric threaded shaft is in threaded connection with the first connecting seat, the first connecting seat is fixedly connected with the movable seat, the movable seat is movably mounted on the fixed seat, one end of the rotating rod is rotatably connected with the fixed seat, the rotating rod is rotatably connected with the movable seat through the second connecting seat, and the clamping piece is fixedly mounted at the other end of the rotating rod.

3. The load cell wiring structure according to claim 1, wherein the wiring assembly includes a fixing member, a second spring, a first connecting member, a second connecting member, and a third spring, the fixing member is fixed in the first wiring portion and the second wiring portion, respectively, both ends of the second spring are connected to the fixing member and the first connecting member in the first wiring portion, respectively, and the third spring is connected to the fixing member and the second connecting member in the second wiring portion, respectively.

4. The wiring structure of claim 1, wherein the first wiring portion has a mounting groove formed thereon, the second wiring portion has a sliding groove formed thereon, and the first wiring portion is movably connected to the second wiring portion through a connecting assembly.

5. The load cell wiring structure of claim 4, wherein the connection assembly comprises a moving member, a bayonet lock and a first spring, the moving member is movably mounted in the sliding groove, the bayonet lock and the first spring are movably mounted in the mounting groove, and the bayonet lock and the first spring are movably connected.

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