CN211639880U - Marking device and sensor processing equipment - Google Patents

Abstract

The utility model relates to a sensor processing technology field, concretely relates to marking device and sensor processing equipment, marking device include marking off workstation, backplate, marking off subassembly and cable anchor clamps, and on the marking off workstation was located to the backplate, on the backplate was located to the marking off subassembly, on the cable anchor clamps were located on the marking off workstation. The utility model provides a pair of marking device is through setting up the backplate on the marking off workstation, and the subassembly of marking off sets up on the backplate, and the cable anchor clamps set up on the marking off workstation, can realize automatic marking off, and whole marking off process easy operation avoids the artifical problem of makeing mistakes easily of marking off, has promoted marking off efficiency. The utility model also provides a sensor processing equipment sets up cutting device and marking device in same frame, not only can reduce the area of equipment, practices thrift the space, only needs a staff just can carry out cutting process and marking off processing at this station moreover, reduces operating personnel, reduces the cost of labor, has promoted work efficiency.

Description

Marking device and sensor processing equipment

Technical Field

The utility model relates to a sensor processing technology field particularly, relates to a marking device and sensor processing equipment.

Background

In the prior art, the sensor comprises a sensor head and a cable, the sensor head being mainly injection molded during the production process. During injection molding, raw materials are injected into an injection molding cavity inside the mold through an injection molding port on the mold, so that the raw materials form a shell of the head of the sensor according to the shape of the injection molding cavity in the mold. After injection molding, the sensor head forms an excess material at the position of the injection molding opening, and the excess material needs to be cut off in subsequent processing.

In order to facilitate the installation and use of the sensor, a marking line is often required to be marked on a cable of the sensor in the production process of the sensor. The existing marking process mainly depends on manual marking by using a marking pen, so that the marking efficiency is low, and mistakes are easily made.

In addition, the existing sensor production equipment is used for cutting excess materials and marking cables on different stations, the process is single, the excess material cutting and the cable marking are required to be independent equipment, the occupied area is large, two workers are required to handle the excess material cutting and the cable marking, the labor cost is high, and the sensor production equipment is not beneficial to automation and intelligent production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sensor processing equipment to manual marking off is carried out to artifical marking off pen that uses in the sensor production and processing of solving prior art, and marking off is inefficient, the problem of making mistakes easily moreover.

In order to achieve the above object, the present invention provides a marking device for marking a line on a cable of a sensor, including: a scribing worktable;

a back plate disposed at one side of the scribing worktable along a first direction;

the scribing component is arranged on the back plate along a second direction, can move in the first direction and the second direction and is used for scribing lines on the cables;

a cable clamp provided on the scribing table along the second direction for clamping the cable, wherein,

along the first direction, a cable clamp is located below the scribe assembly.

Optionally, the scribe assembly comprises:

the second guide piece is arranged on the back plate along the second direction, a second sliding piece is arranged on the second guide piece, the second sliding piece can move along the second guide piece, and a third sliding piece is arranged on the second sliding piece;

the third guide piece is arranged on the second sliding piece along the first direction, and the third sliding piece can move under the guidance of the third guide piece;

and the scribing pen seat is arranged on the third sliding part along the first direction and can move along the second direction and the first direction under the driving of the second sliding part and the third sliding part.

Optionally, the cable clamp includes a wire clamping groove, the wire clamping groove is followed the second direction extends for pressing from both sides tight cable, the wire clamping groove is formed by the wire clamping board concatenation.

Optionally, the cable clamp further comprises clamping blocks, and the clamping blocks are arranged at two ends of the clamping plate along the second direction and used for clamping the installation piece on the cable.

The utility model also provides a sensor processing equipment, include:

the scoring device of any one of the above embodiments;

the cutting device is used for cutting the excess material at the head part of the sensor and is provided with a cutting workbench;

a frame, which is provided with a main working table, wherein,

the cutting workbench and the scribing workbench are arranged on the main workbench, and workers can cut the excess materials and scribe on the cables at the same station.

Optionally, the cutting table and the scribing table are disposed on the main table along an extending direction of the cable.

As above, the utility model provides a pair of marking device is through setting up the backplate on the marking off workstation to the subassembly setting of marking off will be marked off on the backplate, with the cable anchor clamps setting on the marking off workstation, can realize automatic marking off, whole marking off process easy operation has not only avoided the problem that the manual work is marked off and is makeed mistakes easily, has also promoted marking off efficiency simultaneously.

Further, the utility model provides a pair of sensor processing equipment sets up cutting device and marking device in same frame, not only can reduce the area of equipment, practices thrift the space, only needs a staff just can carry out cutting process and marking off processing at this station moreover, reduces operating personnel, reduces the cost of labor, has promoted work efficiency.

In order to make the aforementioned and other objects of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 schematically illustrates a block diagram of a sensor in accordance with the present invention;

fig. 2 schematically shows an overall structure diagram of a sensor processing apparatus of the present invention;

fig. 3 schematically shows a partial structure view of a sensor processing apparatus of the present invention;

fig. 4 is a schematic diagram showing a structure of a cutting device in a sensor processing apparatus according to the present invention;

FIG. 5 is a schematic diagram illustrating a clamp assembly of a sensor processing apparatus according to the present invention;

FIG. 6 is a schematic diagram illustrating a clamp assembly of a sensor processing apparatus according to the present invention;

FIG. 7 schematically illustrates a block diagram of a cutting assembly in a sensor processing apparatus according to the present invention;

fig. 8 schematically shows a structure diagram of a scribing apparatus of the present invention.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. While the invention will be described in conjunction with the preferred embodiments, it is not intended that features of the invention be limited to only those embodiments. On the contrary, the intention of implementing the novel features described in connection with the embodiments is to cover other alternatives or modifications which may be extended based on the claims of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be practiced without these particulars. Furthermore, some of the specific details are omitted from the description so as not to obscure or obscure the present invention.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, in the present embodiment, the sensor 4 includes a sensor head 40 and a cable 41, and the sensor head 40 is mainly formed by injection molding in the production process. During injection molding, raw materials are injected into an injection molding cavity in the mold through an injection molding port in the mold, so that the raw materials form a shell 400 of the sensor head 40 according to the shape of the injection molding cavity in the mold, and a flange 402 is injected on the shell 400 and used for mounting the sensor head 40. After injection molding, the excess material 401 is formed at the position and some parts of the injection opening, and the excess material 401 needs to be cut off in subsequent processing. In addition, in order to facilitate installation and use of the sensor 4, in a production process of the sensor 4, a marking line is often required to be marked on the cable 41 of the sensor 4, and meanwhile, a horn-shaped installation part 42 is further arranged on the cable 41 of the sensor 4, so that the cable 41 is convenient to fix and arrange.

Referring to fig. 2-8, an embodiment of the present invention provides a sensor processing apparatus 1, including: the cutting device 2 is used for cutting the excess material 401 of the sensor head 40 and is provided with a cutting workbench 20; a scribing device 3 for scribing a wire 41 of the sensor 4, provided with a scribing table 30; the frame 10 is provided with a main workbench 11, wherein the cutting workbench 20 and the scribing workbench 30 are both arranged on the main workbench 11, and a worker can cut the excess materials 401 and scribe on the cable 41 at the same station.

That is to say, the sensor processing equipment 1 mainly comprises a frame 10, a cutting device 2 and a scribing device 3, wherein a main workbench 11 is arranged on the frame 10, a main control box 12 is arranged in the frame 10, the cutting device 2 is provided with a cutting workbench 20, the scribing device 3 is provided with a scribing workbench 30, the cutting workbench 20 and the scribing workbench 30 are both arranged on the main workbench 11, and a worker can cut the excess materials 401 at the same station and scribe lines on the cable 41. Set up cutting device 2 and marking device 3 in same frame 10, not only can reduce the area of equipment, practice thrift the space, only need a staff in addition just can carry out cutting process and marking off processing at this station, reduce operating personnel, reduce the cost of labor, promote work efficiency.

It should be noted that the "station" refers to a position where a worker is located to perform a certain process, that is, the worker can perform a series of processing processes in the station. In this embodiment, the station refers to a working position or a working area where a worker performs cutting and scribing on one side of the rack.

Alternatively, in order to facilitate the operation of the worker, referring to fig. 3 in combination with fig. 1 to 2, in the present embodiment, the cutting table 20 and the scribing table 30 are disposed on the main table 11 along the extending direction (as indicated by the L direction in fig. 1) of the wire 41. In other embodiments, the cutting table and the setting position of marking off workstation on the main workstation can carry out reasonable setting according to actual need, and is concrete, can set up according to the size of main workstation, staff's operation custom and the concrete structure of sensor, as long as the staff operation of being convenient for can, the utility model discloses do not injecing this.

Further, referring to fig. 4 in conjunction with fig. 3 and 5-7, in the present invention, the cutting device 2 includes a clamp assembly 21 disposed on the cutting table 20 for clamping the sensor head 40; the cutting assembly 22 is arranged in the cutting workbench 20 and comprises a driving part 23 and a cutting part 220, wherein a driving shaft 233 of the driving part 23 is connected with the cutting part 220 and used for driving the cutting part 220 to cut the excess material 401 on the sensor head 40, the cutting part 220 is located below the clamp assembly 21 along a first direction (shown as a Z direction in fig. 3), and the excess material 401 can penetrate through the clamp assembly 21 along the first direction.

Specifically, referring to fig. 4 in combination with fig. 3, in the present embodiment, the cutting device 2 mainly comprises a clamp assembly 21 and a cutting assembly 22, the clamp assembly 21 is disposed on the cutting table 20 and can clamp the sensor head 40, so that the sensor head 40 does not shake when cutting the remainder 401, and the stability and accuracy of the cutting process are ensured. The cutting assembly 22 is disposed in the cutting table 20, and mainly includes a driving portion 23 and a cutting member 220, the cutting member 220 is connected to a driving shaft 233 of the driving portion 23, and can cut the remainder 401 on the sensor head 40 under the driving of the driving shaft 233.

In this embodiment, the cutter 220 is positioned below the jig assembly 21 in the first direction, and the surplus material 401 can pass through the jig assembly 21 in the first direction. That is, in the first direction, the clamp assembly 21 is disposed above the cutting member 220, and the slug 401 can pass through the clamp assembly 21, i.e., the sensor head 40 can partially pass through the clamp assembly 21, such that the slug 401 on the sensor head 40 is adjacent to the cutting member 220, facilitating the cutting member 200 to cut the slug 401. In this embodiment, the first direction is vertical direction, and in the first direction, cutting member 220 is located the below of anchor clamps subassembly 21, and cutting member 220 can be located anchor clamps subassembly 21 under, also can be located the oblique below of anchor clamps subassembly 21, the utility model discloses do not injecing this, can set up according to actual need as long as can be convenient for cutting member cutting clout can.

Referring to fig. 4-6, in the present invention, the clamp assembly 21 includes: a fixing portion 210 provided on the cutting table 20 and provided with a chamber 211 for accommodating the sensor head 40; a movable portion 27 movably disposed on the fixing portion 210 along a second direction (shown as Y direction in fig. 3) for clamping the sensor head 40.

That is, the clamp assembly 21 includes a fixed portion 210 disposed on the cutting table 20 and a movable portion 27 movably disposed on the fixed portion 210, the movable portion 27 is used for clamping the sensor head 40, and the fixed portion 210 is provided with a cavity 211 for accommodating the sensor head 40. In use, the end of the sensor head 40 with the remainder 401 is inserted into the cavity 211 of the fixing portion 210 along a first direction, so that the remainder 401 passes through the fixing portion 210, extends below the fixing portion 210, and is close to the cutting member 220, so that the cutting member 220 can cut the remainder 401 quickly and efficiently.

It should be noted that, the utility model discloses do not restrict the concrete shape of cavity on the fixed part, can carry out reasonable setting according to actual need, as long as can be reliable and stable hold the sensor head can.

Specifically, referring to fig. 5 to 6, in this embodiment, the chamber 211 includes a first chamber 212 and a second chamber 213, the first chamber 212 is located at an upper portion of the second chamber 213 along the first direction, the first chamber 212 is configured to accommodate a flange 402 on the sensor head 40, the second chamber 213 is configured to accommodate a housing 400 of the sensor head 40, the remainder 401 can sequentially pass through the first chamber 212 and the second chamber 213 and pass out from a bottom of the fixing portion 210, and the movable portion 27 can clamp the sensor head 40 along the second direction, so as to limit the movement of the sensor head 40 in the first direction.

In the process of clamping the sensor head 40 into the clamp assembly 21, the end of the sensor head 40 with the remainder 401 is inserted into the first cavity 212 and the second cavity 213 in sequence along the first direction and extends below the fixing portion 210, so that the remainder 401 is close to the cutting member 220, and the cutting member 220 can cut the remainder 401 quickly and efficiently. After the clamping is completed, the flange 402 on the sensor head 40 is located in the first cavity 212, the housing 400 of the sensor head 40 is located in the second cavity 213, and at the same time, the movable part 27 is pushed in the second direction, so that the movable part 27 can clamp the end of the sensor head 40 extending out of the fixed part 210 and the flange 402 on the sensor head 40, the movement of the sensor head 40 in the first direction is limited, and the sensor head 40 can be ensured to be stable during the cutting process.

Further, referring to fig. 5 to 6, in the present invention, a first guiding element 214 is disposed on the fixing portion 210, the first guiding element 214 is disposed along the second direction, a first sliding element 215 capable of sliding along the first guiding element 214 is disposed on the first guiding element 214, and the movable portion 27 is disposed on the first sliding element 215. That is, the movable portion 27 is movably provided on the fixed portion 210 by the first guide 214 and the first slider 215, and the first guide 214 and the first slider 215 can guide the movable portion 27 to move in the second direction. In operation, the movable portion 27 is pushed in the second direction, and the movable portion 27 can move in the second direction stably and reliably under the guidance of the first guide 214 and the first sliding member 215, so that the movable portion 27 can better clamp the sensor head 40.

It should be noted that, the present invention does not limit the specific structure and type of the first guiding element and the first sliding element, and can be set reasonably according to actual needs. Specifically, first guide and first slider can be slider and guide rail, also can be slider and guide arm, can also be slider and ball screw, can be electronic, also can be manual, as long as can guide the movable part motion can, the utility model discloses do not restrict to this.

Referring to fig. 5 to 6, in the present invention, the movable portion 27 includes a movable plate 270 disposed on the first sliding member 215; an upper clamping plate 271, disposed on the movable plate 270, extending along a second direction and located between the fixed portion 210 and the movable plate 270; and a lower card 272 fixedly connected to the movable plate 270 through a connecting plate 273, wherein the lower card 272 extends along the second direction and is located below the fixed portion 210, and the connecting plate 273 extends along the first direction and is located at one side of the fixed portion 210.

That is to say, in the present embodiment, the movable portion 27 mainly includes a movable plate 270, an upper plate 271 and a lower plate 272, the movable plate 270 is disposed on the first sliding member 215, the upper plate 271 is disposed on the movable plate 270 along the second direction, the lower plate 272 is fixedly connected to the movable plate 270 through a connecting plate 273, the lower plate 272 extends along the second direction and is located below the fixed portion 210, the upper plate 271, the lower plate 272 and the connecting plate 273 together form a "U" shaped structure opened along the second direction, and the whole is clamped on the fixed portion 210 and can move along the second direction under the driving of the movable portion 27. The movable part 27 is provided with a handle 274, and the movable part 27 can be conveniently pushed to move by operating the handle 274, so that the operation is convenient and the structure is stable.

Further, in order to ensure that the movable portion can move along the second direction better and clamp the sensor head better, referring to fig. 5-6, in this embodiment, the lower end of the fixed portion 210 is provided with a guide plate 216, the guide plate 216 is provided with a guide slot 217, the guide slot 217 extends along the second direction and is communicated with the chamber 211 on the fixed portion 210, and one end of the lower clamping plate 272 extends into the guide slot 217 and can penetrate into the lower end of the chamber 211 to clamp the sensor head 40. When the movable portion 27 moves, the guide groove 217 can guide the lower clamping plate 272 to stably move along the second direction, so that the lower clamping plate 272 can reliably clamp the sensor head 40. Meanwhile, the guide groove 217 can also limit the lower clamping plate 272, so that the lower clamping plate 272 is prevented from shaking in the cutting process of the excess material 401.

In addition, in order to automatically release the sensor head after the cutting of the remainder is completed, as shown in fig. 5 to 6, in the present embodiment, a spring 275 is provided between the guide plate 216 and the lower catch plate 272, and the spring 275 can further release the sensor head 40 by pushing the lower catch plate 272 after the release of the movable portion 27. Here, the "movable portion is released" refers to a state in which, after the cutting of the discard 401 is completed, the worker releases the movable portion 27 or the first slider 215 releases the movable portion 27 so that the movable portion 27 can be automatically moved in the second direction by the spring 275.

Referring to fig. 4 to 6, in the present invention, a first movement sensor is disposed on the movable portion 27 for detecting a position of the movable portion 27 moving in the second direction, so as to determine whether the movable portion 27 is clamped to the sensor head 40. That is, the first movement sensor is provided on the movable portion 27, and can detect the position at which the movable portion 27 moves, and further determine whether or not the movable portion 27 is gripping the sensor head portion 40.

It is required to say that, the utility model discloses do not restrict the concrete structure and the type of first motion sensor, can carry out reasonable selection according to actual need and designing requirement. Referring to fig. 4 to 6, in the present embodiment, the first movement sensor is a groove-type photoelectric switch 26, and includes a plurality of groove-type sensing blocks 261 and a plurality of shifting pieces 260, the plurality of groove-type sensing blocks 261 are fixedly disposed on the cutting table 20, the shifting pieces 260 are disposed on the movable plate 270 of the movable portion 27, and the plurality of groove-type sensing blocks 261 are disposed at intervals within a movement range of the shifting pieces 260. The movable part 27 can trigger the groove-shaped induction blocks 261 at different positions through the shifting sheet 260 on the movable plate 270 in the moving process, the position of the movable part 27 can be detected by judging the position of the triggered groove-shaped induction blocks 261, and then whether the movable part 27 clamps the sensor head 40 or not can be judged, the judging process is accurate and reliable, and the installation and the use are convenient.

Referring to fig. 4 and 7, in the present invention, the driving portion 23 includes a driver 230 and a mounting platform 24, and the driver 230 is disposed on the mounting platform 24 along the second direction. That is, the driving part 23 is mainly composed of the driver 230 and the mounting platform 24, the mounting platform 24 is used for mounting the driver 230, and the driver 230 is provided on the mounting platform 24 along the second direction. In the present embodiment, the driver 230 is a driving motor, and the driving shaft 233 of the driving portion 23 is connected to the cutting member 220 for driving the cutting member 220 to cut the residue 401 on the sensor head 40. In other embodiments, the driver may have other structures and types, which are not limited by the present invention.

Further, referring to fig. 4 and 7 in conjunction with fig. 2, in the present embodiment, the mounting platform 24 includes a base plate 240 for supporting the driver 230; and a mounting plate 241 disposed on the base plate 240 for mounting the driver 230, wherein the mounting plate 241 is disposed on the base plate 240 through an adjusting mechanism 25, and the adjusting mechanism 25 is used for adjusting the position of the mounting plate 241 on the base plate 240 along a third direction (as shown in the X direction in fig. 3 and 4).

That is to say, the mounting platform 24 mainly includes a bottom plate 240 and a mounting plate 241, the bottom plate 240 is disposed on the frame 10 through the support frame 13, the mounting plate 241 is disposed on the bottom plate 240, an adjusting mechanism 25 is disposed between the mounting plate 241 and the bottom plate 240, the adjusting mechanism 25 is disposed along a third direction, and is configured to drive the mounting plate 241 to move on the bottom plate 240 along the third direction, and adjust the position of the mounting plate 241 on the bottom plate 240, the driver 230 is mounted on the mounting plate 241, the driving shaft 233 of the driving portion 23 is connected to the cutting member 220, and the position of the mounting plate 241 on the bottom plate 240 is adjusted through the adjusting mechanism 25, so that the distance between the cutting member 220 and the remainder 401 on the sensor head 40 is adjusted in the third direction, and the cutting member 220 can better cut the remainder 401.

Referring to fig. 4 and 7, in the present embodiment, the adjustment mechanism 25 includes an adjustment driving part 250 and an adjustment guide part 251, and the adjustment driving part 250 is used to adjust the position of the mounting plate 241 on the bottom plate 240 in the third direction while being guided by the adjustment guide part 251.

Specifically, in the present embodiment, the adjustment driving portion 250 includes an adjustment driving motor 254, an adjustment driving screw 256 and an adjustment driving block 255, wherein the adjustment driving screw 256 is disposed below the mounting plate 241 along the third direction and between the mounting plate 241 and the bottom plate 240, one end of the adjustment driving screw 256 is connected to the adjustment driving motor 254, the other end of the adjustment driving screw passes through the adjustment driving block 255 and is connected to a bearing frame disposed on the bottom plate 240, and the adjustment driving block 255 is fixedly disposed at the bottom of the mounting plate 241. During adjustment, the adjustment driving motor 254 drives the adjustment driving screw 256 to rotate, and under the driving of the adjustment driving screw 256, the adjustment driving block 255 and the mounting plate 241 move along the third direction under the guiding of the adjustment guiding portion 251, so that the driver 230 and the cutting member 220 mounted on the mounting plate 241 can approach to the residue 401 on the sensor head 40 along the third direction, and automatic adjustment of the distance between the cutting member 220 and the residue 401 is realized.

Specifically, in the present embodiment, the adjustment guide portion 251 includes an adjustment guide rail 252 and an adjustment guide groove 253, the adjustment guide rail 252 is disposed on the bottom plate 240 along the third direction, the adjustment guide groove 253 is disposed at a lower portion of the mounting plate 241 along the third direction, and the adjustment guide groove 253 is engaged with the adjustment guide rail 252. When the adjusting driving part 250 drives the mounting plate 241 to move along the third direction, the mounting plate 241 can accurately move along the third direction under the guidance of the adjusting guide rail 252 and the adjusting guide groove 253, so that the cutting member 220 mounted on the mounting plate 241 can more accurately and reliably approach the residue 401 on the sensor head 40.

Further, as shown in fig. 4, in the present invention, a second moving sensor is disposed on the mounting plate 241 for detecting the position where the mounting plate 241 moves, and it can be determined whether the cutting member 220 connected to the driver 230 completely cuts the remainder 401 on the sensor head 40.

What need to say, the utility model discloses do not restrict the concrete structure and the type of second motion sensor, can carry out reasonable selection according to actual need and designing requirement. Referring to fig. 4, in the present embodiment, the second movement sensor is a groove-type photoelectric switch 26, and includes a plurality of groove-type sensing blocks 261 and a plurality of groove-type sensing blocks 260, the plurality of groove-type sensing blocks 261 are fixedly disposed on the bottom plate 240, the dial 260 is disposed on the mounting plate 241, and the plurality of groove-type sensing blocks 261 are disposed at intervals within a movement range of the dial 260. Mounting panel 241 can trigger the recess type induction block 261 on the different positions through plectrum 260 on mounting panel 241 at the removal in-process, just can detect the position that mounting panel 241 removed through the position of judging the recess type induction block 261 that is triggered, and then can judge whether cutting piece 220 on mounting panel 241 cuts clout 401 on the sensor head 40 completely, and the judgement process is accurate reliable, is convenient for install and use.

Further, referring to fig. 3 and 8, in the present invention, the scribing device 3 includes a back plate 300 disposed at one side of the scribing table 30 along a first direction; a scribing assembly 31 provided on the back plate 300 in a second direction, movable in the first direction and the second direction, for scribing a line on the cable 41; and a cable clamp 32 provided on the scribing table 30 along the second direction for clamping the cable 41, wherein the cable clamp 32 is located below the scribing assembly 31 along the first direction.

That is, the scribing device 3 mainly includes a back plate 300, a scribing assembly 31 and a cable clamp 32, wherein the back plate 300 is disposed on one side of the scribing table 30 along a first direction, the scribing assembly 31 is disposed on the back plate 300 along a second direction, is located on the side of the back plate 300 facing the worker, can be close to and far away from the cable 41 along the first direction, and can also scribe a line on the cable 41 along the second direction. The cable clamp 32 is provided on the scribing table 30 for clamping the cable 41, and the cable clamp 32 is located below the scribing assembly 31 in the first direction, and the two are arranged in parallel.

Referring to fig. 3 and 8, in the present embodiment, the scribing component 31 includes a second guide 310 disposed on the back plate 300 along the second direction, a second sliding member 311 is disposed on the second guide 310, the second sliding member 311 is capable of moving along the second guide 310, and a third sliding member 313 is disposed on the second sliding member 311; a third guide 312 provided on the second slider 311 in the first direction, the third slider 313 being movable under the guide of the third guide 312; the scribing pen holder 314 is arranged on the third sliding part 313 along the first direction and can move along the second direction and the first direction under the driving of the second sliding part 311 and the third sliding part 313.

Specifically, in the present embodiment, the scribing assembly 31 mainly includes a second guide 310, a third guide 312 and a scribing pen holder 314, the second guide 310 is disposed on the back plate 300 along the second direction, the second guide 310 is provided with a second sliding member 311, the second sliding member 311 is capable of moving along the second guide 310, the second sliding member 311 is provided with a third guide 312 and a third sliding member 313, the third guide 312 is disposed along the first direction, the third sliding member 313 is provided with the scribing pen holder 314, the third sliding member 313 is capable of moving along the third guide 312 with the scribing pen holder 314, so that the scribing pen holder 314 can move close to and away from the cable 41 along the first direction, and a scribing pen (not shown), such as a paint pen or the like, for scribing on the cable 41 is mounted on the scribing pen holder 314.

During scribing, the second slider 311 carries the third guide 312, the third slider 313 and the scribing pen holder 314 along the second guide 310, so that the scribing pen holder 314 moves to the start end of the cable 41 to be scribed in the second direction. Thereafter, the third slider 313 carries the scribe pen holder 314 along the third guide 312 in a direction to approach the cable 41, so that the scribe pen on the scribe pen holder 314 approaches the cable 41 until the scribe pen comes into contact with the cable 41. Then, the second slider 311 moves along the second guide 310 with the third guide 312, the third slider 313, and the marker holder 314, so that the marker on the marker holder 314 marks a line on the cable 41. Lines of different lengths or different colors can be drawn on the cable 41 according to the identification requirement of the performance of the cable 41, so as to facilitate the identification and installation of the cable 41. After the scribing is completed, the third slider 313 carries the scribing pen holder 314 along the third guide 312 to move in a direction away from the cable 41, so that the scribing pen on the scribing pen holder 314 is separated from the cable 41 and returns to the original state. The whole scribing process is simple to operate, automatic scribing can be achieved, and scribing efficiency is improved.

It should be noted that the utility model discloses do not restrict the concrete structure of second guide, second slider, third guide and third slider, can set up according to actual need, as long as can drive along first direction and second direction and rule the pen stand and remove can. In this embodiment, second guide and third guide are electronic guide rail, and second slider and third slider are electronic slider, and in other embodiments, second guide and third guide also can be the lead screw, and second slider and third slider can be for having the slider of ball, can be electronic, also can be manual, the utility model discloses do not limit to this.

Further, referring to fig. 3 and 8, in the present invention, the cable clamp 32 includes a wire clamping groove 320, the wire clamping groove 320 extends along the second direction for clamping the cable 41, and the wire clamping groove 320 is formed by splicing the wire clamping plates 321. In this embodiment, the wire clamping groove 320 is mainly formed by two wire clamping plates 321 which are arranged oppositely, and the width of the wire clamping groove 320 is approximately equal to the outer diameter of the cable 41, so as to clamp the cable 41, avoid abnormal movement of the cable 41 in the scribing process, and ensure that the scribing pen can scribe accurately.

Meanwhile, for better fixing the cable, referring to fig. 3 and 8, in the present embodiment, the cable clamp 32 further includes clamping blocks 322, and the clamping blocks 322 are disposed at both ends of the clamping plate 321 in the second direction for clamping the trumpet 42 on the cable 41.

As for, be applied to the technical scheme of the utility model, the utility model provides a pair of marking device is through setting up the backplate on marking off the workstation to marking off the subassembly setting on the backplate, with the cable anchor clamps setting on marking off the workstation, can realize automatic marking off, whole marking off process easy operation has not only avoided the problem that artifical marking off makes mistakes easily, has also promoted marking off efficiency simultaneously.

Further, the utility model provides a pair of sensor processing equipment sets up cutting device and marking device in same frame, not only can reduce the area of equipment, practices thrift the space, only needs a staff just can carry out cutting process and marking off processing at this station moreover, reduces operating personnel, reduces the cost of labor, has promoted work efficiency.

To sum up, the above embodiments provided by the present invention are merely illustrative of the principles and effects of the present invention, and are not intended to limit the present invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (6)

1. A scribing apparatus for scribing a line on a cable of a sensor, comprising:

a scribing worktable;

a back plate disposed at one side of the scribing worktable along a first direction;

the scribing component is arranged on the back plate along a second direction, can move in the first direction and the second direction and is used for scribing lines on the cables;

a cable clamp provided on the scribing table along the second direction for clamping the cable, wherein,

along the first direction, a cable clamp is located below the scribe assembly.

2. The scoring device recited in claim 1 wherein said scoring assembly comprises:

the second guide piece is arranged on the back plate along the second direction, a second sliding piece is arranged on the second guide piece, the second sliding piece can move along the second guide piece, and a third sliding piece is arranged on the second sliding piece;

the third guide piece is arranged on the second sliding piece along the first direction, and the third sliding piece can move under the guidance of the third guide piece;

and the scribing pen seat is arranged on the third sliding part along the first direction and can move along the second direction and the first direction under the driving of the second sliding part and the third sliding part.

3. The line striping apparatus of claim 1, wherein the cable clamp comprises a clamping slot extending in the second direction for clamping a cable, the clamping slot being formed by splicing together clamping plates.

4. The scoring device recited in claim 3 wherein the cable clamp further comprises clamping blocks disposed at both ends of the clamp plate in the second direction for clamping a mount on a cable.

5. A sensor processing apparatus, comprising:

the scoring device of any one of claims 1-4;

the cutting device is used for cutting the excess material at the head part of the sensor and is provided with a cutting workbench;

a frame, which is provided with a main working table, wherein,

the cutting workbench and the scribing workbench are arranged on the main workbench, and workers can cut the excess materials and scribe on the cables at the same station.

6. The sensor processing apparatus of claim 5, wherein the cutting table and the scribing table are disposed on the main table along an extending direction of the cable.

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