CN219565788U - Labeller - Google Patents

Abstract

The embodiment of the utility model discloses a labeling machine, which comprises a frame, a material conveying module, a guide module, a material stripping module, a rolling module and a material taking and attaching module, wherein the material conveying module, the rolling module, the guide module, the material stripping module and the material taking and attaching module are all arranged on the frame, the material conveying module is used for conveying a first material belt to the guide module, the guide module is used for guiding the first material belt to move along a first direction, the material stripping module comprises a material stripping part and a material receiving part connected with the material stripping part, a gap is formed between the guide module and the material stripping part, the first material belt comprises a first belt body and a plurality of foam cotton distributed on the first belt body, the first belt body passes through the gap in the process of moving the first material belt into the gap, the material stripping part is abutted against the foam so as to strip the foam cotton from the first belt body to the material receiving part, the rolling module rolls the first belt body passing through the gap, and the material taking and attaching module can transfer and attach the foam located on the material receiving part to a workpiece, and the working efficiency is improved.

Description

Labeller

Technical Field

The utility model relates to the technical field of labeling, in particular to a labeling machine.

Background

In the prior art, foam is manually pasted in the hard disk box, a plurality of foam is required to be pasted in each hard disk box, the foam can be used for filling some space in the hard disk box, static electricity can be effectively prevented from being generated in the hard disk box, however, when the number of the hard disk boxes is large, the working efficiency is easily reduced by adopting a working mode of manually pasting the foam, and then the normal operation of the next working procedure is delayed.

Disclosure of Invention

The utility model aims to provide a labeling machine, and aims to solve the technical problem that the working efficiency is easily affected when the existing manual operation is used for sticking foam to a hard disk box, so that the normal operation of the next procedure is delayed.

In a first aspect, the present utility model provides a labelling machine comprising: the device comprises a frame, a material conveying module, a guiding module, a material stripping module, a rolling module and a material taking and attaching module, wherein the material conveying module, the rolling module, the guiding module, the material stripping module and the material taking and attaching module are all arranged on the frame, the material conveying module is used for conveying a first material belt to the guiding module, the guiding module is used for guiding the first material belt to move along a first direction, the material stripping module comprises a material stripping part and a material connecting part connected with the material stripping part, gaps are reserved between the guiding module and the material stripping part, and the first material belt comprises a first belt body and a plurality of foam cotton distributed on the first belt body;

in the process that the first material belt moves in the gap, the first belt body passes through the gap, the stripping part is propped against the foam, so that the foam is stripped from the first belt body to the receiving part, the winding module winds the first belt body passing through the gap, and the material taking and attaching module can transfer and attach the foam positioned on the receiving part to a workpiece.

Preferably, the material receiving part is provided with a plurality of material receiving grooves, each material receiving groove is used for receiving foam, and the material stripping module further comprises a sensing piece, wherein the sensing piece is used for sensing the foam in the material receiving groove.

Preferably, the stripping module further comprises an adjusting assembly, the frame comprises a base, the receiving part is mounted on the base through the adjusting assembly, and the adjusting assembly is used for adjusting the height of the stripping part relative to the base so as to adjust the gap size between the guide module and the stripping part.

Preferably, the adjusting part comprises a fixing seat, an adjusting part, a connecting block and a spring screw, wherein the connecting block is connected with the material receiving part, the connecting block and the fixing seat are sleeved with the spring screw and are in threaded connection with the spring screw, the spring screw is rotated to drive the connecting block to drive the material receiving part to move so as to adjust the height of the material stripping part to the base, the fixing seat is provided with an adjusting groove, the material receiving part is provided with a through hole, and the adjusting part can penetrate through the adjusting groove and the through hole so as to enable the material receiving part to be fixedly connected with the fixing seat in a butt manner.

Preferably, the guide module comprises a guide table and a limiting assembly, the guide table is used for conveying the first material belt, the limiting assembly is provided with two parts, the two parts are oppositely arranged at two ends of the guide table, and the two parts are mutually matched so as to guide the first material belt to move along the first direction.

Preferably, the guide table is provided with a plurality of groups of pre-judging holes, each group of pre-judging holes are distributed on the guide table at intervals along the second direction, each group of pre-judging holes are arranged in one-to-one correspondence with each receiving groove, each group of pre-judging holes are used for pre-judging each foam cotton to fall into the receiving groove after being peeled off, and the first direction is perpendicular to the second direction.

Preferably, the material taking and attaching module comprises a first rotating part, a second rotating part, a third rotating part and a cotton absorbing assembly, wherein the first rotating part is arranged on the frame, two ends of the second rotating part are respectively connected with the first rotating part and the third rotating part, the first rotating part can drive the second rotating part to rotate, the second rotating part can drive the third rotating part to rotate, the cotton absorbing assembly is connected with the third rotating part, the third rotating part can drive the cotton absorbing assembly to rotate, and the cotton absorbing assembly is used for absorbing and releasing foam.

Preferably, the labeling machine further packages a turntable module, the turntable module comprises a turntable body and a driving piece, the turntable body is provided with a plurality of stations for processing workpieces, the driving piece is in transmission connection with the turntable body so as to drive the turntable body to rotate, and the turntable body can drive the workpieces to move to the material taking and attaching module.

Preferably, the labeler further comprises a feeding and receiving assembly, a feeding assembly and a pasting assembly, the feeding and receiving assembly, the feeding assembly and the pasting assembly are both mounted on the frame, the feeding and receiving assembly is used for conveying a second material belt to the feeding assembly, the feeding assembly is used for conveying the second material belt to the pasting assembly, the second material belt comprises a second belt body and a plurality of two-dimensional codes distributed on the second belt body, the pasting assembly can absorb the two-dimensional codes on the second material belt and paste the two-dimensional codes to the workpiece, and the feeding and receiving assembly is further used for winding the second belt body passing through the pasting assembly.

Preferably, the labeler further comprises a display, and the display is used for displaying and controlling the working state of the labeler.

The embodiment of the utility model has the following beneficial effects:

according to the labeling machine disclosed by the utility model, the first material belt is conveyed to the guide module by the material conveying module, the gap is formed between the guide module and the material stripping part, the first belt body can pass through the gap in the process of moving the first material belt into the gap, the material stripping part can be abutted against foam cotton so as to strip the foam cotton from the first belt body to the material receiving part, the rolling module is used for rolling the first belt body passing through the gap, the material taking and attaching module can transfer and attach the foam cotton positioned on the material receiving part to a workpiece, the foam cotton on the first material belt is not required to be peeled off and attached to the workpiece manually, the working efficiency is improved, and the normal operation of the next procedure is ensured.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

fig. 1 is a schematic diagram of a labelling machine in one embodiment.

Fig. 2 is a schematic diagram of a part of the structure of the labeling machine shown in fig. 1.

Fig. 3 is a schematic view of a part of the structure of the labeling machine shown in fig. 2.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a schematic view of a portion of the construction of the labelling machine of fig. 2 from another perspective.

Fig. 6 is a schematic diagram II of a part of the structure of the labeling machine shown in fig. 1.

Reference numerals: 10. a frame; 11. a base; 12. a protective cover; 20. a display; 30. an electrical box assembly; 40. an alarm lamp; 100. a material conveying module; 110. a reel; 120. a fixed block; 130. a connecting flange; 140. a drum shaft; 200. a guide module; 210. a slit; 220. a guide table; 230. a limit component; 240. pre-judging holes; 300. a stripping module; 310. a stripping part; 320. a receiving part; 321. a receiving groove; 340. an adjustment assembly; 341. a fixing seat; 342. an adjustment groove; 343. a connecting block; 344. a spring screw; 400. a winding module; 500. a material taking and attaching module; 510. a first rotating member; 520. a second rotating member; 530. a third rotating member; 540. a cotton suction assembly; 550. a solenoid valve control assembly; 600. a turntable module; 610. a turntable body; 620. a driving member; 630. an optoelectronic switch; 700. a feeding and receiving assembly; 710. a roller set; 720. a traction motor; 730. a discharging disc; 740. a material receiving disc; 750. a traction member; 800. a material conveying component; 810. a pushing plate; 820. a pushing cylinder; 830. a pushing head; 840. a pressing cylinder; 900. a pasting component; 910. labeling air cylinders; 920. and (5) labeling the header.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are correspondingly changed.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The embodiment of the utility model provides a labeling machine which is mainly used for sticking foam and/or two-dimensional codes to workpieces such as hard disk boxes.

Referring to fig. 1 to 5, a labeling machine according to an embodiment includes a frame 10, a feeding module 100, a guiding module 200, a stripping module 300, a winding module 400, and a material taking and attaching module 500, where the feeding module 100, the winding module 400, the guiding module 200, the stripping module 300, and the material taking and attaching module 500 are all disposed on the frame 10, the feeding module 100 is used for conveying a first material belt to the guiding module 200, the guiding module 200 is used for guiding the first material belt to move along a first direction, the stripping module 300 includes a stripping portion 310, and a connecting portion 320 connected to the stripping portion 310, a gap 210 is provided between the guiding module 200 and the stripping portion 310, and the first material belt includes a first belt body and a plurality of foam cotton distributed on the first belt body;

in the process that the first material belt moves into the gap 210, the first belt body passes through the gap 210, the stripping part 310 is propped against the foam to strip the foam from the first belt body to the receiving part 320, the winding module 400 winds the first belt body passing through the gap 210, and the material taking and attaching module 500 can transfer and attach the foam located on the receiving part 320 to a workpiece.

It can be appreciated that the conveying module 100 conveys the first material belt to the guiding module 200, a gap 210 is formed between the guiding module 200 and the stripping part 310, the first belt body can be abutted against foam through the gap 210 in the process that the first material belt moves into the gap 210, so that the foam is stripped from the first belt body to the receiving part 320, the winding module 400 winds the first belt body passing through the gap 210, the material taking and attaching module 500 can transfer and attach the foam located on the receiving part 320 onto a workpiece, the foam on the first material belt is not required to be peeled off and attached onto the workpiece manually, the working efficiency is improved, and the normal operation of the next procedure is ensured.

In an embodiment, referring to fig. 3 and 4, the receiving portion 320 is provided with a plurality of receiving slots 321, each receiving slot 321 is used for receiving foam, the stripping module 300 further includes a sensing member, the sensing member is electrically connected with the material taking and attaching module 500, the sensing member is used for sensing foam in the receiving slots 321, the foam peeled off by the stripping portion 310 can fall into the receiving slots 321, and the sensing member senses that foam in the receiving slots 321 can control the material taking and attaching module 500 to act, so that the foam in the receiving slots 321 can be transferred and attached to a workpiece through the material taking and attaching module 500.

Further, referring to fig. 5, the stripping module 300 further includes an adjusting assembly 340, the frame 10 includes a base 11, the receiving portion 320 is mounted on the base 11 through the adjusting assembly 340, the adjusting assembly 340 is used for adjusting a height of the stripping portion 310 relative to the base 11, so as to adjust a gap 210 between the guiding module 200 and the stripping portion 310, and by changing a size of the gap 210, foam with different specifications can be stripped by the stripping portion 310, so that suitability of the labeler for foam with different specifications is improved.

Still further, the adjusting assembly 340 includes a fixing base 341, an adjusting member, a connecting block 343 and a spring screw 344, the connecting block 343 is connected with the material receiving portion 320, the connecting block 343 and the fixing base 341 are all sleeved on the spring screw 344 and are all in threaded connection with the spring screw 344, the spring screw 344 is rotated to drive the connecting block 343 to drive the material receiving portion 320 to move, so as to adjust the height from the material stripping portion 310 to the base 11, the fixing base 341 is provided with an adjusting slot 342, the material receiving portion 320 is provided with a through hole, the adjusting member can penetrate the adjusting slot 342 and the through hole, so as to fix the material receiving portion 320 to the fixing base 341 in a butt manner, the spring screw 344 is rotated to drive the connecting block 343 to drive the material receiving portion 320 to rise or fall, so as to adjust the height of the material stripping portion 310 relative to the base 11, and then the adjusting member is connected with the slot wall of the adjusting slot 342 and the hole wall of the through hole, so as to fix the material receiving portion 320 in the adjusted position to the fixing base 341, thereby realizing the adjustment of the size of the gap 210 between the material stripping portion 310 and the guide module 200.

In an embodiment, the stripping module 300 further includes an optical fiber amplifier, where the optical fiber amplifier is used to detect the stripping position, so as to ensure stable and accurate stripping of the stripping portion 310.

In an embodiment, referring to fig. 2 to 4, the guide module 200 includes a guide table 220 and a limiting component 230, the guide table 220 is used for conveying a first material belt, the limiting component 230 is provided with two limiting components, and is relatively disposed at two ends of the guide table 220, the two limiting components 230 are mutually matched to guide the first material belt to move along a first direction, and the two limiting components 230 are provided to enable the first material belt to move only along the first direction, so that the first material belt is prevented from shifting in a moving process, and foam peeled off by the peeling part 310 is prevented from falling into the receiving groove 321.

Further, the guide table 220 is provided with a plurality of groups of pre-judging holes 240, the groups of pre-judging holes 240 are distributed on the guide table 220 at intervals along the second direction, the groups of pre-judging holes 240 are arranged in one-to-one correspondence with the receiving grooves 321, the groups of pre-judging holes 240 are used for pre-judging that the foam falls into the receiving grooves 321 after being peeled off, the first direction is perpendicular to the second direction, when the first material belt is positioned on the guide table 220, only when the foam needs to cover the pre-judging holes 240 below, the first material belt is positioned in the process of moving into the gaps 210, and the foam peeled by the peeling part 310 can fall into the receiving grooves 321 accurately.

In an embodiment, referring to fig. 2, the material taking and attaching module 500 includes a first rotating member 510, a second rotating member 520, a third rotating member 530 and a cotton absorbing assembly 540, where the first rotating member 510 is disposed on the frame 10, further, the frame 10 includes a robot fixing frame, the first rotating member 510 is disposed on the robot fixing frame, two ends of the second rotating member 520 are respectively connected with the first rotating member 510 and the third rotating member 530, the first rotating member 510 can drive the second rotating member 520 to rotate, the second rotating member 520 can drive the third rotating member 530 to rotate, the cotton absorbing assembly 540 is connected with the third rotating member 530, the third rotating member 530 can drive the cotton absorbing assembly 540 to rotate, and the cotton absorbing assembly 540 is used for absorbing and releasing foam, so that the cotton absorbing assembly 540 can rotate in multiple angles in space through the mutual cooperation among the first rotating member 510, the second rotating member 520 and the third rotating member 530, so as to adhere foam at different positions on a workpiece.

In this embodiment, the first rotating member 510, the second rotating member 520 and the third rotating member 530 form a scara (Selective Compliance Assembly Robot Arm, robot arm) material taking and attaching assembly, and the scara material taking and attaching assembly is a standard component.

The cotton sucking component 540 is a scara end jig component, and the scara end jig component is a standard component, so that different scara end jig components can be replaced according to different shapes, specifications and sizes of workpieces to be processed.

In one embodiment, the material taking and attaching module 500 further includes a solenoid valve control assembly 550, and the solenoid valve control assembly 550 is used to control the cotton sucking assembly 540 to work.

In one embodiment, the material conveying module 100 includes a feeding disc 110, a fixing block 120, a drum shaft 140 and a connecting flange 130, the feeding disc 110 is fixedly mounted on the frame 10 through the fixing block 120 and the connecting flange 130, the first material belt is disposed on the feeding disc 110, and the drum shaft 140 is used for conveying the first material belt to the guiding module 200.

In an embodiment, the material receiving module comprises a receiving disc and a stepping motor, wherein the stepping motor is connected with the receiving disc and drives the receiving disc to rotate so as to roll the second belt body.

In an embodiment, referring to fig. 1, the labeling machine further packages a turntable module 600, the turntable module 600 includes a turntable body 610 and a driving member 620, the turntable body 610 is formed with a plurality of stations for processing workpieces, the driving member 620 is in transmission connection with the turntable body 610 to drive the turntable body 610 to rotate, the turntable body 610 rotates to drive the workpieces to move to the material taking and attaching module 500, further, the turntable module 600 includes a plurality of photoelectric switches 630, each photoelectric switch 630 is arranged in one-to-one correspondence with each station and is electrically connected with the driving member 620, each photoelectric switch 630 is used for sensing the workpieces on each station, when a certain photoelectric switch 630 detects that a workpiece to be processed is placed on the corresponding station, the photoelectric switch 630 can control the driving member 620 to work, so that the driving member 620 drives the turntable body 610 to rotate until the workpiece to be processed rotates to the material taking and attaching module 500.

In this embodiment, the driving part 620 includes a driving motor and a cam divider, the driving motor is connected with the turntable body 610 through the cam divider, and the setting of the cam divider ensures that the driving motor can accurately drive the workpiece to rotate, so that the rotation positioning precision is high, and the accuracy of subsequent pasting of the two-dimensional code and/or foam is ensured.

In an embodiment, referring to fig. 6, the labeling machine further includes a feeding assembly 700, a feeding assembly 800 and a pasting assembly 900, where the feeding assembly 700, the feeding assembly 800 and the pasting assembly 900 are all installed on the frame 10, the feeding assembly 700 is used for conveying a second material belt to the feeding assembly 800, the feeding assembly 800 is used for conveying the second material belt to the pasting assembly 900, the second material belt includes a second belt body, and a plurality of two-dimensional codes distributed on the second belt body, the pasting assembly 900 can adsorb the two-dimensional codes on the second material belt and paste the two-dimensional codes to the workpiece, the feeding assembly 700 is also used for winding the second belt body passing through the pasting assembly 900, and automatic pasting of the two-dimensional codes on the workpiece such as a hard disk box is realized.

Further, the feeding and receiving assembly 700 includes a roller set 710, a traction motor 720, a discharging tray 730, a receiving tray 740 and a traction member 750, the discharging tray 730 is provided with a second material belt, the second material belt is wound on the roller set 710, the roller set 710 is used for conveying the second material belt to the feeding assembly 800, further, the roller set 710 includes four roller bodies, the traction motor 720 is connected with the traction member 750, the traction motor 720 drives the traction member 750 to draw, so that the second material belt body passing through the pasting assembly 900 can be moved to the receiving tray 740, and the receiving tray 740 is used for collecting the second material belt body.

The material conveying assembly 800 comprises a pushing plate 810, a pushing cylinder 820, a pushing head 830 and a pressing cylinder 840, wherein the pushing plate 810 is arranged above the pushing cylinder 820, the pushing head 830 is connected with the output end of the pushing cylinder 820, when the second material belt is conveyed to the pushing plate 810, the output shaft of the pressing cylinder 840 stretches to press the second material belt to the pushing plate 810, the pushing cylinder 820 pushes the pushing head 830 and the second material belt to move towards the pasting assembly 900, the pasting assembly 900 sucks the two-dimension code of the second material belt on the pushing head 830, and the two-dimension code is transferred and pasted to the workpiece.

The pasting component 900 comprises a pasting cylinder 910 and a pasting head 920 arranged at the output end of the pasting cylinder 910, the pasting head 920 is used for sucking or loosening the two-dimension code, when a workpiece needs to be pasted with the two-dimension code, the workpiece is placed on a station of the turntable body 610, the photoelectric switch 630 controls the driving part 620 to rotate when detecting the workpiece to be processed, so that the workpiece to be processed can rotate to the pasting head 920, when the two-dimension code on the second material belt is conveyed to the pasting head 920 through the conveying component 800, the pasting head 920 sucks the two-dimension code, the output end of the pushing cylinder drives the pushing head 830 to move away from the pasting component 900, meanwhile, the output end of the pasting cylinder 910 drives the pasting head 920 to move downwards until the workpiece to be processed on the turntable body 610, the pasting head 920 loosens the two-dimension code, and the two-dimension code is pasted onto the workpiece to be processed.

In this embodiment, after the two-dimensional code is pasted on the workpiece, the driving member 620 drives the turntable body 610 to rotate 45 ° so that the workpiece moves to the material taking and attaching module 500, and the workpiece is pasted with foam at the material taking and attaching module 500.

In this embodiment, the labeling head 920 is a vacuum adsorption structure, and the vacuum adsorption structure can ensure stable adsorption of the two-dimensional code.

In one embodiment, the labeling machine further comprises a display 20 and a warning lamp 40, wherein the display 20 is used for displaying and controlling the working state of the labeling machine. The user can know the working state of each part of the labeling machine through the display 20, and the alarm lamp 40 is used for sending alarm information.

The labeller can be according to the accurate location of program that complets, automatic completion pastes two-dimensional code label/bubble cotton gum, and automatic recording production quantity is put into the appointed electronic form of computer, the manual work is put into the revolving stage body 610 with waiting to process the work piece, revolving stage body 610 rotates and is waited to process work piece and rotates to paste mark head 920/get material laminating module 500 department, manual work and the perfect cooperation of arm, bar code and bubble cotton one-stop type paste, the attached position is accurate, high quality, stability is high, it is quick high-efficient, avoid attaching a series of problems such as crooked, bubble and fold, attached position irregularity, a equipment saves 5 manual works, because alleviateed the cost of labor, and then can reduce the processing cost of work piece, for manual pasting, the work piece aesthetic degree after the labeller is pasted is higher, the product competitiveness is stronger.

The main material of the labeling machine is made of an all-aluminum alloy material, and the whole structure is stable and attractive.

In one embodiment, referring to fig. 1, the labeling machine further comprises a protective cover 12, wherein the protective cover 12 is used for preventing the labeling machine from accident injury to personal safety of a user during operation.

In one embodiment, referring to fig. 1, the labeling machine further includes an electric box assembly 30, and a control switch, a power supply, a charging socket, and a heat dissipation fan are disposed in the electric box assembly 30.

In one embodiment, the labelling machine further comprises casters to facilitate movement of the device by a user.

The foregoing disclosure is illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. A labelling machine, comprising: the device comprises a frame, a material conveying module, a guiding module, a material stripping module, a rolling module and a material taking and attaching module, wherein the material conveying module, the rolling module, the guiding module, the material stripping module and the material taking and attaching module are all arranged on the frame, the material conveying module is used for conveying a first material belt to the guiding module, the guiding module is used for guiding the first material belt to move along a first direction, the material stripping module comprises a material stripping part and a material connecting part connected with the material stripping part, gaps are reserved between the guiding module and the material stripping part, and the first material belt comprises a first belt body and a plurality of foam cotton distributed on the first belt body;

in the process that the first material belt moves in the gap, the first belt body passes through the gap, the stripping part is propped against the foam, so that the foam is stripped from the first belt body to the receiving part, the winding module winds the first belt body passing through the gap, and the material taking and attaching module can transfer and attach the foam positioned on the receiving part to a workpiece.

2. A labelling machine according to claim 1, wherein the receiving portion is provided with a plurality of receiving slots, each receiving slot being adapted to receive the foam, the stripping module further comprising a sensing member for sensing the foam in the receiving slot.

3. A labelling machine according to claim 2, wherein the stripping module further comprises an adjustment assembly, the frame comprises a base, the receiving portion is mounted to the base by the adjustment assembly, and the adjustment assembly is configured to adjust a height of the stripping portion relative to the base so as to adjust a gap size between the guide module and the stripping portion.

4. A labelling machine according to claim 3, wherein the adjustment assembly comprises a fixed base, an adjustment member, a connecting block and a spring screw, the connecting block is connected with the material receiving portion, the connecting block and the fixed base are both sleeved on the spring screw and are both in threaded connection with the spring screw, the spring screw is rotated to drive the connecting block to drive the material receiving portion to move so as to adjust the height from the material stripping portion to the base, the fixed base is provided with an adjustment groove, the material receiving portion is provided with a through hole, and the adjustment member can penetrate through the adjustment groove and the through hole so as to fix the material receiving portion to the fixed base in an abutting manner.

5. A labelling machine according to claim 2, wherein the guide module comprises a guide table and a limiting assembly, the guide table is used for conveying the first material strip, the limiting assembly is provided with two limiting assemblies, the limiting assemblies are oppositely arranged at two ends of the guide table, and the two limiting assemblies are mutually matched to guide the first material strip to move along the first direction.

6. A labelling machine according to claim 5, wherein the guide table is provided with a plurality of groups of pre-judging holes, each group of pre-judging holes are distributed on the guide table at intervals along a second direction, each group of pre-judging holes is arranged in one-to-one correspondence with each receiving groove, each group of pre-judging holes is used for pre-judging that each foam falls into the receiving groove after peeling off, and the first direction is perpendicular to the second direction.

7. The labeling machine of claim 1, wherein the material taking and attaching module comprises a first rotating member, a second rotating member, a third rotating member and a cotton absorbing assembly, the first rotating member is arranged on the frame, two ends of the second rotating member are respectively connected with the first rotating member and the third rotating member, the first rotating member can drive the second rotating member to rotate, the second rotating member can drive the third rotating member to rotate, the cotton absorbing assembly is connected with the third rotating member, the third rotating member can drive the cotton absorbing assembly to rotate, and the cotton absorbing assembly is used for absorbing and releasing the foam.

8. A labelling machine according to claim 1, characterised in that the labelling machine also packages a turret module comprising a turret body formed with a plurality of stations for processing the workpieces and a drive member in driving connection with the turret body to enable the turret body to be driven to rotate, which can drive the workpieces to move to the take-off and apply module.

9. A labelling machine according to claim 8, further comprising a supply and receive assembly, a supply and receive assembly and a paste assembly, the supply and receive assembly and the paste assembly being mounted to the frame, the supply and receive assembly being adapted to deliver a second strip of material to the supply assembly, the supply and receive assembly being adapted to deliver the second strip of material to the paste assembly, the second strip of material comprising a second strip body and a plurality of two-dimensional codes distributed on the second strip body, the paste assembly being adapted to adsorb the two-dimensional codes on the second strip of material and paste the two-dimensional codes to the workpiece, the supply and receive assembly being further adapted to wind the second strip body through the paste assembly.

10. A labelling machine according to any of claims 1 to 9, further comprising a display for displaying and controlling the operating state of the labelling machine.