CN110193944B - Automatic pre-buried assembly line of panel micelle - Google Patents

Abstract

The invention discloses an automatic pre-buried assembly line of plate colloidal particles, which comprises the following steps: the feeding conveying lines and the discharging conveying lines are oppositely arranged at intervals; and at least one pre-embedding device arranged between the feeding conveying line and the discharging conveying line, wherein the pre-embedding devices are arranged along the extending direction of the feeding conveying line or the extending direction of the discharging conveying line. According to the invention, the automatic glue particle embedding machine has higher automation degree, improves glue particle embedding quality and embedding precision while improving glue particle embedding efficiency, and improves the embedded yield of plate glue particles and the stability of the plate after assembly.

Description

Automatic pre-buried assembly line of panel micelle

Technical Field

The invention relates to the field of plate processing, in particular to an automatic pre-buried assembly line for plate colloidal particles.

Background

Along with the development of national economy, consumers pursue decoration quality and attractive appearance more and more, especially in the selection of containing cabinets, more and more consumers tend to customize the mode of cabinets in whole houses, and along with the technology of decoration industry tending to be mature, cabinet body customizers put forward higher and higher requirements on the stability of the cabinet body after installation, in order to improve the stability and the attractive appearance of the cabinet body after installation, plastic colloidal particles for installing fixing screws are embedded in advance on plates in general in the market, and the existing colloidal particle embedding mode is mostly carried out by adopting a manual knocking-in mode, so that the following problems exist: firstly, the automation degree is low, manual intervention is still needed in the feeding and/or discharging process of the plate, and the pre-burying efficiency is low; secondly, in the embedding operation, the uniform embedding standard cannot be achieved, so that the embedding quality of the colloidal particles is uneven; again, positioning accuracy is not high, resulting in poor accuracy of knocking in colloidal particles, low success rate, and finally resulting in low yield, and can not meet production requirements.

In view of the foregoing, it is necessary to develop an automatic pre-burying assembly line for board colloidal particles to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an automatic plate colloidal particle pre-burying assembly line which has higher automation degree, improves the colloidal particle pre-burying efficiency, and simultaneously can improve the colloidal particle pre-burying quality and the pre-burying precision, and improves the pre-burying yield of the plate colloidal particles and the stability of the plate after assembly.

To achieve the above objects and other advantages and in accordance with the purpose of the invention, there is provided an automatic pre-burying line for board glue particles, comprising:

the feeding conveying lines and the discharging conveying lines are oppositely arranged at intervals; and

At least one pre-buried device arranged between the feeding conveying line and the discharging conveying line,

The pre-buried devices are arranged along the extending direction of the feeding conveying line or the extending direction of the discharging conveying line.

Preferably, the embedding device comprises:

One end of the feeding channel is in butt joint with the feeding conveying line, and the other end of the feeding channel is in butt joint with the discharging conveying line;

The mounting bracket is erected above the feeding channel;

the glue burying mechanism is arranged on the mounting bracket,

The mounting bracket comprises a base and a transverse moving guide rail fixedly mounted on the base, and the glue burying mechanism is in sliding connection with the transverse moving guide rail.

Preferably, two sliding guide rails are fixedly arranged on two sides of the feeding channel relatively, the base comprises a left supporting leg and a right supporting leg which are oppositely arranged, the left supporting leg and the right supporting leg are respectively connected with the two sliding guide rails in a sliding fit manner, and the sliding guide rails are supported by the left supporting leg and the right supporting leg.

Preferably, the extending direction of the sliding guide rail is consistent with the extending direction of the feeding channel, and the extending direction of the transverse sliding guide rail is perpendicular to the extending direction of the sliding guide rail or the extending direction of the feeding channel.

Preferably, a clamping and positioning mechanism is arranged in the feeding channel, and the clamping and positioning mechanism comprises:

The fixed positioning block is fixedly arranged on one side of the feeding channel;

the clamping positioning block is slidably arranged on the feeding channel and is arranged opposite to the fixed positioning block; and

The blocking positioning block is arranged in the feeding channel in a lifting manner,

The clamping positioning block and the fixed positioning block form a positioning channel between the clamping positioning block and the fixed positioning block, and the blocking positioning block is positioned on a feeding path of the feeding channel and outside the positioning channel.

Preferably, the clamping positioning block is in transmission connection with a clamping driver, and the clamping positioning block is driven by the clamping driver to be close to or far away from the fixed positioning block.

Preferably, the sliding path of the clamping positioning block is perpendicular to the feeding path of the feeding channel.

Preferably, the blocking positioning block is in transmission connection with a blocking driver, and the blocking positioning block selectively enters and exits the feeding channel under the driving of the blocking driver so as to block or release the plate on the feeding channel.

Preferably, the glue burying mechanism comprises:

The sliding mounting plate is in sliding fit connection with the transverse moving guide rail;

the lifting driver is fixedly arranged on the sliding mounting plate; and

A pre-buried module which is connected with the lifting driver in a transmission way,

The embedded module can be driven by the lifting driver to lift in a reciprocating manner, the sliding mounting plate is connected with the sliding driver in a transmission manner, and the embedded module can slide along with the sliding mounting plate in a reciprocating manner along the transverse guide rail under the driving of the sliding driver.

Preferably, the pre-buried module includes:

the clamping assembly comprises a first clamping part and a second clamping part which are oppositely arranged;

The fixing plate is fixedly arranged between the first clamping part and the second clamping part; and

The glue burying assembly is arranged between the first clamping part and the second clamping part,

Wherein, the centre gripping has the grip block of relative and interval setting between first grip block and the second grip block, has offered at least one centre gripping hole of running through its upper and lower surface between two grip blocks.

Compared with the prior art, the invention has the beneficial effects that: the automatic glue particle embedding machine has higher automation degree, can improve glue particle embedding quality and embedding precision while improving glue particle embedding efficiency, and has quality improvement on the embedded yield of plate glue particles and the stability of the plate after assembly.

Drawings

FIG. 1 is a three-dimensional structure view of an automatic board glue particle pre-burying assembly line according to the invention;

FIG. 2 is a top view of an automatic board glue particle pre-burying assembly line according to the invention;

FIG. 3 is a three-dimensional structure view of a pre-burying device in an automatic plate colloidal particle pre-burying assembly line according to the invention;

Fig. 4 is a three-dimensional structure view of a board colloidal particle automatic embedding assembly line according to the invention after an embedding device conceals a colloidal particle supply mechanism;

FIG. 5 is a three-dimensional structure view of a feeding channel in an automatic pre-burying assembly line of plate colloidal particles according to the invention when the feeding channel is matched with a clamping and positioning mechanism;

fig. 6 is a three-dimensional structure view of a clamping and positioning mechanism in an automatic plate colloidal particle pre-burying assembly line according to the invention;

fig. 7 is a three-dimensional structure view of a glue burying mechanism in an automatic plate glue particle pre-burying assembly line according to the invention;

FIG. 8 is a three-dimensional structure view of a pre-embedding module in an automatic plate glue particle pre-embedding assembly line according to the invention;

Fig. 9 is a three-dimensional internal structure view of a pre-embedding module in an automatic plate glue particle pre-embedding assembly line according to the invention.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses a device for practicing the invention. In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components. In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, etc. are based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the top-to-bottom dimension, "width" corresponds to the left-to-right dimension, and "depth" corresponds to the front-to-back dimension. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms (e.g., "connected" and "attached") referring to an attachment, coupling, etc., refer to a relationship wherein these structures are directly or indirectly secured or attached to one another through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

Referring to fig. 1 to 3, the automatic pre-burying assembly line for the plate colloidal particles comprises:

The feeding conveying lines 1 and the discharging conveying lines 3 are oppositely arranged at intervals; and

At least one pre-burying device 2 arranged between the feeding conveying line 1 and the discharging conveying line 3,

The pre-embedding devices 2 are arranged along the extending direction of the feeding conveying line 1 or the extending direction of the discharging conveying line 3. Referring to fig. 1 and 2, the plates flow in the arrow a direction on the feeding conveyor line 1, and after the glue particle embedding operation of the embedding device 2, flow out in the arrow B direction through the discharging conveyor line 2, so that the pre-embedded plates can be conveniently collected and stacked.

Further, the embedding device 2 includes:

the feeding channel 211, one end of the feeding channel 211 is in butt joint with the feeding conveying line 1, and the other end of the feeding channel 211 is in butt joint with the discharging conveying line 3;

a mounting bracket 24 installed above the feeding path 211;

A glue burying mechanism 25 which is arranged on the mounting bracket 24,

Wherein, the installing support 24 includes the base and fixed mounting in sideslip guide rail 241 on the base, bury gluey mechanism 25 and sideslip guide rail 241 sliding connection. In a preferred embodiment, the automatic board glue particle pre-burying device 2 further comprises a mounting platform 21, and the feeding channel 211 is fixedly mounted on the mounting platform 21.

Referring to fig. 4, two sliding rails 212 are fixedly disposed on two opposite sides of the feeding channel 211, the base includes a left leg 242 and a right leg 243 disposed opposite to each other, the left leg 242 and the right leg 243 are slidably coupled to the two sliding rails 212, and the lateral sliding rail 241 is supported by the left leg 242 and the right leg 243.

Further, the extending direction of the sliding rail 212 coincides with the extending direction of the feeding path 211, and the extending direction of the traversing rail 241 is perpendicular to the extending direction of the sliding rail 212 or the extending direction of the feeding path 211.

Referring to fig. 5 and 6, a clamping and positioning mechanism 26 is provided in the feeding path 211, and the clamping and positioning mechanism 26 includes:

A fixed positioning block 262 fixedly installed at one side of the feeding path 211;

A clamping positioning block 264 slidably mounted on the feeding channel 211 and disposed opposite to the fixed positioning block 262; and

A blocking positioning block 263, which is arranged in the feeding channel 211 in a lifting manner,

Wherein, a positioning channel is formed between the clamping positioning block 264 and the fixing positioning block 262, and the blocking positioning block 263 is located on the feeding path of the feeding channel 211 and outside the positioning channel.

Referring to fig. 6, the clamping positioning block 264 is drivingly connected with a clamping driver 265, and the clamping positioning block 264 is driven by the clamping driver 265 to approach or separate from the fixed positioning block 262, so that the plate in the positioning channel can be positioned by adjusting the distance between the clamping positioning block 264 and the fixed positioning block 262, and the positioning channel can adapt to plates with various sizes.

Further, the sliding path of the clamping positioning block 264 is perpendicular to the feeding path of the feeding channel 211.

Further, the blocking positioning block 263 is in transmission connection with a blocking driver 266, and the blocking positioning block 263 is driven by the blocking driver 266 to selectively enter and exit the feeding channel 211 so as to block or release the plate on the feeding channel 211.

Referring to fig. 6, the clamping and positioning block 264 is slidably coupled with two guide rails, in a preferred embodiment, two guide rails are provided, namely a first guide rail 2641 and a second guide rail 2642, and the extending direction of the guide rails is perpendicular to the feeding path of the feeding channel 211.

Referring to fig. 3, the feeding path 211 is provided with a colloidal particle feeding mechanism 22 at a side thereof, and the traverse guide 241 extends above or beside the colloidal particle feeding mechanism 22.

Further, the colloidal particle feeding mechanism 22 is provided with a colloidal particle carrying disc 23 containing colloidal particles.

Referring to fig. 3, 7 and 8, the glue burying mechanism 25 includes:

A slide mounting plate 251 slidably coupled to the traverse guide 241;

a lifting driver 252 fixedly mounted on the slide mounting plate 251; and

A pre-buried module 255 in driving connection with the lifting driver 252,

Wherein, the pre-buried module 255 can reciprocate under the drive of the lifting driver 252, the sliding driver 253 is connected with the sliding mounting plate 251 in a transmission manner, and the pre-buried module 255 can reciprocate along the transverse guide rail 241 along with the driving of the sliding driver 253 by the sliding mounting plate 251, so that the pre-buried module 255 shuttles between the colloidal particle supply mechanism 22 and the feeding channel 211, and the carrying and pre-buried operation of the colloidal particles are realized.

Referring to fig. 7 and 8, the pre-buried module 255 includes:

A clamping assembly comprising a first clamping portion 2552 and a second clamping portion 2553 disposed opposite to each other;

a fixing plate 2551, wherein the fixing plate 2551 is fixedly installed between the first clamping portion 2552 and the second clamping portion 2553; and

A glue burying component which is arranged between the first clamping part 2552 and the second clamping part 2553,

Wherein, the first clamping portion 2552 and the second clamping portion 2553 are clamped by opposite and spaced clamping plates 2554, and at least one clamping hole 2554a penetrating the upper and lower surfaces of the two clamping plates 2554 is formed between the two clamping plates 2554.

Further, the glue burying assembly comprises:

A guide rail 2557 fixedly installed between the first clamping portion 2552 and the second clamping portion 2553;

a glue drive 2555 slidably coupled to the rail 2557; and

A traversing drive, which is in transmission connection with the glue burying drive 2555,

Wherein, the glue burying driver 2555 is in transmission connection with the glue burying die 2558, and the glue burying driver 2555 is driven by the traversing driver to slide reciprocally along the guide rail 2557 so that the glue burying die 2558 in transmission connection with the glue burying driver 2555 can be aligned with the clamping holes 2554a one by one.

Further, the glue-embedding die 2558 can be selectively moved into and out of the clamping hole 2554a under the driving of the glue-embedding driver 2555.

Further, the first clamping portion 2552 and the second clamping portion 2553 are respectively connected with a first clamping driver 2552a and a second clamping driver 2553a in a transmission manner, and the two clamping plates 2554 are driven by the first clamping driver 2552a and the second clamping driver 2553a to approach or separate from each other, so that the clamping holes 2554a can adapt to and clamp colloidal particles with different sizes.

Further, the aperture of the clamping hole 2554a can be adjusted between 5mm and 12 mm.

Further, a mounting plate 2556 is fixedly connected to the guide rail 2557, and the guide rail 2557 is fixedly connected to the fixing plate 2551 through the mounting plate 2556.

The number of equipment and the scale of processing described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be readily apparent to those skilled in the art.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (6)

1. Automatic pre-buried assembly line of panel micelle, its characterized in that includes:

The feeding conveying lines (1) and the discharging conveying lines (3) are oppositely arranged at intervals; and

At least one pre-burying device (2) arranged between the feeding conveying line (1) and the discharging conveying line (3),

Wherein, pre-buried device (2) are arranged along the extending direction of material loading conveyer line (1) or the extending direction of unloading conveyer line (3), pre-buried device (2) include: a feeding channel (211), wherein one end of the feeding channel (211) is in butt joint with the feeding conveying line (1), and the other end of the feeding channel is in butt joint with the discharging conveying line (3); the mounting bracket (24) is erected above the feeding channel (211); the glue burying mechanism (25) is arranged on the mounting bracket (24), wherein the mounting bracket (24) comprises a base and a transverse moving guide rail (241) fixedly arranged on the base, the glue burying mechanism (25) is in sliding connection with the transverse moving guide rail (241), the feeding channel (211) is provided with a clamping and positioning mechanism (26), and the clamping and positioning mechanism (26) comprises: a fixed positioning block (262) fixedly installed on one side of the feeding channel (211);

A clamping positioning block (264) which is slidably mounted on the feeding channel (211) and is arranged opposite to the fixed positioning block (262); and a blocking positioning block (263) which is arranged in the feeding channel (211) in a lifting manner, wherein a positioning channel between the clamping positioning block (264) and the fixed positioning block (262) is formed, the blocking positioning block (263) is positioned on the feeding path of the feeding channel (211) and outside the positioning channel, and the glue burying mechanism (25) comprises: a slide mounting plate (251) slidably coupled to the traverse guide (241); a lifting drive (252) fixedly mounted on the sliding mounting plate (251); and pre-buried module (255), it is connected with lift driver (252) transmission, wherein, pre-buried module (255) can reciprocate under the drive of lift driver (252), and slide mounting panel (251) transmission is connected with and slides driver (253), pre-buried module (255) can slide along sideslip guide rail (241) reciprocal along with slide mounting panel (251) under the drive of slide driver (253), pre-buried module (255) include: the clamping assembly comprises a first clamping part (2552) and a second clamping part (2553) which are oppositely arranged; a fixing plate (2551), wherein the fixing plate (2551) is fixedly arranged between the first clamping part (2552) and the second clamping part (2553); and the glue burying assembly is arranged between the first clamping part (2552) and the second clamping part (2553), wherein clamping plates (2554) which are opposite and are arranged at intervals are clamped between the first clamping part (2552) and the second clamping part (2553), and at least one clamping hole (2554 a) penetrating through the upper surface and the lower surface of the two clamping plates (2554) is formed between the two clamping plates.

2. The automatic board glue particle pre-embedding assembly line according to claim 1, wherein two sliding guide rails (212) are fixedly arranged on two sides of the feeding channel (211) relatively, the base comprises a left support leg (242) and a right support leg (243) which are arranged relatively, the left support leg (242) and the right support leg (243) are respectively in sliding fit with the two sliding guide rails (212), and the transverse moving guide rail (241) is supported by the left support leg (242) and the right support leg (243).

3. Automatic pre-embedding line for board glue particles according to claim 2, characterized in that the extension direction of the sliding guide rail (212) is consistent with the extension direction of the feeding channel (211), and the extension direction of the transverse moving guide rail (241) is perpendicular to the extension direction of the sliding guide rail (212) or the extension direction of the feeding channel (211).

4. Automatic pre-embedding assembly line for plate colloidal particles as claimed in claim 1, characterized in that the clamping positioning block (264) is in transmission connection with a clamping driver (265), and the clamping positioning block (264) is driven by the clamping driver (265) to be close to or far away from the fixed positioning block (262).

5. Automatic pre-embedding line for board glue particles according to claim 1, characterized in that the sliding path of the clamping positioning block (264) is perpendicular to the feeding path of the feeding channel (211).

6. The automatic board glue particle pre-burying assembly line according to claim 1, wherein the blocking positioning block (263) is in transmission connection with a blocking driver (266), and the blocking positioning block (263) selectively enters and exits the feeding channel (211) under the driving of the blocking driver (266) so as to block or release boards on the feeding channel (211).