CN218745950U - Indoor door surface knurling machine - Google Patents

Abstract

The utility model relates to a knurling machine technical field specifically is an indoor door surface knurling machine, including the initiative embossing roller, set up driven embossing roller below the initiative embossing roller, driven embossing roller and initiative embossing roller all connect soon in frame portal, and driven embossing roller one end is connected the gear, and frame portal one side is connected the ejection of compact platform, and frame portal opposite side sets up the feed mechanism who has the automatic feed function; another group of motor drive rotation axis, the rotation axis drives the switch-plate and rotates, and pivoted switch-plate makes a set of groove of dialling drive a set of aluminum alloy plate and slides along the backup pad to break away from multiunit aluminum alloy plate, remove the blown down tank until this aluminum alloy plate, make aluminum alloy plate fall into along the blown down tank and be in driven drive belt, the drive belt will drive aluminum alloy plate and remove towards initiative embossing roller and driven embossing roller, thereby realize the knurling to aluminum alloy plate.

Description

Indoor door surface knurling machine

Technical Field

The utility model relates to a knurl machine technical field specifically is an indoor door surface knurl machine.

Background

The existing indoor aluminum alloy door mainly comprises an aluminum alloy frame and an aluminum alloy plate, wherein the aluminum alloy plate is fixed on the aluminum alloy frame in a welding mode, and the aluminum alloy plates arranged on the inner side and the outer side of the aluminum alloy door are subjected to knurling process processing, so that patterns are formed on the surface of the aluminum alloy plate, the ornamental value of the aluminum alloy door is increased, the friction force on the surface of the aluminum alloy door is improved, and the aluminum alloy door has an anti-skidding effect.

Present aluminium template surface knurling machine, including frame and gear motor, the frame includes the support and locates the frame portal on the support, still include respectively horizontal installation at frame portal upper portion and the initiative embossing roller and the driven embossing roller of lower part, in operation, gear motor drive initiative embossing roller rotates, send into aluminium template between initiative embossing roller and the driven embossing roller by hand, the knurling to aluminium template is realized to pivoted initiative embossing roller and driven embossing roller, but because artifical manual pay-off, consequently can only put into an aluminium template once, can't accomplish continuous production technology, thereby lead to aluminium alloy plate knurling efficiency slow.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an indoor door surface annular knurl machine to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an indoor door surface knurling machine comprises a driving knurling roller, wherein a driven knurling roller is arranged below the driving knurling roller, the driven knurling roller and the driving knurling roller are both screwed in a frame type door frame, one end of the driven knurling roller is connected with a gear, one side of the frame type door frame is connected with a discharging table, and the other side of the frame type door frame is provided with a feeding mechanism with an automatic feeding function;

feed mechanism includes the backup pad, and the backup pad middle part connects the rotation axis soon, sets up the blown down tank in the backup pad, sets up feed mechanism in the blown down tank, and four group's group material stirring groove is seted up to the first-class angle of rotation axis fixed connection switch-plate in the middle part of switch-plate, sets up the storage case directly over a group material stirring groove.

Preferably, feed mechanism includes the drive belt, sets up two sets of rollers in the drive belt, and the transmission shaft is connected to a set of roller one end, and the band pulley is connected to transmission shaft one end, and the band pulley rotates and connects the hold-in range, and hold-in range one end sets up the drive wheel.

Preferably, the support plate is fixedly connected with the frame type portal, a plurality of groups of aluminum alloy plates are stacked in the storage box, and the storage box is fixedly connected with the outer ring of the support plate.

Preferably, the roller is screwed in the material shifting groove, and the middle part of the driving wheel is connected with one end of the driving embossing roller.

Preferably, the transmission wheel is provided with a plurality of groups of teeth at equal angles, the teeth are meshed with the gear, the transmission wheel is provided with an annular groove, and the synchronous belt is sleeved on the annular groove.

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

1. the drive wheel rotates the in-process, the drive wheel passes through the ring channel simultaneously and drives synchronous belt drive, the hold-in range passes through the band pulley and drives the transmission shaft, the transmission shaft drives the transmission belt through a set of roller bearing and conveys towards frame portal direction, because a set of kickoff groove is just to the storage bin, consequently, the aluminium alloy plate that is in the final position is located and dials the silo, another set of motor drive rotation axis this moment, the rotation axis drives the kickoff plate and rotates, pivoted kickoff plate makes a set of kickoff groove drive a set of aluminium alloy plate and slides along the backup pad, and break away from multiunit aluminium alloy plate, move the blown down tank until this aluminium alloy plate, make aluminium alloy plate fall into on being in driven transmission belt along the blown down tank, the transmission belt will drive aluminium alloy plate and remove towards initiative embossing roller and driven embossing roller, thereby realize the knurling to aluminium alloy plate.

2. Secondly when this aluminium alloy plate knurling is ended, another group motor continues to drive the rotation axis, and aluminium alloy plate will fall into next a set of material groove of dialling, not only makes aluminium alloy plate incessant by initiative embossing roller and driven embossing roller emboss, realizes aluminium alloy plate's automatic feed simultaneously, has improved aluminium alloy plate's knurling efficiency.

Drawings

Fig. 1 is a schematic view of the present invention.

Fig. 2 is the assembly schematic diagram of the feeding mechanism of the present invention.

Fig. 3 is a schematic view of the combination of the supporting plate and the feeding mechanism of the present invention.

In the figure: 1. an active embossing roller; 2. a driven embossing roll; 3. a frame type portal frame; 4. a gear; 5. a discharging table; 6. a feeding mechanism; 7. aluminum alloy plate; 601. a support plate; 602. a rotating shaft; 603. a discharge chute; 604. a feeding mechanism; 605. a material stirring plate; 606. a material poking groove; 607. a material storage box; 41. a transmission belt; 42. a roller; 43. a drive shaft; 44. a pulley; 45. a synchronous belt; 46. a driving wheel; 461. teeth; 462. an annular groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: the utility model provides an indoor door surface knurling machine, including initiative embossing roller 1, initiative embossing roller 1 below sets up driven embossing roller 2, driven embossing roller 2 all connects in frame portal 3 with initiative embossing roller 1 soon, gear 4 is connected to driven embossing roller 2 one end, frame portal 3 one side is connected ejection of compact platform 5, frame portal 3 opposite side sets up feed mechanism 6 that has the automatic feed function, feed mechanism 6 includes backup pad 601, backup pad 601 middle part connects rotation axis 602 soon, set up blown down tank 603 on the backup pad 601, set up feed mechanism 604 in the blown down tank 603, the middle part of rotation axis 602 fixed connection switch plate 605, the first equidistance of switch plate 605 is seted up four groups and is dialled silo 606, set up storage tank 607 directly over a group and dial silo 606, the first-class angle of drive wheel 46 sets up a plurality of tooth 461, tooth 461 meshing gear 4, initiative embossing roller 1 one end is connected in the middle part of drive wheel 46, wherein initiative embossing roller 1 other end connection motor, when needing to emboss aluminium alloy plate 7, can stack aluminium alloy plate 7 one by one in storage tank 607, initiative motor drive embossing roller 1 rotates, the drive embossing roller 4 through the drive embossing roller 2 and driven embossing roller 7 can realize the rotation of driven embossing roller.

The feeding mechanism 604 comprises a transmission belt 41, two groups of rollers 42 are arranged in the transmission belt 41, one end of one group of rollers 42 is connected with a transmission shaft 43, one end of the transmission shaft 43 is connected with a belt wheel 44, the belt wheel 44 is rotatably connected with a synchronous belt 45, one end of the synchronous belt 45 is provided with a transmission wheel 46, the support plate 601 is fixedly connected with the frame type portal 3, a plurality of groups of aluminum alloy plates 7 are stacked in the storage box 607, the storage box 607 is fixedly connected with the outer ring of the support plate 601, the rollers 42 are rotatably connected in a material shifting groove 606, an annular groove 462 is arranged on the transmission wheel 46, the synchronous belt 45 is sleeved on the annular groove 462, in the rotating process of the transmission wheel 46, the transmission wheel 46 drives the synchronous belt 45 to transmit through the annular groove 462, the synchronous belt 45 drives the transmission shaft 43 through the belt wheel 44, the transmission shaft 43 drives the transmission belt 41 to transmit towards the frame type portal 3 through one group of rollers 42, because the material shifting groove 606 is right opposite to the storage box 607, therefore, the aluminum alloy plate 7 at the last position is located in the material shifting groove 606, at this time, the other set of motor drives the rotating shaft 602, the rotating shaft 602 drives the material shifting plate 605 to rotate, the rotating material shifting plate 605 enables the one set of material shifting groove 606 to drive the one set of aluminum alloy plate 7 to slide along the support plate 601 and separate from the multiple sets of aluminum alloy plates 7 until the aluminum alloy plate 7 moves to the discharge groove 603, the aluminum alloy plate 7 falls onto the transmission belt 41 along the discharge groove 603, the transmission belt 41 drives the aluminum alloy plate 7 to move towards the driving embossing roller 1 and the driven embossing roller 2, so as to realize embossing on the aluminum alloy plate 7, secondly, when the embossing on the aluminum alloy plate 7 is finished, the other set of motor continues to drive the rotating shaft 602, the aluminum alloy plate 7 falls into the next set of material shifting groove 606, so that the aluminum alloy plate 7 is continuously embossed by the driving embossing roller 1 and the driven embossing roller 2, and automatic feeding of the aluminum alloy plate 7 is realized, the embossing efficiency of the aluminum alloy sheet 7 is improved.

In the using process, a plurality of groups of aluminum alloy plates 7 are stacked in the storage box 607 one by one, the motor drives the driving embossing roller 1 to rotate, the driving embossing roller 1 drives the transmission wheel 46 to rotate, the transmission wheel 46 enables the gear 4 to drive the driven embossing roller 2 to synchronously rotate through the teeth 461, meanwhile, the transmission wheel 46 drives the synchronous belt 45 to transmit through the annular groove 462, the synchronous belt 45 drives the transmission shaft 43 through the belt wheel 44, the transmission shaft 43 drives the transmission belt 41 to transmit towards the frame type portal 3 through a group of rolling shafts 42, at the moment, the other group of motor drives the rotating shaft 602, the rotating shifting plate 602 drives the shifting plate 605 to rotate, the rotating shifting plate 605 enables a group of shifting groove 606 to drive a group of aluminum alloy plates 7 to slide along the supporting plate 601 and separate from the plurality of groups of aluminum alloy plates 7 until the aluminum alloy plates 7 move to the discharging groove 603, so that the aluminum alloy plates 7 fall onto the transmission belt 41 along the discharging groove 603, and the transmission belt 41 drives the aluminum alloy plates 7 to move towards the driving embossing roller 1 and the driven embossing roller 2, thereby realizing the embossing of the aluminum alloy plates 7.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an indoor door surface knurling machine, includes initiative embossing roller (1), initiative embossing roller (1) below sets up driven embossing roller (2), driven embossing roller (2) all connect soon in frame portal (3) with initiative embossing roller (1), and gear (4) are connected to driven embossing roller (2) one end, ejection of compact platform (5), its characterized in that are connected to frame portal (3) one side: a feeding mechanism (6) with an automatic feeding function is arranged on the other side of the frame type portal (3);

feed mechanism (6) include backup pad (601), rotation axis (602) is connect soon in backup pad (601) middle part, sets up blown down tank (603) on backup pad (601), set up feed mechanism (604) in blown down tank (603), the middle part of rotation axis (602) fixed connection switch-plate (605), switch-plate (605) first-class angle on offer four groups and dial silo (606), a set of dial silo (606) directly over set up storage tank (607).

2. The indoor door surface knurling machine of claim 1, wherein: feed mechanism (604) includes drive belt (41), set up two sets of roller shafts (42) in drive belt (41), it is a set of roller shaft (42) one end is connected transmission shaft (43), band pulley (44) is connected to transmission shaft (43) one end, band pulley (44) rotate and connect hold-in range (45), hold-in range (45) one end sets up drive wheel (46).

3. The indoor door surface knurling machine of claim 1, wherein: backup pad (601) fixed connection frame portal (3), stack a plurality of groups aluminum alloy plate (7) in storage case (607), the outer lane of storage case (607) fixed connection backup pad (601).

4. The indoor door surface knurling machine of claim 2, wherein: the roller (42) is screwed in the material shifting groove (606), and the middle part of the driving wheel (46) is connected with one end of the driving embossing roller (1).

5. An indoor door surface knurling machine as claimed in claim 2, wherein: the utility model discloses a synchronous belt (45) is established on ring channel (462), drive wheel (46) equidistance sets up a plurality of groups tooth (461), tooth (461) meshing gear (4), set up ring channel (462) on drive wheel (46), hold-in range (45) cover is established on ring channel (462).

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