CN216609376U - Movable slotting device - Google Patents

Abstract

The utility model relates to movable slotting equipment which comprises a cutting mechanism with a cutter, a moving mechanism and a supporting seat, wherein the moving mechanism comprises a longitudinal moving mechanism and a transverse moving mechanism, the number of the longitudinal moving mechanisms is two, the longitudinal moving mechanisms at least comprise a fixed sleeve and a telescopic mechanism, the transverse moving mechanism is fixed on the ground through a rack, the fixed sleeve can transversely move under the driving of the transverse moving mechanism, the telescopic mechanism is fixed in the fixed sleeve, two ends of the supporting seat are respectively connected with the telescopic mechanism and are driven by the telescopic mechanism to carry out lifting motion, and the cutting mechanism is arranged below the supporting seat.

Description

Movable slotting device

Technical Field

The utility model relates to slotting equipment, in particular to a slotting part sleeve.

Background

The slotting part sleeve is slotting equipment and is mainly used on the manufacturing production line of indoor and outdoor door plates. The utility model discloses a horizontal telescopic mechanism, including bearing structure, slide bar subassembly, the bearing structure is installed in assembly line one side, bearing structure is by last base, lower base and slide bar subassembly, the slide bar both ends are connected respectively, lower base threaded fixation is on assembly line support, the supporting mechanism both sides set up the cutter of fluting usefulness respectively, also can only be one set of cutter as required, every set of cutter can carry out horizontal flexible and two actions of vertical lift, these two actions all can be realized through telescopic mechanism, telescopic mechanism sets up on bearing structure, be provided with the slider on the telescopic mechanism who is responsible for vertical lift, the telescopic mechanism who is responsible for horizontal flexible is installed on the slider, go up and down along with the slider together, fluting holds the motor of cutter and drive cutter on the slider.

Market competition has been precedent to step into inventory competition, the market has been more and more selected for products, the single product design and the high commodity competition pressure for producing finished products are high, so two motivations exist in the aspect of product improvement, firstly, the slotted sleeve must be capable of keeping up with the requirements of users, namely, some functions can be preset, the users may not use the slotted sleeve temporarily, but the slotted sleeve may be required in the foreseeable future, and the slotted sleeve becomes to improve the products in advance under the condition; secondly, the slotted products in the market have serious homogeneity, and only price and service can be matched under the condition that the performance and the quality are not different, so that the profit is lower and lower, and the competition of the same industry is the motivation for improving the products. In the idea, almost all grooving part sleeve products are fixed on a rack or on one side of a production line transmission belt, the transmission belt must drive a wood plate to move to a cutter of the grooving part sleeve accurately, the grooving part sleeve can be processed normally, and the products are passive in the process of being matched with the production line. It is therefore desirable to provide a new concept that can address to some extent the user's needs that may arise in the future, and that can also take advantage of the intense competition.

Disclosure of Invention

In order to solve the technical problem, the movable slotting equipment is provided, the provided technical scheme is as follows, the movable slotting equipment comprises a cutting mechanism with a cutter, a moving mechanism and a supporting seat, the moving mechanism comprises a longitudinal moving mechanism and a transverse moving mechanism, the two longitudinal moving mechanisms at least comprise a fixed sleeve and a telescopic mechanism, the transverse moving mechanism is fixed on the ground through a rack, the fixed sleeve can transversely move under the driving of the transverse moving mechanism, the telescopic mechanism is fixed in the fixed sleeve, two ends of the supporting seat are respectively connected with the telescopic mechanism and driven by the telescopic mechanism to perform lifting motion, and the cutting mechanism is arranged below the supporting seat.

On the basis of the technical scheme, including the cutting mechanism who has the cutter, still including motion and supporting seat, motion is including longitudinal movement mechanism and transverse movement mechanism, longitudinal movement mechanism is one, it is at least including fixed sleeve a, telescopic machanism, transverse movement mechanism passes through the frame and fixes subaerial, but fixed sleeve a receives transverse movement mechanism's drive transverse movement, telescopic machanism fixes in fixed sleeve a, the supporting seat bottom is provided with fixed sleeve b, fixed sleeve b telescopic is with including fixed sleeve a suit, telescopic machanism and supporting seat connection and drive the supporting seat and carry out elevating movement, cutting mechanism installs the both sides at the supporting seat.

On the basis of the technical scheme, the supporting seat is provided with a sliding mechanism for the cutting mechanism to slide.

On the basis of above-mentioned technical scheme, slide mechanism is rack and pinion mechanism, set up two horizontal spouts in the supporting seat, arrange side by side between the spout, its edge of spout that leans on is closer to the left side of supporting seat, the tip of the spout that leans on then is closer to the supporting seat right side, the through-hole is all opened with the bottom to the spout top, rack and pinion mechanism sets up in the spout, the gear wears to adorn in the pivot, the pivot rotation stretches out from spout top through-hole in the spout, the rack slides in spout one side, and its bottom is fixed with the slide, the slide stretches out and connects cutting mechanism from spout bottom through-hole.

On above-mentioned technical scheme's basis, the supporting seat bottom is fixed with the slide, offers the slide that link up with the spout on the slide, and the slide exposes after passing through-hole and slide in proper order, exposes the part and connects cutting mechanism, and it has the scale to draw on the slide, through observing the steerable slide sliding distance of relative position of scale and scale.

On the basis of the technical scheme, the part of the sliding plate exposed from the sliding groove is provided with the extension support extending backwards, the tail end of the extension support is fixed with the identification plate extending upwards, and the identification plate replaces a ruler.

On the basis of the technical scheme, the telescopic mechanism is a hydraulic telescopic mechanism.

On the basis of the technical scheme, the transverse movement mechanism is an electric sliding rail I, and the bottom of the fixing sleeve is fixed on a sliding block of the electric sliding rail.

On the basis of the technical scheme, the electric sliding rail II is used for replacing a gear rack mechanism, and the sliding plate is fixed on the sliding block of the electric sliding rail II.

Has the advantages that: the automatic control horizontal displacement and vertical displacement are used, the problem that the existing slotting part sleeve cannot horizontally move transversely is solved, and meanwhile, the automatic problem during lifting and transverse moving is also preliminarily solved. Redesigned the structure of fluting portion cover, made it can be better with current motion looks adaptation, can install more cutting mechanism through the supporting seat that the space is more sufficient for have more combinations between cutting mechanism and the cutting mechanism, between cutting mechanism and the auxiliary assembly, the modularization degree is higher, and the improvement potentiality is bigger. Set up one set of reliable slip scheme on the supporting seat, make cutting mechanism can also slide in certain extent, adapt to more accurate processing requirement.

Drawings

FIG. 1 is a side view schematic of the prior art.

Fig. 2 is a rear view schematically illustrating the prior art.

Fig. 3 is a rear view schematically illustrating a first embodiment of the present invention.

Fig. 4 is a rear sectional view of a second embodiment of the present invention.

Fig. 5 is a rear sectional view of a third embodiment of the present invention.

Fig. 6 is a schematic top view of a third embodiment of the present invention.

FIG. 7 is a schematic cross-sectional view taken along line A-A of FIG. 6 according to the present invention.

Detailed Description

The first embodiment.

The embodiment provides a slotting part sleeve capable of automatically moving in multiple directions, and aims to solve the problem that the slotting part sleeve is poor in function singleness and adaptability.

As shown in fig. 1 and 2, a typical form of a conventional slotted sleeve is shown, which is wholly fixed on a frame or even partially sunk below the frame, mainly because the original cutting mechanism 1 needs to be supported by a telescopic rod and also needs to be lifted by the telescopic rod, and a more stable working environment is needed to ensure stability.

In this embodiment, it is appreciated that the original slotted sleeve structure is not suitable for adapting to various motion mechanisms, and therefore this embodiment provides a new solution different from the original technique. The lift of cutting mechanism 1 is responsible for by longitudinal motion mechanism 3, the transverse motion of cutting mechanism 1 is responsible for by transverse motion mechanism 4, through by fixed sleeve 5, the not enough condition of former telescopic link stability has been solved to the longitudinal telescoping mechanism 6 that telescopic machanism 6 constitutes, telescopic machanism 6 not with cutting mechanism 1 lug connection, telescopic machanism 6 also not with transverse motion mechanism 4 lug connection simultaneously, the great problem of telescopic machanism 6 burden has been solved, it is absorbed in and stretches out and draws back elevating movement.

Because in actual use, the shape pattern of door can be different, but the required height of lock is all the same generally, and the accessible adjustment is installed the connecting piece thickness in supporting seat 2 bottom before processing and is realized the cutting machine height difference, so two cutting mechanism 1 do not go up and down respectively the meaning is little, and telescopic machanism 6 is synchronous flexible in this embodiment, and cutting mechanism 1 on the same supporting seat 2 goes up and down simultaneously.

In the embodiment, the telescopic mechanism 6 can adopt any existing scheme, and the transverse moving mechanism 4 can also adopt any existing scheme, but the telescopic mechanism 6 preferably adopts a hydraulic telescopic mechanism 6, and the transverse moving mechanism 4 preferably adopts an electric sliding rail I18.

Example two.

The present embodiment is a modification of the first embodiment, and is different from the first embodiment in that the number of the longitudinal movement mechanism 3 is one, and the longitudinal movement mechanism is connected to the middle of the bottom of the supporting seat 2, the cutting mechanism 1 is located at two ends of the supporting seat 2, in order to stabilize the posture of the supporting seat 2 when the telescopic mechanism 6 extends and retracts and indirectly provide a stable posture for the cutting mechanism 1, a fixed sleeve b8 is further fixedly connected to the bottom of the supporting seat 2, the fixed sleeve b8 sleeves the fixed sleeve a7, and the fixed sleeve b8 slides on the fixed sleeve a7 when the telescopic mechanism 6 extends and retracts. The fixed sleeve a7 is identical to the fixed sleeve b8 in structure, and plays a role in stabilizing the working postures of the telescopic mechanism 6, the supporting seat 2 and the cutting mechanism 1.

Example three.

The embodiment provides a sliding scheme for the cutting mechanism 1 to slide, and the scheme adopts a gear 12 and rack 11 mechanism to drive the cutting mechanism 1 to slide.

As shown in fig. 5-7, the supporting base 2 is provided with sliding mechanisms, and each sliding mechanism is used for sliding one cutting mechanism 1. The sliding chute 9 extends along the length direction of the supporting seat 2, the rack 11 slides along one side surface of the inner wall of the sliding chute 9 in a clinging manner, the gear 12 is inserted into the other side surface of the sliding chute 9 and is meshed with the rack 11, and the rotating shaft 13 is fixedly arranged on the gear 12 in a penetrating manner. The rotating shaft 13 rotates to drive the rack 11 to slide in the sliding groove 9.

Because the rack 11 and the chute 9 are relatively long in size, even if the gear 12 and the rotating shaft 13 are arranged in the middle of the chute 9, it may be difficult to avoid the situation that the rack 11 and the side wall of the chute 9 are not tightly attached in extreme situations, so the gear 12 and the rotating shaft 13 may be arranged at one end of the chute 9, and the other end of the chute 9 may be provided with other limiting measures to avoid the rack 11 from swinging in the chute 9, for example, a limiting gear 12 meshed with the rack 11 is additionally arranged.

The through holes 10 above and below the sliding chute 9 have different functions, and the through holes 10 above can be used for the work of the rotating shaft 13 of the gear 12 and observing the sliding condition of the rack 11; the through hole 10 at the lower part extends out of the sliding plate 19, the extended sliding plate 19 is connected with the cutting mechanism 1, the non-extended sliding plate 19 is connected with the rack 11, and the rack 11 slides to drive the cutting mechanism 1 to slide.

If the number of the cutting mechanisms 1 is larger than or equal to two, as shown in fig. 6, the cutting mechanisms are staggered and staggered in front and back of the chute 9.

In the present embodiment, there is a preferable example, in order to make the sliding distance of the cutting mechanism 1 quantifiable, a sliding seat 14 is arranged between the supporting seat 2 and the cutting mechanism 1, the sliding seat 14 is fixed at the bottom of the supporting seat 2, a sliding way 15 is arranged on the sliding seat 14, a sliding plate 19 can pass through the sliding way 15 and slide on the sliding way 15, and a graduated scale (not shown) is arranged on the side wall of the sliding seat 14, and the graduated scale is larger than or equal to the degree of the sliding way 15. Accordingly, a scale (not shown) is drawn on the slide plate 19 as a mark, and the sliding distance can be quantified by observing the relative position between the scale and the scale. The cutting mechanism 1 and the sliding seat 14 are separated from each other, and a scale of the sliding plate 19 is a strip line with a striking color and is positioned below the graduated scale. In the preferred embodiment, there is a modification that the scale drawn on the slide plate 19 is replaced with an extension bracket 16 and a marking plate 17 mounted on the slide plate 19, the extension bracket 16 extends from between the slide base and the cutting mechanism, the marking plate 17 is fixed to the end of the extending portion, and the marking plate 17 is in a sheet shape and is arranged along the length direction of the extension bracket 16. It is more comfortable and convenient to observe the contrast scale through the identification plate 17.

Example four.

The embodiment is implemented on the basis of the third embodiment, and an electric sliding rail II is used for replacing a gear 12 and rack 11 mechanism. Because the cutting mechanism 1 is fixed at the bottom of the supporting seat 2, the space on the supporting seat 2 is relatively abundant, so that an enough space is provided for installing the electric sliding rail II (not shown), but the space required by the electric control sliding mechanism of the electric sliding rail II is slightly larger than that of the gear 12 and rack 11 mechanism, the weight is much heavier than that of the gear 12 and rack 11 mechanism, and the load is larger when the supporting seat 2 slides. Therefore, if the stable sliding effect is still to be kept when the electric sliding rail II is installed, the width of the supporting seat 2 must be increased, the weighing capacity of the electric sliding rail II is increased, and the whole electric sliding rail II is installed simply but the cost and the implementation condition are higher.

Claims (9)

1. The movable slotting equipment comprises a cutting mechanism with a cutter, and is characterized by further comprising a moving mechanism and a supporting seat, wherein the moving mechanism comprises a longitudinal moving mechanism and two transverse moving mechanisms, the longitudinal moving mechanisms at least comprise a fixed sleeve and a telescopic mechanism, the transverse moving mechanisms are fixed on the ground through a rack, the fixed sleeve can transversely move under the driving of the transverse moving mechanisms, the telescopic mechanisms are fixed in the fixed sleeve, two ends of the supporting seat are respectively connected with one telescopic mechanism and driven by the telescopic mechanisms to perform lifting motion, and the cutting mechanism is arranged below the supporting seat.

2. The movable slotting machine as claimed in claim 1, comprising a cutting mechanism with a cutter, a moving mechanism and a support base, wherein the moving mechanism comprises a longitudinal moving mechanism and a transverse moving mechanism, the longitudinal moving mechanism is one, the longitudinal moving mechanism comprises at least a fixed sleeve a and a telescopic mechanism, the transverse moving mechanism is fixed on the ground through a frame, the fixed sleeve a can transversely move under the driving of the transverse moving mechanism, the telescopic mechanism is fixed in the fixed sleeve a, the bottom of the support base is provided with a fixed sleeve b, the fixed sleeve b telescopically sleeves the fixed sleeve a, the telescopic mechanism is connected with the support base and drives the support base to move up and down, and the cutting mechanism is arranged on two sides of the support base.

3. The movable grooving apparatus of claim 1, wherein the support base is provided with a sliding mechanism for sliding the cutting mechanism.

4. The movable slotting machine as claimed in claim 3, wherein the sliding mechanism is a rack and pinion mechanism, two transverse sliding grooves are formed in the supporting base, the sliding grooves are arranged side by side, the edge of the lower sliding groove is closer to the left side of the supporting base, the end part of the upper sliding groove is closer to the right side of the supporting base, through holes are formed in the top and the bottom of the sliding groove, the rack and pinion mechanism is arranged in the sliding grooves, the gear is mounted on a rotating shaft in a penetrating mode, the rotating shaft rotates in the sliding groove and extends out of the through hole in the top of the sliding groove, the rack slides on one side of the sliding groove, a sliding plate is fixed to the bottom of the rack, and the sliding plate extends out of the through hole in the bottom of the sliding groove and is connected with the cutting mechanism.

5. The movable grooving apparatus of claim 4, wherein a slide is fixed to a bottom of the support base, a slide passage is formed in the slide passage, the slide passage is formed to extend through the slide passage, the slide plate is exposed after passing through the through hole and the slide passage, the exposed portion is connected to the cutting mechanism, a scale is drawn on the slide passage, and a sliding distance of the slide plate is controlled by observing a relative position of the scale and the scale.

6. The movable grooving apparatus of claim 5, wherein a portion of the sliding plate exposed from the sliding groove is provided with an extension bracket extending rearward, and an identification plate extending upward is fixed to a distal end of the extension bracket, and the scale is replaced with the identification plate.

7. The movable slotting apparatus of claim 1, wherein the telescoping mechanism is a hydraulic telescoping mechanism.

8. The movable slotting machine as claimed in claim 1, wherein the transverse moving mechanism is a motorized slide i, and the bottom of the fixed sleeve is fixed on a slide block of the motorized slide.

9. Mobile slotting device as claimed in claim 4 or 5, characterized in that a motorized sliding track II is used instead of the rack and pinion mechanism, the sliding plate being fixed to the sliding block of the motorized sliding track II.

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