CN219113571U - High-efficient numerical control multiaxis multistation case and bag processing equipment - Google Patents

Abstract

The utility model relates to the technical field of luggage processing equipment, and discloses high-efficiency numerical control multi-axis multi-station luggage processing equipment which comprises a mounting frame, a bridging beam arranged at the top of the mounting frame and a plurality of multi-axis processing machine heads arranged at the upper sides of the bridging beam, wherein the plurality of sliding tables are arranged at the upper sides of the mounting frame respectively and rotatably, and the plurality of sliding tables are arranged at the upper sides of the sliding tables respectively, so that the plurality of luggage can be processed simultaneously by the mounting frame and correspond to the plurality of multi-axis processing machine heads, the work efficiency of the luggage is improved, the cost and the investment of places are reduced, the arranged sliding tables are provided with adsorption station tables capable of adsorbing luggage dies at negative pressure, the adsorption station stations are provided with adsorption heads capable of being inserted into the bottoms of the luggage dies, and the adsorption heads can adsorb and fasten the luggage dies through negative pressure, and the luggage processing equipment is simple and convenient to use.

Description

High-efficient numerical control multiaxis multistation case and bag processing equipment

Technical Field

The utility model discloses efficient numerical control multi-axis multi-station luggage processing equipment, and relates to the technical field of luggage processing equipment.

Background

The suitcase is one kind of suitcase and includes one hard suitcase body, one telescopic pull rod and one suitcase bottom wheel, and is one kind of suitcase for holding clothing, food, articles, etc. When need not remove, the pull rod can shrink and hide in the box, and with depositing and transportation, receive wide use because of its convenient to use, processing such as cutting or punching is carried out to it usually when manufacturing to case and bag, it is current through installing cutting tool bit or punching tool bit on multiaxis processing machine head, the case and bag that it needs to polish sets up on fixed mould, then through displacement and the rotation of multiaxis processing machine head on bridging crossbeam, and carry out processing to the case and bag on the mould, then current processing equipment structure function is comparatively single, need a plurality of equipment simultaneous working just can realize processing to the simultaneous processing of a plurality of cases and bags, it is comparatively inconvenient to use, and work efficiency is comparatively general, manufacturing cost is big, occupation area, therefore, it is necessary to propose a high-efficient numerical control multiaxis case and bag multistation processing equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide high-efficiency numerical control multi-axis multi-station luggage processing equipment so as to solve the problems in the prior art.

In order to achieve the above object, the present utility model is realized by the following technical scheme: the utility model provides a high-efficient numerical control multiaxis multistation case and bag processing equipment, includes installation frame, locates the bridging crossbeam at installation frame top and installs a plurality of multiaxis processing aircraft nose of bridging crossbeam upside, installation frame upside is equipped with a plurality of sliding tables, multiaxis processing aircraft nose rotates respectively and installs in each sliding table upside, sliding table upside slidable is provided with the absorption station platform that is used for adsorbing firm case and bag.

The sliding table is characterized in that sliding rails are arranged on the left side and the right side of the top of the sliding table respectively, a sliding block which can be in sliding fit with the sliding rails is arranged at the bottom of the adsorption station table, a screw rod transmission mechanism is arranged on the upper side of the sliding table and is in transmission connection with the adsorption station table through the screw rod transmission mechanism, the screw rod transmission mechanism mainly drives a screw rod to rotate through a motor, so that the screw rod transmission screw rod sliding block is in linear motion, the screw rod is arranged on the sliding table, and the screw rod sliding block is in locking connection with the adsorption station table, so that the adsorption station table can do linear front-back reciprocating sliding under the action of the sliding rails on the sliding table.

The adsorption station is characterized in that the adsorption station is further provided with an adsorption head arranged in the middle of the upper side of the adsorption station, the adsorption head is rectangular and blocky, a negative pressure communication hole is formed in the bottom of the adsorption head, and a plurality of adsorption ports communicated with the negative pressure communication hole are formed in the upper side of the adsorption head.

The vacuum pump is characterized by further comprising a plurality of negative pressure vacuum pumps arranged on one side of the installation frame, and each negative pressure vacuum pump is connected with the bottom of the negative pressure communication port through an air pipe.

The device is characterized in that a splitter valve is further arranged on one side of the adsorption station table, an oil pump is arranged on one side of the installation frame, an oil outlet end of the oil pump is connected with the splitter valve through an oil pipe, an oil inlet end of the oil pump is connected with an external lubricating oil tank through an oil pipe, and each splitter pipe of the splitter valve is connected with one side of a screw rod sliding block of the sliding block and the screw rod transmission mechanism through the oil pipe respectively.

The multi-shaft processing machine head is characterized in that a controller is further arranged at the front side of the installation frame, a negative pressure vacuum pump is arranged at the rear side of the installation frame, and the multi-shaft processing machine head, the negative pressure vacuum pump, the oil pump and the screw rod transmission mechanism are all connected and controlled by the controller.

The utility model has the advantages of ingenious structure and reasonable arrangement:

according to the utility model, the plurality of sliding tables are arranged on the mounting frame and correspond to the plurality of multi-shaft processing machine heads, so that a plurality of bags can be processed at the same time, the working efficiency of the bags is improved, the cost and the investment of places are reduced, the sliding tables are provided with the adsorption station tables capable of adsorbing the bags and the molds under negative pressure, the adsorption station tables are provided with the adsorption heads capable of being inserted into the bottoms of the bags and the molds under negative pressure, and the adsorption heads can adsorb and fasten the bags and the molds under negative pressure, so that the use is simple and convenient;

and through pressing grabbing at adsorption station platform one side and have the flow divider, can carry the lubricated liquid to the flow divider through the oil pump to carry to each slider and lead screw slider of lead screw drive mechanism through the flow divider, conveniently lubricate the effect like this, improve its life, for prior art, it has positive beneficial result of use more.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a partial structure of the present utility model;

FIG. 3 is a schematic top view of a sliding table according to the present utility model;

FIG. 4 is a schematic side view of the suction head of the present utility model;

in the figure: the device comprises a mounting frame 1, a bridging beam 2, a multi-shaft processing machine head 3, a sliding table 4, a sliding rail 41, a screw rod transmission mechanism 42, a sliding block 43, an adsorption station table 5, an adsorption head 51, a negative pressure communication hole 52, an adsorption port 53, the adsorption station table 5, a controller 6, a negative pressure vacuum pump 7, a flow dividing valve 8 and an oil pump 81.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1-4, the present utility model provides a technical scheme of a high-efficiency numerical control multi-axis multi-station case processing device: including installing frame 1, locate bridge beam 2 at installation frame 1 top and installation bridge beam 2 upside a plurality of multiaxis processing aircraft nose 3, installation frame 1 upside is equipped with a plurality of sliding tables 4, multiaxis processing aircraft nose 3 rotates respectively and installs in each sliding table 4 upside, sliding table 4 upside slidable is provided with the absorption station platform 5 that is used for adsorbing firm case and bag, through place the work case and bag that need process on absorption station platform 5 after to utilize multiaxis processing aircraft nose 3 to process, wherein case and bag mould bottom is provided with the spread groove with absorption head 51 shape size looks adaptation, absorption head 51 can insert case and bag mould like this and stabilize.

And, slide rail 41 is equipped with respectively in slide table 4 top left and right sides, adsorb station platform 5 bottom install can with slide rail 41 sliding fit's slider 43, slide table 4 upside is equipped with lead screw drive mechanism 42, and be connected with adsorb station platform 5 transmission through lead screw drive mechanism 42, lead screw drive mechanism 42 mainly rotates through the motor, thereby make lead screw drive lead screw slider do linear motion, the lead screw is installed on slide table 4, the lead screw slider is connected with adsorb station platform 5 lock solid, consequently make adsorb station platform 5 can be in the effect of slide rail 41 on slide table 4 do straight line back and forth reciprocating sliding.

In order to enable the luggage to be better stabilized on the adsorption station table 5, an adsorption head 51 is mounted in the middle of the upper side of the adsorption station table 5, the adsorption head 51 is rectangular and blocky, the rectangular and blocky part can rotate and limit a connecting groove, a negative pressure communication hole 52 is formed in the bottom of the adsorption head 51, a plurality of adsorption ports 53 communicated with the negative pressure communication hole 52 are formed in the upper side of the adsorption head 51, a plurality of negative pressure vacuum pumps 7 are mounted on one side of the mounting frame 1, each negative pressure vacuum pump 7 is connected with the bottom of the negative pressure communication hole 52 through an air pipe respectively, negative pressure is generated by the negative pressure communication hole 52 and each adsorption port 53 through the negative pressure vacuum pump 7, and luggage molds are stabilized.

In order to improve the service life of the equipment, the diverter valve 8 is installed on one side of the adsorption station table 5, the oil pump 81 is installed on one side of the installation frame 1, the oil outlet end of the oil pump 81 is connected with the diverter valve 8 through an oil pipe, the oil inlet end of the oil pump 81 is connected with an external lubricating oil tank through an oil pipe, and each diverter pipe of the diverter valve 8 is connected with one side of a sliding block 43 and a screw rod sliding block of the screw rod transmission mechanism 42 through the oil pipe respectively, so that lubricating oil can be conveniently added for lubrication.

The controller 6 is mounted on the front side of the mounting frame 1, the negative pressure vacuum pump 7 is mounted on the rear side of the mounting frame 1, and the multi-axis processing machine head 3, the negative pressure vacuum pump 7, the oil pump 81 and the screw rod transmission mechanism 42 are all connected and controlled by the controller 6.

In summary, when the utility model is used, one or more bags can be processed, and in particular, the utility model inserts the connecting grooves arranged at the bottoms of the two bag molds directly into the two standard adsorption heads 51, and simultaneously starts the two negative pressure vacuum pumps 7, the negative pressure vacuum pumps 7 are connected with the negative pressure communication holes 52 at the bottoms of the adsorption heads 51 through the air pipes, the negative pressure communication holes 52 are connected with the adsorption ports 53, so that the negative pressure generated by the adsorption ports 53 can tightly adsorb the connecting grooves at the bottoms of the bag molds, the bag molds can be effectively prevented from sliding or falling, the bag molds can be easily taken out by only closing the negative pressure vacuum pumps 7, the use is simple and convenient, the adsorption station table 5 can be driven to slide back and forth on the sliding table 4 through the screw rod transmission mechanism 42, and then the multi-directional processing of each bag can be performed through the multi-shaft processing heads 3, and as the side of the adsorption station table 5 is provided with the splitter valve 8, the lubricant can be conveyed to the splitter valve 8 through the oil pump 81, and the splitter valve 8 can convey the lubricant to each slider 43 and the screw rod transmission mechanism 42, thus the service life of the screw rod transmission mechanism can be prolonged.

It should be noted that, the screw transmission mechanism 42 belongs to the prior art, and mainly drives the screw to rotate through the screw motor, so that the screw drives the screw slider to do linear motion, the screw is installed on the sliding table 4, and the screw slider is fixedly connected with the adsorption station table 5, so that the adsorption station table 5 can do linear back-and-forth reciprocating sliding under the action of the sliding rail 41 on the sliding table 4.

The utility model relates to high-efficiency numerical control multi-axis multi-station luggage processing equipment, which is mainly used for improving the structure, and functions, components and structures which are not mentioned can be implemented by adopting components and structures which can realize corresponding functions in the prior art.

While the fundamental and principal features of the utility model and advantages of the utility model have been shown and described, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a high-efficient numerical control multiaxis multistation case package processing equipment which characterized in that: including installation frame (1), locate bridging crossbeam (2) at installation frame (1) top and installation bridging crossbeam (2) upside a plurality of multiaxis processing aircraft nose (3), installation frame (1) upside is equipped with a plurality of sliding table (4), multiaxis processing aircraft nose (3) rotate respectively and install in each sliding table (4) upside, sliding table (4) upside slidable is provided with and is used for adsorbing the absorption station platform (5) of firm case and bag.

2. The efficient numerical control multi-axis multi-station box processing equipment according to claim 1, wherein: slide rail (41) are respectively arranged on the left side and the right side of the top of the sliding table (4), a sliding block (43) which can be in sliding fit with the slide rail (41) is arranged at the bottom of the adsorption station table (5), and a screw rod transmission mechanism (42) is arranged on the upper side of the sliding table (4) and is in transmission connection with the adsorption station table (5) through the screw rod transmission mechanism (42).

3. The efficient numerical control multi-axis multi-station box processing equipment according to claim 2, wherein: the adsorption station is characterized in that an adsorption head (51) is mounted in the middle of the upper side of the adsorption station table (5), the adsorption head (51) is rectangular, a negative pressure communication hole (52) is formed in the bottom of the adsorption head (51), and a plurality of adsorption ports (53) communicated with the negative pressure communication hole (52) are formed in the upper side of the adsorption head (51).

4. A high efficiency numerically controlled multi-axis multi-station packet processing apparatus in accordance with claim 3, wherein: a plurality of negative pressure vacuum pumps (7) are arranged on one side of the installation frame (1), and each negative pressure vacuum pump (7) is connected with the bottom of the negative pressure communication hole (52) through an air pipe.

5. The efficient numerical control multi-axis multi-station box processing equipment according to claim 4, wherein: the oil suction device is characterized in that a diverter valve (8) is arranged on one side of the suction station table (5), an oil pump (81) is arranged on one side of the mounting frame (1), an oil outlet end of the oil pump (81) is connected with the diverter valve (8) through an oil pipe, an oil inlet end of the oil pump (81) is connected with an external lubricating oil tank through the oil pipe, and each diverter pipe of the diverter valve (8) is connected with one side of a screw rod of the sliding block (43) and the screw rod transmission mechanism (42) through the oil pipe respectively.

6. The efficient numerical control multi-axis multi-station box processing equipment according to claim 5, wherein: the controller (6) is installed to installation frame (1) front side, negative pressure vacuum pump (7) are installed to installation frame (1) rear side, multiaxis processing aircraft nose (3), negative pressure vacuum pump (7), oil pump (81) and lead screw drive mechanism (42) all are connected and are controlled by controller (6).

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