CN202943471U - Feeder of full-automatic numerical control glasses frame processing machine - Google Patents

Abstract

The utility model relates to the machinery field, in particular to a feeder of a full-automatic numerical control glasses frame processing machine. The feeder of the full-automatic numerical control glasses frame processing machine comprises a base seat, a material supply assembly and a feeding assembly, wherein the feeding assembly is fixed on the front face of the base seat, and the material supply assembly is located on one side of the back face of the base seat and on the lower portion of the feeding assembly. The feeding assembly comprises a driving part and a feeding hand connected with the driving part, wherein the driving part is fixed on the base seat, one end of the driving part is connected with the feeding hand, and the material supply assembly is located on a motion path of the feeding hand. The feeder of the full-automatic numerical control glasses frame processing machine has the advantages that due to the fact that the specific feeder is arranged, raw materials can be effectively and directly delivered to a specified position, accuracy is greatly improved, the position of the raw materials does not need to be adjusted continuously, and the processing efficiency is greatly improved; and moreover, the feeding hand is used for feeding the raw materials so that potential safety hazards are eliminated, and safety of operators is effectively guaranteed.

Description

A kind of feed appliance of full-automatic numerical control eye glass frame processing machine

Technical field

The utility model relates to mechanical field, refers to especially a kind of feed appliance of full-automatic numerical control eye glass frame processing machine.

Background technology

Full-automatic numerical control eye glass frame processing machine is custom-designed for the manufacturing spectacle picture frame, and existing eye glass frame processing machine does not arrange specific feed mechanism, in this link of material loading, basically adopt artificial loading, caused inefficiency, and safety coefficient is low, is easy to injure the operator; For the problems referred to above, adopt aid in the processing factory of minority, and be not suitable for a large amount of Digit Control Machine Tools, can not accurately raw material be delivered to assigned address, cause follow-up processing accuracy inadequate, also need artificial the adjustment before processing, cause the inefficiency of processing, have potential safety hazard.

The utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of efficient higher and carry the feed appliance of the full-automatic numerical control eye glass frame processing machine that accuracy is higher, safety coefficient is high.

The technical solution of the utility model is achieved in that a kind of feed appliance of full-automatic numerical control eye glass frame processing machine, comprise pedestal, supply assembly and material loading assembly, described material loading assembly is fixed on the front of pedestal, described supply assembly is positioned at reverse side one side of pedestal, this supply assembly is positioned at the bottom of material loading assembly, described material loading assembly comprises drive division and the feeding hand that is connected with drive division, this drive division is fixed on pedestal, one end of drive division is connected in the feeding hand, and described supply assembly is positioned on the motion path of feeding hand.

By adopting technique scheme, specific feed appliance is set, effectively with raw material until assigned address, greatly improved accuracy, need not continue to adjust the position of raw material, greatly improved working (machining) efficiency and adopted the feeding of feeding hand, eliminate potential safety hazard, effectively guaranteed operator's security.

The utility model further is set to: described feeding hand comprises the first chuck, the second chuck and base plate, described the first chuck is fixed in the bottom of base plate, described the second chuck is slidably connected to the bottom of base plate, the other end of relative the first chuck of described the second chuck is connected with actuator, this first chuck and the second chuck consist of dop, and described base plate top is connected in drive division.

Wherein, described drive division comprises the first cylinder and the second cylinder, and the cylinder block of described the first cylinder is fixed on pedestal, and the cylinder axis of the first cylinder is connected in the cylinder block of the second cylinder, and the cylinder axis of described the second cylinder is connected on base plate; Be provided with guiding mechanism between described the second cylinder and pedestal, this guiding mechanism comprises the first slide block and the first guide rail, described the first slide block is connected with the first guide rail slippage, this first slide block is fixedly connected on pedestal, described the first guide rail is fixedly connected with the cylinder block of the second cylinder, and the cylinder axis of described the first cylinder is fixedly connected with the first guide rail.

By adopting technique scheme, feeding hand getting double collet, and the actuator of controlling the double collet size is set, wherein actuator is the 3rd cylinder, and the size of control dop that can be random is applicable to the raw material of different size, and drive division adopts the first cylinder and the second cylinder, effectively guarantee the carrying out of feeding, then coordinated upper guiding mechanism, guaranteed carrying out smoothly of feeding.

The utility model also further is set to: described supply assembly comprises build bin, scraping wings and drive source, described build bin is provided with discharging opening, be provided with the groove of placing for raw material on described scraping wings, this discharging opening is positioned at groove top setting, and described drive source is fixedly connected with scraping wings.

Wherein, described build bin comprises the side plate that is positioned at the groove both sides, biside plate consists of cavity between the bottom, this cavity consists of discharging opening, be provided with backstay between described biside plate, described backstay is fixed on side plate, and backstay is positioned at groove top setting, and the bottom of backstay is arranged at the both sides setting of groove; The top of described biside plate is connected with governor motion, this governor motion comprises contiguous block, be provided with threaded rod between two contiguous blocks, this threaded rod passes the biside plate setting, and the end of threaded rod is provided with operator, and the bottom of biside plate is provided with guidance set, and described guidance set comprises the guide plate that is connected in pedestal, this guide plate is provided with cross through hole, and described side plate bottom is provided with the projection suitable with through hole; Described drive source is propulsion cylinder, and described scraping wings is positioned at guide plate top setting, and the cylinder block of this propulsion cylinder is fixed on guide plate, and the cylinder axis of this propulsion cylinder is fixed in the bottom of scraping wings; Described scraping wings bottom is provided with the second guide rail, and described guide plate is provided with the second slide block towards a side of scraping wings, and the second slide block coordinates with the second guide rail slippage.

By adopting technique scheme, be provided with governor motion on build bin, effectively change the position of build bin discharging opening, improved applicable performance, and independent scraping wings is set, effectively scraping wings is delivered to section of feeding subordinate, do the first step to material loading and prepare, scraping wings adopts propulsion cylinder to drive, and coordinates upper the second guide plate and the second slide block, effectively guaranteed the carrying out of first step feeding, stability is higher.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, the below will do to introduce simply to the accompanying drawing of required use in embodiment or description of the Prior Art, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the utility model specific embodiment structural representation;

Fig. 2 is the utility model specific embodiment front oblique view;

Fig. 3 is the utility model specific embodiment reverse side oblique view;

Fig. 4 is oblique view above the utility model specific embodiment;

Fig. 5 is the syndeton stereogram of scraping wings and drive source in the utility model specific embodiment;

Fig. 6 is the syndeton front view of scraping wings and drive source in the utility model specific embodiment;

Fig. 7 is that the A of Fig. 5 is to cutaway view;

Fig. 8 is the utility model specific embodiment rearview.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

as Fig. 1-shown in Figure 8, the utility model discloses a kind of feed appliance of full-automatic numerical control eye glass frame processing machine, in the utility model specific embodiment, comprise pedestal 1, supply assembly and material loading assembly, described material loading assembly is fixed on the front of pedestal 1, described supply assembly is positioned at reverse side one side of pedestal, this supply assembly is positioned at the bottom of material loading assembly, described material loading assembly comprises drive division and the feeding hand that is connected with drive division, this drive division is fixed on pedestal 1, one end of drive division is connected in the feeding hand, described supply assembly is positioned on the motion path of feeding hand, specific feed appliance is set, effectively with raw material until assigned address, greatly improved accuracy, need not continue to adjust the position of raw material, greatly improve working (machining) efficiency and adopted the feeding of feeding hand, eliminated potential safety hazard, effectively guaranteed operator's security.

as Fig. 1, Fig. 2 and shown in Figure 6, in the utility model specific embodiment, described feeding hand comprises the first chuck 11, the second chuck 10 and base plate 5, described the first chuck 11 is fixed in the bottom of base plate 5, described the second chuck 10 is slidably connected to the bottom of base plate 5, the other end of described the second relative the first chuck 11 of chuck 10 is connected with actuator, this first chuck 11 and the second chuck 10 consist of dop, described base plate 5 tops are connected in drive division, wherein, described drive division comprises the first cylinder 3 and the second cylinder 8, the cylinder block of described the first cylinder 3 is fixed on pedestal 1 by fixed block 4, this fixed block 4 vertically is provided with through hole 41, the cylinder axis 31 of the first cylinder is connected in the cylinder block of the second cylinder 8, the cylinder axis 81 of described the second cylinder is connected on base plate 5, be provided with guiding mechanism between described the second cylinder 8 and pedestal 5, this guiding mechanism comprises the first slide block 7 and the first guide rail 2, described the first slide block 7 is connected with the first guide rail 2 slippages, this first slide block 7 is fixedly connected on pedestal 1, described the first guide rail 2 is fixedly connected with the cylinder block of the second cylinder 8, the cylinder axis 31 of described the first cylinder is fixedly connected with the first guide rail 2, wherein the first guide rail 2 passes through hole 41 settings on fixed block, feeding hand getting double collet, and the actuator of controlling the double collet size is set, wherein actuator is the 3rd cylinder 9, the size of control dop that can be random, be applicable to the raw material of different size, and drive division adopts the first cylinder 3 and the second cylinder 8, effectively guaranteed the carrying out of feeding, coordinate again upper guiding mechanism, guaranteed carrying out smoothly of feeding.

as Fig. 3-shown in Figure 8, in the utility model specific embodiment, described supply assembly comprises build bin, scraping wings 17 and drive source, described build bin is provided with discharging opening, be provided with the groove 171 of placing for raw material on described scraping wings 17, this discharging opening is positioned at groove 171 tops settings, wherein the front end on scraping wings 17 tops is provided with alignment pin 25, and the top of scraping wings 17 is provided with location-plate 24, this location-plate 24 is positioned at alignment pin 25 rear portions settings, consist of groove 171 between location-plate 24 and alignment pin 25 this moment, wherein location-plate 24 is provided with pit 241 on the side of alignment pin 25, the length that is shorter in length than groove 171 of this pit 241, this pit has consisted of the storage tank of the first chuck 11, described drive source is fixedly connected with scraping wings 17, wherein, described build bin comprises the side plate 12 that is positioned at groove 171 both sides, the top of described biside plate 12 is connected with governor motion, this governor motion comprises contiguous block 13, two contiguous blocks 13 are individually fixed on pedestal 1, be provided with threaded rod 15 between two contiguous blocks 13, this threaded rod 15 passes biside plate 12 and arranges, and the end of threaded rod 15 is provided with operator 14, consist of cavity 26 between biside plate 12 bottoms, this cavity 26 consists of discharging opening, be provided with three backstays 21 between biside plate 12, backstay 21 is fixed on side plate 12 by baffle plate 22, backstay 21 is positioned at groove 171 tops settings, and the both sides that the bottom of backstay 21 is arranged at groove arrange, edge that is arranged at groove wherein, setting near side plate, one near the pedestal setting, also has one away from the pedestal setting, and be arranged at recess edge, the bottom of biside plate 12 is provided with guidance set, and described guidance set comprises the guide plate 18 that is connected in pedestal 1, and this guide plate 18 is provided with cross through hole 181, and described side plate 12 bottoms are provided with the projection 121 suitable with through hole 181, described drive source is propulsion cylinder 16, and described scraping wings 17 is positioned at guide plate 18 tops settings, and the cylinder block 161 of this propulsion cylinder is fixed on guide plate 18 by locating piece 23, and the cylinder axis 162 of this propulsion cylinder is fixed in the bottom of scraping wings 17, described scraping wings 17 bottoms are provided with the second guide rail 19, described guide plate 18 is provided with the second slide block 20 towards a side of scraping wings 17, the second slide block 20 coordinates with the second guide rail 19 slippages, be provided with governor motion on build bin, effectively change the position of build bin discharging opening, improved applicable performance, and independent scraping wings is set, effectively scraping wings is delivered to section of feeding subordinate, doing the first step to material loading prepares, scraping wings adopts propulsion cylinder to drive, coordinate upper the second guide plate and the second slide block, effectively guaranteed the carrying out of first step feeding, stability is higher.

During the work of this feed appliance, between raw material placement and biside plate 12, have all the time a raw material to be positioned in groove 171 this moment, the first step, and propulsion cylinder 16 promotes scraping wings 17 and travels forward, and just in time raw material is delivered to the bottom of feeding hand; Second step, the second cylinder 8 drives the feeding hand and moves downward, the first chuck 11 is positioned over the inboard of groove 171, conflict with the inboard of raw material, then the 3rd cylinder 9 drives the second chuck 10 to the first chuck 11 motions, until the second chuck 10 is conflicted with the outside of raw material, feeding this moment hand has been completed the work of material folding; In the 3rd step, the first cylinder 3 drives the feeding hand and moves downward, until be transported to desired position, completes a whole set of feeding work this moment.

The above is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. the feed appliance of a full-automatic numerical control eye glass frame processing machine, it is characterized in that: comprise pedestal, supply assembly and material loading assembly, described material loading assembly is fixed on the front of pedestal, described supply assembly is positioned at reverse side one side of pedestal, this supply assembly is positioned at the bottom of material loading assembly, described material loading assembly comprises drive division and the feeding hand that is connected with drive division, this drive division is fixed on pedestal, one end of drive division is connected in the feeding hand, and described supply assembly is positioned on the motion path of feeding hand.

2. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 1, it is characterized in that: described feeding hand comprises the first chuck, the second chuck and base plate, described the first chuck is fixed in the bottom of base plate, described the second chuck is slidably connected to the bottom of base plate, the other end of relative the first chuck of described the second chuck is connected with actuator, this first chuck and the second chuck consist of dop, and described base plate top is connected in drive division.

3. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 1 and 2, it is characterized in that: described supply assembly comprises build bin, scraping wings and drive source, described build bin is provided with discharging opening, be provided with the groove of placing for raw material on described scraping wings, this discharging opening is positioned at groove top setting, and described drive source is fixedly connected with scraping wings.

4. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 2, it is characterized in that: described drive division comprises the first cylinder and the second cylinder, the cylinder block of described the first cylinder is fixed on pedestal, the cylinder axis of the first cylinder is connected in the cylinder block of the second cylinder, and the cylinder axis of described the second cylinder is connected on base plate.

5. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 4, it is characterized in that: be provided with guiding mechanism between described the second cylinder and pedestal, this guiding mechanism comprises the first slide block and the first guide rail, described the first slide block is connected with the first guide rail slippage, this first slide block is fixedly connected on pedestal, described the first guide rail is fixedly connected with the cylinder block of the second cylinder, and the cylinder axis of described the first cylinder is fixedly connected with the first guide rail.

6. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 3, it is characterized in that: described build bin comprises the side plate that is positioned at the groove both sides, biside plate consists of cavity between the bottom, this cavity consists of discharging opening, be provided with backstay between described biside plate, described backstay is fixed on side plate, and backstay is positioned at groove top setting, and the bottom of backstay is arranged at the both sides setting of groove.

7. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 6, it is characterized in that: the top of described biside plate is connected with governor motion, this governor motion comprises contiguous block, be provided with threaded rod between two contiguous blocks, this threaded rod passes the biside plate setting, and the end of threaded rod is provided with operator, the bottom of biside plate is provided with guidance set, described guidance set comprises the guide plate that is connected in pedestal, this guide plate is provided with cross through hole, and described side plate bottom is provided with the projection suitable with through hole.

8. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 7, it is characterized in that: described drive source is propulsion cylinder, described scraping wings is positioned at guide plate top setting, the cylinder block of this propulsion cylinder is fixed on guide plate, and the cylinder axis of this propulsion cylinder is fixed in the bottom of scraping wings.

9. the feed appliance of full-automatic numerical control eye glass frame processing machine according to claim 8, it is characterized in that: described scraping wings bottom is provided with the second guide rail, described guide plate is provided with the second slide block towards a side of scraping wings, and the second slide block coordinates with the second guide rail slippage.

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