CN212143257U - Optical fiber connector dispensing mechanism - Google Patents

Abstract

The utility model discloses an optical fiber splice point gum machine constructs, it includes: the driving assembly comprises a sliding groove, a sliding seat and an air cylinder, the sliding groove is horizontally arranged, the sliding seat is arranged in the sliding groove in a sliding mode, and the air cylinder drives the sliding seat to slide along the sliding groove; the dispensing cylinder is fixed on the sliding seat, an accommodating space is formed in the dispensing cylinder, an air inlet is formed in one end of the dispensing cylinder, and a dispensing opening extends from the other end of the dispensing cylinder; the air supply assembly is connected with the air inlet at an air outlet end and outputs quantitative air to the dispensing cylinder so as to extrude quantitative glue. The glue dispensing cylinder is fixed on the sliding seat, the air cylinder drives the sliding seat to slide along the sliding groove, so that the glue dispensing cylinder is driven to reach the position right above the optical fiber connector, glue in the glue dispensing cylinder is extruded out from a glue dispensing opening of the glue dispensing cylinder under the action of air pressure provided by the air supply assembly, the glue can be ensured to drip at the same position of the glue dispensing cylinder at each time, the volume of air output by the air supply assembly at each time is controlled to be consistent, and the using amount of each glue can be ensured to be consistent.

Description

Optical fiber connector dispensing mechanism

Technical Field

The utility model relates to an optic fibre processing field, concretely relates to optical fiber splice point gum machine constructs.

Background

The connector sleeve of optic fibre is located the end of optic fibre, need the point glue to fix at the juncture of joint and optic fibre, but optic fibre as an optical device, and is very high to the precision requirement, but the fine error of workman's in the operation process appears, and the extrusion of glue is too little, and then the joint is fixed firm inadequately, and the extrusion of glue is too much, and the back bulge that solidifies of glue influences the outward appearance of product. Therefore, how to avoid the error of workers and ensure the glue dosage precision is a technical problem which needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, propose one kind, solve the technical problem among the prior art.

In order to achieve the above technical purpose, the technical solution of the present invention includes an optical fiber splice dispensing mechanism, which includes:

the driving assembly comprises a sliding groove, a sliding seat and an air cylinder, the sliding groove is horizontally arranged, the sliding seat is arranged in the sliding groove in a sliding mode, and the air cylinder drives the sliding seat to slide along the sliding groove;

the dispensing cylinder is fixed on the sliding seat, an accommodating space is formed in the dispensing cylinder, an air inlet is formed in one end of the dispensing cylinder, and a dispensing opening extends from the other end of the dispensing cylinder;

the air supply assembly is connected with the air inlet at an air outlet end and outputs quantitative air to the dispensing cylinder so as to extrude quantitative glue.

Compared with the prior art, the beneficial effects of the utility model include: the glue dispensing cylinder is fixed on the sliding seat, the air cylinder drives the sliding seat to slide along the sliding groove, so that the glue dispensing cylinder is driven to reach the position right above the optical fiber connector, the air outlet end of the air supply assembly is connected with the air inlet, glue in the glue dispensing cylinder is extruded from the glue dispensing opening of the glue dispensing cylinder under the action of air pressure provided by the air supply assembly, the glue is further enabled to drip to the gap of the optical fiber connector, and then the air cylinder drives the sliding seat to return to the initial position, so that the glue dispensing cylinder is driven to reset. Through the utility model provides an optical fiber splice point gum machine constructs can ensure the glue that drips at the same position at every turn of a point gum section of thick bamboo, and the gas capacity who exports at every turn of simultaneous control air feed subassembly is unanimous, can guarantee that the quantity of every glue is unanimous to the precision that glue drips has been guaranteed.

Drawings

Fig. 1 is a schematic view of an optical fiber splice dispenser according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a slide carriage according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a dispensing cylinder according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides an optical fiber splice point gum machine constructs, it includes: the dispensing device comprises a driving assembly 100, a dispensing cylinder 200 and an air supply assembly 300, wherein the driving assembly 100 drives the dispensing cylinder 200 to move, glue is contained in the dispensing cylinder 200, and the air supply assembly 300 supplies air to the dispensing cylinder 200, so that the glue is extruded out.

The driving assembly 100 comprises a sliding groove 110, a sliding seat 120 and an air cylinder 130, wherein the sliding groove 110 is horizontally arranged, the sliding seat 120 is slidably arranged on the sliding groove 110, a cylinder body of the air cylinder 130 is fixed on the sliding groove 110, a piston rod of the air cylinder 130 is fixedly connected with the sliding seat 120, and the air cylinder 130 drives the sliding seat 120 to slide along the sliding groove 110. The cross section of the sliding groove 110 is preferably T-shaped, and the corresponding sliding key extending from the sliding seat 120 is also T-shaped, and the sliding key is embedded in the sliding groove 110, so that the sliding seat 120 is slidably disposed on the sliding seat 110.

The dispensing tube 200 is fixed to the slide 120, and a receiving space is formed therein, which includes: the dispensing tube 200 comprises a tube body 210, an end cover 220 and a needle 230, wherein the tube body 210 is of a tubular structure and is vertically fixed on the sliding seat 120, the end cover 220 is fixed at the upper end of the tube body 210, the air inlet 221 is arranged on the end cover 220, the needle 230 is fixed at the lower end of the tube body 210, and the dispensing port 231 is arranged on the needle 230.

In order to repair and maintain the equipment and detachably fix the dispensing tube 200 to the slide 120, the dispensing tube 200 is preferably fixed in the following manner in the present embodiment. The slide 120 is vertically provided with a mounting hole 121, a screw hole 122 is formed on a side wall of the slide, the screw hole 122 is communicated with the mounting hole 121, and the cylinder 210 is installed in the mounting hole 121. In addition, a pressing end 123a extends from the fixing knob 123, the pressing end 123a is cylindrical, and an external thread is formed on the outer wall of the cylinder, and the external thread is matched with the screw hole 122, so that the pressing end 123a penetrates through the screw hole 122 and presses the cylinder 210. The cylinder 210 is fixed in the mounting hole 121 by the pressing action of the pressing end 123a of the knob 123.

And the air supply assembly 300 provides air pressure, and the air outlet end is connected with the air inlet 221. The gas supply assembly 300 includes: the air pump 310, the air supply pipe 320 and the air valve 330, one end of the air supply pipe 320 is connected with the air pump 310, the other end is connected with the air inlet 221, and the air valve 330 is arranged on the air supply pipe 320. It should be noted here that since the dispensing cylinder 200 moves with the carriage 120, the air supply pipe 320 should be a hose. As the air supply assembly 300 is required to supply an even amount of air each time, a measured amount of glue is squeezed out. It is conceivable that the requirement can be satisfied by pumping a fixed amount of gas each time with a high-precision gas pump. In order to save the equipment cost, a common air pump can be used for continuous work, the opening time of the air valve 330 is controlled to be consistent every time, and then quantitative air can be pumped into the dispensing cylinder 200 every time.

One end of the chute 110 is provided with a receiving member 400, the receiving member 400 extends to form a receiving surface 410, and when the dispensing cartridge 200 is at the initial position, the receiving surface 410 faces the dispensing opening 230. Thereby preventing the glue leaked from the glue dispensing opening 230 from spilling around, and the spilled glue is received and collected by the glue receiving member 400.

The dispensing tube 200 is fixed on the sliding base 120, and the air cylinder 130 drives the sliding base 120 to slide along the sliding groove 110, so as to drive the dispensing tube 200 to reach right above the optical fiber connector, and the air outlet end of the air supply assembly 300 is connected with the air inlet 221, under the action of the air pressure provided by the air supply assembly 300, the glue in the dispensing tube 200 is extruded out from the dispensing port 231 of the dispensing tube 200, so that the glue drops to the gap of the optical fiber connector, and then the air cylinder 130 drives the sliding base 120 to return to the initial position, so as to drive the dispensing tube 200 to reset. Through the utility model provides an optical fiber splice point gum machine constructs can ensure a glue dispensing tube 200 glue that drips in the same position at every turn, and the gas capacity who exports at every turn of simultaneous control air feed subassembly 300 is unanimous, can guarantee that the quantity of every glue is unanimous to the precision that glue drips has been guaranteed.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. An optical fiber splice dispensing mechanism, comprising:

the driving assembly comprises a sliding groove, a sliding seat and an air cylinder, the sliding groove is horizontally arranged, the sliding seat is arranged in the sliding groove in a sliding mode, and the air cylinder drives the sliding seat to slide along the sliding groove;

the dispensing cylinder is fixed on the sliding seat, an accommodating space is formed in the dispensing cylinder, an air inlet is formed in one end of the dispensing cylinder, and a dispensing opening extends from the other end of the dispensing cylinder;

the air supply assembly is connected with the air inlet at an air outlet end and outputs quantitative air to the dispensing cylinder so as to extrude quantitative glue.

2. The optical fiber connector dispensing mechanism according to claim 1, wherein the dispensing tube comprises a tube body, an end cap and a needle, the tube body is of a tubular structure and is vertically fixed on the sliding seat, the end cap is fixed at the upper end of the tube body, the air inlet is arranged at the end cap, the needle is fixed at the lower end of the tube body, and the dispensing opening is arranged at the needle.

3. The optical fiber connector dispensing mechanism according to claim 2, further comprising a fixing knob, wherein the sliding seat has a mounting hole vertically formed therein, a screw hole is formed in a side wall of the sliding seat, the screw hole is communicated with the mounting hole, the barrel is mounted in the mounting hole, a pressing end extends from the fixing knob, and the pressing end penetrates through the screw hole and presses against the barrel.

4. The fiber optic splice dispensing mechanism of claim 1, wherein the gas supply assembly comprises: the air supply pipe is connected with the air pump at one end and connected with the air inlet at the other end, and the air valve is arranged on the air supply pipe.

5. The optical fiber splice dispenser according to claim 1, wherein a glue receiving member is mounted at one end of said chute, said glue receiving member having a receiving surface extending therefrom, said receiving surface facing said dispensing opening.

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