CN211679854U - Connecting screw vibration output mechanism for heating pipe support - Google Patents

Abstract

A vibration output mechanism of a connecting screw rod for a heating pipe support is characterized by comprising a vibration disc, a first guide groove, a second guide groove, a third guide groove, a baffle plate and a clamping cylinder, wherein the upper end of the vibration disc is provided with a cylindrical part, a guide rail which extends upwards in a spiral shape is formed on the inner wall of the cylindrical part, and a falling area of the connecting screw rod is formed in the middle inner cavity of the cylindrical part; the baffle is arranged along the extending direction of the second guide groove, a guide gap is formed between the bottom of the baffle and the bottom wall of the second guide groove, and the aperture of the guide gap is larger than that of the connecting screw rod and smaller than that of the positioning ring; the clamping cylinder is used for clamping the riveting end of the connecting screw rod. The connecting screw rod can be automatically output according to the upright posture of the riveting end by the cooperative fit of the guide grooves and the baffle plates, and then the clamping cylinder is used for automatically clamping to complete subsequent assembly work, so that the working efficiency is greatly improved.

Description

Connecting screw vibration output mechanism for heating pipe support

Technical Field

The utility model relates to an automatic output mechanism especially relates to a connecting screw's output mechanism, can replace manual operation.

Background

Fig. 1 shows a heating pipe bracket 10a in a water heater in the prior art, which comprises a connection skin 2a and a connection screw 1a disposed on the connection skin, wherein one end of the connection screw 1a is riveted to the middle of the connection skin 2 a. Fig. 2 is a schematic structural diagram of an initial state of the connecting screw, one end of the connecting screw is a riveted portion 11a, the other end of the connecting screw is provided with an external thread to form a threaded portion 12a, the middle of the connecting screw is provided with a raised positioning ring 13a, and the positioning ring 13a can limit the connecting screw 1a in an assembly hole of the connecting skin 2 a.

The heating pipe support in the prior art is manually assembled on a riveting machine, the specific steps are that a riveting part of a connecting screw rod is vertically arranged in a positioning groove of a positioning block of the riveting machine upwards, then a riveting hole of a connecting skin is aligned to a connecting screw rod sleeve, a riveting head of the riveting machine works to complete riveting, the assembled heating pipe support is disassembled, and then a second heating pipe support is assembled and reciprocates in sequence. The arrangement of the connecting screw in these steps is manually completed, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a connecting screw vibration output mechanism for heating pipe support that connecting screw can be according to the posture automatic output of setting for is provided to foretell technical current situation.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a connecting screw vibration output mechanism for a heating pipe support is characterized by comprising

The upper end of the vibrating disk is provided with a cylindrical part, the inner wall of the cylindrical part is formed with a guide rail which extends upwards in a spiral shape, and the middle inner cavity of the cylindrical part forms a falling area of a connecting screw rod;

the first guide groove is bent and wound and is connected with the guide rail, and the transverse width of the first guide groove is smaller than the length of the connecting screw rod, so that the connecting screw rod can only be arranged and conveyed along the length direction;

the second guide groove is connected with the first guide groove, and the bottom wall of the second guide groove is inclined downwards from the inner ring to the outer ring;

the baffle is arranged along the extending direction of the second guide groove, a guide gap is formed between the bottom of the baffle and the bottom wall of the second guide groove, and the aperture of the guide gap is larger than that of the connecting screw rod and smaller than that of the positioning ring;

the third guide groove is connected with the second guide groove, and the transverse width of the third guide groove can be used for a single connecting screw rod to pass through in an upright state; and

and the clamping cylinder is movably arranged on one side of the third guide groove and is used for clamping and connecting the riveting end of the screw rod.

Furthermore, first guide way include anterior segment guide way and the back end guide way that meets with the anterior segment guide way, the horizontal width of anterior segment guide way is greater than the horizontal width of back end guide way, and the back end guide way only supplies single connecting screw to pass through.

Preferably, a vibrator is arranged at the bottom of the third guide groove.

Furthermore, the output mechanism also comprises a movable air cylinder, and the power output end of the movable air cylinder is provided with the clamping air cylinder.

Further, the inclination angle of the second guide groove is gradually increased.

Furthermore, a flanging part which can be connected with the threaded part of the screw rod and smoothly enter the guide gap is arranged at the joint of the second guide groove and the third guide groove.

Compared with the prior art, the utility model has the advantages of: the connecting screw rod can be automatically output according to the upright posture of the riveting end by the cooperative fit of the guide grooves and the baffle plates, and then the clamping cylinder is used for automatically clamping to complete subsequent assembly work, so that the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a heating pipe bracket in the prior art.

Fig. 2 is a schematic structural view of the connecting screw before assembly.

FIG. 3 is a schematic structural diagram of an embodiment.

Fig. 4 is an enlarged structure schematic diagram of the vibration disk in the embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

The connecting screw vibration output mechanism for the heating pipe support in the embodiment comprises a vibration disc 1, a first guide groove 21, a second guide groove 22, a third guide groove 23, a baffle plate 3, a moving cylinder 5 and a clamping cylinder 4.

The upper end of the vibrating disk 1 is provided with a cylindrical part 11, the inner wall of the cylindrical part 11 is formed with a guide rail 12 which extends upwards in a spiral shape, and the middle inner cavity of the cylindrical part 11 forms a falling area of a connecting screw.

The first guide groove 21 is bent and wound and connected with the guide rail 12, and the transverse width of the first guide groove 21 is smaller than the length of the connecting screw rod, so that the connecting screw rod can only be arranged and conveyed along the length direction; the first guide groove 21 includes a front guide groove 211 and a rear guide groove 212 connected to the front guide groove 211, the front guide groove 211 has a lateral width larger than that of the rear guide groove 212, and the rear guide groove 212 allows only a single connecting screw to pass through.

The second guide groove 22 is connected with the first guide groove 21, and the bottom wall of the second guide groove is inclined downwards from the inner ring to the outer ring; the inclination angle of the second guide groove 22 is gradually increased.

The baffle 3 is arranged along the extending direction of the second guide groove 22, a guide gap 31 is arranged between the bottom of the baffle 3 and the bottom wall of the second guide groove 22, and the diameter of the guide gap 31 is larger than that of the connecting screw rod and smaller than that of the positioning ring.

The third guide groove 23 adjoins the second guide groove 22, the third guide groove 23 being transversely wide enough for the individual connecting screw to pass through in the upright position. The third guiding groove 23 is divided into a front section 231 and a rear section 232, the front section 231 is composed of two guiding rods arranged at intervals, and the bottom of the rear section 232 is provided with a vibrator 35. The joint of the second guide groove 22 and the third guide groove 23 is provided with a flanging part 34 which can be connected with the screw thread part of the screw rod and smoothly enter the guide gap 31.

The power output end of the moving cylinder 5 is provided with a clamping cylinder 4. The moving cylinder is arranged on the support 51, and the clamping cylinder 4 is movably arranged on one side of the third guide groove 23 and used for clamping and connecting the riveting end of the screw rod.

The working principle is as follows:

the vibration disc 1 works, the connecting screw rod 1a gradually rises into the first guide groove 21 along the guide rail 12, the connecting screw rod 1a enters the guide gap 31 through the front section guide groove 211 and then enters the rear section guide groove 212, the connecting screw rod 1a coming out of the rear section guide groove 212 is acted by the flanging part 34, the threaded part 12a of the connecting screw rod 1a enters the guide gap 31 and enters the third guide groove 23 through the second guide groove 22, the clamping cylinder 4 acts to clamp the riveting end 11a of the connecting screw rod 1a, the moving cylinder 5 works, and the clamping cylinder 4 is pushed to move forwards to a subsequent assembly station.

Claims (6)

1. A connecting screw vibration output mechanism for a heating pipe support is characterized by comprising

The vibration disc (1) is provided with a cylindrical part (11) at the upper end, a guide rail (12) which extends upwards in a spiral shape is formed on the inner wall of the cylindrical part (11), and a connection screw falling area is formed in the middle inner cavity of the cylindrical part (11);

the first guide groove (21) is bent and wound and is connected with the guide rail (12), and the transverse width of the first guide groove (21) is smaller than the length of the connecting screw rod, so that the connecting screw rod can only be arranged and conveyed along the length direction;

a second guide groove (22) which is connected to the first guide groove (21) and has a bottom wall inclined downward from the inner ring to the outer ring;

the baffle (3) is arranged along the extending direction of the second guide groove (22), a guide gap (31) is formed between the bottom of the baffle (3) and the bottom wall of the second guide groove (22), and the aperture of the guide gap (31) is larger than that of the connecting screw rod and smaller than that of the positioning ring;

a third guide groove (23) connected to the second guide groove (22), the third guide groove (23) having a width in the lateral direction allowing a single connecting screw to pass therethrough in an upright state; and

and the clamping cylinder (4) is movably arranged on one side of the third guide groove (23) and is used for clamping and connecting the riveting end of the screw rod.

2. The vibration output mechanism of the connecting screw rod for the heating tube support according to claim 1, characterized in that the first guide groove (21) comprises a front guide groove (211) and a rear guide groove (212) connected with the front guide groove (211), the transverse width of the front guide groove (211) is larger than that of the rear guide groove (212), and the rear guide groove (212) is only used for a single connecting screw rod to pass through.

3. The connecting screw vibration output mechanism for a heating tube support according to claim 1, characterized in that a vibrator (35) is provided at the bottom of the third guide groove (23).

4. The heating tube support connection screw vibration output mechanism according to claim 1, characterized in that the output mechanism further comprises a moving cylinder (5), and the power output end of the moving cylinder (5) is provided with the clamping cylinder (4).

5. The connecting screw vibration output mechanism for a heating tube holder according to claim 1, characterized in that the angle of inclination of the second guide groove (22) increases stepwise.

6. The connecting screw vibration output mechanism for a heating tube support according to claim 1, characterized in that a flanging part (34) capable of enabling the threaded part of the connecting screw to smoothly enter the guide gap (31) is arranged at the joint of the second guide groove (22) and the third guide groove (23).

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