阅读说明：本技术 按压泵的垫片检测装置 (Gasket detection device of pressing pump ) 是由 林添大 于 2019-08-27 设计创作，主要内容包括：一种按压泵的垫片检测装置,包括圆环形轨道和设在主机上的装填机构,轨道上设有凸起,装填机构包括托杆和滚轮；还包括定位托杆、销体、导向套、支座、放大杆、压力弹簧、红外传感器和光纤座；导向套固定在轴向固定孔内,定位托杆设在导向套内,销体穿过定位托杆的销孔并伸入径向导向孔内,定位托杆的上端伸入凹槽内；压力弹簧和红外传感器设在光纤座内；放大杆的枢接座与支座枢接,放大杆一端与伸入径向导向孔内与销体的端部配合,另一端与压力弹簧和红外传感器配合；定位托杆上端与所述滚轮配合。本体和垫片装配的同时,放大杆动作,红外传感器将信号传递到控制装置,停机,检出,然后继续工作,与现有技术,从周转箱只挑检,提高了工效。(A gasket detection device of a pressing pump comprises a circular track and a loading mechanism arranged on a host, wherein the track is provided with a bulge, and the loading mechanism comprises a support rod and a roller; the device also comprises a positioning support rod, a pin body, a guide sleeve, a support, an amplifying rod, a pressure spring, an infrared sensor and an optical fiber seat; the guide sleeve is fixed in the axial fixing hole, the positioning support rod is arranged in the guide sleeve, the pin body penetrates through a pin hole of the positioning support rod and extends into the radial guide hole, and the upper end of the positioning support rod extends into the groove; the pressure spring and the infrared sensor are arranged in the optical fiber seat; the pin joint seat of the amplifying rod is pin jointed with the support, one end of the amplifying rod is matched with the end part of the pin body extending into the radial guide hole, and the other end of the amplifying rod is matched with the pressure spring and the infrared sensor; the upper end of the positioning supporting rod is matched with the roller. When the body and the gasket are assembled, the amplifying rod acts, the infrared sensor transmits signals to the control device, the machine is stopped, the detecting is carried out, then the work is continued, compared with the prior art, only the detecting is carried out from the turnover box, and the work efficiency is improved.)

1. A gasket detection device of a pressing pump comprises a circular track arranged at the bottom of a main body and surrounding the main body and a plurality of filling mechanisms arranged on a host, wherein the track is provided with a bulge, and each filling mechanism comprises a supporting rod and a roller pivoted at the lower end of the supporting rod; the roller of the filling mechanism is in sliding fit with the bulge; the method is characterized in that: the middle part of the bulge is provided with a groove along the radial direction of the circular track, an axial fixing hole communicated with the groove along the axial direction and a radial guide hole communicated with the axial fixing hole, and the length direction of the radial guide hole is along the axial direction of the circular track;

the device also comprises a positioning support rod, a pin body, a guide sleeve with an upper opening and a lower opening, a support, an amplifying rod, a pressure spring, an infrared sensor and an optical fiber seat;

the positioning support rod is provided with a pin hole; the guide sleeve is provided with a longitudinal guide hole along the axial direction;

the guide sleeve is fixed in the axial fixing hole, the positioning support rod is arranged in the guide sleeve, the pin body penetrates through a pin hole of the positioning support rod and extends into the radial guide hole, and the upper end of the positioning support rod extends into the groove; the pressure spring and the infrared sensor are arranged in the optical fiber seat; the pin joint seat of the amplifying rod is pin jointed with the support, one end of the amplifying rod is matched with the end part of the pin body extending into the radial guide hole, and the other end of the amplifying rod is matched with the pressure spring and the infrared sensor; the upper end of the positioning supporting rod is matched with the roller.

Technical Field

The invention relates to an assembly machine for a body and a gasket of a pressing pump.

Background

In the prior art, a gasket assembly machine comprises a workbench, a main body arranged on the workbench, a plurality of filling mechanisms arranged on a host machine and a circular track arranged at the bottom of the main body and surrounding the main body, wherein the track is provided with a bulge, and each filling mechanism comprises a supporting rod and a roller pivoted at the lower end of the supporting rod; the roller of the filling mechanism is in sliding fit with the bulge; the support rod slides up and down on the main body to complete the assembly of the gasket. There are problems in that: whether the body is assembled with the gasket needs manual detection, and the work efficiency is low.

Disclosure of Invention

The purpose of the invention is: the gasket detection device of the pressing pump can detect whether the gasket is assembled on the body or not, and work efficiency is improved.

The invention is realized by the following steps: a gasket detection device of a pressing pump comprises a circular track arranged at the bottom of a main body and surrounding the main body and a plurality of filling mechanisms arranged on a host, wherein the track is provided with a bulge, and each filling mechanism comprises a supporting rod and a roller pivoted at the lower end of the supporting rod; the roller of the filling mechanism is in sliding fit with the bulge; it is characterized in that: the middle part of the bulge is provided with a groove along the radial direction of the circular track, an axial fixing hole communicated with the groove along the axial direction and a radial guide hole communicated with the axial fixing hole, and the length direction of the radial guide hole is along the axial direction of the circular track;

the device also comprises a positioning support rod, a pin body, a guide sleeve with an upper opening and a lower opening, a support, an amplifying rod, a pressure spring, an infrared sensor and an optical fiber seat;

the positioning support rod is provided with a pin hole; the guide sleeve is provided with a longitudinal guide hole along the axial direction;

the guide sleeve is fixed in the axial fixing hole, the positioning support rod is arranged in the guide sleeve, the pin body penetrates through a pin hole of the positioning support rod and extends into the radial guide hole, and the upper end of the positioning support rod extends into the groove; the pressure spring and the infrared sensor are arranged in the optical fiber seat; the pin joint seat of the amplifying rod is pin jointed with the support, one end of the amplifying rod is matched with the end part of the pin body extending into the radial guide hole, and the other end of the amplifying rod is matched with the pressure spring and the infrared sensor; the upper end of the positioning supporting rod is matched with the roller.

According to the gasket detection device of the press pump, due to the adoption of the structure, when the body and the gasket are assembled, the amplifying rod acts, the infrared sensor transmits a signal to the control device, the machine is stopped, the gasket is detected, and then the gasket continues to work.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a partially enlarged view of fig. 2.

Fig. 4 is an exploded perspective view of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, a gasket detection device of a pressing pump comprises a circular track 1 arranged at the bottom of a main body and surrounding the main body, and a plurality of filling mechanisms 2 arranged on a host, wherein a bulge 1A is arranged on the track 1, and each filling mechanism 2 comprises a supporting rod 21 and a roller 22 pivoted at the lower end of the supporting rod; the roller 22 of the charging mechanism 2 is in sliding engagement with the projection 1A.

The middle part of the bulge 1A is provided with a groove 1B along the radial direction of the circular ring track, an axial fixing hole 1C communicated with the groove along the axial direction and a radial guide hole 1D communicated with the axial fixing hole, and the length direction of the radial guide hole 1D is along the axial direction of the circular ring track 1;

the device also comprises a positioning support rod 3, a pin body 4, a guide sleeve 5 with an upper opening and a lower opening, a support 6, an amplifying rod 7, a pressure spring 8, an infrared sensor 9 and an optical fiber seat 10;

the positioning support rod 3 is provided with a pin hole 31; the guide sleeve 5 is provided with a longitudinal guide hole 51 along the axial direction;

the guide sleeve 5 is fixed in the axial fixing hole 1C, the positioning support rod 3 is arranged in the guide sleeve 5, the pin body 4 penetrates through the pin hole 31 of the positioning support rod 3 and the longitudinal guide hole 51 on the guide sleeve 5 and extends into the radial guide hole 1D, and the upper end of the positioning support rod 3 extends into the groove 1B; the pressure spring 8 and the infrared sensor 9 are arranged in the optical fiber seat 10; a pivoting seat of the amplifying rod 7 is pivoted with the support 6, one end of the amplifying rod 7 is matched with the end part of the pin body 4 after extending into the radial guide hole 1D, and the other end of the amplifying rod is matched with the pressure spring 8 and the infrared sensor 9; the upper end of the positioning supporting rod 3 is matched with the roller 22.

The circular ring-shaped track 1, the support 6 and the optical fiber seat 10 are fixed on a workbench of the gasket assembly machine.

When the filling machine is used, the roller 22 of the filling mechanism 2 moves on the circular track 1 and passes through the groove 1B on the bulge 1A, the body at the top of the upper supporting rod 21 is automatically assembled and is opposite to the gasket on the main body, the supporting rod 21 moves upwards to complete the assembly of the body of the pressing pump and the gasket, the roller 22 acts on the upper end of the positioning supporting rod 3 when filling is completed, the positioning supporting rod 3 and the pin body 4 move downwards together, and the lower end of the pin body 4 acts on the amplifying rod 7; as shown in fig. 2, the amplification lever 7 rotates counterclockwise, and the other end of the amplification lever 7 acts on the pressure spring 8 and compresses the pressure spring 8; the infrared sensor 9 transmits signals to a control device of the gasket assembly machine; after the filling mechanism 2 leaves the groove 1B, the positioning support rod moves upwards to reset under the action of the pressure spring 8;

when no gasket is assembled on the body, the positioning support rod 3 is static when the roller 22 passes through the groove 1B, the infrared sensor transmits a signal to the control device, the main body stops, and the unassembled body is detected; the main body then continues to operate.

What has been described above is merely a preferred embodiment of the present invention. It should be noted that a person skilled in the art could make several modifications and variations without departing from the principle of the present invention, which should also be regarded as the protection scope of the present invention.