CN213917024U - Square valve assembly device - Google Patents

Abstract

The utility model discloses a square valve assembly device, which comprises a transmission base, an assembly base, a first vibration disc, a second vibration disc, a first transmission rail, a second transmission rail, a first cylinder, a second cylinder, an assembly cylinder, an electrical control box, a control panel, a finished product chute, an assembly pressing block and an infrared induction recognition device; the first vibration disc and the second vibration disc are fixed above the conveying base; the first cylinder and the second cylinder are horizontally fixed above the assembly base and are oppositely arranged on the same horizontal line; the first conveying track is connected with the first vibrating disk, and the second conveying track is connected with the second vibrating disk; the assembly chute connects the first transfer track and the second transfer track. The utility model discloses a square valve assembly device can reduce the manual work by a wide margin, improves production efficiency to improve the product yield.

Description

Square valve assembly device

Technical Field

The utility model relates to the field of mechanical equipment, in particular to square valve assembly device.

Background

The square valve consists of an upper cover, a lower cover and a valve plate, is applied to the mask and is a one-way valve, the valve plate is opened when the mask is inflated, the valve plate is closed when the mask is deflated, dryness inside the mask can be guaranteed, and dust cannot be inhaled when the mask is deflated.

At present, when the square valve is manufactured, manual assembly is adopted, the assembly efficiency is low, and in the assembly process, the product yield is influenced to a certain extent due to manual factors.

There is a need for a square valve assembly apparatus capable of greatly improving production efficiency and effectively increasing product yield to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a square valve assembly device, the utility model discloses a square valve assembly device can reduce the manual work by a wide margin, improves production efficiency to improve the product yield.

The utility model discloses a solve above-mentioned technical problem through following technical scheme:

the utility model provides a square valve assembly device, which comprises a transmission base, an assembly base, a first vibration disc, a second vibration disc, a first transmission rail, a second transmission rail, a first cylinder, a second cylinder, an assembly cylinder, an electrical control box, a control panel, a finished product chute, an assembly pressing block and an infrared induction recognition device; the first vibration disc and the second vibration disc are fixed above the conveying base; the first cylinder and the second cylinder are horizontally fixed above the assembly base and are oppositely arranged on the same horizontal line; the first conveying track is connected with the first vibrating disk, the second conveying track is connected with the second vibrating disk, the tail end of the first conveying track corresponds to the first air cylinder, and the tail end of the second conveying track corresponds to the second air cylinder; the assembly sliding groove is connected with the first conveying track and the second conveying track and communicated with the finished product sliding groove; the assembling cylinder is vertically fixed above the assembling base, and the assembling press block is fixed on a valve rod of the assembling cylinder; the first air cylinder, the second air cylinder, the assembling air cylinder, the first vibration disc, the second vibration disc, the first conveying track and the second conveying track are respectively connected with the electric control box, the electric control box is connected with the control panel, the electric control box is fixed inside the assembling base, and the control panel is fixed above the assembling base; the infrared induction recognition device is fixed on the assembly base and corresponds to the first air cylinder and the second air cylinder.

In the utility model, the conveying base and the assembling base are respectively used for bearing other components, and the structures of the conveying base and the assembling base are conventional in the field;

preferably, the height of the conveying base and the height of the assembling base are 0.8-1.2 m;

preferably, rollers are arranged below the conveying base and the assembling base, and braking components are arranged on the rollers and used for realizing the movement of the whole device;

preferably, an assembly support frame is installed on the assembly base, and the first cylinder, the second cylinder and the assembly cylinder are all fixed on the assembly support frame.

The utility model discloses in, first vibration dish be used for with wait to assemble the part transport to first transfer track second vibration dish is used for waiting to assemble the part and transports to second transfer track, first vibration dish with second vibration dish is the field conventionality.

The utility model discloses in, first transfer track with second transfer track is used for respectively waiting to assemble the conveying of part, first transfer track with second transfer track is the conventionality in this field.

The utility model discloses in, first cylinder with the second cylinder is used for the propelling movement respectively to wait to assemble the part, first cylinder with the second cylinder is the conventionality in this field.

The utility model discloses in, the equipment cylinder is used for pressing the part of waiting to assemble that comes from first transfer orbit and second transfer orbit to realize the equipment, the equipment cylinder is the field conventionality.

The utility model discloses in, the equipment briquetting designs according to the shape of product to prevent the crushing of product in the equipment process.

The utility model discloses in, electrical control box with control panel is the field conventionality for realize the control to other part operations, guarantee the stability of production and control equipment quantity and efficiency.

The utility model discloses in, the equipment spout is used for bearing the weight of and comes from the part of waiting to assemble of first transfer track and second transfer track to realize the equipment above it, the equipment spout is the conventionality in this field.

The utility model discloses in, the finished product spout is used for realizing that the equipment is finished off-the-shelf to slide to distinguish yields and defective products, avoid loading in mixture and bruising.

In the utility model, the infrared induction recognition device is used for ensuring that no bad assembly parts are mixed;

preferably, the infrared induction recognition device includes a first infrared recognizer and a second infrared recognizer, the first infrared recognizer is fixed above the first cylinder, and the second infrared recognizer is fixed above the second cylinder.

The utility model discloses a square valve assembly device's use flow does: the upper cover of side valve transports to first conveying track through first vibration dish, and the lower cover of side valve transports to second conveying track through second vibration dish, and the upper cover passes through the equipment position of first cylinder propelling movement to equipment spout, and the lower cover passes through the equipment position of second cylinder propelling movement to equipment spout, and when the upper cover and lower cover all arrived the equipment position, the equipment cylinder pushed down, accomplishes the equipment, and the product after the equipment is accomplished slides down along the finished product spout, accomplishes whole flow.

The utility model discloses an actively advance the effect: the utility model discloses a square valve assembly device can reduce the manual work by a wide margin, improves production efficiency to improve the product yield.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a top view of a square valve assembly apparatus according to an embodiment of the present invention;

fig. 2 is a side view of a square valve assembly apparatus according to an embodiment of the present invention;

fig. 3 is a front view of a square valve assembly apparatus according to an embodiment of the present invention.

Description of reference numerals:

1. a transport base;

11. a first vibratory pan;

12. a second vibratory pan;

13. a first transfer track;

14. a second transfer rail;

2. assembling a base;

21. assembling a support frame;

22. assembling a pressing block;

23. a control panel;

24. a first cylinder;

25. a second cylinder;

26. assembling the sliding chute;

27. assembling a cylinder;

28. a first infrared identifier;

29. a first infrared identifier;

30. finished product spout.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, 2 and 3, the present embodiment provides a square valve assembly apparatus, which includes a transmission base 1, an assembly base 2, a first vibration plate 11, a second vibration plate 12, a first transmission rail 13, a second transmission rail 14, a first cylinder 24, a second cylinder 25, an assembly cylinder 27, an electrical control box (not shown in the figure in the assembly base), a control panel 23, a finished product chute 30, an assembly chute 26, an assembly press block 22 and an infrared induction recognition device; the first vibration plate 11 and the second vibration plate 12 are fixed above the conveying base 1; the first air cylinder 24 and the second air cylinder 25 are horizontally fixed above the assembly base 2, and the first air cylinder 24 and the second air cylinder 25 are oppositely arranged on the same horizontal line; the first conveying rail 13 is connected with the first vibrating disk 11, the second conveying rail 14 is connected with the second vibrating disk 12, the tail end of the first conveying rail 13 corresponds to the first air cylinder 24, and the tail end of the second conveying rail 14 corresponds to the second air cylinder 25; the assembly chute 26 is connected with the first conveying track 13 and the second conveying track 14, and the assembly chute 26 is communicated with the finished product chute 30; the assembling cylinder 27 is vertically fixed above the assembling base 2, and the assembling press block 22 is fixed on a valve rod of the assembling cylinder 27; the first air cylinder 24, the second air cylinder 25, the assembling air cylinder 27, the first vibration disc 11, the second vibration disc 12, the first conveying rail 13 and the second conveying rail 14 are respectively connected with an electric control box, the electric control box is connected with the control panel 23, the electric control box is fixed inside the assembling base 2, and the control panel 23 is fixed above the assembling base 2; the infrared induction recognition device is fixed on the assembly base 2 and corresponds to the first cylinder 24 and the second cylinder 25.

In this embodiment, the conveying base 1 and the assembling base 2 are respectively used for carrying other components; the height of the conveying base 1 and the assembly base 2 is 0.9 m; the assembly base 2 is provided with an assembly support frame 21, and the first cylinder 24, the second cylinder 25 and the assembly cylinder 27 are all fixed on the assembly support frame 21.

In the present embodiment, the first vibratory pan 11 is used to transport the parts to be assembled to the first conveying rail 13, and the second vibratory pan 12 is used to transport the parts to be assembled to the second conveying rail 14.

In the present embodiment, the first transfer rail 13 and the second transfer rail 14 are used for performing transfer of parts to be assembled, respectively.

In this embodiment, the first cylinder 24 and the second cylinder 25 are used to push the parts to be assembled, respectively.

In the present embodiment, the assembly cylinder 27 is used to press the components to be assembled from the first transfer rail 13 and the second transfer rail 14 to achieve assembly.

In this embodiment, the assembly compact 22 is designed according to the shape of the product to prevent the product from being crushed during the assembly process.

In this embodiment, the electrical control box and the control panel 23 are used to realize the operation and control of other components, and ensure the stability of production and monitor the number and efficiency of assembly.

In this embodiment, the assembly chute 26 is used for carrying the components to be assembled from the first conveying rail 13 and the second conveying rail 14 and for achieving assembly above them.

In this embodiment, the finished product chute 30 is used for sliding down the finished product after the assembly is completed, and distinguishing good products from defective products, thereby avoiding mixed loading and damage.

In the embodiment, the infrared induction recognition device is used for ensuring that no poor assembly parts are mixed; the infrared sensing recognition device comprises a first infrared recognizer 28 and a second infrared recognizer 29, wherein the first infrared recognizer 28 is fixed above the first air cylinder 24, and the second infrared recognizer 29 is fixed above the second air cylinder 25.

The use flow of the square valve assembly device of the embodiment is as follows: the upper cover of side valve transports to first conveying track through first vibration dish, and the lower cover of side valve transports to second conveying track through second vibration dish, and the upper cover passes through the equipment position of first cylinder propelling movement to equipment spout, and the lower cover passes through the equipment position of second cylinder propelling movement to equipment spout, and when the upper cover and lower cover all arrived the equipment position, the equipment cylinder pushed down, accomplishes the equipment, and the product after the equipment is accomplished slides down along the finished product spout, accomplishes whole flow.

The square valve assembling device of the embodiment can greatly reduce labor, improve production efficiency and improve product yield.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A square valve assembling device is characterized by comprising a conveying base, an assembling base, a first vibrating disc, a second vibrating disc, a first conveying rail, a second conveying rail, a first air cylinder, a second air cylinder, an assembling air cylinder, an electric control box, a control panel, a finished product chute, an assembling pressing block and an infrared induction recognition device; the first vibration disc and the second vibration disc are fixed above the conveying base; the first cylinder and the second cylinder are horizontally fixed above the assembly base and are oppositely arranged on the same horizontal line; the first conveying track is connected with the first vibrating disk, the second conveying track is connected with the second vibrating disk, the tail end of the first conveying track corresponds to the first air cylinder, and the tail end of the second conveying track corresponds to the second air cylinder; the assembly sliding groove is connected with the first conveying track and the second conveying track and communicated with the finished product sliding groove; the assembling cylinder is vertically fixed above the assembling base, and the assembling press block is fixed on a valve rod of the assembling cylinder; the first air cylinder, the second air cylinder, the assembling air cylinder, the first vibration disc, the second vibration disc, the first conveying track and the second conveying track are respectively connected with the electric control box, the electric control box is connected with the control panel, the electric control box is fixed inside the assembling base, and the control panel is fixed above the assembling base; the infrared induction recognition device is fixed on the assembly base and corresponds to the first air cylinder and the second air cylinder.

2. The cube assembly apparatus of claim 1, wherein the height of the transfer base and the assembly base is 0.8-1.2 m.

3. The cube assembly apparatus of claim 1, wherein rollers are mounted below the transport base and the assembly base, the rollers having brake members mounted thereon.

4. The square valve assembly device of claim 1, wherein an assembly support is mounted on the assembly base, and the first cylinder, the second cylinder and the assembly cylinder are fixed on the assembly support.

5. The cube corner assembly apparatus according to claim 1, wherein the infrared sensing and identifying means comprises a first infrared identifier fixed above the first cylinder and a second infrared identifier fixed above the second cylinder.

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