CN213117680U - Integrated optimized electromagnetic valve control device - Google Patents

Abstract

An integrated and optimized electromagnetic valve control device comprises a fixed box body and a circuit board arranged in the fixed box body, wherein the fixed box body comprises a first shell and a second shell which are fixedly connected with each other through a fastener, and/or a clamping connection and/or a pasting connection, and a cavity is formed inside the first shell and the second shell; the circuit board is fixedly arranged in the cavity through a fastener, and/or crimping, and/or clamping, and/or a sticker. The utility model discloses an improvement of above-mentioned structure makes solenoid valve controlling means can reach the line few, the wiring is simple, the line of being convenient for is repaiied the result of use of examining, makes the user not only can swiftly arrange solenoid valve controlling means's the whole wiring in order, and convenience of customers ' daily use and follow-up investigation maintenance can also simplify solenoid valve controlling means's overall structure simultaneously, reduces manufacturing cost, the production and processing of being convenient for the producer, and the practicality is strong.

Description

Integrated optimized electromagnetic valve control device

Technical Field

The utility model relates to an integrated solenoid valve control device who optimizes.

Background

The collecting plate is a fixed object capable of collecting a plurality of fluid channels, is also called an air source distribution area, a valve plate, a valve seat and an air circuit plate, is a fitting in a pneumatic element, is mostly applied to a pneumatic control loop, can realize centralized air supply and centralized air exhaust, and saves occupied space.

In the design and use of the complete set of automation equipment, the air source is single, the electromagnetic valves working simultaneously are multiple, the single air source needs to be dispersed on the multiple electromagnetic valves, and the bus board can realize the function. The manifold plate is internally provided with at least two passages which are respectively penetrated and are respectively an air inlet and an air outlet, the air of the air inlet is supplied by an air source, and the air from the air outlet is connected to components (such as an electromagnetic valve) needing air in the complete equipment through the connection of accessories such as a pneumatic hose, a pneumatic connector and the like through the distribution of the manifold plate. Thus, a small amount of air source can simultaneously supply a plurality of pneumatic components.

Most start components and parts rely on electric power to provide its working energy, however, in the manufacturing process of traditional cylinder manifold, the cylinder manifold only plays to gather, the effect of distribution air supply, and the circuit arrangement of solenoid valve itself relies on operating personnel to arrange one by one at the installation site, in case the solenoid valve arranges compactly, can cause the many mixed and disorderly problems of line, and there are unsafe factors such as short circuit still, give installation and follow-up investigation, maintenance process has all brought very big inconvenience, do not also do benefit to solenoid valve centralized control in the use.

Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure is reasonable, excellent performance, dismouting are swift, routine maintenance and convenient to use, low in manufacturing cost, easy production, easy realization and safe and reliable's integrated solenoid valve control device of optimizing to overcome the weak point among the prior art.

The integrated optimized electromagnetic valve control device designed according to the purpose comprises a fixed box body and a circuit board arranged in the fixed box body, and is characterized in that: the fixed box body comprises a first shell and a second shell, the first shell and the second shell are fixedly connected with each other through a fastener, and/or a clamping joint, and/or a sticker, and cavities are formed in the first shell and the second shell; the circuit board is fixedly arranged in the cavity through a fastener, and/or crimping, and/or clamping, and/or a sticker.

The circuit board is provided with one circuit board, and the circuit board is fixedly arranged in the cavity through a fastener, and/or crimping, and/or clamping, and/or a sticker; the circuit board is also provided with a switch, and/or an electric connector, and/or a signal lamp, and/or an electronic display, and/or a metal shrapnel, and/or a power chip and a power circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

Or the circuit boards are provided with two first circuit boards and two second circuit boards, the first circuit board is positioned above the second circuit board, and the first circuit board and the second circuit board are fixedly arranged in the cavity through fasteners and/or crimping, and/or clamping and/or stickers respectively.

The first circuit board and/or the second circuit board are/is also provided with a switch, and/or an electric connector, and/or a signal lamp, and/or an electronic display, and/or a metal elastic sheet, and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

Or the circuit boards are provided with three first circuit boards, three second circuit boards and three third circuit boards, the first circuit board is positioned above the second circuit board, the third circuit board is positioned on the side parts of the first circuit board and the second circuit board, and the first circuit board, the second circuit board and the third circuit board are fixedly arranged in the cavity through fasteners and/or crimping and/or clamping and/or sticking objects respectively.

The first circuit board, the second circuit board and/or the third circuit board are/is further provided with a switch, and/or an electric connector, and/or a signal lamp, and/or an electronic display, and/or a metal spring plate, and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

The first shell and/or the second shell are provided with a first groove part, a second groove part, a signal lamp through hole and/or a third groove part corresponding to the switch, the electric connector and/or the signal lamp and/or the electronic display.

The first shell is provided with a plurality of first circuit board upper positioning parts, and the second shell is provided with a plurality of first circuit board lower positioning parts corresponding to the plurality of first circuit board upper positioning parts; the first circuit board is clamped and fixed in the cavity through the matching of the upper positioning part of the first circuit board and the lower positioning part of the first circuit board.

The first shell is provided with a plurality of second circuit board upper positioning parts, and the second shell is provided with a plurality of second circuit board lower positioning parts corresponding to the plurality of second circuit board upper positioning parts; the second circuit board is clamped and fixed in the cavity through the matching of the upper positioning part of the second circuit board and the lower positioning part of the second circuit board.

The first circuit board is provided with a first circuit board avoiding part corresponding to the upper positioning part and/or the lower positioning part of the second circuit board, and the upper positioning part and the lower positioning part of the second circuit board are respectively pressed at the upper and lower positions of the second circuit board through the first circuit board avoiding part.

The second circuit board is provided with a second circuit board avoiding part corresponding to the upper positioning part of the first circuit board and/or the lower positioning part of the first circuit board, and the upper positioning part of the first circuit board and the lower positioning part of the first circuit board are respectively pressed at the upper position and the lower position of the first circuit board through the second circuit board avoiding part.

The positioning part on the first circuit board and/or the positioning part on the second circuit board are/is provided with a first shell fastening hole; the first circuit board lower positioning part and/or the second circuit board lower positioning part are/is provided with second outer shell fastening holes; a box body fastening piece is arranged between the first shell fastening hole and the second shell fastening hole, and the first shell and the second shell are fixedly connected through the box body fastening piece; and a box body fastener avoiding part for the box body fastener to pass through is further arranged on the first circuit board and/or the second circuit board.

Or the first shell and/or the positioning part on the first circuit board and/or the positioning part on the second circuit board are/is provided with a first shell clamping part; a second shell clamping matching part is arranged on the second shell and/or the first circuit board lower positioning part and/or the second circuit board lower positioning part; the first shell is clamped with the second shell clamping matching part of the second shell through the first shell clamping part to realize the fixed connection between the first shell and the second shell.

The device also comprises an electromagnetic valve and a bus board; the fixed box body is fixedly connected with the bus board and/or the electromagnetic valve through a fastener, and/or compression joint, and/or clamping joint, and/or a sticker.

The electromagnetic valve comprises an electromagnetic valve body and an electromagnetic valve coil, the electromagnetic valve coil is fixed on the electromagnetic valve body through a fastener, and the electromagnetic valve body is fixed on the bus board through the fastener.

The lower part of the second circuit board is provided with a metal elastic sheet and is matched and connected with the electromagnetic valve coil through the metal elastic sheet; the second shell is provided with a raised slotted hole and an inserting hole; the metal elastic sheet is positioned in the protruding slotted hole; and a metal connector is arranged on the electromagnetic valve coil, is inserted into the insertion hole and is matched and connected with the metal elastic sheet.

The first shell, the second shell, the first circuit board and the second circuit board are respectively provided with a coil fastening hole, a coil matching fastening hole is formed in the electromagnetic valve coil, a coil fastening piece is arranged between the coil fastening hole and the coil matching fastening hole, and the first shell, the second shell, the first circuit board, the second circuit board and the electromagnetic valve coil are fixedly connected through the coil fastening piece.

Be provided with the cylinder manifold fastening hole on the box body, be provided with cylinder manifold cooperation fastening hole on the cylinder manifold, be provided with the cylinder manifold fastener between cylinder manifold fastening hole and the cylinder manifold cooperation fastening hole, the box body passes through the fixed setting in cylinder manifold upside, and/or downside, and/or front side, and/or rear side, and/or left side, and/or right side of the cooperation of cylinder manifold fastener hole, cylinder manifold cooperation fastening hole, cylinder manifold fastener.

The electromagnetic valve comprises an electromagnetic valve body and an electromagnetic valve coil, the electromagnetic valve coil is fixed on the electromagnetic valve body through a fastener, and the electromagnetic valve body is fixed on the bus board through the fastener.

The upper part of the first circuit board is provided with a metal elastic sheet and is connected with the electromagnetic valve coil in a matching way through the metal elastic sheet; the first shell is provided with a raised slotted hole and an inserting hole; the metal elastic sheet is positioned in the protruding slotted hole; and a metal connector is arranged on the electromagnetic valve coil, is inserted into the insertion hole and is matched and connected with the metal elastic sheet.

The electromagnetic valve comprises an electromagnetic valve body and an electromagnetic valve coil, the electromagnetic valve coil is fixed on the electromagnetic valve body through a fastener, and the electromagnetic valve body is fixed on the bus board through the fastener.

And the electromagnetic valve coil is provided with a lead and is electrically connected with the electric connector on the first circuit board, the second circuit board and/or the third circuit board through the lead.

The utility model discloses an improvement of above-mentioned structure, utilize the form of box body fastener or mutual joint, with first shell and second shell mutual fixed connection, and be fixed with the circuit board in the inner chamber of the two, this circuit board can set up two or three, and fix in the cavity through the location portion crimping card that corresponds setting on first shell and the second shell, thereby fix a plurality of circuit boards effectively between first shell and second shell, because location portion is integrative setting on first shell, the second shell, the circuit board has adopted the mode of crimping card to fix simultaneously, consequently can reduce the problem that the fastener quantity increases because of the fixed of a plurality of circuit boards, thereby reduction in production cost, simplify the assembly process of a plurality of circuit boards, can also guarantee that a plurality of circuit boards can be stable, assemble firmly; moreover, the circuit boards can be optionally provided with a switch, and/or an electric connector, and/or a signal lamp, and/or an electronic display, and/or a metal shrapnel, and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit according to the actual use condition of a user, so as to realize the electric control connection among the circuit boards, the matching connection among the circuit boards, the electromagnetic valve coil, the electromagnetic valve body and the bus board, thereby controlling the opening and closing of a plurality of hole parts on the bus board, achieving the use effects of few lines, simple wiring and convenient line repair and inspection, and enabling the user to quickly arrange the whole wiring of the electromagnetic valve control device, the electromagnetic valve control device is convenient for daily use and subsequent investigation and maintenance of a user, and meanwhile, the overall structure of the electromagnetic valve control device can be simplified, the manufacturing cost is reduced, and the production and processing of a manufacturer are facilitated.

In summary, the novel multifunctional electric heating cooker has the characteristics of simple and reasonable structure, excellent performance, quickness in disassembly and assembly, convenience in daily maintenance and use, low manufacturing cost, easiness in production, easiness in implementation, safety, reliability and the like, and is high in practicability.

Drawings

Fig. 1 and 2 are schematic views of an assembly structure according to a first embodiment of the present invention.

Fig. 3 and 4 are schematic exploded structural views of the first embodiment of the present invention.

Fig. 5 and 6 are schematic exploded views of the fixing box and the circuit board according to the first embodiment of the present invention.

Fig. 7 is a schematic top view of the assembly structure according to the first embodiment of the present invention.

Fig. 8 is a schematic sectional view taken along line a-a of fig. 7.

Fig. 9 is an exploded view of the fixing case and the circuit board according to the first embodiment of the present invention.

Fig. 10 and 11 are schematic views of an assembly structure according to a second embodiment of the present invention.

Fig. 12 and 13 are schematic exploded structural views of a second embodiment of the present invention.

Fig. 14 and 15 are schematic views of an assembly structure according to a third embodiment of the present invention.

Fig. 16 and 17 are schematic exploded structural views of a third embodiment of the present invention.

Fig. 18 and 19 are schematic views of an assembly structure according to a fourth embodiment of the present invention.

Fig. 20 and 21 are schematic exploded structural views of a fourth embodiment of the present invention.

Fig. 22 and 23 are schematic views of an assembly structure according to a fifth embodiment of the present invention.

Fig. 24 and 25 are schematic exploded structural views of a fifth embodiment of the present invention.

Fig. 26 and 27 are schematic views of an assembly structure according to a sixth embodiment of the present invention.

Fig. 28 and 29 are schematic exploded structural views of a sixth embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

First embodiment

Referring to fig. 1-9, the integrated optimized solenoid valve control device comprises a fixed box body 1 and a circuit board arranged in the fixed box body 1, and is characterized in that: the fixed box body 1 comprises a first shell 2 and a second shell 3, the first shell 2 and the second shell 3 are fixedly connected with each other through a fastener, and/or clamping, and/or a sticker, and a cavity 4 is formed inside the first shell and the second shell; the circuit board is fixedly arranged in the cavity 4 through a fastener, and/or compression joint, and/or clamping joint, and/or an adhesive.

The circuit board is provided with one circuit board, and the circuit board is fixedly arranged in the cavity 4 through a fastener, and/or pressure welding, and/or clamping, and/or an adhesive; the circuit board is also provided with a switch 17, and/or an electric connector 18, and/or a signal lamp 19, and/or an electronic display, and/or a metal elastic sheet 7, and/or a power chip and a power circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

Alternatively, the circuit boards are provided with two, namely the first circuit board 9 and the second circuit board 10, and the embodiment will be described by taking the case where the circuit boards are provided with two as an example.

The first circuit board 9 is located above the second circuit board 10, and both are fixedly arranged in the cavity 4 by fasteners and/or crimping, and/or snapping, and/or gluing, respectively.

The first circuit board 9 is provided with a switch 17, and/or an electric connector 18, and/or a signal lamp 19, and/or an electronic display; the first circuit board 9 or the second circuit board 10 is further provided with a metal elastic sheet 7, and/or a power chip and a power circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

The first housing 2 is provided with a first slot 22, and/or a second slot 23, and/or a signal light through hole 24, and/or a third slot corresponding to the switch 17, and/or the electrical connector 18, and/or the signal light 19, and/or the electronic display.

The first shell 2 is provided with a plurality of first circuit board upper positioning parts 11, and the second shell 3 is provided with a plurality of first circuit board lower positioning parts 12 corresponding to the plurality of first circuit board upper positioning parts 11; the first circuit board 9 is pressed and clamped in the cavity 4 by the matching of the first circuit board upper positioning part 11 and the first circuit board lower positioning part 12.

The first shell 2 is provided with a plurality of second circuit board upper positioning parts 13, and the second shell 3 is provided with a plurality of second circuit board lower positioning parts 14 corresponding to the plurality of second circuit board upper positioning parts 13; the second circuit board 10 is pressed and clamped in the cavity 4 by the matching of the second circuit board upper positioning part 13 and the second circuit board lower positioning part 14.

The first circuit board 9 is provided with a first circuit board avoiding portion 15 corresponding to the second circuit board upper positioning portion 13 and/or the second circuit board lower positioning portion 14, and the second circuit board upper positioning portion 13 and the second circuit board lower positioning portion 14 are respectively pressed at upper and lower positions of the second circuit board 10 through the first circuit board avoiding portion 15.

The second circuit board 10 is provided with a second circuit board avoiding portion 16 corresponding to the first circuit board upper positioning portion 11 and/or the first circuit board lower positioning portion 12, and the first circuit board upper positioning portion 11 and the first circuit board lower positioning portion 12 are respectively pressed at upper and lower positions of the first circuit board 9 through the second circuit board avoiding portion 16.

The first circuit board upper positioning part 11 and/or the second circuit board upper positioning part 13 are/is provided with a first shell fastening hole 5; the first circuit board lower positioning part 12 and/or the second circuit board lower positioning part 14 are/is provided with second shell fastening holes 6; a box body fastening piece is arranged between the first shell fastening hole 5 and the second shell fastening hole 6, and the first shell 2 and the second shell 3 are fixedly connected through the box body fastening piece; and a box body fastener avoiding part 32 for a box body fastener to pass through is further arranged on the first circuit board 9 and/or the second circuit board 10.

Alternatively, as shown in fig. 9, the first housing 2 and/or the first circuit board upper positioning portion 11 and/or the second circuit board upper positioning portion 13 are provided with a first housing clamping portion 50; the second housing 3 and/or the first circuit board lower positioning part 12 and/or the second circuit board lower positioning part 14 are/is provided with a second housing clamping matching part 51; first shell 2 through first shell joint portion 50 and the mutual joint of second shell joint cooperation portion 51 of second shell 3 to realize the fixed connection between first shell 2 and the second shell 3.

The device also comprises an electromagnetic valve and a bus board 31; the fixed box body 1 is fixedly connected with the bus board 31 and/or the electromagnetic valve through a fastener, and/or compression joint, and/or clamping, and/or a sticker.

The solenoid valve includes solenoid valve body 30 and solenoid valve coil 8, and solenoid valve coil 8 passes through the fastener to be fixed on solenoid valve body 30, and solenoid valve body 30 passes through the fastener to be fixed on cylinder manifold 31.

The lower part of the second circuit board 10 is provided with a metal elastic sheet 7 and is connected with the electromagnetic valve coil 8 in a matching way through the metal elastic sheet 7; the second shell 3 is provided with a raised slotted hole 27 and an inserting hole 28; the metal elastic sheet 7 is positioned in the protruding slotted hole 27; the solenoid valve coil 8 is provided with a metal connector 29, and the metal connector 29 is inserted into the insertion hole 28 and is connected with the metal elastic sheet 7 in a matching manner.

The first shell 2, the second shell 3, the first circuit board 9 and the second circuit board 10 are respectively provided with a coil fastening hole 33, the solenoid valve coil 8 is provided with a coil matching fastening hole 34, a coil fastening piece is arranged between the coil fastening hole 33 and the coil matching fastening hole 34, and the first shell 2, the second shell 3, the first circuit board 9, the second circuit board 10 and the solenoid valve coil 8 are fixedly connected through the coil fastening piece.

The solenoid valve includes solenoid valve body 30 and solenoid valve coil 8, and solenoid valve coil 8 passes through the fastener to be fixed on solenoid valve body 30, and solenoid valve body 30 passes through the fastener to be fixed on cylinder manifold 31.

The upper part of the first circuit board 9 is provided with a metal elastic sheet 7 and is connected with the electromagnetic valve coil 8 in a matching way through the metal elastic sheet 7; the first shell 2 is provided with a raised slotted hole 27 and an inserting hole 28; the metal elastic sheet 7 is positioned in the protruding slotted hole 27; the solenoid valve coil 8 is provided with a metal connector 29, and the metal connector 29 is inserted into the insertion hole 28 and is connected with the metal elastic sheet 7 in a matching manner.

Second embodiment

Referring to fig. 11 to 13, the present integrated optimized solenoid valve control device is different from the first embodiment in that: be provided with cylinder manifold fastening hole 36 on box body 1, be provided with cylinder manifold cooperation fastening hole 40 on the cylinder manifold 31, be provided with the cylinder manifold fastener between cylinder manifold fastening hole 36 and the cylinder manifold cooperation fastening hole 40, box body 1 is fixed to be set up in cylinder manifold 31 downside, right side through the cooperation of cylinder manifold fastening hole 36, cylinder manifold cooperation fastening hole 40, cylinder manifold fastener.

The other parts not described are the same as those of the first embodiment.

Third embodiment

Referring to fig. 14 to 17, the present integrated optimized solenoid valve control device is different from the first embodiment in that: be provided with cylinder manifold fastening hole 36 on box body 1, be provided with cylinder manifold cooperation fastening hole 40 on the cylinder manifold 31, be provided with the cylinder manifold fastener between cylinder manifold fastening hole 36 and the cylinder manifold cooperation fastening hole 40, box body 1 is fixed to be set up on cylinder manifold 31 right side through the cooperation of cylinder manifold fastening hole 36, cylinder manifold cooperation fastening hole 40, cylinder manifold fastener.

The other parts not described are the same as those of the first embodiment.

Fourth embodiment

Referring to fig. 18 to 21, the present integrated optimized solenoid valve control device is different from the first embodiment in that: the circuit boards are provided with three first circuit boards 9, three second circuit boards 10 and three third circuit boards 37, the first circuit board 9 is positioned above the second circuit board 10, the third circuit boards 37 are positioned on the side parts of the first circuit board 9 and the second circuit board 10, and the first circuit board 9, the second circuit board 10 and the third circuit boards 37 are fixedly arranged in the cavity 4 through fasteners and/or crimping and/or clamping and/or sticking objects respectively.

The first circuit board 9 and/or the third circuit board 37 are/is provided with a switch 17, and/or an electric connector 18, and/or a signal lamp 19, and/or an electronic display; the first circuit board 9 or the second circuit board 10 is provided with a metal elastic sheet 7, and/or a power chip and a power circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit.

The first housing 2 is provided with a first slot 22, and/or a second slot 23, and/or a signal light through hole 24, and/or a third slot corresponding to the switch 17, and/or the electrical connector 18, and/or the signal light 19, and/or the electronic display on the first circuit board 9.

The second housing 3 is provided with a second housing slot portion 38 corresponding to the electrical connector 18 on the third circuit board 37.

The solenoid valve includes solenoid valve body 30 and solenoid valve coil 8, and solenoid valve coil 8 passes through the fastener to be fixed on solenoid valve body 30, and solenoid valve body 30 passes through the fastener to be fixed on cylinder manifold 31.

The first circuit board 9 and/or the third circuit board 37 are provided with electrical connector connectors 18, the solenoid valve coil 8 is provided with wires 39, and the wires 39 are electrically connected with the electrical connector connectors 18 on the first circuit board 9 and/or the third circuit board 37.

Be provided with cylinder manifold fastening hole 36 on box body 1, be provided with cylinder manifold cooperation fastening hole 40 on the cylinder manifold 31, be provided with the cylinder manifold fastener between cylinder manifold fastening hole 36 and the cylinder manifold cooperation fastening hole 40, box body 1 is fixed to be set up in cylinder manifold 31 upside, left side, right side through the cooperation of cylinder manifold fastening hole 36, cylinder manifold cooperation fastening hole 40, cylinder manifold fastener.

The other parts not described are the same as those of the first embodiment.

Fifth embodiment

Referring to fig. 22 to 25, the present integrated optimized solenoid valve control device is different from the first embodiment in that: be provided with cylinder manifold fastening hole 36 on box body 1, be provided with cylinder manifold cooperation fastening hole 40 on the cylinder manifold 31, be provided with the cylinder manifold fastener between cylinder manifold fastening hole 36 and the cylinder manifold cooperation fastening hole 40, box body 1 is fixed to be set up in cylinder manifold 31 upside, right side through the cooperation of cylinder manifold fastening hole 36, cylinder manifold cooperation fastening hole 40, cylinder manifold fastener.

The other parts not described are the same as those of the fourth embodiment.

Sixth embodiment

Referring to fig. 26 to 29, the present integrated optimized solenoid valve control device is different from the first embodiment in that: be provided with cylinder manifold fastening hole 36 on box body 1, be provided with cylinder manifold cooperation fastening hole 40 on the cylinder manifold 31, be provided with the cylinder manifold fastener between cylinder manifold fastening hole 36 and the cylinder manifold cooperation fastening hole 40, box body 1 is fixed to be set up at cylinder manifold 31 upside through the cooperation of cylinder manifold fastening hole 36, cylinder manifold cooperation fastening hole 40, cylinder manifold fastener.

The other parts not described are the same as those of the fourth embodiment.

The drawings are for illustrative purposes only and are presented in the form of illustrations only, not illustrations as physical or logical, and should not be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Moreover, like or similar reference numerals in the drawings of the embodiments of the present invention correspond to like or similar parts; in the description of the present invention, it should be understood that, if there are any terms such as "upper", "lower", "left", "right", "vertical", "horizontal", "longitudinal", "top", "bottom", "inner", "outer", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, the description is for convenience and simplicity, and it is not intended to indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, the terms describing the positional relationships in the drawings are used for illustrative purposes only and are not to be construed as limiting the present patent.

Claims (10)

1. The utility model provides an integrated solenoid valve controlling means who optimizes, includes fixed box body (1) and sets up the circuit board in fixed box body (1), its characterized in that: the fixed box body (1) comprises a first shell (2) and a second shell (3), the first shell (2) and the second shell (3) are fixedly connected with each other through a fastener, and/or a clamping joint, and/or a sticker, and a cavity (4) is formed inside the first shell and the second shell; the circuit board is fixedly arranged in the cavity (4) through a fastener, and/or compression joint, and/or clamping joint, and/or an adhesive.

2. The integrated and optimized solenoid valve control device according to claim 1, characterized in that: the circuit board is provided with one circuit board, and the circuit board is fixedly arranged in the cavity (4) through a fastener and/or a compression joint and/or a clamping joint and/or a pasting object; the circuit board is also provided with a switch (17), and/or an electric connector (18), and/or a signal lamp (19), and/or an electronic display, and/or a metal elastic sheet (7), and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit;

or the circuit boards are provided with two first circuit boards (9) and two second circuit boards (10), wherein the first circuit board (9) is positioned above the second circuit board (10), and the two circuit boards are fixedly arranged in the cavity (4) through fasteners and/or crimping, and/or clamping and/or sticking objects respectively;

the first circuit board (9) and/or the second circuit board (10) are/is further provided with a switch (17), and/or an electric connector (18), and/or a signal lamp (19), and/or an electronic display, and/or a metal elastic sheet (7), and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit;

or the circuit boards are three, namely a first circuit board (9), a second circuit board (10) and a third circuit board (37), the first circuit board (9) is positioned above the second circuit board (10), the third circuit board (37) is positioned on the side parts of the first circuit board (9) and the second circuit board (10), and the first circuit board (9), the second circuit board (10) and the third circuit board (37) are fixedly arranged in the cavity (4) through fasteners and/or crimping, and/or clamping and/or pasting objects respectively;

the first circuit board (9), the second circuit board (10) and/or the third circuit board (37) are/is further provided with a switch (17), and/or an electric connector (18), and/or a signal lamp (19), and/or an electronic display, and/or a metal elastic sheet (7), and/or a power supply chip and a power supply circuit, and/or a main control chip and a main control circuit, and/or a communication chip and a communication circuit, and/or an electromagnetic valve driving circuit, and/or an external signal acquisition circuit;

the first shell (2) and/or the second shell (3) are provided with a first groove part (22), a second groove part (23), a signal lamp through hole (24) and/or a third groove part corresponding to the switch (17), the electric connector (18) and/or the signal lamp (19) and/or the electronic display.

3. The integrated and optimized solenoid valve control device according to claim 2, characterized in that: the first shell (2) is provided with a plurality of first circuit board upper positioning parts (11), and the second shell (3) is provided with a plurality of first circuit board lower positioning parts (12) corresponding to the plurality of first circuit board upper positioning parts (11); the first circuit board (9) is clamped and clamped in the cavity (4) through the matching compression joint of the first circuit board upper positioning part (11) and the first circuit board lower positioning part (12);

the first shell (2) is provided with a plurality of second circuit board upper positioning parts (13), and the second shell (3) is provided with a plurality of second circuit board lower positioning parts (14) corresponding to the plurality of second circuit board upper positioning parts (13); the second circuit board (10) is clamped and clamped in the cavity (4) through the matching of the second circuit board upper positioning part (13) and the second circuit board lower positioning part (14).

4. The integrated and optimized solenoid valve control device according to claim 3, characterized in that: the first circuit board (9) is provided with a first circuit board avoiding part (15) corresponding to the second circuit board upper positioning part (13) and/or the second circuit board lower positioning part (14), and the second circuit board upper positioning part (13) and the second circuit board lower positioning part (14) are respectively pressed on the upper and lower positions of the second circuit board (10) through the first circuit board avoiding part (15);

the second circuit board (10) is provided with a second circuit board avoiding part (16) corresponding to the first circuit board upper positioning part (11) and/or the first circuit board lower positioning part (12), and the first circuit board upper positioning part (11) and the first circuit board lower positioning part (12) are respectively pressed at the upper and lower positions of the first circuit board (9) through the second circuit board avoiding part (16).

5. The integrated and optimized solenoid valve control device according to claim 4, characterized in that: the first circuit board upper positioning part (11) and/or the second circuit board upper positioning part (13) are/is provided with a first shell fastening hole (5); a second outer shell fastening hole (6) is arranged on the first circuit board lower positioning part (12) and/or the second circuit board lower positioning part (14); a box body fastening piece is arranged between the first shell fastening hole (5) and the second shell fastening hole (6), and the first shell (2) is fixedly connected with the second shell (3) through the box body fastening piece; a box body fastener avoiding part (32) for a box body fastener to pass through is further arranged on the first circuit board (9) and/or the second circuit board (10);

or a first shell clamping part (50) is arranged on the first shell (2) and/or the positioning part (11) on the first circuit board and/or the positioning part (13) on the second circuit board; a second shell clamping matching part (51) is arranged on the second shell (3) and/or the first circuit board lower positioning part (12) and/or the second circuit board lower positioning part (14); first shell (2) connect cooperation portion (51) mutual joint through first shell joint portion (50) and the second shell joint of second shell (3) to realize the fixed connection between first shell (2) and second shell (3).

6. The integrated and optimized solenoid valve control device according to any one of claims 2-5, wherein: the electromagnetic valve and the bus plate (31) are further included; the fixed box body (1) is fixedly connected with the bus board (31) and/or the electromagnetic valve through a fastener, and/or compression joint, and/or clamping joint, and/or a sticker.

7. The integrated and optimized solenoid valve control device according to claim 6, characterized in that: the electromagnetic valve comprises an electromagnetic valve body (30) and an electromagnetic valve coil (8), the electromagnetic valve coil (8) is fixed on the electromagnetic valve body (30) through a fastener, and the electromagnetic valve body (30) is fixed on the bus board (31) through the fastener;

the lower part of the second circuit board (10) is provided with a metal elastic sheet (7) and is connected with the electromagnetic valve coil (8) in a matching way through the metal elastic sheet (7); the second shell (3) is provided with a raised slotted hole (27) and an inserting hole (28); the metal elastic sheet (7) is positioned in the protruding slotted hole (27); a metal connector (29) is arranged on the electromagnetic valve coil (8), and the metal connector (29) is inserted into the insertion hole (28) and is matched and connected with the metal elastic sheet (7);

the solenoid valve is characterized in that coil fastening holes (33) are further formed in the first shell (2), the second shell (3), the first circuit board (9) and the second circuit board (10) respectively, coil matching fastening holes (34) are formed in the solenoid valve coil (8), coil fasteners are arranged between the coil fastening holes (33) and the coil matching fastening holes (34), and the first shell (2), the second shell (3), the first circuit board (9), the second circuit board (10) and the solenoid valve coil (8) are fixedly connected through the coil fasteners.

8. The integrated and optimized solenoid valve control device according to claim 6, characterized in that: the junction box is characterized in that a bus bar fastening hole (36) is formed in the box body (1), a bus bar matching fastening hole (40) is formed in the bus bar (31), a bus bar fastener is arranged between the bus bar fastening hole (36) and the bus bar matching fastening hole (40), the box body (1) is fixedly arranged on the upper side and/or the lower side and/or the front side and/or the rear side and/or the left side and/or the right side of the bus bar (31) through the bus bar fastening hole (36), the bus bar matching fastening hole (40) and the matching of the bus bar fastener.

9. The integrated optimized solenoid valve control of claim 8, wherein: the electromagnetic valve comprises an electromagnetic valve body (30) and an electromagnetic valve coil (8), the electromagnetic valve coil (8) is fixed on the electromagnetic valve body (30) through a fastener, and the electromagnetic valve body (30) is fixed on the bus board (31) through the fastener;

the upper part of the first circuit board (9) is provided with a metal elastic sheet (7) and is connected with the electromagnetic valve coil (8) in a matching way through the metal elastic sheet (7); the first shell (2) is provided with a raised slotted hole (27) and an inserting hole (28); the metal elastic sheet (7) is positioned in the protruding slotted hole (27); the electromagnetic valve coil (8) is provided with a metal connector (29), and the metal connector (29) is inserted into the insertion hole (28) and is connected with the metal elastic sheet (7) in a matching manner.

10. The integrated optimized solenoid valve control of claim 8, wherein: the electromagnetic valve comprises an electromagnetic valve body (30) and an electromagnetic valve coil (8), the electromagnetic valve coil (8) is fixed on the electromagnetic valve body (30) through a fastener, and the electromagnetic valve body (30) is fixed on the bus board (31) through the fastener;

the electromagnetic valve is characterized in that an electric connector (18) is arranged on the first circuit board (9), the second circuit board (10) and/or the third circuit board (37), a lead (39) is arranged on the electromagnetic valve coil (8), and electric control connection is achieved through the lead (39) and the electric connector (18) on the first circuit board (9), the second circuit board (10) and/or the third circuit board (37).

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