CN115383458B - Tap equipment test equipment - Google Patents

Abstract

The application provides a tap equipment test equipment, and it includes first processing unit and second processing unit, and first processing unit is used for assembling tap, and the second processing unit is used for assembling and testing tap's quality. The first processing unit includes: the sealing ring conveying mechanism, the water outlet nozzle conveying mechanism, the valve body conveying mechanism and the first assembling mechanism respectively surround the periphery of the first assembling mechanism. According to the faucet assembly test equipment, the first processing unit and the second processing unit are arranged to replace manual assembly, so that the faucet is processed, the operation difficulty is small, the steps are simple, the efficiency is high, the supply requirement of the market can be kept up, and the problems of high operation difficulty, complicated steps and low efficiency of manual faucet assembly in the prior art are solved.

Description

Tap equipment test equipment

The application is a divisional application, and the application number of the original application is as follows: 202110620285.9", application date is: the application of the year 2021, month 06 and 03 is as follows: a compact faucet assembly test line.

Technical Field

The invention relates to the field of faucet production equipment, in particular to faucet assembly test equipment.

Background

The water tap is installed beside the dustbin in the house, business district or even district for people to wash hands and clean, the water tap gradually goes to every corner in life, and meanwhile, the production of the water tap can not fall down.

At present, the production of a faucet is often assembled manually by manpower, and because the faucet is composed of a plurality of parts, the operation difficulty is high, the steps are complicated, the efficiency is low, and the market demand is difficult to meet by using manual assembly production.

Therefore, it is desirable to provide a faucet assembly testing device to solve the above-mentioned problems.

Disclosure of Invention

The invention provides faucet assembly test equipment, which is used for completing the processing of a faucet by arranging a first processing unit and a second processing unit to replace manual assembly, so as to solve the problems of high operation difficulty, complicated steps and lower efficiency of manual assembly of the faucet in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows: a faucet assembly testing apparatus for assembling and detecting a faucet, the faucet comprising: sealing washer, water outlet nozzle, valve body, case, handle and gland, its tap equipment test equipment includes:

The sealing ring conveying mechanism, the water outlet conveying mechanism and the valve body conveying mechanism respectively surround the periphery of the first assembling mechanism; and

the second processing unit is positioned on one side of the first processing unit and used for assembling a valve core and a valve body of a faucet, assembling a handle and the valve core, assembling the handle and a gland, and testing the quality of the faucet, and comprises a valve core processing mechanism, a handle processing mechanism, a faucet testing mechanism, a gland processing mechanism and a running water conveying mechanism, wherein the valve core processing mechanism is positioned at one end of the handle processing mechanism and is connected with the handle processing mechanism through the running water conveying mechanism and used for assembling the valve core and the valve body together, the other end of the handle processing mechanism is connected with the faucet testing mechanism through the running water conveying mechanism and used for assembling the valve body and the handle together, the gland processing mechanism is positioned on one side of the faucet testing mechanism and is connected with the running water conveying mechanism and used for assembling the faucet and the gland together, and a semi-finished faucet input by the faucet testing mechanism is output to the gland processing mechanism.

In the present invention, the valve body conveying mechanism includes: valve body vibration disk, valve body conveyer belt and valve body manipulator; the valve body vibration disc is connected with one end of the valve body conveyor belt, one end of the valve body conveyor belt is positioned at one end of the first assembly mechanism, and the valve body manipulator is positioned at one side of the valve body conveyor belt;

the valve body comprises a water inlet part, a water outlet part and a valve port part, and the valve body conveyor belt comprises a vibrating flat plate, a vibrating bracket, a vibrating rod and a vibrating block; the vibration support is located on the vibration flat plate, a groove is formed in the vibration support, the vibration rod is located in the groove, the vibration rod comprises a lifting vibration rod and a limiting vibration rod, the lifting vibration rod is in triangular distribution and used for lifting the water outlet part, the water outlet part is located between the lifting vibration rods and used for bearing the water outlet part, the limiting vibration rod is located above the valve port part and used for limiting the valve body, so that the valve body cannot fall down in the vibration process, and the vibration block is located on the vibration support and used for lifting the water inlet part.

The vibrating block comprises a connecting part and a bearing part, a first connecting hole is formed in the connecting part, a second connecting hole corresponding to the first connecting hole is formed in the vibrating bracket, and the vibrating block and the vibrating bracket are detachably connected with the second connecting hole through the first connecting hole;

The vibrating mass further comprises a reinforcing part, one end of the reinforcing part is connected with the connecting part, one side of the reinforcing part is connected with the bearing part, and the reinforcing part is perpendicular to the bearing part.

In the invention, the valve body conveying mechanism further comprises a sound insulation shell, the sound insulation shell is arranged on the outer side of the valve body vibration disc, a sliding door is arranged on the sound insulation shell, an opening is arranged on the sound insulation shell, and the valve body conveying belt penetrates through the opening.

In the present invention, the first assembling mechanism includes: a first assembly rack, a first disc, a second disc, a first clamping member, a rotating member, and a first assembly conveyor belt; the first tray is connected with the first assembly frame, the second tray is connected with the first assembly frame, the first tray is located the second tray top, the diameter of first tray is less than the diameter of second tray, first holder is located on the first tray, with the first tray is connected, the rotating member wears to locate around the second tray, around second tray circumference array distributes, first equipment conveyer belt is located one side of first tray, with first assembly frame is connected.

Further, the first assembling mechanism further includes: the device comprises a first rotating shaft, a second rotating shaft and two driving devices, wherein one end of the first rotating shaft is connected with a first disc, the other end of the first rotating shaft is connected with a first assembly frame, one end of the second rotating shaft is connected with a second disc, the other end of the second rotating shaft is connected with the first assembly frame, and the two driving devices are connected with the first assembly frame and used for driving the first disc and the second disc to rotate.

In the invention, the valve core processing mechanism comprises an equipment rack and a conveying device, wherein a convex strip is arranged on the equipment rack;

the conveyor is located inside the equipment rack, with equipment rack sliding connection, the conveyor includes:

the sliding block is provided with a sliding groove corresponding to the convex strip, and the sliding block is in sliding connection with the equipment rack;

the supporting plate is positioned on the sliding block, is detachably connected with the sliding block and is used for bearing a tray; the method comprises the steps of,

the tray is positioned on the supporting plate and is detachably connected with the supporting plate;

the conveying device comprises a first conveying device and a second conveying device, and the first conveying device is positioned above the second conveying device; the first conveying device comprises a first tray, the second conveying device comprises a second tray and a lifting assembly, the lifting assembly is connected with the supporting plate, a movement track of the first tray comprises a first feeding level and a first discharging level, a movement track of the second tray comprises a second feeding level and a second discharging level, the first feeding level is located above the second feeding level, and the first discharging level is located above the second discharging level; the second tray is located at the second loading level when the first tray is located at the first loading level, and the second tray is located at the second loading level when the first tray is located at the first loading level.

The second conveying device comprises a first supporting plate, a second supporting plate and a second sliding block, wherein the first supporting plate is located between the second supporting plate and used for supporting the second supporting plate, the second supporting plate is connected with the second sliding block, the lifting assembly comprises a lifting rod, a lifting motor, a protection cylinder and a cushion block, the lifting rod penetrates through the first supporting plate and the second supporting plate, one end of the lifting rod is connected with the first supporting plate, the other end of the lifting rod is connected with the lifting motor, the protection cylinder is located on the periphery of the lifting rod and connected with the second supporting plate, and the cushion block is located above the protection cylinder and close to one end of the first supporting plate and connected with the first supporting plate.

In the present invention, the handle processing mechanism includes: a handle conveying device, a screw conveying device and a handle assembling device; the handle conveying device is positioned at one end of the handle assembling device, and the screw conveying device is positioned at the other end of the handle assembling device;

the handle conveying device comprises: a handle vibration plate, a handle conveyor belt and a handle manipulator; the handle vibration disc is connected with one end of the handle conveyor belt, one end of the handle conveyor belt is positioned at one end of the first assembly mechanism, and the handle manipulator is positioned at one side of the handle conveyor belt;

The handle conveyor belt comprises a handle vibration flat plate, a handle vibration bracket and a handle vibration rod; the handle vibration support is positioned on the handle vibration plate, a groove is formed in the handle vibration support, and the handle vibration rod is positioned in the groove and used for limiting a faucet and lifting the faucet;

the handle manipulator comprises a handle grabbing hand, a rotating shaft, a vibrating piece and a driver, wherein the handle grabbing hand is located below the vibrating piece and used for grabbing the handle, the rotating shaft penetrates through the vibrating piece and is connected with the vibrating piece, the driver is located above the rotating shaft and comprises a rotating shaft, a connecting piece, driving teeth and a driving piece, the driving piece is connected with the rotating shaft, the rotating shaft and the driving teeth are connected through the connecting piece, and the rotating teeth and the rotating shaft are connected and used for driving the rotating shaft to rotate.

In the present invention, the gland processing mechanism includes: the device comprises a gland vibration disc, a gland conveying belt, a gland manipulator and an assembly disc, wherein the gland vibration disc is connected with one end of the gland conveying belt, one end of the gland conveying belt is positioned on one side of the assembly disc, the gland manipulator is positioned on one side of the gland conveying belt, and the assembly disc is connected with the other end of the gland conveying belt;

The gland conveyor belt comprises a gland limiting block, wherein the gland limiting block is positioned above the gland conveyor belt, is connected with the side wall of the gland conveyor belt and extends to the position above the conveying surface of the gland conveyor belt;

the gland conveyer belt still includes the gland gag lever post, be equipped with the second recess on the gland stopper, the gland gag lever post is fixed in the second recess, the gland gag lever post is located gland conveyer belt top.

The assembly plate comprises a first assembly plate and a second assembly plate, the first assembly plate is located above the second assembly plate, a second clamping piece is arranged on the first assembly plate and used for clamping the faucet, the second assembly plate comprises a rotating piece, and the rotating piece is located in the middle of the second plate and used for driving the second plate to rotate.

In the invention, the running water conveying mechanism comprises a running water conveying belt and a tap seat, wherein the tap seat is positioned on the running water conveying belt and used for fixing a tap.

Compared with the prior art, the invention has the beneficial effects that: according to the faucet assembly test equipment, the first processing unit and the second processing unit are arranged to replace manual assembly, so that the faucet is processed, the operation difficulty is small, the steps are simple, the efficiency is high, the supply requirement of the market can be kept up, and the problems of high operation difficulty, complicated steps and low efficiency of manual faucet assembly in the prior art are solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments are briefly described below, and the drawings in the following description are only drawings corresponding to some embodiments of the present invention.

Fig. 1 is a schematic structural view of a preferred embodiment of the faucet assembly testing apparatus of the present invention.

Fig. 2 is a schematic view of a first processing unit of the faucet assembly testing apparatus of the present invention.

FIG. 3 is a schematic diagram of a seal ring transport mechanism of a faucet assembly testing apparatus of the present invention.

Fig. 4 is a schematic view of a seal ring vibration disk of the faucet assembly testing apparatus of the present invention.

Fig. 5 is a schematic diagram of a second stopper of the faucet assembly test apparatus according to the present invention.

FIG. 6 is a schematic view of a spout delivery mechanism of the faucet assembly testing apparatus of the present invention.

FIG. 7 is a schematic view of a valve body transport mechanism of the faucet assembly testing apparatus of the present invention.

Fig. 8 is a schematic view of a valve body conveyor belt of the faucet assembly testing apparatus of the present invention.

Fig. 9 is a schematic diagram of a vibrating mass of a faucet assembly testing apparatus of the present invention.

FIG. 10 is a schematic diagram of a first assembly mechanism of the faucet assembly testing apparatus of the present invention.

FIG. 11 is a schematic diagram of a second process unit of the faucet assembly testing apparatus of the present invention.

FIG. 12 is a schematic diagram of a cartridge assembly mechanism of the faucet assembly testing apparatus of the present invention.

FIG. 13 is a schematic view of an equipment rack of the faucet assembly testing equipment of the present invention.

FIG. 14 is a schematic view of a lifting assembly of the faucet assembly testing apparatus of the present invention.

FIG. 15 is a schematic view of a handle processing mechanism of a faucet assembly testing apparatus according to the present invention.

FIG. 16 is a schematic view of a handle conveyor of the faucet assembly testing apparatus of the present invention.

FIG. 17 is a first schematic view of a handle manipulator of the faucet assembly testing apparatus of the present invention.

FIG. 18 is a second schematic view of a handle manipulator of the faucet assembly testing apparatus of the present invention.

FIG. 19 is a schematic view of a faucet testing mechanism of the faucet assembly testing apparatus of the present invention.

FIG. 20 is a schematic diagram of a gland processing mechanism of a faucet assembly testing apparatus of the present invention.

FIG. 21 is a schematic view of a flow through mechanism of the faucet assembly testing apparatus of the present invention.

Description of the drawings: the first processing unit 1, the seal ring conveying mechanism 11, the seal ring vibration disk 111, the seal ring conveying belt 112, the first stopper 1121, the stopper rod 1122, the boss 1123, the seal ring robot 113, the grasping hand 1131, the push-pull member 1132, the horizontal cylinder 1133, the conveyor support 114, the second stopper 115, the stopper groove 1151, the pressing groove 1152, the cushion block 1153, the water nozzle conveying mechanism 12, the water nozzle vibration disk 121, the water nozzle conveying belt 122, the stopper housing 1221, the water nozzle robot 123, the valve body conveying mechanism 13, the valve body vibration disk 131, the valve body conveying belt 132, the vibration flat plate 1321, the vibration support 1322, the vibration rod 1323, the vibration block 1324, the connecting portion 1324a, the bearing portion 1324b, the reinforcing portion 1324c, the first assembling mechanism 14, the first assembling frame 141, the first disk 142, the second disk 143, the first holding member 144, the rotating member 145, the first assembling conveying belt 146, the second processing unit 2, the valve element 21 equipment rack 211, first conveyor 212, first tray 2121, second conveyor 213, second tray 2131, lifting assembly 2132, casing 2132a, buffer block 2132b, lifting rod 2132c, first tray 2133, second tray 2134, drive 214, transfer wheel 2141, follower wheel 2142, conveyor 2143, handle processing mechanism 22, handle conveyor 221, handle vibration tray 2211, handle conveyor 2212, vibration plate 2212a, handle vibration support 2212b, handle vibration rod 2212c, handle manipulator 2213, handle gripper 2213a, vibrator 2213b, spindle 2213c, spindle 2213da, connector 2213db, drive tooth 2213dc, driver 2213dd, screw conveyor 222, handle assembly 223, faucet test mechanism 23, quality test mechanism 231, reject hopper 2311, air tightness test mechanism 232, test tank 2321, first test manipulator 233, processing mechanism 24, and gland cover plate 2211, gland vibration dish 241, gland conveyer 242, gland stopper 2421, gland manipulator 243, equipment dish 244, first equipment dish 2441, second equipment dish 2442, unloading manipulator 2443, running water transport mechanism 25, running water conveyer 251, tap seat 252.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the drawings, like structural elements are denoted by like reference numerals.

The words "first," "second," and the like in the terminology of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance and not as limiting the order of precedence.

The following is a preferred embodiment of a faucet assembly testing device that solves the above technical problems.

The preferred embodiment of the faucet assembly test equipment provided by the invention is as follows: the faucet assembly test equipment comprises a first processing unit 1 and a second processing unit 2, wherein the faucet comprises a sealing ring, a water outlet nozzle, a valve body, a valve core, a handle and a gland. The first processing unit 1 is used for assembling a sealing ring and a water outlet nozzle of the faucet and assembling the water outlet nozzle and a valve body of the faucet, and the second processing unit 2 is positioned on one side of the first processing unit 1 and used for assembling a valve core and the valve body, an assembling handle and the valve core, and an assembling handle and a gland of the faucet and testing the quality of the faucet.

The first processing unit 1 includes: the sealing ring conveying mechanism 11 for conveying the sealing ring, the water outlet nozzle conveying mechanism 12 for conveying the water outlet nozzle, the valve body conveying mechanism 13 for conveying the valve body and the first assembling mechanism 14 for assembling the sealing ring, the water outlet nozzle and the water outlet nozzle, wherein the sealing ring conveying mechanism 11, the water outlet nozzle conveying mechanism 12 and the valve body conveying mechanism 13 respectively surround the periphery of the first assembling mechanism 14.

The second processing unit 2 includes: the valve core processing mechanism 21, the handle processing mechanism 22, the tap testing mechanism 23, the gland processing mechanism 24 and the running water conveying mechanism 25, wherein the valve core processing mechanism 21 is positioned at one end of the handle processing mechanism 22, is connected with the handle processing mechanism 22 through the running water conveying mechanism 25 and is used for assembling the valve core and the valve body together, the other end of the handle processing mechanism 22 is connected with the tap testing mechanism through the running water conveying mechanism 22 and is used for assembling the valve body and the handle together, the gland processing mechanism 24 is positioned at one side of the tap testing mechanism 23 and is connected with the running water conveying mechanism 22 and is used for assembling a tap and a gland together, and the running water conveying mechanism 25 is used for conveying tap semi-finished products input by the valve core processing mechanism 21, the handle processing mechanism 22 and the tap testing mechanism 23 to be output to the gland processing mechanism 24.

According to the faucet assembly test equipment, the first processing unit and the second processing unit are arranged to replace manual assembly, so that the faucet is processed, the operation difficulty is small, the steps are simple, the efficiency is high, the supply requirement of the market can be kept up, and the problems of high operation difficulty, complicated steps and low efficiency of manual faucet assembly in the prior art are solved.

Referring to fig. 1 and 2, the first processing unit 1 of the present invention is described in detail as follows:

the traditional assembly line is usually in linear arrangement among devices, namely the devices are sequentially seen as a long line, and the device is enclosed, so that the processing connection is more compact, the production efficiency is higher, and useless conveying links are reduced.

Referring to fig. 3 and 4, the seal ring conveying mechanism 11 of the present invention is described in detail as follows:

considering that the sealing ring is lighter in weight and softer in material and is easy to deform, the condition that the sealing ring flies out easily occurs in the process of transporting on the conveyor belt through the vibration of the vibration disc, the sealing ring conveying mechanism 11 comprises: the sealing ring vibration plate 111, the sealing ring conveyer belt 112 and the sealing ring manipulator 113, the sealing ring vibration plate 111 is connected with one end of the sealing ring conveyer belt 112, one end of the sealing ring conveyer belt 112 is located one side of the first assembly mechanism 14, and the sealing ring manipulator 113 is located one side of the sealing ring conveyer belt 112. The seal ring conveyor belt 112 includes a first limiting block 1121, where the first limiting block 1121 is located above the seal ring conveyor belt 112, connected to a side wall of the seal ring conveyor belt 112, and extends above a conveying surface of the seal ring conveyor belt 112. The first limiting block 1121 blocks the space above the sealing ring conveying belt 112, so that the sealing ring is prevented from vibrating out of the sealing ring conveying belt 112 in the vibration process, and the working efficiency is improved.

In the process of vibration of the seal ring vibration disk 111, the seal ring conveying belt 112 is often subjected to certain follow-up, and the seal ring conveying belt 112 is possibly damaged in severe cases, so that the seal ring is leaked, and the conveying efficiency is affected, therefore, the seal ring conveying mechanism 11 further comprises a conveying belt support 114, the conveying belt support 114 is positioned below the seal ring conveying belt 112 and used for supporting the seal ring conveying belt 112, and the stability of the seal ring conveying belt 112 can be greatly improved by arranging the conveying belt support 114.

In order to further improve the stability of the sealing ring vibration disc 111, the sealing ring can be conveyed on the sealing ring conveying belt 112 more stably, the conveying surface of the sealing ring conveying belt 112 is mountain-shaped, a protrusion 1123 is arranged in the middle of the sealing ring conveying belt 112, the height of the protrusion 1123 is flush with the surface height of the sealing ring connecting belt, the mountain-shaped is used for heightening the middle of the sealing ring conveying belt 112, the contact area between the sealing ring and the sealing ring conveying belt 112 is reduced, the sealing ring in an abnormal phase state, namely, the distorted sealing ring can be jacked and vibrated into the sealing ring in the normal state through the protrusion 1123, and meanwhile, the space of the sealing ring, which can vibrate up and down, can be further compressed by the bottom surface heightening the sealing ring conveying belt 112, so that the stability of the sealing ring conveying mechanism 11 is improved.

Considering that more material is consumed if the first limiting block 1121 is provided on the top surface of the seal ring conveyor belt 112, the seal ring conveyor belt 112 further includes a limiting rod 1122, a groove is provided on the first limiting block 1121, the limiting rod 1122 is fixed in the groove, and the limiting rod 1122 is located above the protrusion 1123. In this way, only two first limiting blocks 1121 are needed, and the vibration space of the sealing ring can be limited by using the limiting rod 1122, so that the cost performance is high.

Please refer to fig. 5, which illustrates the second stopper structure of the present invention in detail as follows:

in order to be convenient for carry out unloading operation to the sealing washer, sealing washer conveying mechanism 11 still includes the second stopper, the second stopper is connected with the other end of sealing washer conveyer belt 112, be equipped with spacing groove 1151 on the second stopper, spacing groove 1151 is docked with the other end of sealing washer conveyer belt 112, the sealing washer is on the second stopper under the drive of sealing washer vibration dish 111 and sealing washer conveyer belt 112, the sealing washer at the back just can not push forward the sealing washer that is located on the second stopper any more, the second stopper provides a space of sealing washer manipulator 113 with the sealing washer unloading of being convenient for simultaneously, the practicality is stronger.

When encountering the vibration of sealing washer vibration dish 111 and violently leading to the sealing washer to move too fast on sealing washer conveyer belt 112, probably lead to the sealing washer to collide the second stopper, the condition of direct departure, consequently the one end that sealing washer conveyer belt 112 was kept away from to spacing groove 1151 is the circular slot, the circular slot can make sealing washer and spacing groove 1151's area of contact improve, the effectual impact of reducing the sealing washer to the second stopper has avoided sealing washer vibration dish 111 to vibrate too hard, the problem that the sealing washer flies out the second stopper when leading to the sealing washer to move too fast on sealing washer conveyer belt 112.

Referring to fig. 3, the structure of the sealing ring manipulator 113 of the present invention is described in detail as follows:

in the invention, the sealing ring manipulator 113 comprises a grabbing hand 1131 and a pushing and pulling piece 1132, the pushing and pulling piece 1132 is located above the grabbing hand 1131, the bottom end diameter of the grabbing hand 1131 is smaller than the top end diameter of the grabbing hand 1131, the inner diameter of the sealing ring is between the bottom end diameter of the grabbing hand 1131 and the top end diameter of the grabbing hand 1131, namely, the grabbing hand 1131 is in a bullet type gradually increasing from the lower end to the upper end, so that the sealing ring can be easily clamped into the grabbing hand 1131, and grabbing is achieved.

In order to ensure the success rate of grabbing, the second limiting block further comprises a pressing groove 1152, the movement track of the manipulator comprises a loading position, when the manipulator is located at the loading position, the manipulator is located above the pressing groove 1152, and it is required to be noted that flexible materials such as sponge and the like are placed in the pressing groove 1152, are subjected to compression deformation and lose pressure recovery elastic deformation. The height of the flexible material is flush with the height of the limit groove 1151 when the flexible material is not stressed, when the grabbing hand 1131 grabs the sealing ring downwards, the bottom end of the grabbing hand 1131 can extend into the pressing groove 1152, the sealing ring is guaranteed to be clamped with the grabbing hand 1131 sufficiently, and the grabbing success rate is guaranteed.

In order to enable the push-pull member 1132 to be tightly connected with the grabbing hand 1131, the sealing ring grabbing hand 1131 is guaranteed to be capable of normally feeding and discharging, the sealing ring manipulator 113 further comprises a horizontal cylinder 1133, the horizontal cylinder 1133 is connected with the push-pull member 1132 and used for driving the push-pull member 1132 to horizontally move, the push-pull member 1132 is of a T-shaped structure, a push-pull groove matched with the push-pull member 1132 is formed in the top end of the grabbing hand 1131, and the T-shaped push-pull member 1132 can be well clamped in the push-pull groove, so that the stability of the structure is improved.

In order to avoid the sealing ring manipulator 113 from crushing the second limiting block in the process of blanking the sealing ring, the second limiting block further comprises a cushion block 1153, the cushion block 1153 is located above the second limiting block and detachably connected with the second limiting block, and it can be understood that the cushion block 1153 is also made of a flexible material.

Referring to fig. 6, the spout delivery mechanism 12 of the present invention will be described in detail as follows:

the spout conveyance mechanism 12 includes: a nozzle vibration plate 121, a nozzle conveyor 122, and a nozzle robot 123. The nozzle vibration plate 121 is connected to one end of the nozzle conveyor belt 122, one end of the nozzle conveyor belt 122 is located on one side of the first assembly mechanism 14, and the nozzle robot 123 is located on one side of the nozzle conveyor belt 122.

Wherein the outside of the tap conveyor 122 is provided with a limiting housing 1221 for limiting the position of the tap on the tap conveyor 122. The spacing shell 1221 is T shape opening, can also prevent that the water outlet from empting on water outlet conveyer belt 122 when shape assorted with the water outlet, has improved conveying efficiency, and spacing shell 1221 top still is equipped with the window in addition, makes things convenient for the workman to monitor the conveying condition of water outlet through the window.

Referring to fig. 7, 8 and 9, the valve body conveying mechanism 13 of the present invention will be described in detail as follows:

the valve body conveying mechanism 13 includes: valve body vibration disk 131, valve body conveyer 132, and valve body manipulator. The valve body vibration plate 131 is connected with one end of the valve body conveyor belt 132, one end of the valve body conveyor belt 132 is located at one side of the first assembling mechanism 14, and the valve body manipulator is located at one side of the valve body conveyor belt 132.

Unlike conventional conveyor belts, valve body conveyor belt 132 includes a vibrating plate 1321, a vibrating bracket 1322, a vibrating rod 1323, and a vibrating mass 1324. The vibration bracket 1322 is located on the vibration flat plate 1321, a groove is formed in the vibration bracket 1322, the vibration rod 1323 is located in the groove and used for limiting the valve body, and the vibration block 1324 is located on the vibration bracket 1322 and used for lifting the valve body. The vibration bracket 1322 is a square sheet structure, one corner of which is open, and the inside is hollow for placing and vibrating the valve body. The valve body includes inlet port portion, outlet port portion and valve port portion, and the vibrating rod 1323 is including lifting vibrating rod and spacing vibrating rod, and the vibration rod of lifting is triangle-shaped and distributes for lift the outlet port portion, and the outlet port portion is located between the vibration rod of lifting, is used for bearing the outlet port portion, and spacing vibrating rod is located the valve port portion top, is used for spacing the valve body, makes it can not take place to empty at the vibration in-process, and vibrating piece 1324 is located vibration support 1322, is used for lifting the inlet port portion. The vibration support 1322 is provided with a plurality of groups, which are uniformly distributed on the valve body conveyor belt 132. The valve body conveyor 132 uses the vibrating plate 1321, the vibrating bracket 1322, the vibrating rod 1323, and the vibrating mass 1324 to position and convey the valve body, while ensuring that the valve body does not topple over.

In the present invention, the vibrating block 1324 includes a connecting portion 1324a and a bearing portion 1324b, a first connecting hole is provided on the connecting portion 1324a, a second connecting hole corresponding to the first connecting hole is provided on the vibrating bracket 1322, the vibrating block 1324 and the vibrating bracket 1322 are detachably connected with the second connecting hole through the first connecting hole, and according to different types of valve bodies, different types of vibrating blocks 1324 can be replaced, so that applicability is improved.

Because the valve body structure is hard and the mass is great, the vibrating block 1324 further includes a reinforcing portion 1324c, one end of the reinforcing portion 1324c is connected with the connecting portion 1324a, one side is connected with the bearing portion 1324b, and the reinforcing portion 1324c is perpendicular to the bearing portion 1324b, so that the vibrating block 1324 structure is more stable.

In addition, the valve body conveying belt 132 further comprises a stop block, and the stop block is located at one end, far away from the valve body vibration disc 131, of the valve body conveying belt 132 and used for limiting the valve body to move continuously so as to prepare for the valve body manipulator to perform blanking operation on the valve body.

In order to enable the valve body manipulator to grasp more accurately, the valve body conveyor belt 132 further comprises a limiting rod 1122, and the limiting rod 1122 is located at one end of the valve body conveyor belt 132 far away from the vibration disc and used for limiting the valve body, ensuring that the valve body is in a vertical state and facilitating the discharging operation of the valve body manipulator.

Considering that the valve body is hard in structure and large in mass, large noise is generated when the valve body is conveyed on the valve body vibration disc 131, and therefore the valve body input device further comprises a sound insulation shell, the sound insulation shell is arranged on the outer side of the valve body vibration disc 131 and is provided with a sliding door, the sound insulation shell is provided with an opening, and the conveying belt penetrates through the opening. By utilizing the principle of acoustic gradual impedance, the inner wall of the sound insulation shell is provided with a conical small block, which is more beneficial to reducing the noise generated when the valve body is conveyed on the valve body vibration disc 131.

Please refer to fig. 10, the first assembling mechanism 14 of the present invention is described in detail as follows:

the first assembling mechanism 14 includes: the first assembly frame 141, the first tray 142, the second tray 143, the first clamp 144, the rotator 145, and the first assembly conveyor 146. The first disc 142 is connected with the first assembly frame 141, the second disc 143 is connected with the first assembly frame 141, the first disc 142 is located above the second disc 143, the diameter of the first disc 142 is smaller than that of the second disc 143, the first clamping piece 144 is located on the first disc 142 and connected with the first disc 142, the rotating piece 145 penetrates through the periphery of the second disc 143 and is distributed around the circumference array of the second disc 143, and the first assembly conveying belt 146 is located on one side of the first disc 142 and connected with the first assembly frame 141 and used for conveying a faucet processed by the first processing unit 1. The rotation of the first disc 142 and the second disc 143 drives the water outlet nozzle to move, so that the function of part of the mechanical arm is replaced, and the whole mechanism structure is more compact.

Furthermore, the first assembling mechanism 14 further includes: the first rotating shaft, the second rotating shaft and the two driving devices 214, wherein one end of the first rotating shaft is connected with the first disc 142, the other end of the first rotating shaft is connected with the first assembly frame 141, one end of the second rotating shaft is connected with the second disc 143, the other end of the second rotating shaft is connected with the first assembly frame 141, and the two driving devices 214 are connected with the first assembly frame 141 and are used for driving the first disc 142 and the second disc 143 to rotate. The first clamping piece 144 on the first disc 142 holds the water outlet nozzle, the water outlet nozzle is aligned with the valve body by matching with the valve body manipulator, the rotating piece 145 on the second disc 143 drives the water outlet nozzle to transfer, the assembly of the water outlet nozzle and the valve body is completed, and the whole mechanism is more automatic by using the driving device 214, so that the production efficiency is improved.

Please refer to fig. 1 and 11, the second processing unit 2 of the present invention is described in detail as follows:

the second processing unit 2 of the invention detects the quality of the water tap before the water tap is assembled, and classifies the unqualified water tap, so that the use of materials can be reduced, the unqualified quality of the water tap is prevented from being found after the water tap is assembled completely, and compared with the traditional method of assembling before detecting, the second processing unit 2 of the invention saves more materials.

Referring to fig. 12 and 13, the valve body processing mechanism 21 of the present invention will be described in detail as follows:

the valve element processing mechanism 21 includes: equipment rack 211 and conveyor. The equipment rack 211 is provided with a convex strip. The conveying device is located inside the equipment rack 211 and is in sliding connection with the equipment rack 211. The conveying device comprises a sliding block, a supporting plate and a tray. The sliding block is provided with a sliding groove corresponding to the convex strip, and the sliding block is in sliding connection with the equipment rack 211. The supporting plate is positioned on the sliding block and detachably connected with the sliding block and used for bearing the tray. The tray is located on the layer board, and the tray can be dismantled with the layer board and be connected. The conveying device comprises a first conveying device 212 and a second conveying device 213, and the first conveying device 212 is located above the second conveying device 213. The first conveyor 212 includes a first tray 2121 and the second conveyor 213 includes a second tray 2131 and a lifting assembly 2132. The lifting assembly 2132 is configured to lift the second tray 2131, wherein the movement track of the first tray 2121 includes a first loading level and a first unloading level, the movement track of the second tray 2131 includes a second loading level and a second unloading level, the first loading level is located above the second loading level, and the first unloading level is located above the second unloading level. The second tray 2131 is positioned at a second discharge level when the first tray 2121 is positioned at a first discharge level, and the second tray 2131 is positioned at a second discharge level when the first tray 2121 is positioned at the first discharge level.

Because the tray of case has been difficult to fixed on the slider, consequently the layer board is used as the holding surface and uses, in order to guarantee equipment normal work, the layer board just needs firm in connection with the tray, consequently the layer board includes the erection column, is equipped with the mounting hole that corresponds with the support column on the tray, and the layer board can be dismantled with the tray through erection column and mounting hole and be connected, and this kind of mode is not only firm, and the dismouting of being convenient for, to packing operation, it is easy and simple to handle to change the tray.

Considering that the valve core processing mechanism 21 needs to enable the conveying device to move back and forth, and the moving frequency is higher, the single-side sliding rail is arranged to be capable of meeting the requirement naturally, however, the hidden danger of loosening the structure possibly exists, so that the equipment rack 211 comprises a first wall and a second wall, the convex strips comprise a first convex strip and a second convex strip, the first convex strip is located on the first wall, the second convex strip is located on the second wall, and the convex strips are arranged on the two inner walls of the equipment rack 211, so that the structure is more stable.

To further automate, the valve core machining mechanism 21 further includes a driving device 214, and the driving device 214 includes: conveyor wheel 2141, follower wheel 2142, conveyor belt 2141, and drive motor. The transfer wheel 2141 is located inside the equipment rack 211 and is connected to a drive motor. The follower wheel 2142 is located inside the equipment rack 211 and is coupled to the equipment rack 211. The conveyor belt 2141 is sleeved on the conveyor wheel 2141 and the follower wheel 2142. The driving motor is located outside the equipment frame 211 and connected to the transfer wheel 2141 for driving the transfer wheel 2141 to rotate. The introduction of the driving device 214 further reduces the amount of labor of workers while improving production efficiency.

Because mechanical transmission is difficult to stop promptly just as manual transmission, conveyor still includes the dog, and the dog is located sand grip one side, is connected with equipment rack 211, and the dog sets up one side to the sand grip, alright carry out limiting displacement to the slider, avoids the slider to dash out the sand grip, and it can be understood that the dog is flexible material, can reduce the impact when slider and dog striking, protects overall structure normal operating.

In order to save the height occupied by the spool input device and simultaneously enable the first conveyor 212 to move synchronously with the second conveyor 213, the second conveyor 213 includes a first pallet 2133, a second pallet 2134 and a second slider, the first pallet 2133 is located between the second pallet 2134 and the second pallet 2131 and is used for supporting the second pallet 2131, the second pallet 2134 is connected with the second slider, the top end of the second slider is connected with the conveyor 2141, the bottom end of the first slider is connected with the conveyor 2141, and the two sliders are connected on the same conveyor 2141, so that the space of one conveyor 2141 and one synchronizer can be saved.

Since the second conveying device 213 is located below the first conveying device 212 and the second discharging position is located below the first discharging position, the lifting assembly 2132 is required to lift the second tray 2131 from the second discharging position to the first discharging position for discharging operation, if the tray is directly lifted, the tray is difficult to fix, if the tray is well fixed, the tray is connected with the lifting assembly 2132, and thus the disassembly and assembly of the tray are inconvenient, and the packing efficiency is affected, so the first supporting plate 2133 of the second conveying device 213 plays a role of supporting and lifting the second tray 2131 for placing the valve core, and is enabled to be connected with the second supporting plate 2134 of the second slider, and the lifting assembly 2132 is located between the second supporting plate 2134 and the first supporting plate 2133.

Referring to fig. 14, the structure of the lifting device of the present invention is described in detail as follows:

considering that the lifting assembly 2132 is mounted on the second support plate 2134 and is used for lifting the first support plate 2133, it is inevitable that wear is generated at the connection part between the first support plate 2133 and the lifting assembly 2132, so that the lifting assembly 2132 further comprises a pile casing 2132a and a buffer block 2132b in addition to the lifting rod 2132c, the pile casing 2132a is located at the periphery of the lifting rod 2132c and is connected with the second support plate 2134, the buffer block 2132b is located above the pile casing 2132a and is close to one end of the first support plate 2133 and is connected with the first support plate 2133, and the pile casing 2132a and the buffer block 2132b are provided to effectively reduce the impact of the lifting assembly 2132 and the first support plate 2133, so that the lifting assembly 2132 and the first support plate 2133 can be protected.

In order to make the slider be stably driven by the conveyor belt 2141, the conveyor belt 2141 is provided with a belt groove, the conveyor belt 2141 is positioned in the belt groove, the contact area between the conveyor belt 2141 and the slider is increased, and the friction force is increased, so that the slider can be driven by the conveyor belt 2141, and meanwhile, the slider and the conveyor belt 2141 can be conveniently disassembled, the conveyor belt 2141 is damaged, and the conveyor belt 2141 is convenient to replace.

In addition, the conveying device further comprises a groove cover, the groove cover is located above the groove and detachably connected with the groove, the groove cover is located above the groove, the contact area between the conveying belt 2141 and the sliding block is further increased, and the conveying belt 2141 can be ensured to stably drive the sliding block to move.

Referring to fig. 15, 16, 17 and 18, the handle processing mechanism 22 of the present invention will be described in detail as follows:

the handle processing mechanism 22 includes: handle conveyance device 221, screw conveyance device 222, and handle assembly device 223. The handle transporting device 221 is located at one end of the handle assembling device 223, and the screw transporting device 222 is located at the other end of the handle assembling device 223.

Unlike the conventional conveying apparatus, the handle conveying apparatus 221 includes: handle vibration plate 2211, handle conveyor 2212, and handle robot 2213. The handle vibration plate 2211 is connected to one end of the handle conveyor 2212, and the handle robot 2213 is located at one side of the handle conveyor 2212. Wherein the handle conveyor 2212 includes a handle vibration plate 2212a, a handle vibration bracket 2212b, and a handle vibration rod 2212c. The handle vibration bracket 2212b is positioned on the handle vibration plate 2212a, a first groove is formed in the handle vibration bracket 2212b, and the handle vibration rod 2212c is positioned in the first groove and used for limiting the handle and lifting the handle. The handle transfer belt 2212 positions and transfers the handle using the handle vibration plate 2212a, the handle vibration holder 2212b, and the handle vibration rod 2212c, while ensuring that the handle does not fall over.

The handle manipulator 2213 includes a handle grabbing hand 2213a, a rotating shaft 2213c, a vibrating member 2213b, and a driver, the handle grabbing hand 2213a is located below the vibrating member 2213b and is used for grabbing the handle, the rotating shaft 2213c is arranged on the vibrating member 2213b in a penetrating mode and is connected with the vibrating member 2213b, the driver is located above the rotating shaft and includes a rotating shaft 2213da, a connecting member 2213db, driving teeth 2213dc and a driving member 2213dd, the driving member 2213dd is connected with the rotating shaft 2213da, the rotating shaft 2213da is connected with the driving teeth 2213dc through the connecting member 2213db, and the rotating teeth 2213dc are connected with the rotating shaft 2213c and are used for driving the rotating shaft 2213c to rotate. When the driving member 2213dd works to drive the rotating shaft 2213da to rotate, the rotating shaft 2213da drives the driving teeth 2213dc to reciprocate, the driving teeth 2213dc drive the rotating shaft 2213c to radially move around the rotating shaft 2213c, and when the working frequency of the driving member 2213dc is increased, a visual effect of shaking of the vibrating member 2213b can be visually generated, and the connection of the valve core and the handle is facilitated. Because the junction of case and handle is the cusp, needs tooth meshing just can accomplish the installation, consequently in order to avoid the tooth of handle to exist the deviation with the tooth of case, be difficult to the meshing, the vibration piece 2213b that handle manipulator 2213 set up then can snatch handle 2213a through slight vibration, can easily mesh with the case, has improved the precision and the production efficiency of production.

Please refer to fig. 19, the faucet testing mechanism 23 of the present invention is described in detail as follows:

the faucet after the preliminary processing goes to the faucet testing mechanism 23 through the running water conveying mechanism 25, and the faucet testing mechanism 23 includes: the quality testing mechanism 231, the air tightness testing mechanism 232 and the first testing manipulator 233, wherein the quality testing mechanism 231 is located at one end of the air tightness testing mechanism 232, and the first testing manipulator 233 is located at one side of the quality testing mechanism 231 and one side of the air tightness testing mechanism 232 and is used for grabbing a faucet participating in testing.

In the present invention, the tap testing mechanism 23 comprises two large testing mechanisms, each mechanism corresponds to different tests, firstly, quality test is performed to ensure that the quality of the tap is qualified, the qualified tap is grabbed to the air tightness testing mechanism 232 by the first testing manipulator 233, and when the air tightness test is performed, the unqualified tap is placed into the defective blanking hopper 2311 arranged in the quality testing mechanism 231. Secondly, carry out tap gas tightness test, qualified tap then can get into subsequent processing, ensures that tap's gas tightness is also qualified, and wherein quality testing mechanism 231 includes four detection grooves 2321, and four detection grooves 2321 detect simultaneously, greatly increased detection efficiency. After a series of detection, the condition that only the quality is qualified, the air tightness is unqualified or the air tightness is unqualified is avoided, and the quality of the faucet is improved.

Please refer to fig. 20, which illustrates the capping mechanism 24 of the present invention in detail as follows:

the capping mechanism 24 includes: the gland vibration plate 241, the gland conveyer 242, the gland manipulator 243 and the assembly plate 244, the gland vibration plate 241 is connected with one end of the gland conveyer 242, the gland manipulator 243 is located on one side of the gland conveyer 242, and the assembly plate 244 is connected with the other end of the gland conveyer 242. The gland conveyor belt 242 includes a gland stopper 2421, the gland stopper 2421 is located above the gland conveyor belt 242, connected with a sidewall of the gland conveyor belt 242, and extends above a conveying surface of the gland conveyor belt 242. The gland limiting block 2421 is used for effectively ensuring that the gland cannot be vibrated out of the conveyor belt in the transmission process, and the conveying efficiency is improved.

In order to further improve stability of the gland vibration plate 241, the gland can be more stably conveyed on the gland conveying belt 242, and a second groove is arranged in the middle of the gland conveying belt 242. Considering that more material is consumed if the gland stopper 2421 is provided on the entire top surface of the conveyor belt, the gland conveyor belt 242 further includes the gland stopper rod 1122, the gland stopper 2421 is provided with a third groove, the gland stopper rod 1122 is fixed in the third groove, and the gland stopper rod 1122 is located above the gland conveyor belt 242. In this way, only two gland limiting blocks 2421 are needed, and the vibration space of the gland can be limited by using the gland limiting rod 1122, so that the cost performance is high.

In addition, the assembly disc 244 includes a first assembly disc 2441 and a second assembly disc 2442, the first assembly disc 2441 is located above the second assembly disc 2442, a second clamping member is disposed on the first assembly disc 2441 and is used for clamping the faucet, and the second assembly disc 2442 includes a rotating member for driving the second assembly disc 2442 to rotate. The second assembly plate 2442 carries the tap without the gland to rotate to one side of the second clamping piece of the first assembly plate 2441, the tap without the gland is clamped by the second clamping piece, the gland is mounted on the tap without the gland by the gland manipulator 243, the second assembly plate 2442 rotates after the mounting is completed, and the gland is mounted on the subsequent tap without the gland by the gland manipulator 243.

For the convenience to carry out the unloading operation to the tap that installs, equipment dish 244 still includes unloading manipulator 2443, and unloading manipulator 2443 is located first equipment dish 2441 top for snatch the tap that the installation was accomplished, carry out the unloading operation to it, only set up gland manipulator 243 and unloading manipulator 2443 in one side, the workman of being convenient for accomodates tap.

Please refer to fig. 21, the following describes the details of the water delivery mechanism 25 according to the present invention:

compared with the conventional conveying mechanism, the running water conveying mechanism 25 comprises a running water conveying belt 251 and a faucet seat 252, wherein the faucet seat 252 is positioned on the running water conveying belt 251 and used for fixing a faucet, so that the stability of the faucet on the conveying belt in each processing procedure is ensured. The flow conveyor 25 includes a first flow conveyor and a second flow conveyor separated by a quality testing mechanism. The first flow delivery mechanism is used to deliver the faucet mounted through the valve cartridge and the faucet mounted through the handle, and the second flow delivery mechanism is used to deliver the faucet through the quality testing mechanism 231 and the faucet through the air tightness testing mechanism 232. The tap with qualified quality test will catch the second running water mechanism from the first running water mechanism, the tap with unqualified quality test will catch the defective product blanking hopper 2311 from the first running water mechanism, and the tap with completed air tightness test is transmitted to the gland processing mechanism 24 for gland installation through the second running water mechanism.

The working principle of the invention is as follows: the sealing ring, the water outlet nozzle and the valve body are respectively placed in the sealing ring vibration disc 111, the water outlet nozzle vibration disc 121 and the valve body vibration disc 131, and driven by the sealing ring vibration disc 111, the water outlet nozzle vibration disc 121 and the valve body vibration disc 131, the sealing ring, the water outlet nozzle and the valve body come to the first assembling mechanism 14 to be assembled, and the assembled semi-finished product is transported to the second processing unit 2 through the first assembling conveyor belt 146. In the second processing unit 2, the valve core, the handle and the gland are manually fed, the valve core processing mechanism 21 installs the valve core and the valve body together, then the handle processing mechanism 22 installs the handle on the valve body, the quality detection is started in the tap testing mechanism 23, the qualified tap enters the air tightness test, the unqualified tap falls into the defective blanking bucket 2311, the gland is installed in the gland processing mechanism 24 through the qualified tap which enters the defective blanking bucket 2311 through the air tightness test, and the assembly and the test of the whole tap are finished after the gland is installed through the gland processing mechanism 24.

Thus, the assembly and testing process of the faucet assembly testing device of the preferred embodiment is completed.

In summary, although the present invention has been described in terms of the preferred embodiments, the preferred embodiments are not limited to the above embodiments, and various modifications and changes can be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention is defined by the appended claims.

Claims (10)

1. A faucet assembly testing apparatus for assembling and detecting a faucet, the faucet comprising: sealing washer, water outlet nozzle, valve body, case, handle and gland, its characterized in that, tap equipment test equipment includes:

the sealing ring conveying mechanism, the water outlet conveying mechanism and the valve body conveying mechanism respectively surround the periphery of the first assembling mechanism; and

the second processing unit is positioned on one side of the first processing unit and used for assembling a valve core and a valve body of a faucet, assembling a handle and the valve core, assembling the handle and a gland, and testing the quality of the faucet, and comprises a valve core processing mechanism, a handle processing mechanism, a faucet testing mechanism, a gland processing mechanism and a running water conveying mechanism, wherein the valve core processing mechanism is positioned at one end of the handle processing mechanism and is connected with the handle processing mechanism through the running water conveying mechanism and used for assembling the valve core and the valve body together, the other end of the handle processing mechanism is connected with the faucet testing mechanism through the running water conveying mechanism and used for assembling the valve body and the handle together, the gland processing mechanism is positioned on one side of the faucet testing mechanism and is connected with the running water conveying mechanism and used for assembling the faucet and the gland together, and the running water conveying mechanism is used for outputting semi-finished faucet products input by the valve core processing mechanism, the handle processing mechanism and the faucet testing mechanism to the gland processing mechanism.

2. The faucet assembly testing apparatus of claim 1, wherein the valve body transport mechanism comprises: valve body vibration disk, valve body conveyer belt and valve body manipulator; the valve body vibration disc is connected with one end of the valve body conveyor belt, one end of the valve body conveyor belt is positioned at one end of the first assembly mechanism, and the valve body manipulator is positioned at one side of the valve body conveyor belt;

the valve body comprises a water inlet part, a water outlet part and a valve port part, and the valve body conveyor belt comprises a vibrating flat plate, a vibrating bracket, a vibrating rod and a vibrating block; the vibration support is located on the vibration flat plate, a groove is formed in the vibration support, the vibration rod is located in the groove, the vibration rod comprises a lifting vibration rod and a limiting vibration rod, the lifting vibration rod is in triangular distribution and used for lifting the water outlet part, the water outlet part is located between the lifting vibration rods and used for bearing the water outlet part, the limiting vibration rod is located above the valve port part and used for limiting the valve body, so that the valve body cannot fall down in the vibration process, and the vibration block is located on the vibration support and used for lifting the water inlet part.

3. The faucet assembly test equipment according to claim 2, wherein the vibrating block comprises a connecting part and a bearing part, a first connecting hole is formed in the connecting part, a second connecting hole corresponding to the first connecting hole is formed in the vibrating bracket, and the vibrating block and the vibrating bracket are detachably connected with the second connecting hole through the first connecting hole;

the vibrating mass further comprises a reinforcing part, one end of the reinforcing part is connected with the connecting part, one side of the reinforcing part is connected with the bearing part, and the reinforcing part is perpendicular to the bearing part.

4. The faucet assembly testing apparatus of claim 2, wherein the valve body transport mechanism further comprises a sound dampening housing disposed outside the valve body vibration plate, a sliding door is provided on the sound dampening housing, an opening is provided on the sound dampening housing, and the valve body conveyor belt passes through the opening.

5. The faucet assembly testing apparatus of claim 1, wherein the first assembly mechanism comprises: a first assembly rack, a first disc, a second disc, a first clamping member, a rotating member, and a first assembly conveyor belt; the first tray is connected with the first assembly frame, the second tray is connected with the first assembly frame, the first tray is located the second tray top, the diameter of first tray is less than the diameter of second tray, first holder is located on the first tray, with the first tray is connected, the rotating member wears to locate around the second tray, around second tray circumference array distributes, first equipment conveyer belt is located one side of first tray, with first assembly frame is connected.

6. The faucet assembly testing apparatus of claim 5, wherein the first assembly mechanism further comprises: the device comprises a first rotating shaft, a second rotating shaft and two driving devices, wherein one end of the first rotating shaft is connected with a first disc, the other end of the first rotating shaft is connected with a first assembly frame, one end of the second rotating shaft is connected with a second disc, the other end of the second rotating shaft is connected with the first assembly frame, and the two driving devices are connected with the first assembly frame and used for driving the first disc and the second disc to rotate.

7. The faucet assembly test apparatus of claim 1, wherein the valve core processing mechanism comprises an apparatus frame and a conveying device, wherein a raised strip is arranged on the apparatus frame;

the conveyor is located inside the equipment rack, with equipment rack sliding connection, the conveyor includes:

the sliding block is provided with a sliding groove corresponding to the convex strip, and the sliding block is in sliding connection with the equipment rack;

the supporting plate is positioned on the sliding block, is detachably connected with the sliding block and is used for bearing a tray; the method comprises the steps of,

the tray is positioned on the supporting plate and is detachably connected with the supporting plate;

The conveying device comprises a first conveying device and a second conveying device, and the first conveying device is positioned above the second conveying device; the first conveying device comprises a first tray, the second conveying device comprises a second tray and a lifting assembly, the lifting assembly is connected with the supporting plate, a movement track of the first tray comprises a first feeding level and a first discharging level, a movement track of the second tray comprises a second feeding level and a second discharging level, the first feeding level is located above the second feeding level, and the first discharging level is located above the second discharging level; the second tray is located at the second loading level when the first tray is located at the first loading level, and the second tray is located at the second loading level when the first tray is located at the first loading level.

8. The faucet assembly test apparatus of claim 7, wherein the second transport device includes a first pallet, a second pallet and a second slider, the first pallet is located between the second pallet and the second pallet for supporting the second pallet, the second pallet is connected with the second slider, the lifting assembly includes a lifting rod, a lifting motor, a protective cylinder and a cushion block, the lifting rod is disposed between the first pallet and the second pallet in a penetrating manner, one end of the lifting rod is connected with the first pallet, the other end of the lifting rod is connected with the lifting motor, the protective cylinder is located at the periphery of the lifting rod, the protective cylinder is connected with the second pallet, and the cushion block is located above the protective cylinder and near one end of the first pallet and is connected with the first pallet.

9. The faucet assembly testing apparatus of claim 1, wherein the handle machining mechanism comprises: a handle conveying device, a screw conveying device and a handle assembling device; the handle conveying device is positioned at one end of the handle assembling device, and the screw conveying device is positioned at the other end of the handle assembling device;

the handle conveying device comprises: a handle vibration plate, a handle conveyor belt and a handle manipulator; the handle vibration disc is connected with one end of the handle conveyor belt, one end of the handle conveyor belt is positioned at one end of the first assembly mechanism, and the handle manipulator is positioned at one side of the handle conveyor belt;

the handle conveyor belt comprises a handle vibration flat plate, a handle vibration bracket and a handle vibration rod; the handle vibration support is positioned on the handle vibration plate, a groove is formed in the handle vibration support, and the handle vibration rod is positioned in the groove and used for limiting a faucet and lifting the faucet;

the handle manipulator comprises a handle grabbing hand, a rotating shaft, a vibrating piece and a driver, wherein the handle grabbing hand is located below the vibrating piece and used for grabbing the handle, the rotating shaft penetrates through the vibrating piece and is connected with the vibrating piece, the driver is located above the rotating shaft and comprises a rotating shaft, a connecting piece, driving teeth and a driving piece, the driving piece is connected with the rotating shaft, the rotating shaft and the driving teeth are connected through the connecting piece, and the rotating teeth and the rotating shaft are connected and used for driving the rotating shaft to rotate.

10. The faucet assembly testing apparatus of claim 1, wherein the gland machining mechanism comprises: the device comprises a gland vibration disc, a gland conveying belt, a gland manipulator and an assembly disc, wherein the gland vibration disc is connected with one end of the gland conveying belt, one end of the gland conveying belt is positioned on one side of the assembly disc, the gland manipulator is positioned on one side of the gland conveying belt, and the assembly disc is connected with the other end of the gland conveying belt;

the gland conveyor belt comprises a gland limiting block, wherein the gland limiting block is positioned above the gland conveyor belt, is connected with the side wall of the gland conveyor belt and extends to the position above the conveying surface of the gland conveyor belt;

the gland conveyer belt still includes the gland gag lever post, be equipped with the second recess on the gland stopper, the gland gag lever post is fixed in the second recess, the gland gag lever post is located gland conveyer belt top.