CN209773930U - Blow-nail type screw conveying device and electric screwdriver nailing device - Google Patents

Abstract

The utility model discloses a blow nail formula screw conveyer, include: mounting a bottom plate; the vibration plate is arranged on the mounting bottom plate, the transmission rail and the flat vibration device fixed below the transmission rail are arranged on the mounting bottom plate; the first material receiving mechanism and the second material receiving mechanism are arranged on the mounting bottom plate and are arranged on two sides of the transmission track at intervals; the blowing mechanism comprises a first suction nozzle, a first control mechanism for controlling the first suction nozzle to suck or blow and release the screw, a second suction nozzle and a second control mechanism for controlling the second suction nozzle to suck or blow and release the screw; the driving mechanism is arranged on the mounting bottom plate and used for driving the first suction nozzle to move to the transmission track or the first material receiving mechanism and driving the second suction nozzle to move to the transmission track or the second material receiving mechanism. The utility model discloses a screw vibration feeding mechanism can realize that two electricity criticize the transmission supply in turn of beating the screw of screw mechanism, has improved production efficiency, has reduced manufacturing cost.

Description

Blow-nail type screw conveying device and electric screwdriver nailing device

Technical Field

The utility model relates to a mechanical equipment is used in the screw equipment on the product, concretely relates to blow nail formula screw conveyer and contain this blow nail formula screw conveyer's screwdriver nailing device.

Background

At present, blow-nailing type automatic screw driving equipment is used when products are assembled in a plurality of factory enterprises. The traditional screw mechanism comprises a screw vibrating disc, a screw straight vibrating plate, an electric screwdriver head moving cylinder, an electric screwdriver head, a screw positioning left-right driving device, a screw positioning lifting device and an electric screwdriver head assembly front-back driving device, wherein the screw vibrating disc is used for orderly arranging the screws which are distributed in disorder and sequentially conveying the screws into the screw straight vibrating plate; therefore, the screws on the screw vibration disc can be accurately conveyed to the proper positions, and the screws are sucked through the screwdriver head so as to be matched with the screwdriver head to accurately nail the screws on the lamp cap of the bulb head. The screw mechanism adopts a set of screw feeder to drag a screwdriver to use, so that the phenomenon of high equipment cost investment and high cost waste exists.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to provide a blow nail formula screw conveyer and screwdriver nailing device can improve nailing efficiency, reduction in production cost.

To achieve the purpose, the utility model adopts the following technical proposal:

In one aspect, a blow-nailed screw delivery device is provided, including:

mounting a bottom plate;

The vibration plate is arranged on the mounting bottom plate, the transmission rail and the flat vibration device fixed below the transmission rail are arranged on the mounting bottom plate, and one end of the transmission rail is connected with a discharge hole of the vibration plate;

The first material receiving mechanism and the second material receiving mechanism are arranged on the mounting bottom plate and are arranged on two sides of the transmission track at intervals;

The blowing mechanism comprises a first suction nozzle, a first control mechanism for controlling the first suction nozzle to suck or blow and release the screw, a second suction nozzle and a second control mechanism for controlling the second suction nozzle to suck or blow and release the screw;

And the driving mechanism is arranged on the mounting bottom plate and used for driving the first suction nozzle to move to the transmission track or the first material receiving mechanism and driving the second suction nozzle to move to the transmission track or the second material receiving mechanism.

as a preferable scheme of the screw blowing type screw conveying device, when the driving mechanism simultaneously drives the first suction nozzle to move onto the first material receiving mechanism and the second suction nozzle to move onto the conveying track, the first control mechanism may control the first suction nozzle to blow screws sucked by the first suction nozzle into the first material receiving mechanism, and the second control mechanism may control the second suction nozzle to suck screws on the conveying track;

When the driving mechanism simultaneously drives the first suction nozzle to move to the transmission track and the second suction nozzle to move to the second material receiving mechanism, the first control mechanism can control the first suction nozzle to suck the screws on the transmission track, and the second control mechanism can control the second suction nozzle to blow the screws sucked by the second suction nozzle into the second material receiving mechanism.

As a preferred scheme of blowing nail formula screw conveyer, actuating mechanism include through the mount pad install in last rodless cylinder of mounting plate, through the mounting panel with first pneumatic slip table and the pneumatic slip table of second that rodless cylinder's slider is connected, rodless cylinder can drive first pneumatic slip table with the pneumatic slip table lateral shifting of second, first pneumatic slip table with first suction nozzle is connected in order to drive first suction nozzle reciprocates, the pneumatic slip table of second with the second suction nozzle is connected in order to drive the second suction nozzle reciprocates.

As a preferable scheme of the nail-blowing type screw conveying device, the first material receiving mechanism and the second material receiving mechanism are symmetrical relative to the conveying track, and a horizontal distance between the first material receiving mechanism and the conveying track is equal to a horizontal distance between the first pneumatic sliding table and the second pneumatic sliding table.

As a preferable scheme of the screw blowing type screw conveying device, the screw blowing type screw conveying device further comprises a controller, wherein the first control mechanism comprises a first air blowing pipe connected with the first suction nozzle, a first vacuum generator and a first air source which are respectively connected with the first air blowing pipe, and a first electromagnetic valve used for controlling the first air blowing pipe to be communicated with the first vacuum generator or the first air source; the second control mechanism comprises a second air blowing pipe connected with the second suction nozzle, a second vacuum generator and a second air source which are respectively connected with the second air blowing pipe, and a second electromagnetic valve used for controlling the communication between the second air blowing pipe and the second vacuum generator or the second air source; the controller is electrically connected with the first electromagnetic valve and the second electromagnetic valve respectively.

As a preferable scheme of the screw blowing type screw conveying device, the screw blowing type screw conveying device further comprises a controller, the first control mechanism and the second control mechanism are the same control mechanism, the control mechanism comprises a first air blowing pipe connected with the first suction nozzle, a second air blowing pipe connected with the second suction nozzle, a vacuum generator and an air source, one end of the first air blowing pipe, far away from the first suction nozzle, and one end of the second air blowing pipe, far away from the second suction nozzle, are connected with the vacuum generator and the air source through the same electromagnetic valve, the controller is connected with the electromagnetic valve, the electromagnetic valve has a first working state and a second working state, when the controller controls the electromagnetic valve to be in the first working state, the first air blowing pipe is communicated with the air source, and the second air blowing pipe is communicated with the vacuum generator; when the controller controls the electromagnetic valve to be in a second working state, the first air blowing pipe is communicated with the vacuum generator, and the second air blowing pipe is communicated with the air source.

As a preferable scheme of the screw-blowing-type screw conveying device, the first air blowing pipe is communicated with the first suction nozzle through a first air pipe quick-change connector, and the second air blowing pipe is communicated with the second suction nozzle through a second air pipe quick-change connector.

as a preferable scheme of the screw blowing type screw conveying device, the first material receiving mechanism comprises a first material receiving and blowing screw seat and a first nail suction pipe, the first material receiving and blowing screw seat is mounted on the mounting base plate, a first through hole for a screw to pass through is formed in a first upper end plate of the first material receiving and blowing screw seat, and the first nail suction pipe is located below the first upper end plate and connected with the first through hole; the second receiving mechanism comprises a second receiving material blowing seat and a second nail sucking pipe, the second receiving material blowing seat is arranged on the mounting base plate, a second through hole for a screw to pass through is formed in a second upper end plate of the second receiving material blowing seat, and the second nail sucking pipe is located below the second upper end plate and connected with the second through hole.

on the other hand, provide a nailing device is criticized to electricity, include that nailing mechanism is criticized to first electricity and second electricity is criticized nailing mechanism, still include above-mentioned nail-blowing type screw conveyer, first electricity criticize nailing mechanism with first receiving mechanism connects, second electricity criticize nailing mechanism with second receiving mechanism connects.

the utility model has the advantages that: the utility model discloses a screw vibration feeding mechanism (vibration dish, transmission track, flat oscillator) can realize that two electricity criticize the transmission supply in turn of beating the screw of screw mechanism, has improved production efficiency, has reduced manufacturing cost.

Drawings

in order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be obtained from these drawings without inventive effort.

fig. 1 is a schematic structural diagram of a first viewing angle of a blow-molding screw delivery device according to an embodiment of the present invention.

fig. 2 is a schematic structural diagram of a second viewing angle of a blow-molding screw delivery device according to an embodiment of the present invention.

In the figure:

1. Mounting a bottom plate; 2. a vibrating pan; 3. a transfer track; 4. a flat vibrator; 5. a first receiving mechanism; 51. a first material receiving and nail blowing seat; 52. a first nail suction pipe; 6. a second material receiving mechanism; 61. a second material receiving and nail blowing seat; 62. a second nail suction air pipe; 71. a first suction nozzle; 72. a second suction nozzle; 73. a first gas pipe quick-change connector; 74. a second air pipe quick-change connector; 8. a drive mechanism; 81. a rodless cylinder; 82. mounting a plate; 83. a first pneumatic sliding table; 84. and the second pneumatic sliding table.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to 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.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are used only for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms will be understood by those skilled in the art according to the specific circumstances.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being either a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and 2, an embodiment of the present invention provides a blow-out screw delivery device, including:

Mounting a bottom plate 1;

the vibration plate comprises a vibration plate 2, a transmission rail 3 and a flat vibration device 4, wherein the vibration plate 2 is arranged on the installation bottom plate 1, the flat vibration device 4 is fixed below the transmission rail 3, and one end of the transmission rail 3 is connected with a discharge hole of the vibration plate 2;

The first material receiving mechanism 5 and the second material receiving mechanism 6 are arranged on the mounting base plate 1, and the first material receiving mechanism 5 and the second material receiving mechanism 6 are arranged on two sides of the transmission track 3 at intervals;

A blowing mechanism including a first suction nozzle 71, a first control mechanism for controlling the first suction nozzle 71 to suck or blow screws, and a second suction nozzle 72, a second control mechanism for controlling the second suction nozzle 72 to suck or blow screws;

And the driving mechanism 8 is installed on the installation base plate 1, and is used for driving the first suction nozzle 71 to move to the conveying track 3 or the first material receiving mechanism 5, and driving the second suction nozzle 72 to move to the conveying track 3 or the second material receiving mechanism 6.

when screws on the transmission track 3 need to be sucked, the driving mechanism 8 drives the first suction nozzle 71 or the second suction nozzle 72 to move to the position above the transmission track 3, the screws are sucked by the first suction nozzle 71 or the screws are sucked by the second control structure under the control of the first control mechanism, then the screws are driven to ascend by the driving mechanism 8, then the first suction nozzle 71 is driven to move to the position above the first material receiving mechanism 5 or the second suction nozzle 72 is driven to move to the position above the second material receiving mechanism 6, and the screws are blown and released by the first suction nozzle 71 or the screws are blown and released by the second suction nozzle 72 under the control of the first control mechanism after the screws are moved downwards, so that the screws are transmitted. Compared with the prior art, the screw alternate transmission and supply of the double-electric-batch screw driving mechanism can be realized through one screw vibration feeding mechanism (the vibration disc 2, the transmission track 3 and the flat vibrator 4), the production efficiency is improved, and the production cost is reduced.

When the driving mechanism 8 simultaneously drives the first suction nozzle 71 to move to the first material receiving mechanism 5 and the second suction nozzle 72 to move to the conveying track 3, the first control mechanism can control the first suction nozzle 71 to blow the screws sucked by the first suction nozzle into the first material receiving mechanism 5, and the second control mechanism can control the second suction nozzle 72 to suck the screws on the conveying track 3; when the driving mechanism 8 simultaneously drives the first suction nozzle 71 to move to the conveying track 3 and the second suction nozzle 72 to move to the second material receiving mechanism 6, the first control mechanism can control the first suction nozzle 71 to suck the screws on the conveying track 3, and the second control mechanism can control the second suction nozzle 72 to blow the screws sucked by the second suction nozzle into the second material receiving mechanism 6.

specifically, actuating mechanism 8 include through the mount pad install in rodless cylinder 81 on the mounting plate 1, through mounting panel 82 with first pneumatic slip table 83 and the pneumatic slip table 84 of second that rodless cylinder 81's slider is connected, rodless cylinder 81 can drive first pneumatic slip table 83 with the pneumatic slip table 84 lateral shifting of second, first pneumatic slip table 83 with first suction nozzle 71 is connected in order to drive first suction nozzle 71 moves down, the pneumatic slip table 84 of second with second suction nozzle 72 is connected in order to drive second suction nozzle 72 reciprocates. The guide rod of the rodless cylinder 81 extends along the arrangement direction of the first material receiving mechanism 5, the transmission track 3 and the second material receiving mechanism 6, the first pneumatic sliding table 83 and the second pneumatic sliding table 84 are connected with the rodless cylinder 81 through the mounting plate 82, the rodless cylinder 81 can simultaneously drive the first pneumatic sliding table 83 to drive the first suction nozzle 71 to move above the first material receiving mechanism 5 and drive the second pneumatic sliding table 84 to move above the transmission track 3, or the rodless cylinder 81 can reversely drive the first pneumatic sliding table 83 to drive the first suction nozzle 71 to move above the transmission track 3 and drive the second pneumatic sliding table 84 to move above the second material receiving mechanism 6.

The first material receiving mechanism 5 and the second material receiving mechanism 6 are symmetrical relative to the transmission track 3, and the horizontal distance between the first material receiving mechanism 5 and the transmission track 3 is equal to the horizontal distance between the first pneumatic sliding table 83 and the second pneumatic sliding table 84.

In this embodiment, the screw-blowing-type screw conveying device further includes a controller, and the first control mechanism includes a first air-blowing pipe connected to the first suction nozzle 71, a first vacuum generator and a first air source respectively connected to the first air-blowing pipe, and a first electromagnetic valve for controlling the first air-blowing pipe to communicate with the first vacuum generator or the first air source; the second control mechanism comprises a second air blowing pipe connected with the second suction nozzle 72, a second vacuum generator and a second air source which are respectively connected with the second air blowing pipe, and a second electromagnetic valve used for controlling the communication between the second air blowing pipe and the second vacuum generator or the second air source; the controller is electrically connected with the first electromagnetic valve and the second electromagnetic valve respectively. The first air blowing pipe is communicated with the first vacuum generator or the first air source by controlling the first electromagnetic valve through the controller, and the second air blowing pipe is communicated with the second vacuum generator or the second air source by controlling the second electromagnetic valve through the controller. Wherein, the first suction nozzle 71 is connected with the first vacuum generator and the first air source through the first air blowing pipe, the second suction nozzle 72 is connected with the second vacuum generator and the second air source through the second air blowing pipe, and the assembly structure can be clear through the text description.

In another embodiment of the present invention, which is substantially the same as the above-described embodiment (referring to the drawings of the above-described embodiment and following the same reference numerals), the difference is that: the screw-blowing type screw conveying device further comprises a controller, the first control mechanism and the second control mechanism are the same control mechanism, the control mechanism comprises a first air blowing pipe connected with the first suction nozzle 71, a second air blowing pipe connected with the second suction nozzle 72, a vacuum generator and an air source, one end of the first air blowing pipe, far away from the first suction nozzle 71, and one end of the second air blowing pipe, far away from the second suction nozzle 72, are connected with the vacuum generator and the air source through the same electromagnetic valve, the controller is connected with the electromagnetic valve, the electromagnetic valve has a first working state and a second working state, when the controller controls the electromagnetic valve to be in the first working state, the first air blowing pipe is communicated with the air source, and the second air blowing pipe is communicated with the vacuum generator; when the controller controls the electromagnetic valve to be in a second working state, the first air blowing pipe is communicated with the vacuum generator, and the second air blowing pipe is communicated with the air source. Compared with the embodiment, the embodiment saves the equipment cost and reduces the production cost.

in the two embodiments, the first blowing pipe is communicated with the first suction nozzle 71 through a first quick-change connector 73, and the second blowing pipe is communicated with the second suction nozzle 72 through a second quick-change connector 74, so that the first blowing pipe and the second blowing pipe can be conveniently disassembled and assembled.

the first material receiving mechanism 5 comprises a first material receiving and blowing nail seat 51 and a first nail absorbing and blowing air pipe 52 which are arranged on the installation bottom plate 1, a first through hole for a screw to pass through is formed in a first upper end plate of the first material receiving and blowing nail seat 51, and the first nail absorbing and blowing air pipe 52 is positioned below the first upper end plate and connected with the first through hole; the second receiving mechanism 6 is including installing in the second on the mounting plate 1 connects material to blow the nail seat 61 and the second inhales the nail trachea 62, set up the second through-hole that can supply the screw to pass on the second upper end plate that the second connects material to blow the nail seat 61, the second inhales the nail trachea 62 and is located the below of second upper end plate and with the second through-hole is connected. The screw can be blown into the first nail suction air pipe 52 through the first through hole by the first suction nozzle 71 and is transmitted to the corresponding electric batch nailing mechanism for nailing treatment, or blown into the second nail suction air pipe 62 through the first through hole by the second suction nozzle 72 and is transmitted to the corresponding electric batch nailing mechanism for nailing treatment.

The working principle of the blow-nailing type screw conveying device of the embodiment is as follows: screws are put into the vibrating disk 2, the screws and nuts are automatically transmitted to the transmission track 3 upwards through vibration sequencing, the screws are transmitted to the end row of the transmission track 3 upwards through the vibration of the flat vibrator 4, the slide block of the screw is driven by the rodless cylinder 81 to slide rightwards, the first pneumatic sliding table 83 extends out to drive the first suction nozzle 71 to descend, as the first air blowing pipe, the first vacuum generator and the first air blowing pipe which are connected to the first air blowing pipe to control vacuum pumping, the first suction nozzle 71 sucks the screws at the end part of the transmission track 3, and then the first pneumatic sliding table 83 retracts to lift the first suction nozzle 71, during the action, the second pneumatic sliding table 84 extends out to drive the second suction nozzle 72 to descend, the sucked screws are inserted into the second through hole of the second material receiving and blowing nail seat 61, as the second air blowing pipe, the second vacuum generator and the second air blowing pipe which are connected to the second air blowing pipe 74 to control air blowing, the screws are blown in from the second through holes of the second material receiving and nail blowing seat 61, are transmitted to the corresponding electric screwdriver nailing mechanism through the second nail sucking air pipes 62 to be subjected to material waiting, and are retracted by the second pneumatic sliding table 84 to lift the second suction nozzle 72, so that the material taking of the left screws and the material feeding of the right screws are completed;

the rodless cylinder 81 drives the sliding block to slide leftwards, the second pneumatic sliding table 84 extends to drive the second suction nozzle 72 to move downwards to suck the screws at the end part of the conveying track 3, the second pneumatic sliding table 84 retracts to lift the second suction nozzle 72, the first pneumatic sliding table 83 extends to drive the first suction nozzle 71 to move downwards during the action, the sucked screws are inserted into the first through hole of the first material receiving and nail blowing seat 51, the first air blowing pipe, the first vacuum generator and the first air blowing pipe are connected to the first air blowing pipe quick-change connector 73 to be controlled by the first electromagnetic valve, the screws are blown in from the first through hole of the first material receiving and nail blowing seat 51 and are conveyed to the corresponding electric batch nailing mechanism to be subjected to material through the first air blowing pipe 52, and then the first pneumatic sliding table 83 retracts to lift the first suction nozzle 71, so that the feeding of the left screws and the taking action of the right screws are completed.

Of course, in other embodiments, the simultaneous screw transmission and supply of the screw driving mechanism for the double electric batch screw driving mechanism may also be realized by one screw vibration feeding mechanism (the vibration disk 2, the transmission track 3, and the flat vibrator 4), which will not be described in detail.

The embodiment of the utility model provides an electric batch nailing device is still provided, including first electric batch nailing mechanism and second electric batch nailing mechanism, still include with any one of the above-mentioned embodiment blow nail formula screw conveyer, first electric batch nailing mechanism with first receiving mechanism 5 is connected, second electric batch nailing mechanism with second receiving mechanism 6 is connected.

It should be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention and the technical principles thereof. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, these modifications are within the scope of the present invention as long as they do not depart from the spirit of the present invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (9)

1. a blow-molded screw delivery apparatus, comprising:

Mounting a bottom plate;

The vibration plate is arranged on the mounting bottom plate, the transmission rail and the flat vibration device fixed below the transmission rail are arranged on the mounting bottom plate, and one end of the transmission rail is connected with a discharge hole of the vibration plate;

The first material receiving mechanism and the second material receiving mechanism are arranged on the mounting bottom plate and are arranged on two sides of the transmission track at intervals;

The blowing mechanism comprises a first suction nozzle, a first control mechanism for controlling the first suction nozzle to suck or blow and release the screw, a second suction nozzle and a second control mechanism for controlling the second suction nozzle to suck or blow and release the screw;

And the driving mechanism is arranged on the mounting bottom plate and used for driving the first suction nozzle to move to the transmission track or the first material receiving mechanism and driving the second suction nozzle to move to the transmission track or the second material receiving mechanism.

2. The screw conveying device according to claim 1, wherein when the driving mechanism drives the first suction nozzle to move to the first receiving mechanism and the second suction nozzle to move to the conveying track simultaneously, the first control mechanism controls the first suction nozzle to blow screws sucked by the first suction nozzle into the first receiving mechanism, and the second control mechanism controls the second suction nozzle to suck screws on the conveying track;

when the driving mechanism simultaneously drives the first suction nozzle to move to the transmission track and the second suction nozzle to move to the second material receiving mechanism, the first control mechanism can control the first suction nozzle to suck the screws on the transmission track, and the second control mechanism can control the second suction nozzle to blow the screws sucked by the second suction nozzle into the second material receiving mechanism.

3. The blow pin screw conveyer of claim 2, characterized in that the actuating mechanism includes a rodless cylinder mounted on the mounting base plate via a mounting base, a first pneumatic slide table and a second pneumatic slide table connected with a slider of the rodless cylinder via a mounting plate, the rodless cylinder can drive the first pneumatic slide table and the second pneumatic slide table to move transversely, the first pneumatic slide table is connected with the first suction nozzle to drive the first suction nozzle to move up and down, and the second pneumatic slide table is connected with the second suction nozzle to drive the second suction nozzle to move up and down.

4. The screw blow-molding screw conveying device according to claim 3, wherein the first receiving mechanism and the second receiving mechanism are symmetrical with respect to the conveying rail, and a horizontal distance between the first receiving mechanism and the conveying rail is equal to a horizontal distance between the first pneumatic sliding table and the second pneumatic sliding table.

5. the blow pin screw delivery device according to claim 2, further comprising a controller, wherein the first control mechanism comprises a first blow pipe connected to the first suction nozzle, a first vacuum generator and a first gas source respectively connected to the first blow pipe, and a first solenoid valve for controlling the first blow pipe to communicate with the first vacuum generator or the first gas source; the second control mechanism comprises a second air blowing pipe connected with the second suction nozzle, a second vacuum generator and a second air source which are respectively connected with the second air blowing pipe, and a second electromagnetic valve used for controlling the communication between the second air blowing pipe and the second vacuum generator or the second air source; the controller is electrically connected with the first electromagnetic valve and the second electromagnetic valve respectively.

6. The blow-molded screw delivery device of claim 2, further comprising a controller, wherein the first control mechanism and the second control mechanism are the same control mechanism, the control mechanism comprises a first air blowing pipe connected with the first suction nozzle, a second air blowing pipe connected with the second suction nozzle, a vacuum generator and an air source, one end of the first air blowing pipe far away from the first suction nozzle and one end of the second air blowing pipe far away from the second suction nozzle are connected with the vacuum generator and the air source through the same electromagnetic valve, the controller is connected with the electromagnetic valve, the electromagnetic valve has a first working state and a second working state, when the controller controls the electromagnetic valve to be in a first working state, the first air blowing pipe is communicated with the air source, and the second air blowing pipe is communicated with the vacuum generator; when the controller controls the electromagnetic valve to be in a second working state, the first air blowing pipe is communicated with the vacuum generator, and the second air blowing pipe is communicated with the air source.

7. the screw-blow bolt transfer device of claim 5 or 6, wherein the first insufflation tube communicates with the first suction nozzle through a first air tube quick-change connector, and the second insufflation tube communicates with the second suction nozzle through a second air tube quick-change connector.

8. The screw blowing-type screw conveying device according to claim 1, wherein the first material receiving mechanism comprises a first material receiving and blowing seat and a first screw suction pipe, the first material receiving and blowing seat and the first screw suction pipe are mounted on the mounting base plate, a first through hole for a screw to pass through is formed in a first upper end plate of the first material receiving and blowing seat, and the first screw suction pipe is located below the first upper end plate and connected with the first through hole; the second receiving mechanism comprises a second receiving material blowing seat and a second nail sucking pipe, the second receiving material blowing seat is arranged on the mounting base plate, a second through hole for a screw to pass through is formed in a second upper end plate of the second receiving material blowing seat, and the second nail sucking pipe is located below the second upper end plate and connected with the second through hole.

9. An electric batch nailing device, comprising a first electric batch nailing mechanism and a second electric batch nailing mechanism, characterized in that, it also comprises the nail-blowing type screw conveying device of any one of claims 1 to 8, the first electric batch nailing mechanism is connected with the first receiving mechanism, the second electric batch nailing mechanism is connected with the second receiving mechanism.