CN220670342U - Device for accommodating bullet cutting and lead punching machine - Google Patents

Abstract

The embodiment of the application discloses a device for accommodating a bullet cutting and lead punching machine, a shell is provided with an accommodating cavity; the accommodating cavity is used for accommodating the bullet cutting and lead punching machine; the housing includes: a bottom wall; a first top wall and a second top wall having different heights from the bottom wall; a rear wall; a first front wall and a second front wall having different widths from the rear wall; a first side wall connected to the first front wall, the first top wall, the bottom wall, and the rear wall, respectively; the second side wall is respectively connected with the second front wall, the second top wall, the bottom wall and the rear wall; a third side wall connected to the first front wall, the second front wall, the first top wall, the second top wall, the bottom wall, and the rear wall, respectively; the feeding port is arranged on the second side wall; the alarm assembly is arranged on the first top wall; the control panel is arranged on the third side wall; the processor is respectively and electrically connected with the control panel and the alarm component; the control panel is also used for controlling the control panel to display the working parameters of the bullet cutting and lead punching machine, and controlling the alarm assembly to alarm when the working parameters of the bullet cutting and lead punching machine exceed set values.

Description

Device for accommodating bullet cutting and lead punching machine

Technical Field

The application relates to the technical field of accommodating devices, in particular to a device for accommodating a bullet cutting and lead punching machine.

Background

The bullet cutting and lead punching machine is used for processing the bullet. However, in the related art, the bullet cutting and lead punching machine is an open type device, and the noise generated during the use process is relatively loud.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a bullet cutting and lead stamping machine.

In order to achieve the above purpose, the technical scheme of the application is realized as follows:

the embodiment of the application provides a bullet cuts towards plumbous machine, includes:

a housing having a receiving cavity; the accommodating cavity is used for accommodating a bullet cutting and lead punching machine;

the housing includes:

a bottom wall;

a first top wall and a second top wall having different heights from the bottom wall; a distance between the first top wall and the bottom wall is greater than a distance between the second top wall and the bottom wall;

a rear wall;

a first front wall and a second front wall having different widths from the rear wall; a distance between the first front wall and the rear wall is greater than a distance between the second front wall and the rear wall;

a first side wall connected to the first front wall, the first top wall, the bottom wall, and the rear wall, respectively;

a second side wall connected to the second front wall, the second top wall, the bottom wall, and the rear wall, respectively;

a third side wall connected to the first front wall, the second front wall, the first top wall, the second top wall, the bottom wall, and the rear wall, respectively;

the feed port is arranged on the second side wall;

the alarm assembly is arranged on the first top wall;

the control panel is arranged on the third side wall and is positioned close to the first top wall side;

the processor is respectively and electrically connected with the control panel and the alarm assembly; the processor is used for being electrically connected with the bullet cutting and lead punching machine, controlling the control panel to display working parameters of the bullet cutting and lead punching machine, and controlling the alarm assembly to alarm when the working parameters of the bullet cutting and lead punching machine exceed set values.

In some alternative implementations, the method further includes:

the function key set is arranged on the third side wall; the function key set is used for being electrically connected with each switch of the bullet cutting and lead punching machine;

the function key set is positioned on one side of the control panel away from the first top wall.

In some alternative implementations, the method further includes:

a first opening provided in the first front wall;

the first observation door is rotatably arranged at the first opening and used for shielding the first opening;

a second opening provided in the second front wall;

the second observation door is rotatably arranged at the second opening and used for shielding the second opening.

In some alternative implementations, the first viewing gate includes:

the first frame body is rotatably arranged at the first opening; the first frame body is provided with a first observation port;

the first glass window is arranged at the first observation port;

the second viewing door includes:

the second frame body is rotatably arranged at the second opening; the second frame body is provided with a second observation port;

and the second glass window is arranged at the second observation port.

In some alternative implementations, the method further includes:

a first seal disposed between the first viewing door and the first front wall;

and a second seal disposed between the second viewing door and the second front wall.

In some alternative implementations, the method further includes:

a third opening arranged on the rear wall and corresponding to the position of the second top wall;

the third observation door is rotatably arranged at the third opening; the third observation door is used for shielding the third opening;

a fourth opening provided in the second top wall;

the fourth observation door is rotatably arranged at the fourth opening; the fourth viewing door is configured to block the fourth opening.

In some alternative implementations, the method further includes:

a fifth opening provided in the second sidewall;

the maintenance door is rotatably arranged at the fifth opening; the maintenance door is used for shielding the fifth opening.

In some alternative implementations, the housing includes a bottom wall and a cover;

the first top wall, the second top wall, the first front wall, the second front wall, the rear wall, the first side wall, the second side wall, and the third side wall form the enclosure.

In some alternative implementations, the method further includes:

an oil storage tank provided on the bottom wall; the oil storage tank is used for storing lubricating oil;

the oil injection pipe is arranged in the accommodating cavity; the first port of the oil injection pipe is communicated with the oil storage tank, and the second port of the oil injection pipe is suspended in the accommodating cavity and corresponds to the lubricating point of the bullet cutting and lead punching machine;

the oil pump is arranged in the accommodating cavity; the oil pump is used for driving lubricating oil in the oil storage tank to flow to the lubricating point through the oil filling pipe.

In some alternative implementations, the method further includes:

a heat radiation port arranged on the rear wall;

and the discharging hole is arranged on the rear wall and corresponds to the position of the second top wall.

An apparatus for accommodating a bullet cutting and lead punching machine in an embodiment of the present application includes: a housing having a receiving cavity; the accommodating cavity is used for accommodating a bullet cutting and lead punching machine; the housing includes: a bottom wall; a first top wall and a second top wall having different heights from the bottom wall; a distance between the first top wall and the bottom wall is greater than a distance between the second top wall and the bottom wall; a rear wall; a first front wall and a second front wall having different widths from the rear wall; a distance between the first front wall and the rear wall is greater than a distance between the second front wall and the rear wall; a first side wall connected to the first front wall, the first top wall, the bottom wall, and the rear wall, respectively; a second side wall connected to the second front wall, the second top wall, the bottom wall, and the rear wall, respectively; a third side wall connected to the first front wall, the second front wall, the first top wall, the second top wall, the bottom wall, and the rear wall, respectively; the feed port is arranged on the second side wall; the alarm assembly is arranged on the first top wall; the control panel is arranged on the third side wall and is positioned close to the first top wall side; the processor is respectively and electrically connected with the control panel and the alarm assembly; the processor is electrically connected with the bullet cutting and lead punching machine, is also used for controlling the control panel to display the working parameters of the bullet cutting and lead punching machine, and is also used for controlling the alarm assembly to alarm when the working parameters of the bullet cutting and lead punching machine exceed a set value; the shell covered outside the bullet cutting and lead punching machine can reduce the noise generated in the use process of the bullet cutting and lead punching machine.

Drawings

FIG. 1 is a schematic view of an alternative construction of an apparatus for housing a bullet cut lead punch in accordance with an embodiment of the present application;

FIG. 2 is a side view of FIG. 1;

fig. 3 is a top view of fig. 1.

Reference numerals: 100. a housing; 101. a bottom wall; 1021. a first front wall; 1022. a second front wall; 103. a rear wall; 111. a first sidewall; 112. a second sidewall; 113. a third sidewall; 121. a first top wall; 122. a second top wall; 131. a first opening; 132. a second opening; 134. a fourth opening; 135. a fifth opening; 141. a first viewing door; 1411. a first frame; 1412. a first glazing; 142. a second viewing door; 1421. a second frame; 1422. a second glazing; 144. a fourth viewing door; 1441. a fourth frame; 1442. a fourth glazing; 145. maintaining the door; 200. a feed inlet; 300. an alarm assembly; 400. a control panel; 500. a function key group; 600. and a discharge port.

Detailed Description

The technical scheme of the application is further elaborated below with reference to the drawings in the specification and the specific embodiments.

In the description of the embodiments of the present application, unless otherwise indicated and defined, the term "connected" should be construed broadly, and for example, may be an electrical connection, may be a communication between two elements, may be a direct connection, or may be an indirect connection via an intermediary, and it will be understood by those skilled in the art that the specific meaning of the term may be understood according to the specific circumstances.

It should be noted that, the term "first\second\third" in the embodiments of the present application is merely to distinguish similar objects, and does not represent a specific order for the objects, it is to be understood that "first\second\third" may interchange a specific order or sequence where allowed. It is to be understood that the "first\second\third" distinguishing objects may be interchanged where appropriate such that the embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

The following describes in detail the apparatus for housing a bullet cutting and punching machine according to the embodiment of the present application with reference to fig. 1 to 3.

As shown in fig. 1, the device for accommodating a bullet cutting and lead punching machine comprises: the device comprises a shell 100, a feed inlet 200, an alarm assembly 300, a control panel 400 and a processor. A housing 100 having a receiving chamber; the accommodating cavity is used for accommodating the bullet cutting and lead punching machine; the housing 100 includes: the bottom wall 101, the first and second top walls 121 and 122 having different heights from the bottom wall 101, the rear wall 103, the first and second front walls 1021 and 1022 having different widths from the rear wall 103, the first side wall 111, the second side wall 112, and the third side wall 113. The distance between the first top wall 121 and the bottom wall 101 is greater than the distance between the second top wall 122 and the bottom wall 101; the distance between the first front wall 1021 and the rear wall 103 is greater than the distance between the second front wall 1022 and the rear wall 103; the first side wall 111 is connected to the first front wall 1021, the first top wall 121, the bottom wall 101 and the rear wall 103, respectively; the second side wall 112 is connected to the second front wall 1022, the second top wall 122, the bottom wall 101, and the rear wall 103, respectively; the third side wall 113 is connected to the first front wall 1021, the second front wall 1022, the first top wall 121, the second top wall 122, the bottom wall 101, and the rear wall 103, respectively; the feeding hole 200 is arranged on the second side wall 112; the alarm assembly 300 is arranged on the first top wall 121, the control panel 400 is arranged on the third side wall 113, and the control panel 400 is positioned on the side close to the first top wall 121; the processor is electrically connected with the control panel 400 and the alarm assembly 300 respectively; the processor is electrically connected with the bullet cutting and lead punching machine, and is further used for controlling the control panel 400 to display the working parameters of the bullet cutting and lead punching machine, and is further used for controlling the alarm assembly 300 to alarm when the working parameters of the bullet cutting and lead punching machine exceed the set values.

In the embodiment of the application, the shell 100 is provided with the accommodating cavity, the accommodating cavity can accommodate the bullet cutting and lead punching machine, and noise generated by the bullet cutting and lead punching machine in the using process can be reduced through the shell 100 covered outside the bullet cutting and lead punching machine; at the same time, the housing 100 can also prevent flying chip injuries and reduce potential safety hazards.

In the present embodiment, an alarm assembly 300 is provided on the first top wall 121 to alarm the bullet cutting and lead punching machine.

The structure of the alarm assembly 300 is not limited. For example, the alarm assembly 300 may be an alarm lamp or an alarm bell.

The structure of the control panel 400 is not limited. For example, the control panel 400 may be a touch display screen.

The location of the processor is not limited. For example, the processor may be provided inside the housing 100 or may be provided outside the housing 100.

The processor may be electrically connected to the control panel 400 and the alarm assembly 300, respectively, by wired or wireless means.

The processor can also be electrically connected with the bullet cutting and lead punching machine, and the processor is also used for controlling the control panel 400 to display the working parameters of the bullet cutting and lead punching machine; for example, the processor may control the control panel 400 to display the power, rotational speed, etc. of the motor of the bullet cutting and lead punching machine.

The processor is also used for controlling the alarm assembly 300 to alarm when the working parameters of the bullet cutting and lead punching machine exceed set values. For example, when the power, the rotation speed, etc. of the motor of the bullet cutting and lead punching machine are abnormal, the processor controls the alarm assembly 300 to alarm so as to prompt an operator to watch.

In the embodiment of the present application, the device for accommodating the bullet cutting and lead punching machine may further include a function key set 500, where the function key set 500 is disposed on the third side wall 113; the function key set 500 is used for electrically connecting with each switch of the bullet cutting and lead punching machine, and the function key set 500 is positioned at one side of the control panel 400 away from the first top wall 121; because the function key set 500 is used for being electrically connected with each switch of the bullet cutting and lead punching machine, each switch of the bullet cutting and lead punching machine can be operated through the function key set 500 outside the shell 100, and each switch does not need to be operated at each position of the bullet cutting and lead punching machine, so that the operation is convenient.

Since the function key set 500 is located at a side of the control panel 400 away from the first top wall 121, an operator can view the control panel 400 and operate the function key set 500 at the same position, and the use is convenient.

The function key set 500 may be electrically connected to the switches of the bullet cutting and lead punching machine through cables.

In some optional implementations of embodiments of the present application, the means for housing the bullet cut lead punch may further comprise: a heat sink (not shown) and a discharge port 600.

The heat dissipation port is provided in the rear wall 103 so as to dissipate heat for the gun bullet cutting and lead punching machine.

The discharge hole 600 is disposed on the rear wall 103, and the discharge hole 600 corresponds to the position of the second top wall 122.

In some alternative embodiments of the present application, the means for receiving the bullet cut lead punch may further comprise a first opening 131, a first viewing door 141, a second opening 132, and a second viewing door 142. The first opening 131 is disposed on the first front wall 1021; the first observation door 141 is rotatably disposed at the first opening 131, and the first observation door 141 is used for shielding the first opening 131; the second opening 132 is disposed on the second front wall 1022; the second viewing door 142 is rotatably disposed at the second opening 132, and the second viewing door 142 is used for shielding the second opening 132.

In this implementation manner, the first observation door 141 can be rotatably disposed at the first opening 131 through the rotating shaft structure, so that the first observation door 141 can shield the first opening 131 through rotating the first observation door 141, and the first opening 131 can be exposed, so that a user can observe the working condition of the bullet cutting and lead punching machine in the accommodating cavity or repair the bullet cutting and lead punching machine through the first opening 131.

The first viewing door 141 may include a first frame 1411 and a first glass window 1412. The first frame 1411 may be rotatably disposed at the first opening 131 through a rotation shaft structure; the first housing 1411 may have a first viewing port; the first glass window 1412 can be arranged at the first observation port in a clamping or bonding way, so that the working condition of the bullet cutting lead flushing machine in the accommodating cavity can be observed through the first glass window 1412 under the condition that the first observation door 141 is not opened.

The second observation door 142 can be rotatably arranged at the second opening 132 through the rotating shaft structure, so that the second observation door 142 can cover the second opening 132 through rotating the second observation door 142, the second opening 132 can be exposed, and a user can observe the working condition of the bullet cutting and lead punching machine in the accommodating cavity or the bullet cutting and lead punching machine for repairing the bullet through the second opening 132 conveniently.

The second viewing door 142 may include a second housing 1421 and a second glazing 1422. The second frame 1421 may be rotatably disposed at the second opening 132 by a rotating shaft structure; the second housing 1421 may have a second viewing port; the second glass window 1422 may be disposed at the second observation port by means of a fastening or bonding manner, so that the working condition of the bullet cutting and lead punching machine in the accommodating cavity can be observed through the second glass window 1422 without opening the second observation door 142.

In this implementation, the device for accommodating the bullet cutting and lead stamping machine may further include a first sealing member and a second sealing member, the first sealing member being disposed between the first viewing door 141 and the first front wall 1021, so as to improve the sealing property between the first viewing door 141 and the first front wall 1021 by the first sealing member, and reduce noise of the bullet cutting and lead stamping machine; a second seal is disposed between the second viewing door 142 and the second front wall 1022 to improve the sealing between the second viewing door 142 and the second front wall 1022 by the second seal to reduce the noise of the bullet cut lead punch.

The structure of the first seal is not limited. For example, the first seal may be a rubber strip.

The structure of the second seal is not limited. For example, the second seal may be a rubber strip.

As shown in fig. 2 and 3, in some alternative implementations of embodiments of the present application, the apparatus for housing a bullet cut lead punch may further include: a third opening, a third viewing door, a fourth opening 134, and a fourth viewing door 144. A third opening is provided in the rear wall 103, the third opening corresponding to the position of the second top wall 122; the third observation door is rotatably arranged at the third opening; the third observation door is used for shielding the third opening; the fourth opening 134 is disposed on the second top wall 122; the fourth viewing door 144 is rotatably disposed at the fourth opening 134; the fourth viewing door 144 is for blocking the fourth opening 134.

In this implementation mode, the third observation door can rotationally set up in third opening part through the pivot structure to can make the third observation door shelter from the third opening through rotating the third observation door, also can make the third opening expose, the user of facilitating the use is through the third opening observation holding the work condition of the bullet cutting towards plumb machine or maintenance bullet cutting towards plumb machine in the chamber.

The third viewing door may include a third frame and a third glazing. The third frame body can be rotatably arranged at the third opening through a rotating shaft structure; the third housing may have a third viewing port; the third glass window can be arranged at the third observation port in a clamping or bonding mode, so that the working condition of the gun bullet cutting lead punching machine in the accommodating cavity can be observed through the third glass window under the condition that the third observation door is not opened.

In this implementation manner, the fourth observation door 144 may be rotatably disposed at the fourth opening 134 through the rotation shaft structure, so that the fourth observation door 144 can cover the fourth opening 134 by rotating the fourth observation door 144, and the fourth opening 134 can be exposed, so that a user can observe the working condition of the bullet cutting and lead punching machine in the accommodating cavity or repair the bullet cutting and lead punching machine through the fourth opening 134.

The fourth viewing door 144 may include a fourth housing 1441 and a fourth glass window 1442. The fourth frame 1441 may be rotatably disposed at the fourth opening 134 through a rotating shaft structure; the fourth housing 1441 may have a fourth viewing port; the fourth glass window 1442 may be disposed at the fourth observation port by means of fastening or bonding, so that the working condition of the bullet cutting and lead punching machine in the accommodating cavity can be observed through the fourth glass window 1442 without opening the fourth observation door 144.

In some optional implementations of embodiments of the present application, the means for housing the bullet cut lead punch may further comprise: a fifth opening 135 and a maintenance door 145. The fifth opening 135 is disposed on the second sidewall 112; the maintenance door 145 is rotatably provided at the fifth opening 135; the maintenance door 145 serves to block the fifth opening 135.

In this embodiment, as shown in fig. 2, the maintenance door 145 may be rotatably disposed at the fifth opening 135 through a rotating shaft structure, so that the maintenance door 145 can cover the fifth opening 135 by rotating the maintenance door 145, and the fifth opening 135 can be exposed, so that a user can maintain the bullet shell measuring apparatus in the accommodating cavity through the fifth opening 135 conveniently.

In some alternative implementations of embodiments of the present application, the housing 100 includes a bottom wall 101 and a cover; the first top wall 121, the second top wall 122, the first front wall 1021, the second front wall 1022, the rear wall 103, the first side wall 111, the second side wall 112, and the third side wall 113 form a housing. Defining a receiving cavity between the bottom wall 101 and the casing; so that in the installation process, the bullet cutting and lead punching machine is placed on the bottom wall 101, and then the housing is covered on the outer side of the bullet cutting and lead punching machine.

The bottom wall 101 and the cover may be connected by welding, bolts, or the like.

The wall bodies can be connected by welding, bolts and the like.

Viewing or servicing of the different positions of the bullet cut lead punch is facilitated by the provision of viewing doors at the different positions of the housing 100.

In some optional implementations of embodiments of the present application, the means for housing the bullet cut lead punch may further comprise: oil storage tank, filler pipe and oil pump. The oil reservoir may be provided in the bottom wall 101; the oil storage tank is used for storing lubricating oil; the filler pipe can be arranged in the accommodating cavity; the first port of the oil injection pipe is communicated with the oil storage tank, and the second port of the oil injection pipe is suspended in the accommodating cavity and corresponds to the position of a lubrication point of the bullet cutting and lead punching machine; the oil pump can be arranged in the accommodating cavity; the oil pump is used for driving lubricating oil in the oil storage tank to flow to a lubricating point through the oil injection pipe; therefore, the oil pump can drive the lubricating oil in the oil storage tank to flow to the lubricating point through the oil injection pipe, and the automatic lubrication of the lubricating point of the bullet cutting and lead punching machine is realized.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An apparatus for receiving a bullet cutting and punching machine, comprising:

a housing having a receiving cavity; the accommodating cavity is used for accommodating a bullet cutting and lead punching machine;

the housing includes:

a bottom wall;

a first top wall and a second top wall having different heights from the bottom wall; a distance between the first top wall and the bottom wall is greater than a distance between the second top wall and the bottom wall;

a rear wall;

a first front wall and a second front wall having different widths from the rear wall; a distance between the first front wall and the rear wall is greater than a distance between the second front wall and the rear wall;

a first side wall connected to the first front wall, the first top wall, the bottom wall, and the rear wall, respectively;

a second side wall connected to the second front wall, the second top wall, the bottom wall, and the rear wall, respectively;

a third side wall connected to the first front wall, the second front wall, the first top wall, the second top wall, the bottom wall, and the rear wall, respectively;

the feed port is arranged on the second side wall;

the alarm assembly is arranged on the first top wall;

the control panel is arranged on the third side wall and is positioned close to the first top wall side;

the processor is respectively and electrically connected with the control panel and the alarm assembly; the processor is used for being electrically connected with the bullet cutting and lead punching machine, controlling the control panel to display working parameters of the bullet cutting and lead punching machine, and controlling the alarm assembly to alarm when the working parameters of the bullet cutting and lead punching machine exceed set values.

2. The apparatus for housing a bullet cut lead punch of claim 1 further comprising:

the function key set is arranged on the third side wall; the function key set is used for being electrically connected with each switch of the bullet cutting and lead punching machine;

the function key set is positioned on one side of the control panel away from the first top wall.

3. The apparatus for housing a bullet cut lead punch of claim 1 further comprising:

a first opening provided in the first front wall;

the first observation door is rotatably arranged at the first opening and used for shielding the first opening;

a second opening provided in the second front wall;

the second observation door is rotatably arranged at the second opening and used for shielding the second opening.

4. A device for housing a bullet cut lead punch as in claim 3, wherein the first viewing door comprises:

the first frame body is rotatably arranged at the first opening; the first frame body is provided with a first observation port;

the first glass window is arranged at the first observation port;

the second viewing door includes:

the second frame body is rotatably arranged at the second opening; the second frame body is provided with a second observation port;

and the second glass window is arranged at the second observation port.

5. The apparatus for housing a bullet cut lead punch of claim 3 further comprising:

a first seal disposed between the first viewing door and the first front wall;

and a second seal disposed between the second viewing door and the second front wall.

6. The apparatus for housing a bullet cut lead punch of claim 1 further comprising:

a third opening arranged on the rear wall and corresponding to the position of the second top wall;

the third observation door is rotatably arranged at the third opening; the third observation door is used for shielding the third opening;

a fourth opening provided in the second top wall;

the fourth observation door is rotatably arranged at the fourth opening; the fourth viewing door is configured to block the fourth opening.

7. The apparatus for housing a bullet cut lead punch of claim 1 further comprising:

a fifth opening provided in the second sidewall;

the maintenance door is rotatably arranged at the fifth opening; the maintenance door is used for shielding the fifth opening.

8. The apparatus for accommodating a bullet cut lead punch of claim 1 wherein the housing comprises a bottom wall and a cover;

the first top wall, the second top wall, the first front wall, the second front wall, the rear wall, the first side wall, the second side wall, and the third side wall form the enclosure.

9. The apparatus for housing a bullet cut lead punch of claim 1 further comprising:

an oil storage tank provided on the bottom wall; the oil storage tank is used for storing lubricating oil;

the oil injection pipe is arranged in the accommodating cavity; the first port of the oil injection pipe is communicated with the oil storage tank, and the second port of the oil injection pipe is suspended in the accommodating cavity and corresponds to the lubricating point of the bullet cutting and lead punching machine;

the oil pump is arranged in the accommodating cavity; the oil pump is used for driving lubricating oil in the oil storage tank to flow to the lubricating point through the oil filling pipe.

10. The apparatus for housing a bullet cutting and punching machine according to any one of claims 1 to 9, further comprising:

a heat radiation port arranged on the rear wall;

and the discharging hole is arranged on the rear wall and corresponds to the position of the second top wall.