CN220771781U - Firing element bakery - Google Patents

Abstract

The application relates to a firing element curing barn, comprising a curing room and a conveying line arranged in the curing room and used for continuously conveying the firing element, wherein the curing room is provided with an inlet and an outlet, the front end of the conveying line passes through the inlet and the rear end of the conveying line passes through the outlet; the conveying line comprises a plurality of conveying sections, at least one translation section and at least one lifting section, wherein a plurality of conveying sections are used for continuously conveying the ignition elements, the translation section is used for connecting the conveying between two conveying sections which are parallel on the same horizontal plane, and the lifting section is used for connecting the conveying between two conveying sections with different heights on the same vertical plane.

Description

Firing element bakery

Technical Field

The application belongs to the technical field of ignition elements, and relates to an ignition element baking room.

Background

The electronic detonator generates spark to ignite the igniting powder in the tube through the igniting element, and the igniting element comprises a circuit board and an electronic element, so that the igniting powder contacts moisture in the production process, and the igniting powder needs to be baked to volatilize and dry before being stored, otherwise, the igniting powder can lose efficacy.

In the prior art, when the ignition element is manually sent into a baking room for baking, heat in the baking room is generally directly blown from one direction to the other direction, the heat cannot be unevenly distributed in the baking room, the ignition element is baked in the heat transfer process, the baking speeds of the ignition elements at different positions are different, the baking process needs manual feeding and discharging operation, the production efficiency is low, the requirement of automatic production cannot be met, and a baking room for continuously conveying the ignition element at medium temperature for baking is needed.

Disclosure of Invention

In order to overcome the problems in the related art, the application aims to provide a firing element baking room which can automatically convey the firing element and realize continuous automatic baking of the firing element.

The application is realized by the following technical scheme.

The technical scheme is that the firing element curing barn comprises a curing room and a conveying line, wherein the conveying line is arranged in the curing room and is used for continuously conveying the firing element, the curing room is provided with an inlet and an outlet, the front end of the conveying line passes through the inlet, and the rear end of the conveying line passes through the outlet;

the conveying line comprises a plurality of conveying sections, at least one translation section and at least one lifting section, wherein a plurality of conveying sections are used for continuously conveying the ignition elements, the translation section is used for connecting the conveying between two conveying sections which are parallel on the same horizontal plane, and the lifting section is used for connecting the conveying between two conveying sections with different heights on the same vertical plane.

The technical effect of the technical scheme is that the transport section is used for transporting the ignition element to move in the baking room, the length and the speed of the transport section determine the residence time of the ignition element in the baking room, and the transport line can be connected with an automatic production line of the electronic detonator to realize automatic production; the transfer section length is increased by transferring the transfer sections between the two parallel transfer sections, the lifting section is further increased, the transfer sections of multiple layers can be increased, the transfer section length is further increased, and the transfer line is easy to be laid out in a baking room.

In one embodiment of the present disclosure, the conveying section includes a first support, a plurality of first rollers disposed on the first support, and a first driving member disposed on the first support, each of the first rollers is connected to a first driving wheel, the first driving wheels are connected to each other by a first driving belt, and the first driving member is connected to at least one of the first driving wheels by a first driving belt.

In one embodiment of the present disclosure, the first driving wheel is a gear, and the first driving belt is a chain.

In one embodiment of the present disclosure, the lifting section includes a second support, a second driving member vertically disposed on the second support, a lifting support disposed on the second support, and a first conveyor belt assembly disposed on the lifting support, where the second driving member is configured to drive the lifting support to perform lifting motion, and the first conveyor belt assembly is configured to bear and convey the ignition element.

In one embodiment of the present disclosure, the first conveyor belt assembly includes a first base disposed on the lifting support, a second roller disposed on the first base and rotating, a first conveyor belt disposed on the second roller in a sleeved manner, and a first motor disposed on the first base, where the first motor is configured to drive the second roller to rotate so as to drive the first conveyor belt.

In one embodiment of the present disclosure, the first conveyor belt assembly further includes a plurality of first barrier strips, where the first barrier strips are disposed on the first base, and enclose two sides and one end of the first conveyor belt, and the other end of the first conveyor belt is used for the entry and exit of the ignition element.

In one embodiment of the present disclosure, the translation section includes a third support, a sliding rail component disposed on the third support, a second conveyor belt assembly disposed on the sliding rail component and moving on the third support, and a third driving member disposed on the third support, where the third driving member is configured to drive the second conveyor belt assembly to move, and the second conveyor belt assembly is configured to bear and convey the ignition element.

In one embodiment of the present disclosure, the second conveyor belt assembly includes a second base disposed on the sliding rail component, a third roller disposed on the second base and rotating, a second conveyor belt sleeved on the third roller, and a second motor disposed on the second base, where the second motor is used to drive the third roller to rotate so as to drive the second conveyor belt.

In one embodiment of the present disclosure, the second conveyor belt assembly further includes a plurality of second barrier strips, the second barrier strips are disposed on the second base and enclose both sides and one end of the second conveyor belt, and the other end of the second conveyor belt is used for the entry and exit of the ignition element.

In one embodiment of the present disclosure, the conveying line further includes at least one corner section, where the corner section is disposed at an end of one conveying section, and the corner section is used for connecting the conveying between two conveying sections that are perpendicular to each other on the same horizontal plane;

the corner section comprises a fourth support, a fourth driving piece arranged on the fourth support, a supporting plate arranged on the fourth support and capable of ascending and descending, and a third conveying belt assembly arranged on the supporting plate, wherein the third conveying belt assembly is arranged between the two first rollers, and the conveying direction of the third conveying belt assembly is perpendicular to the conveying direction of the conveying section.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic top view of a conveyor line according to an embodiment of the present application.

Fig. 2 is a schematic perspective view of a conveyor line according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a conveying section shown in an embodiment of the present application.

Fig. 4 is a schematic structural view of a lifting section shown in an embodiment of the present application.

Fig. 5 is an exploded view of a first conveyor belt assembly shown in an embodiment of the present application.

Fig. 6 is a schematic structural view of a translation stage shown in an embodiment of the present application.

Fig. 7 is an exploded view of a second conveyor belt assembly shown in an embodiment of the present application.

Fig. 8 is a schematic view of a mounting structure of a corner section and a conveying section according to an embodiment of the present application.

Figure 9 is a schematic view of the structure of the corner segment shown in an embodiment of the present application,

reference numerals illustrate:

10-a conveying section; 11 a first bracket; 12-a first roller; 13-a first driving member; 14-a first driving wheel; 15-a first drive belt;

20-lifting section; 21-a second bracket; 22-a second driving member; 23-lifting support; 24-a first conveyor belt assembly; 241-a first base; 242-second roller; 243-a first conveyor belt; 244-a first motor; 245-a first barrier;

30-translating the segment; 31-a third bracket; 32-a slide rail member; 33-a second conveyor belt assembly; 331-a second base; 332-a third roller; 333-a second conveyor belt; 334-a second motor; 34-a third drive member; 335-a second barrier;

40-corner section; 41-fourth rack; 42-fourth drive; 43-a support plate; 44-a third conveyor belt assembly; 50-carrier.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which some embodiments of the present application are shown, and it is apparent that some, but not all embodiments of the present application are described. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The following describes the technical scheme of the embodiments of the present application in detail with reference to the accompanying drawings.

As shown in fig. 1 to 9, the present embodiment is a firing element curing barn including a curing room provided with an inlet and an outlet, and a conveyor line provided in the curing room for continuously conveying the firing element, the front end of the conveyor line passing through the inlet and the rear end thereof passing through the outlet; wherein the baking room is not shown in the figures, which is prior art in the art and will not be described in detail here.

The conveying line comprises a plurality of conveying sections 10, at least one translation section 30, at least one lifting section 20 and at least one corner section 40, wherein the plurality of conveying sections 10 are used for continuously conveying the igniting elements, the translation section 30 is used for connecting the conveying between two conveying sections 10 which are parallel on the same horizontal plane, the lifting section 20 is used for connecting the conveying between two conveying sections 10 which are at different heights on the same vertical plane, the corner section 40 is arranged at the head end or the tail end of one conveying section 10, and the corner section 40 is used for connecting the conveying between two conveying sections 10 which are perpendicular on the same horizontal plane.

In this way, the transport section 10 is used for transporting the ignition element to move in the baking room, the length and the speed of the transport section 10 determine the residence time of the ignition element in the baking room, and the transport line can be connected with an automatic production line of the electronic detonator, so that automatic production is realized; the transfer section 10 length is increased by moving the parallel two transfer sections 10 through the translation section 30, the lifting section 20 is further increased, the multi-layer transfer sections 10 can be increased, the transfer section 10 length is further increased, and the transfer line is easy to be laid out in a baking room.

It should be noted that, the length of each conveying section 10 may be selected according to actual requirements, the head end of the first conveying section 10 passes through the inlet to receive the igniting element, the tail end of the first conveying section is connected with the next conveying section 10 in a conveying manner through the translation section 30, the corner section 40 or the lifting section 20, and the tail end of the last conveying section 10 passes through the outlet to output the baked igniting element.

In this embodiment, in order to facilitate the transportation of the ignition elements, the ignition elements are mounted in a carrier 50 for baking, a plurality of ignition elements are mounted in a carrier 50, the transportation line transports the carrier 50 with the ignition elements to move in a baking room for continuous moving baking, and no ignition element is shown in the carrier 50.

In this embodiment, the conveying section 10 includes a first support 11, a plurality of first rollers 12 disposed on the first support 11, and a first driving member 13 disposed on the first support 11, where each first roller 12 is connected to and provided with a first driving wheel 14, the first driving wheels are connected to each other by a first driving belt 15, and the first driving member 13 is connected to at least one first driving wheel 14 by a first driving belt 15. Preferably, the first driving wheel 14 is a gear, the first driving belt 15 is a chain, and the first driving member 13 is a motor.

In this embodiment, the lifting section 20 includes a second support 21, a second driving member 22 vertically disposed on the second support 21, a lifting support 23 disposed on the second support 21, and a first conveyor belt assembly 24 disposed on the lifting support 23, where the second driving member 22 is used to drive the lifting support 23 to perform lifting movement, and the first conveyor belt assembly 24 is used to carry and convey the ignition element. Preferably, the second driver 22 is a cylinder.

In this embodiment, the first conveyor belt assembly 24 includes a first base 241 disposed on the lifting support 23, a second roller 242 disposed on the first base 241 for rotating, a first conveyor belt 243 sleeved on the second roller 242, and a first motor 244 disposed on the first base 241, where the first motor 244 is used for driving the second roller 242 to rotate so as to drive the first conveyor belt 243.

In this embodiment, the first conveyor belt assembly 24 further includes a plurality of first barrier strips 245, where the first barrier strips 245 are fixedly disposed on the first base 241 and enclose both sides and one end of the first conveyor belt 243, and the other end of the first conveyor belt 243 is used for the ingress and egress of the ignition element. In this manner, carrier 50 is prevented from sliding off of the first transport member assembly by first barrier 245.

Thus, when the carrier 50 enters the lifting section 20 from the end of the conveying section 10, the first conveyor belt assembly 24 of the lifting section 20 drives the carrier 50 to move to the middle of the first conveyor belt 243, and the second driving member 22 drives the first conveyor belt 243 to lift to the head end of the other conveying section 10, at this time, the first conveyor belt assembly 24 is reversely conveyed, the carrier 50 is transferred to the other conveying section 10, and lifting and transferring conveying is completed.

In this embodiment, the translation section 30 includes a third support 31, a sliding rail member 32 disposed on the third support 31, a second conveyor belt assembly 33 disposed on the sliding rail member 32 for moving, and a third driving member 34 disposed on the third support 31, the third driving member 34 being configured to drive the second conveyor belt assembly 33 to move, and the second conveyor belt assembly 33 being configured to carry and convey the ignition element. Preferably, the third drive member 34 is a cylinder, such as a magnetically coupled cylinder.

In this embodiment, the second conveyor belt assembly 33 includes a second base 331 disposed on the sliding rail member 32, a third roller 332 disposed on the second base 331 for rotating, a second conveyor belt 333 sleeved on the third roller 332, and a second motor 334 disposed on the second base 331, wherein the second motor 334 is used for driving the third roller 332 to rotate so as to drive the second conveyor belt 333.

In this embodiment, the second conveyor belt assembly 33 further includes a plurality of second barrier strips 335, and the second barrier strips 335 are disposed on the second base 331 and enclose two sides and one end of the second conveyor belt 333, and the other end of the second conveyor belt 333 is used for the ingress and egress of the igniting element. In this manner, carrier 50 is prevented from sliding off the second transport assembly by second stop bar 335.

Thus, when the carrier 50 enters the translation section 30 from the end of the conveying section 10, the second conveying belt assembly 33 of the translation section 30 drives the carrier 50 to move to the middle of the second conveying belt 333, and the third driving member 34 drives the second conveying belt 333 to translate to the head end of the other conveying section 10, at this time, the second conveying belt assembly 33 is reversely conveyed, the carrier 50 is transferred to the other conveying section 10, and the translation transfer conveying is completed.

In this embodiment, the corner section 40 includes a fourth support 41, a fourth driving member 42 disposed on the fourth support 41, a supporting plate 43 disposed on the fourth support 41 for lifting, and a third conveyor belt assembly 44 disposed on the supporting plate 43, wherein the third conveyor belt assembly is disposed between the two first rollers 12, and the conveying direction of the third conveyor belt assembly 44 is perpendicular to the conveying direction of the conveying section 10. Preferably, the fourth driver 42 is a cylinder.

It should be noted that, the third conveyor belt assembly 44 has the same structure as the first conveyor belt assembly 24 or the second conveyor belt assembly 33, and not described here again, the corner section 40 is provided with two parallel third conveyor belt assemblies 44, the width of the third conveyor belt assembly 44 is smaller so that the third conveyor belt assembly 44 can be inserted between the two first rollers 12, in a normal state, the third conveyor belt assembly 44 descends to bottom on the first rollers 12, and when the carrier 50 conveys the corner section 40, the fourth driving member 42 of the turning angle drives the third conveyor belt assembly to ascend, so that the carrier 50 is transferred onto the two third conveyor belt assemblies 44, and then the third conveyor belt assembly operates to transfer the carrier 50 to the next conveying section 10. The angle of rotation 40 may also be provided at the head end of the transport section 10 to receive the carrier 50 of the last transport section 10.

The embodiments of the present application have been described above, the foregoing description is exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (10)

1. A firing element curing barn comprising a curing room and a conveyor line for continuously conveying firing elements disposed within the curing room, the curing room having an inlet and an outlet, the conveyor line having a front end passing through the inlet and a rear end passing through the outlet;

the conveying line comprises a plurality of conveying sections, at least one translation section and at least one lifting section, wherein a plurality of conveying sections are used for continuously conveying the ignition elements, the translation section is used for connecting the conveying between two conveying sections which are parallel on the same horizontal plane, and the lifting section is used for connecting the conveying between two conveying sections with different heights on the same vertical plane.

2. The firebox curing barn of claim 1, wherein the transport section comprises a first frame, a plurality of first rollers disposed on the first frame, and a first driving member disposed on the first frame, each of the first rollers being connected with a first driving wheel, the first driving wheels being in driving connection with each other by a first belt, the first driving member being in driving connection with at least one of the first driving wheels by a first belt.

3. The firebox curing barn of claim 2, wherein the first drive wheel is a gear and the first belt is a chain.

4. The firing element curing barn of claim 1, wherein the elevation section comprises a second support, a second drive member vertically disposed on the second support, an elevation support disposed on the second support, and a first conveyor belt assembly disposed on the elevation support, the second drive member for driving the elevation support into an elevating motion, the first conveyor belt assembly for carrying and transporting the firing element.

5. The firing element curing barn of claim 4, wherein the first conveyor belt assembly comprises a first base on the lifting bracket, a second roller on the first base for rotating, a first conveyor belt sleeved on the second roller, and a first motor on the first base for driving the second roller to rotate to drive the first conveyor belt.

6. The firebox curing barn of claim 5, wherein the first conveyor belt assembly further comprises a plurality of first bars, wherein the first bars are disposed on the first base and enclose two sides and one end of the first conveyor belt, and wherein the other end of the first conveyor belt is used for the ingress and egress of the firebox.

7. The firing element curing barn of claim 1, wherein the translating section comprises a third bracket, a rail member on the third bracket, a second conveyor belt assembly on the rail member for moving, and a third drive on the third bracket for driving the second conveyor belt assembly to move, the second conveyor belt assembly for carrying and transporting the firing element.

8. The firing element curing barn of claim 7, wherein the second conveyor belt assembly comprises a second base on the slide rail member, a third roller on the second base for rotating, a second conveyor belt on the third roller, and a second motor on the second base for driving the third roller to rotate to drive the second conveyor belt.

9. The firebox curing barn of claim 8, wherein the second conveyor assembly further comprises a plurality of second bars on the second base and surrounding both sides and one end of the second conveyor, the other end of the second conveyor being for the ingress and egress of the firebox.

10. The firing element curing barn of claim 2, wherein the conveyor line further comprises at least one corner segment, the corner segment being positioned at the end of one of the conveyor segments, the corner segment being adapted to connect the conveyor between two of the conveyor segments that are vertically oriented in a horizontal plane;

the corner section comprises a fourth support, a fourth driving piece arranged on the fourth support, a supporting plate arranged on the fourth support and capable of ascending and descending, and a third conveying belt assembly arranged on the supporting plate, wherein the third conveying belt assembly is arranged between the two first rollers, and the conveying direction of the third conveying belt assembly is perpendicular to the conveying direction of the conveying section.